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peridot: Import from V816.0.5.0.UNPMIXM

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This commit is contained in:
AdarshGrewal
2024-08-10 14:00:32 +05:30
commit b551459cda
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proprietary/vendor/etc/1-SN1X0_SPC.txt
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# ----------------------------------------------
# Test name: SN1X0_SPC
# Description: runs SPC
# Revision: 2.00
# Date: 27/07/2020
# Tool rev: 1.12 or later
# ----------------------------------------------
version
interval 200
reset 1
#// NCI CORE RESET CMD
send 20000100
receive
#// NCI CORE INIT CMD
send 2001020000
#// NCI CORE SETCONFIG CMD:
send 20020401850101
#// NCI SYSTEM ENABLE PROPRIETARY CMD
send 2F0200
#// READ OFFSET BEFORE SPC
send 20030301A017
#//SET Normal Polling
send 20022E01A0682A064060031900000000030400C009C00900010001A000A00003FA0000004C0014007D00057F0000010003
#// SET SPC 1RST STEP (SPC CALIBRATION)
send 2F3D0F3000C832192900000000320000121F
#// COPY SPC CMD (2F3D0F3XXXXX) HERE
#//send 2F3D0F3000E02E3251760A28A27D0000121F
#//send 2F3D0F3000C8320A6504029C867D0000121F
#// send 2F3D0XXXXXXXXXXX
#// SPC CMD [PLL sweep] input clock 19.2MHz
send 2F3D7E3001C08C0466C08C0366C08C0266C08C0166C08C0066008D0466008D0366008D0266008D0166008D0066408D0466408D0366408D0266408D0166408D0066808D0466808D0366808D0266808D0166808D0066C08D0466C08D0366C08D0266C08D0166C08D0066008E0466008E0366008E0266008E0166008E0066408E0466
sleep 100
send 2F3D7E3002408E0366408E0266408E0166408E0066808E0466808E0366808E0266808E0166808E0066C08E0466C08E0366C08E0266C08E0166C08E0066008F0466008F0366008F0266008F0166008F0066408F0466408F0366408F0266408F0166408F0066808F0466808F0366808F0266808F0166808F0066C08F0466C08F0366
sleep 100
send 2F3D4E3003C08F0266C08F0166C08F0066009004660090036600900266009001660090006640900466409003664090026640900166409000668090046680900366809002668090016680900066C0900466
sleep 100
#// SPC CMD [PLL sweep] input clock 26MHz
#//send 2F3D7E300142A5046642A5016682A5036682A50066C2A5026602A6046602A6016642A6036642A6006682A60266C2A60466C2A6016602A7036602A7006642A7026682A7046682A70166C2A70366C2A7006602A8026642A8046642A8016682A8036682A80066C2A8026602A9046602A9016642A9036642A9006682A90266C2A90466
#//sleep 100
#//send 2F3D7E3002C2A9016602AA036602AA006642AA026682AA046682AA0166C2AA0366C2AA006602AB026642AB046642AB016682AB036682AB0066C2AB026602AC046602AC016642AC036642AC006682AC0266C2AC0466C2AC016602AD036602AD006642AD026682AD046682AD0166C2AD0366C2AD006602AE026642AE046642AE0166
#//sleep 100
#//send 2F3D4E300382AE036682AE0066C2AE026602AF046602AF016642AF036642AF006682AF0266C2AF0466C2AF016602B0036602B0006642B0026682B0046682B00166C2B00366C2B0006602B1026642B10466
#//sleep 100
#// SPC CMD [PLL sweep] input clock 27.12MHz
#//send 2F3D7E300142A3006682A30266C2A30466C2A3016602A4036602A4006642A4026682A4046682A40166C2A40366C2A4006602A5026642A5046642A5016682A5036682A50066C2A5026602A6046602A6016642A6036642A6006682A60266C2A60466C2A6016602A7036602A7006642A7026682A7046682A70166C2A70366C2A70066
#//sleep 100
#//send 2F3D7E300202A8026642A8046642A8016682A8036682A80066C2A8026602A9046602A9016642A9036642A9006682A90266C2A90466C2A9016602AA036602AA006642AA026682AA046682AA0166C2AA0366C2AA006602AB026642AB046642AB016682AB036682AB0066C2AB026602AC046602AC016642AC036642AC006682AC0266
#//sleep 100
#//send 2F3D4E3003C2AC0466C2AC016602AD036602AD006642AD026682AD046682AD0166C2AD0366C2AD006602AE026642AE046642AE016682AE036682AE0066C2AE026602AF046602AF016642AF036642AF0066
#//sleep 100
#// SPC CMD [PLL sweep] input clock 38.4MHz
#//send 2F3D7E3001C18C0466C18C0366C18C0266C18C0166C18C0066018D0466018D0366018D0266018D0166018D0066418D0466418D0366418D0266418D0166418D0066818D0466818D0366818D0266818D0166818D0066C18D0466C18D0366C18D0266C18D0166C18D0066018E0466018E0366018E0266018E0166018E0066418E0466
#//sleep 100
#//send 2F3D7E3002418E0366418E0266418E0166418E0066818E0466818E0366818E0266818E0166818E0066C18E0466C18E0366C18E0266C18E0166C18E0066018F0466018F0366018F0266018F0166018F0066418F0466418F0366418F0266418F0166418F0066818F0466818F0366818F0266818F0166818F0066C18F0466C18F0366
#//sleep 100
#//send 2F3D4E3003C18F0266C18F0166C18F0066019004660190036601900266019001660190006641900466419003664190026641900166419000668190046681900366819002668190016681900066C1900466
#//sleep 100
#// SPC START
send 2F3D0131
trigger 6F3D07
#//SET LPCD
send 20022E01A0682A064060031900000000820400C005C00900010001A000A00003FA0000004C0014007D00057F0000010003
#// READ OFFSET AFTER SPC
send 20030301A017
proprietary/vendor/etc/acdbdata/nn_ns_models/fai__2.0.0_0.1__3.0.0_0.0__eai_1.36_enpu2.pmd
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proprietary/vendor/etc/acdbdata/nn_ns_models/fai__2.3.0_0.1__3.0.0_0.0__eai_1.10.pmd
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proprietary/vendor/etc/acdbdata/nn_ns_models/fai__2.3.0_0.1__3.0.0_0.0__eai_1.36_enpu2_comp.pmd
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proprietary/vendor/etc/acdbdata/nn_ns_models/fai__2.7.20_0.0__3.0.0_0.0__eai_1.36_enpu2.pmd
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proprietary/vendor/etc/acdbdata/nn_ns_models/fai__2.7.2_0.0__3.0.0_0.0__eai_1.36_enpu2.pmd
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proprietary/vendor/etc/acdbdata/nn_ns_models/fai__4.8.14_1.0__3.0.0_0.0__3.1.1_0.0__3.2.0_0.1__eai_3.4_enpuv4.pmd
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proprietary/vendor/etc/acdbdata/nn_vad_models/fai__3.0.0_0.0__eai_1.36_enpu2.pmd
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proprietary/vendor/etc/ambient_para.conf
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parameter_a =-4.398945048
parameter_b =1.09926747
parameter_c =-0.015058809
parameter_d =-0.205398859
parameter_g =7.187541946
parameter_f =1.13716524
parameter_com =0.15137951
parameter_coeff =0.95565858
average_lambda=-0.00182194
samplingRate=0.9
parameter_e=2.7
parameter_k=0.015
parameter_va=0.069
parameter_std=0.5
cold_therm=quiet_therm
hot_therm=cpu_therm
proprietary/vendor/etc/apdr.conf
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# AP DR Configuration file
######################################
# #
# QFE Configurations #
# #
######################################
#How to log info
# 0 - Log to Logcat
# 1 - Log to Diag (0x1C54)
# 2 - Log to File
# Default value 1
DEBUG_LOG_SOURCE = 1
#Sets QFE solution reporting PPS Offset. The range shall be [-250, +50] msec
#Note: Positive offset indicates the report is phased earlier to the PPS, and negative offset indicate a report after the PPS.
#Examples:
#-180 msec => report will be sent at x.180.
#+20 msec => report will be sent at x.980
#for Mobile recommended value = -180msec
REPORTING_OFFSET = -180
#Sets the maximum Dead-Reckoning time. The range shall be [0 - 300 ] sec.
DR_LIMIT = 30
proprietary/vendor/etc/audio/sku_cliffs/audio_effects.conf
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# List of effect libraries to load. Each library element must contain a "path" element
# giving the full path of the library .so file.
# libraries {
# <lib name> {
# path <lib path>
# }
# }
libraries {
bundle {
path /vendor/lib/soundfx/libbundlewrapper.so
}
reverb {
path /vendor/lib/soundfx/libreverbwrapper.so
}
qcbassboost {
path /vendor/lib/soundfx/libqcbassboost.so
}
qcvirt {
path /vendor/lib/soundfx/libqcvirt.so
}
qcreverb {
path /vendor/lib/soundfx/libqcreverb.so
}
visualizer_sw {
path /vendor/lib/soundfx/libvisualizer.so
}
visualizer_hw {
path /vendor/lib/soundfx/libqcomvisualizer.so
}
downmix {
path /vendor/lib/soundfx/libdownmix.so
}
loudness_enhancer {
path /vendor/lib/soundfx/libldnhncr.so
}
dynamics_processing {
path /vendor/lib/soundfx/libdynproc.so
}
proxy {
path /vendor/lib/soundfx/libeffectproxy.so
}
offload_bundle {
path /vendor/lib/soundfx/libqcompostprocbundle.so
}
audio_pre_processing {
path /vendor/lib/soundfx/libqcomvoiceprocessing.so
}
volume_listener {
path /vendor/lib/soundfx/libvolumelistener.so
}
audiosphere {
path /vendor/lib/soundfx/libasphere.so
}
}
# Default pre-processing library. Add to audio_effect.conf "libraries" section if
# audio HAL implements support for default software audio pre-processing effects
#
# pre_processing {
# path /vendor/lib/soundfx/libaudiopreprocessing.so
# }
# list of effects to load. Each effect element must contain a "library" and a "uuid" element.
# The value of the "library" element must correspond to the name of one library element in the
# "libraries" element.
# The name of the effect element is indicative, only the value of the "uuid" element
# designates the effect.
# The uuid is the implementation specific UUID as specified by the effect vendor. This is not the
# generic effect type UUID.
# effects {
# <fx name> {
# library <lib name>
# uuid <effect uuid>
# }
# ...
# }
effects {
# additions for the proxy implementation
# Proxy implementation
#effectname {
#library proxy
#uuid xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx
# SW implemetation of the effect. Added as a node under the proxy to
# indicate this as a sub effect.
#libsw {
#library libSW
#uuid yyyyyyyy-yyyy-yyyy-yyyy-yyyyyyyyyyyy
#} End of SW effect
# HW implementation of the effect. Added as a node under the proxy to
# indicate this as a sub effect.
#libhw {
#library libHW
#uuid zzzzzzzz-zzzz-zzzz-zzzz-zzzzzzzzzzzz
#}End of HW effect
#} End of effect proxy
bassboost {
library proxy
uuid 14804144-a5ee-4d24-aa88-0002a5d5c51b
libsw {
library qcbassboost
uuid 23aca180-44bd-11e2-bcfd-0800200c9a66
}
libhw {
library offload_bundle
uuid 2c4a8c24-1581-487f-94f6-0002a5d5c51b
}
}
virtualizer {
library proxy
uuid d3467faa-acc7-4d34-acaf-0002a5d5c51b
libsw {
library qcvirt
uuid e6c98a16-22a3-11e2-b87b-f23c91aec05e
}
libhw {
library offload_bundle
uuid 509a4498-561a-4bea-b3b1-0002a5d5c51b
}
}
equalizer {
library proxy
uuid c8e70ecd-48ca-456e-8a4f-0002a5d5c51b
libsw {
library bundle
uuid ce772f20-847d-11df-bb17-0002a5d5c51b
}
libhw {
library offload_bundle
uuid a0dac280-401c-11e3-9379-0002a5d5c51b
}
}
volume {
library bundle
uuid 119341a0-8469-11df-81f9-0002a5d5c51b
}
reverb_env_aux {
library proxy
uuid 48404ac9-d202-4ccc-bf84-0002a5d5c51b
libsw {
library qcreverb
uuid a8c1e5f3-293d-43cd-95ec-d5e26c02e217
}
libhw {
library offload_bundle
uuid 79a18026-18fd-4185-8233-0002a5d5c51b
}
}
reverb_env_ins {
library proxy
uuid b707403a-a1c1-4291-9573-0002a5d5c51b
libsw {
library qcreverb
uuid 791fff8b-8129-4655-83a4-59bc61034c3a
}
libhw {
library offload_bundle
uuid eb64ea04-973b-43d2-8f5e-0002a5d5c51b
}
}
reverb_pre_aux {
library proxy
uuid 1b78f587-6d1c-422e-8b84-0002a5d5c51b
libsw {
library qcreverb
uuid 53ef1db5-c0c0-445b-b060-e34d20ebb70a
}
libhw {
library offload_bundle
uuid 6987be09-b142-4b41-9056-0002a5d5c51b
}
}
reverb_pre_ins {
library proxy
uuid f3e178d2-ebcb-408e-8357-0002a5d5c51b
libsw {
library qcreverb
uuid b08a0e38-22a5-11e2-b87b-f23c91aec05e
}
libhw {
library offload_bundle
uuid aa2bebf6-47cf-4613-9bca-0002a5d5c51b
}
}
visualizer {
library proxy
uuid 1d0a1a53-7d5d-48f2-8e71-27fbd10d842c
libsw {
library visualizer_sw
uuid d069d9e0-8329-11df-9168-0002a5d5c51b
}
libhw {
library visualizer_hw
uuid 7a8044a0-1a71-11e3-a184-0002a5d5c51b
}
}
downmix {
library downmix
uuid 93f04452-e4fe-41cc-91f9-e475b6d1d69f
}
hw_acc {
library offload_bundle
uuid 7d1580bd-297f-4683-9239-e475b6d1d69f
}
loudness_enhancer {
library loudness_enhancer
uuid fa415329-2034-4bea-b5dc-5b381c8d1e2c
}
dynamics_processing {
library dynamics_processing
uuid e0e6539b-1781-7261-676f-6d7573696340
}
aec {
library audio_pre_processing
uuid 0f8d0d2a-59e5-45fe-b6e4-248c8a799109
}
ns {
library audio_pre_processing
uuid 1d97bb0b-9e2f-4403-9ae3-58c2554306f8
}
music_helper {
library volume_listener
uuid 08b8b058-0590-11e5-ac71-0025b32654a0
}
ring_helper {
library volume_listener
uuid 0956df94-0590-11e5-bdbe-0025b32654a0
}
alarm_helper {
library volume_listener
uuid 09f303e2-0590-11e5-8fdb-0025b32654a0
}
# voice_helper is called when stream type is voice_call in VoIP usecase
voice_helper {
library volume_listener
uuid 0ace5c08-0590-11e5-ae9e-0025b32654a0
}
notification_helper {
library volume_listener
uuid 0b776dde-0590-11e5-81ba-0025b32654a0
}
audiosphere {
library audiosphere
uuid 184e62ab-2d19-4364-9d1b-c0a40733866c
}
}
# additional effect from vendor
# UUID generated using version 1
output_session_processing {
music {
music_helper {
}
}
ring {
ring_helper {
}
}
alarm {
alarm_helper {
}
}
# stream type voice_call is used for VoIP call
voice_call {
voice_helper {
}
}
notification {
notification_helper {
}
}
}
# Added aec, ns effects for voice_communication, which are supported by the board
pre_processing {
voice_communication {
aec {
}
ns {
}
}
}
# Default pre-processing effects. Add to audio_effect.conf "effects" section if
# audio HAL implements support for them.
#
# agc {
# library pre_processing
# uuid aa8130e0-66fc-11e0-bad0-0002a5d5c51b
# }
# aec {
# library pre_processing
# uuid bb392ec0-8d4d-11e0-a896-0002a5d5c51b
# }
# ns {
# library pre_processing
# uuid c06c8400-8e06-11e0-9cb6-0002a5d5c51b
# }
# Audio preprocessor configurations.
# The pre processor configuration consists in a list of elements each describing
# pre processor settings for a given input source. Valid input source names are:
# "mic", "camcorder", "voice_recognition", "voice_communication"
# Each input source element contains a list of effects elements. The name of the effect
# element must be the name of one of the effects in the "effects" list of the file.
# Each effect element may optionally contain a list of parameters and their
# default value to apply when the pre processor effect is created.
# A parameter is defined by a "param" element and a "value" element. Each of these elements
# consists in one or more elements specifying a type followed by a value.
# The types defined are: "int", "short", "float", "bool" and "string"
# When both "param" and "value" are a single int, a simple form is allowed where just
# the param and value pair is present in the parameter description
# pre_processing {
# <input source name> {
# <fx name> {
# <param 1 name> {
# param {
# int|short|float|bool|string <value>
# [ int|short|float|bool|string <value> ]
# ...
# }
# value {
# int|short|float|bool|string <value>
# [ int|short|float|bool|string <value> ]
# ...
# }
# }
# <param 2 name > {<param> <value>}
# ...
# }
# ...
# }
# ...
# }
#
# TODO: add default audio pre processor configurations after debug and tuning phase
#
proprietary/vendor/etc/audio/sku_cliffs/audio_effects.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!-- Copyright (c) 2018-2019, The Linux Foundation. All rights reserved.
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
* Changes from Qualcomm Innovation Center are provided under the following license:
*
* Copyright (c) 2022 Qualcomm Innovation Center, Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted (subject to the limitations in the
* disclaimer below) provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
*
* * Neither the name of Qualcomm Innovation Center, Inc. nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY'S PATENT RIGHTS ARE
* GRANTED BY THIS LICENSE. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT
* HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
* GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
* IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -->
<audio_effects_conf version="2.0" xmlns="http://schemas.android.com/audio/audio_effects_conf/v2_0">
<libraries>
<library name="bundle" path="libbundlewrapper.so"/>
<library name="reverb" path="libreverbwrapper.so"/>
<library name="visualizer_sw" path="libvisualizer.so"/>
<library name="visualizer_hw" path="libqcomvisualizer.so"/>
<library name="downmix" path="libdownmix.so"/>
<library name="loudness_enhancer" path="libldnhncr.so"/>
<library name="dynamics_processing" path="libdynproc.so"/>
<library name="proxy" path="libeffectproxy.so"/>
<library name="offload_bundle" path="libqcompostprocbundle.so"/>
<library name="audio_pre_processing" path="libqcomvoiceprocessing.so"/>
<library name="volume_listener" path="libvolumelistener.so"/>
<library name="audiosphere" path="libasphere.so"/>
<library name="quasar" path="libquasar.so"/>
<library name="mispatializer" path="libspatializer.so"/>
<library name="misoundfx" path="libmisoundfx.so"/>
<!--DOLBY START-->
<library name="shoebox" path="libshoebox.so"/>
<!--DOLBY DAP-->
<!--AUDIO MOD-->
<library name="dap" path="libhwdap.so"/>
<!-- <library name="dap_sw" path="libswdap.so"/> -->
<!-- <library name="dap_hw" path="libhwdap.so"/> -->
<!--AUDIO END-->
<library name="dvl" path="libdlbvol.so"/>
<!--DOLBY SPATIALIZER-->
<library name="spatializer" path="libswspatializer.so"/>
<!--DOLBY GAME-->
<library name="gamedap" path="libswgamedap.so"/>
<!--DOLBY VQE-->
<library name="vqe" path="libswvqe.so"/>
<!--DOLBY END-->
<library name="ozo_processing" path="libozoprocessing.so"/>
</libraries>
<effects>
<effectProxy name="bassboost" library="proxy" uuid="14804144-a5ee-4d24-aa88-0002a5d5c51b">
<libsw library="bundle" uuid="8631f300-72e2-11df-b57e-0002a5d5c51b"/>
<libhw library="offload_bundle" uuid="2c4a8c24-1581-487f-94f6-0002a5d5c51b"/>
</effectProxy>
<effectProxy name="virtualizer" library="proxy" uuid="d3467faa-acc7-4d34-acaf-0002a5d5c51b">
<libsw library="bundle" uuid="1d4033c0-8557-11df-9f2d-0002a5d5c51b"/>
<libhw library="offload_bundle" uuid="509a4498-561a-4bea-b3b1-0002a5d5c51b"/>
</effectProxy>
<effectProxy name="equalizer" library="proxy" uuid="c8e70ecd-48ca-456e-8a4f-0002a5d5c51b">
<libsw library="bundle" uuid="ce772f20-847d-11df-bb17-0002a5d5c51b"/>
<libhw library="offload_bundle" uuid="a0dac280-401c-11e3-9379-0002a5d5c51b"/>
</effectProxy>
<effect name="volume" library="bundle" uuid="119341a0-8469-11df-81f9-0002a5d5c51b"/>
<effectProxy name="reverb_env_aux" library="proxy" uuid="48404ac9-d202-4ccc-bf84-0002a5d5c51b">
<libsw library="reverb" uuid="4a387fc0-8ab3-11df-8bad-0002a5d5c51b"/>
<libhw library="offload_bundle" uuid="79a18026-18fd-4185-8233-0002a5d5c51b"/>
</effectProxy>
<effectProxy name="reverb_env_ins" library="proxy" uuid="b707403a-a1c1-4291-9573-0002a5d5c51b">
<libsw library="reverb" uuid="c7a511a0-a3bb-11df-860e-0002a5d5c51b"/>
<libhw library="offload_bundle" uuid="eb64ea04-973b-43d2-8f5e-0002a5d5c51b"/>
</effectProxy>
<effectProxy name="reverb_pre_aux" library="proxy" uuid="1b78f587-6d1c-422e-8b84-0002a5d5c51b">
<libsw library="reverb" uuid="f29a1400-a3bb-11df-8ddc-0002a5d5c51b"/>
<libhw library="offload_bundle" uuid="6987be09-b142-4b41-9056-0002a5d5c51b"/>
</effectProxy>
<effectProxy name="reverb_pre_ins" library="proxy" uuid="f3e178d2-ebcb-408e-8357-0002a5d5c51b">
<libsw library="reverb" uuid="172cdf00-a3bc-11df-a72f-0002a5d5c51b"/>
<libhw library="offload_bundle" uuid="aa2bebf6-47cf-4613-9bca-0002a5d5c51b"/>
</effectProxy>
<effectProxy name="visualizer" library="proxy" uuid="1d0a1a53-7d5d-48f2-8e71-27fbd10d842c">
<libsw library="visualizer_sw" uuid="d069d9e0-8329-11df-9168-0002a5d5c51b"/>
<libhw library="visualizer_hw" uuid="7a8044a0-1a71-11e3-a184-0002a5d5c51b"/>
</effectProxy>
<effect name="downmix" library="downmix" uuid="93f04452-e4fe-41cc-91f9-e475b6d1d69f"/>
<effect name="hw_acc" library="offload_bundle" uuid="7d1580bd-297f-4683-9239-e475b6d1d69f"/>
<effect name="loudness_enhancer" library="loudness_enhancer" uuid="fa415329-2034-4bea-b5dc-5b381c8d1e2c"/>
<effect name="dynamics_processing" library="dynamics_processing" uuid="e0e6539b-1781-7261-676f-6d7573696340"/>
<effect name="aec" library="audio_pre_processing" uuid="0f8d0d2a-59e5-45fe-b6e4-248c8a799109"/>
<effect name="ns" library="audio_pre_processing" uuid="1d97bb0b-9e2f-4403-9ae3-58c2554306f8"/>
<effect name="music_helper" library="volume_listener" uuid="08b8b058-0590-11e5-ac71-0025b32654a0"/>
<effect name="ring_helper" library="volume_listener" uuid="0956df94-0590-11e5-bdbe-0025b32654a0"/>
<effect name="alarm_helper" library="volume_listener" uuid="09f303e2-0590-11e5-8fdb-0025b32654a0"/>
<effect name="voice_helper" library="volume_listener" uuid="0ace5c08-0590-11e5-ae9e-0025b32654a0"/>
<effect name="notification_helper" library="volume_listener" uuid="0b776dde-0590-11e5-81ba-0025b32654a0"/>
<effect name="audiosphere" library="audiosphere" uuid="184e62ab-2d19-4364-9d1b-c0a40733866c"/>
<effect name="quasar" library="quasar" uuid="71d0e2ee-e44d-483d-a809-09e75ee55ecd"/>
<effect name="mispatializer" library="mispatializer" uuid="bb8c97a8-cc6c-11ec-9d64-0242ac120002"/>
<effect name="misoundfx" library="misoundfx" uuid="5b8e36a5-144a-4c38-b1d7-0002a5d5c51b"/>
<!--DOLBY START-->
<!--DOLBY DAP-->
<!--AUDIO MOD: we only need one schema-->
<effect name="dap" library="dap" uuid="9d4921da-8225-4f29-aefa-39537a04bcaa"/>
<!--
<effectProxy name="dap" library="proxy" uuid="9d4921da-8225-4f29-aefa-39537a04bcaa">
<libsw library="dap_sw" uuid="6ab06da4-c516-4611-8166-452799218539"/>
<libhw library="dap_hw" uuid="a0c30891-8246-4aef-b8ad-d53e26da0253"/>
</effectProxy>
-->
<!--AUDIO END-->
<effect name="dlb_music_listener" library="dvl" uuid="40f66c8b-5aa5-4345-8919-53ec431aaa98"/>
<!-- <effect name="dlb_ring_listener" library="dvl" uuid="21d14087-558a-4f21-94a9-5002dce64bce"/>
<effect name="dlb_alarm_listener" library="dvl" uuid="6aff229c-30c6-4cc8-9957-dbfe5c1bd7f6"/> -->
<!--<effect name="dlb_system_listener" library="dvl" uuid="874db4d8-051d-4b7b-bd95-a3bebc837e9e"/>-->
<!-- <effect name="dlb_notification_listener" library="dvl" uuid="1f0091e3-6ad8-40fe-9b09-5948f9a26e7e"/> -->
<!--DOLBY SPATIALIZER-->
<effect name="spatializer" library="spatializer" uuid="ccd4cf09-a79d-46c2-9aae-06a1698d6c8f"/>
<!--DOLBY GAME-->
<effect name="gamedap" library="gamedap" uuid="3783c334-d3a0-4d13-874f-0032e5fb80e2"/>
<!--DOLBY VQE-->
<effect name="vqe" library="vqe" uuid="64a0f614-7fa4-48b8-b081-d59dc954616f"/>
<!--DOLBY END-->
<effect name="ozo" library="ozo_processing" uuid="7e384a3b-7850-4a64-a097-884250d8a737"/>
</effects>
<postprocess>
<stream type="music">
<apply effect="music_helper"/>
<apply effect="dlb_music_listener"/> <!--DOLBY ADD-->
</stream>
<stream type="ring">
<apply effect="ring_helper"/>
</stream>
<stream type="alarm">
<apply effect="alarm_helper"/>
</stream>
<stream type="voice_call">
<apply effect="voice_helper"/>
</stream>
<stream type="notification">
<apply effect="notification_helper"/>
</stream>
</postprocess>
<preprocess>
<stream type="voice_communication">
<apply effect="aec"/>
<apply effect="ns"/>
</stream>
</preprocess>
</audio_effects_conf>
proprietary/vendor/etc/audio/sku_cliffs/mixer_paths_cliffs_mtp.xml
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proprietary/vendor/etc/audio/sku_cliffs/mixer_paths_cliffs_mtp_wcd9395.xml
Vendored
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proprietary/vendor/etc/audio/sku_cliffs/resourcemanager_cliffs_mtp.xml
Vendored
+1785
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proprietary/vendor/etc/audio/sku_cliffs/resourcemanager_cliffs_mtp_wcd9395.xml
Vendored
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proprietary/vendor/etc/audio_cloud_control_white_list.xml
Vendored
+113
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<?xml version="1.0" encoding="UTF-8"?>
<audio_cloud_control version="20240522">
<kara_app_name_list>
<com.tencent.karaoke/>
<com.changba/>
<com.smile.gifmaker/>
<com.sl.whale/>
<com.netease.play/>
<com.vv51.mvbox/>
<com.netease.cloudmusic/>
<com.xiaochang.claw/>
<com.tencent.ibg.joox/>
<com.netease.karaoke/>
<com.kugou.android.ktvapp/>
<com.kugou.android/>
<com.android.camera/>
<com.tencent.qqmusic/>
<com.tme.qqmusic.mlive/>
<com.tencent.wesing/>
<com.duoduo.opera/>
<com.ss.android.ugc.aweme/>
<com.ss.android.ugc.aweme.lite/>
<com.xiaochang.easylive/>
<com.miui.player/>
<cn.banshenggua.aichang/>
<com.aichang.yage/>
<com.kuaiyuhudong.djshow/>
<sing.hising.social.live/>
<music.hising.live/>
<com.kwai.hisense/>
<tv.yinhua.main/>
<com.kugou.android.kuqunapp/>
<com.kugou.fanxing/>
<com.itgsa/>
<com.example.mediademo/>
<com.tencent.trtc/>
<com.ahsj.earbackendorsement/>
<com.tencent.tmetown/>
<com.kuaishou.nebula/>
<com.zhiliaoapp.musically/>
<com.ss.android.ugc.trill/>
<rtc.vertcdemo.android/>
<com.bytedance.watchcat/>
<im.zego.GoEnjoy/>
<com.zq.live/>
</kara_app_name_list>
<record_unsilence_app_name_list>
<com.android.camera/>
<com.miui.voiceassist/>
<com.miui.voicetrigger/>
<com.miui.audiomonitor/>
<com.xiaomi.aiasst.service/>
<com.xiaomi.mibrain.speech/>
<com.tencent.mm/>
<com.tencent.mobileqq/>
<com.miui.screenrecorder/>
<com.quicinc.voice.activation/>
<com.whatsapp/>
<com.xiaomi.aiasst.vision/>
<com.android.incallui/>
<com.iflytek.inputmethod.miui/>
<com.baidu.input_mi/>
<com.sohu.inputmethod.sogou.xiaomi/>
<com.miui.securitycenter/>
<com.ss.android.lark.kami/>
<com.ss.android.lark/>
<org.telegram.messenger/>
<jp.naver.line.android/>
<com.instagram.android/>
<com.facebook.orca/>
</record_unsilence_app_name_list>
<property_list/>
<voip_app_name_list>
<com.tencent.tim/>
<com.tencent.wework/>
<com.ss.android.lark/>
<com.tencent.mobileqq/>
<com.tencent.mm/>
</voip_app_name_list>
<voip_app_name_for_AI_list>
<com.tencent.mm/>
<com.tencent.wework/>
<com.tencent.mobileqq/>
<com.tencent.tim/>
<com.alibaba.android.rimet/>
<com.ss.android.lark/>
<com.ss.android.lark.kami/>
<com.tencent.wemeet.app/>
</voip_app_name_for_AI_list>
<monitor_app_name_list>
<com.xunmeng.pinduoduo/>
<com.cainiao.wireless/>
<ctrip.android.view/>
<com.baidu.netdisk/>
<com.jingdong.app.mall/>
<com.taobao.idlefish/>
<com.sina.weibo/>
<com.mt.mtxx.mtxx/>
<com.lianjia.beike/>
<com.ximalaya.ting.android/>
<com.xiaomi.market/>
<com.kugou.android/>
<com.immomo.momo/>
<com.gotokeep.keep/>
</monitor_app_name_list>
<capture_app_name_list>
<com.ss.android.ugc.aweme/>
<com.ss.android.ugc.aweme.lite/>
<com.tencent.mobileqq/>
<com.xingin.xhs/>
<com.duowan.live/>
</capture_app_name_list>
</audio_cloud_control>
proprietary/vendor/etc/audio_diag.cfg
Vendored
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proprietary/vendor/etc/audio_policy_volumes.xml
Vendored
+215
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<?xml version="1.0" encoding="UTF-8"?>
<!-- Copyright (C) 2015 The Android Open Source Project
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
-->
<!-- Volume section defines a volume curve for a given use case and device category.
It contains a list of points of this curve expressing the attenuation in Millibels for a given
volume index from 0 to 100.
<volume stream=”AUDIO_STREAM_MUSIC” deviceCategory=””>
<point>0,-9600</point>
<point>100,0</point>
</volume>
-->
<volumes>
<volume stream="AUDIO_STREAM_VOICE_CALL" deviceCategory="DEVICE_CATEGORY_HEADSET">
<point>0,-4200</point>
<point>33,-2800</point>
<point>66,-1400</point>
<point>100,0</point>
</volume>
<volume stream="AUDIO_STREAM_VOICE_CALL" deviceCategory="DEVICE_CATEGORY_SPEAKER">
<point>0,-2400</point>
<point>33,-1600</point>
<point>66,-800</point>
<point>100,0</point>
</volume>
<volume stream="AUDIO_STREAM_VOICE_CALL" deviceCategory="DEVICE_CATEGORY_EARPIECE">
<point>0,-2400</point>
<point>33,-1600</point>
<point>66,-800</point>
<point>100,0</point>
</volume>
<volume stream="AUDIO_STREAM_VOICE_CALL" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_VOICE_CALL" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_NON_MUTABLE_HEARING_AID_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_SYSTEM" deviceCategory="DEVICE_CATEGORY_HEADSET">
<point>1,-3000</point>
<point>33,-2600</point>
<point>66,-2200</point>
<point>100,-1800</point>
</volume>
<volume stream="AUDIO_STREAM_SYSTEM" deviceCategory="DEVICE_CATEGORY_SPEAKER"
ref="DEFAULT_SYSTEM_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_SYSTEM" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="DEFAULT_SYSTEM_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_SYSTEM" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_DEVICE_CATEGORY_EXT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_SYSTEM" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_HEARING_AID_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_RING" deviceCategory="DEVICE_CATEGORY_HEADSET"
ref="DEFAULT_DEVICE_CATEGORY_HEADSET_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_RING" deviceCategory="DEVICE_CATEGORY_SPEAKER">
<point>1,-2970</point>
<point>33,-2010</point>
<point>66,-1020</point>
<point>100,0</point>
</volume>
<volume stream="AUDIO_STREAM_RING" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="DEFAULT_DEVICE_CATEGORY_EARPIECE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_RING" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_DEVICE_CATEGORY_EXT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_RING" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_HEARING_AID_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_MUSIC" deviceCategory="DEVICE_CATEGORY_HEADSET"
ref="DEFAULT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_MUSIC" deviceCategory="DEVICE_CATEGORY_SPEAKER"
ref="DEFAULT_DEVICE_CATEGORY_SPEAKER_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_MUSIC" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="DEFAULT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_MUSIC" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_MUSIC" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_HEARING_AID_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ALARM" deviceCategory="DEVICE_CATEGORY_HEADSET"
ref="DEFAULT_NON_MUTABLE_HEADSET_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ALARM" deviceCategory="DEVICE_CATEGORY_SPEAKER">
<point>0,-2970</point>
<point>33,-2010</point>
<point>66,-1020</point>
<point>100,0</point>
</volume>
<volume stream="AUDIO_STREAM_ALARM" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="DEFAULT_NON_MUTABLE_EARPIECE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ALARM" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_NON_MUTABLE_EXT_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ALARM" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_NON_MUTABLE_HEARING_AID_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_NOTIFICATION" deviceCategory="DEVICE_CATEGORY_HEADSET"
ref="DEFAULT_DEVICE_CATEGORY_HEADSET_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_NOTIFICATION" deviceCategory="DEVICE_CATEGORY_SPEAKER">
<point>1,-2970</point>
<point>33,-2010</point>
<point>66,-1020</point>
<point>100,0</point>
</volume>
<volume stream="AUDIO_STREAM_NOTIFICATION" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="DEFAULT_DEVICE_CATEGORY_EARPIECE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_NOTIFICATION" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_DEVICE_CATEGORY_EXT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_NOTIFICATION" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_DEVICE_CATEGORY_HEADSET_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_BLUETOOTH_SCO" deviceCategory="DEVICE_CATEGORY_HEADSET">
<point>0,-4200</point>
<point>33,-2800</point>
<point>66,-1400</point>
<point>100,0</point>
</volume>
<volume stream="AUDIO_STREAM_BLUETOOTH_SCO" deviceCategory="DEVICE_CATEGORY_SPEAKER">
<point>0,-2400</point>
<point>33,-1600</point>
<point>66,-800</point>
<point>100,0</point>
</volume>
<volume stream="AUDIO_STREAM_BLUETOOTH_SCO" deviceCategory="DEVICE_CATEGORY_EARPIECE">
<point>0,-4200</point>
<point>33,-2800</point>
<point>66,-1400</point>
<point>100,0</point>
</volume>
<volume stream="AUDIO_STREAM_BLUETOOTH_SCO" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_BLUETOOTH_SCO" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_HEARING_AID_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ENFORCED_AUDIBLE" deviceCategory="DEVICE_CATEGORY_HEADSET">
<point>1,-3000</point>
<point>33,-2600</point>
<point>66,-2200</point>
<point>100,-1800</point>
</volume>
<volume stream="AUDIO_STREAM_ENFORCED_AUDIBLE" deviceCategory="DEVICE_CATEGORY_SPEAKER"
ref="DEFAULT_SYSTEM_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ENFORCED_AUDIBLE" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="DEFAULT_SYSTEM_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ENFORCED_AUDIBLE" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_DEVICE_CATEGORY_EXT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ENFORCED_AUDIBLE" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_HEARING_AID_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_DTMF" deviceCategory="DEVICE_CATEGORY_HEADSET">
<point>1,-3000</point>
<point>33,-2600</point>
<point>66,-2200</point>
<point>100,-1800</point>
</volume>
<volume stream="AUDIO_STREAM_DTMF" deviceCategory="DEVICE_CATEGORY_SPEAKER"
ref="DEFAULT_SYSTEM_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_DTMF" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="DEFAULT_SYSTEM_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_DTMF" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_DEVICE_CATEGORY_EXT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_DTMF" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_HEARING_AID_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_TTS" deviceCategory="DEVICE_CATEGORY_HEADSET"
ref="SILENT_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_TTS" deviceCategory="DEVICE_CATEGORY_SPEAKER"
ref="FULL_SCALE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_TTS" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="SILENT_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_TTS" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="SILENT_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_TTS" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="SILENT_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ACCESSIBILITY" deviceCategory="DEVICE_CATEGORY_HEADSET"
ref="DEFAULT_NON_MUTABLE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ACCESSIBILITY" deviceCategory="DEVICE_CATEGORY_SPEAKER"
ref="DEFAULT_NON_MUTABLE_SPEAKER_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ACCESSIBILITY" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="DEFAULT_NON_MUTABLE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ACCESSIBILITY" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_NON_MUTABLE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ACCESSIBILITY" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_NON_MUTABLE_HEARING_AID_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ASSISTANT" deviceCategory="DEVICE_CATEGORY_HEADSET"
ref="DEFAULT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ASSISTANT" deviceCategory="DEVICE_CATEGORY_SPEAKER"
ref="DEFAULT_DEVICE_CATEGORY_SPEAKER_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ASSISTANT" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="DEFAULT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ASSISTANT" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="DEFAULT_MEDIA_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_ASSISTANT" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="DEFAULT_HEARING_AID_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_REROUTING" deviceCategory="DEVICE_CATEGORY_HEADSET"
ref="FULL_SCALE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_REROUTING" deviceCategory="DEVICE_CATEGORY_SPEAKER"
ref="FULL_SCALE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_REROUTING" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="FULL_SCALE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_REROUTING" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="FULL_SCALE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_REROUTING" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="FULL_SCALE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_PATCH" deviceCategory="DEVICE_CATEGORY_HEADSET"
ref="FULL_SCALE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_PATCH" deviceCategory="DEVICE_CATEGORY_SPEAKER"
ref="FULL_SCALE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_PATCH" deviceCategory="DEVICE_CATEGORY_EARPIECE"
ref="FULL_SCALE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_PATCH" deviceCategory="DEVICE_CATEGORY_EXT_MEDIA"
ref="FULL_SCALE_VOLUME_CURVE"/>
<volume stream="AUDIO_STREAM_PATCH" deviceCategory="DEVICE_CATEGORY_HEARING_AID"
ref="FULL_SCALE_VOLUME_CURVE"/>
</volumes>
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###################################
##### Batching settings #####
###################################
###################################
# BATCH SIZE
###################################
# The number of batched locations
# requested to modem. The desired number
# defined below may not be satisfied, as
# the modem can only return the number
# of batched locations that can be allocated,
# which is limited by memory. The default
# batch size defined as 20 as below.
BATCH_SIZE=20
###################################
# OUTDOOR TRIP BATCH SIZE
###################################
# The number of batched locations
# requested to modem for outdoor
# trip batching. The desired number
# defined below may not be satisfied, as
# the modem can only return the number
# of batched locations that can be allocated,
# which is limited by memory. The default
# trip batch size defined as 600 as below.
OUTDOOR_TRIP_BATCH_SIZE=600
###################################
# BATCHING SESSION TIMEOUT
###################################
# Duration with which batch session timeout
# happens in milliseconds. If not specified
# or set to zero, batching session timeout
# defaults to 20 seconds by the modem.
# BATCH_SESSION_TIMEOUT=20000
###################################
# BATCHING ACCURACY
###################################
# Set to one of the defined values below
# to define the accuracy of batching.
# If not specified, accuracy defaults
# to LOW.
# BATCHING ACCURACY values:
# Low accuracy = 0
# Medium accuracy = 1
# High accuracy = 2
ACCURACY=1
####################################
# 1: FORCE USING LB 1.0
# 0: adaptive LB or LB 2.0 would be invoked
# which would rely on CMC sensors
####################################
USE_LB_1_0 = 1
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proprietary/vendor/etc/camera/bokehParams.json
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{
"Bokeh_Params": {
"Param0": 5,
"Param1": 3,
"Param2": 5,
"Param3": 3,
"Param4": 5,
"Param5": 2,
"Param6": 2,
"Param7": 2,
"Param8": 0,
"Param9": 1,
"Param10": 0.005,
"Param21": {
"Param21_0": 0,
"Param21_1": "../data/vendor/camera/",
"Param21_2": 100
}
}
}
proprietary/vendor/etc/camera/model_front_mibokeh_video.dlc
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proprietary/vendor/etc/card-defs.xml
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<!-- Copyright (c) 2019, 2021, The Linux Foundation. All rights reserved.
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
* Changes from Qualcomm Innovation Center are provided under the following license:
* Copyright (c) 2022-2023 Qualcomm Innovation Center, Inc. All rights reserved.
* SPDX-License-Identifier: BSD-3-Clause-Clear
* -->
<defs>
<card>
<id>100</id>
<name>pineapplevirtualsndcard</name>
<pcm-device>
<id>100</id>
<name>PCM100</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>101</id>
<name>PCM101</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>102</id>
<name>PCM102</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>103</id>
<name>PCM103</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>104</id>
<name>PCM104</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<compress-device>
<id>105</id>
<name>COMPRESS105</name>
<compress_plugin>
<so-name>libagm_compress_plugin.so</so-name>
</compress_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</compress-device>
<pcm-device>
<id>106</id>
<name>VOICEMMODE1p</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>107</id>
<name>VOICEMMODE2p</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>108</id>
<name>VOICEMMODE1c</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>109</id>
<name>VOICEMMODE2c</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>110</id>
<name>PCM110</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>111</id>
<name>PCM111</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>112</id>
<name>PCM112</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>113</id>
<name>PCM113</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>2</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>114</id>
<name>PCM114</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>2</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>115</id>
<name>PCM115</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>116</id>
<name>PCM116</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>3</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>117</id>
<name>PCM117</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
</props>
</pcm-device>
<pcm-device>
<id>118</id>
<name>PCM118</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>119</id>
<name>PCM119</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>120</id>
<name>PCM120</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>121</id>
<name>PCM121</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>122</id>
<name>ExtEC122</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>123</id>
<name>PCM123</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>1</session_mode>
</props>
</pcm-device>
<compress-device>
<id>124</id>
<name>COMPRESS124</name>
<compress_plugin>
<so-name>libagm_compress_plugin.so</so-name>
</compress_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<!-- AGM_SESSION_COMPRESS -->
<session_mode>4</session_mode>
</props>
</compress-device>
<pcm-device>
<id>125</id>
<name>PCM125</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>3</session_mode>
</props>
</pcm-device>
<!-- MI_AUDIO_CUSTOMIZATION start -->
<pcm-device>
<id>126</id>
<name>PCM126</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>127</id>
<name>PCM127</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>0</playback>
<capture>1</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>128</id>
<name>PCM128</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>129</id>
<name>PCM129</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>130</id>
<name>PCM130</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>131</id>
<name>PCM131</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>132</id>
<name>PCM132</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>133</id>
<name>PCM133</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>134</id>
<name>PCM134</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<pcm-device>
<id>135</id>
<name>PCM135</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<!-- MI_AUDIO_CUSTOMIZATION end -->
<mixer>
<id>1</id>
<name>agm_mixer</name>
<mixer_plugin>
<so-name>libagm_mixer_plugin.so</so-name>
</mixer_plugin>
</mixer>
</card>
<!-- Haptic_MIUIHapticFrame start -->
<card>
<id>101</id>
<name>pineapplevirtualsndcard-1</name>
<pcm-device>
<id>150</id>
<name>PCM150</name>
<pcm_plugin>
<so-name>libagm_pcm_plugin.so</so-name>
</pcm_plugin>
<props>
<playback>1</playback>
<capture>0</capture>
<session_mode>0</session_mode>
</props>
</pcm-device>
<mixer>
<id>1</id>
<name>agm_mixer</name>
<mixer_plugin>
<so-name>libagm_mixer_plugin.so</so-name>
</mixer_plugin>
</mixer>
</card>
<!-- Haptic_MIUIHapticFrame end -->
</defs>
proprietary/vendor/etc/charger_diag.cfg
Vendored
BIN
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proprietary/vendor/etc/chre/preloaded_nanoapps.json
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+4
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{ "source_dir": "/vendor/lib/rfsa/adsp",
"nanoapps": [
"nearby"
]}
proprietary/vendor/etc/clstc_config_library.xml
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<?xml version='1.0' encoding='utf-8'?>
<!--
Copyright (c) 2022 Qualcomm Innovation Center, Inc. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted (subject to the limitations in the
disclaimer below) provided that the following conditions are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above
copyright notice, this list of conditions and the following
disclaimer in the documentation and/or other materials provided
with the distribution.
* Neither the name of Qualcomm Innovation Center, Inc. nor the names of its
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY'S PATENT RIGHTS ARE
GRANTED BY THIS LICENSE. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT
HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED
WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-->
<clstc_libs>
<library>
<name>libdolbyclstc.so</name>
<priority>1</priority>
<enable>1</enable>
</library>
<library>
<name>libclstc_algorithm_adapter.so</name>
<priority>2</priority>
<enable>1</enable>
</library>
<library>
<name>libclstc_gcp_adapter.so</name>
<priority>3</priority>
<enable>1</enable>
</library>
<library>
<name>libmiClstc.so</name>
<priority>4</priority>
<enable>1</enable>
</library>
</clstc_libs>
proprietary/vendor/etc/cne/mwqem.conf
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+17
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#configuration parameters for Multi-network Wireless Quality Estimation and Management.
#Number of previous latency iterations to track to decide the better LQS interface
latency_count:3
#Threshold in ms to decide the better interface for LQS.
latency_threshold:10
#Number of tcp connections to be established in each latency session
max_tcp_connects:3
#Max waiting time for a dns query to be resolved
dns_timeout:9
#Minimum change in mwqem ratio to update the new LQA ratio
lqa_update_threshold:0.25
#Timer in msec to track the lqs updates. Only one update will be allowed
#in this duration
lqa_update_count_timer:10000
#default URL for establishing a tcp sessions
mwqem_http_url:www.qualcomm.com
proprietary/vendor/etc/cne/profileMwqem.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2020-2022 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>20</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>20</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99,-99</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.08</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>20</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</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>20</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.62</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.08</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99,-99</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.08</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</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>0.62</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.30</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile1.xml
Vendored
+347
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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,-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,-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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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,-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,-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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1.0</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1.0</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile2.xml
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+347
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@@ -0,0 +1,347 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-80,-80</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-80,-80</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-80,-80</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-80,-80</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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,-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,-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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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,-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,-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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-80,-80</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-80,-80</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1.0</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1.0</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile3.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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,-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,-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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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,-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,-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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile4.xml
Vendored
+347
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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,-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,-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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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,-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,-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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1.0</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1.0</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile5.xml
Vendored
+347
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@@ -0,0 +1,347 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2017-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile6.xml
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+347
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@@ -0,0 +1,347 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2017-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile7.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-76,-76</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">-76,-76</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-76,-76</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">-76,-76</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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">-76,-76,-76</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">-76,-76,-76</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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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">-76,-76,-76</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">-76,-76,-76</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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-76,-76</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">-76,-76</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1.0</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1.0</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile1.xml
Vendored
+347
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@@ -0,0 +1,347 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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,-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,-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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.08</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</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>0.62</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.30</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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,-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,-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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.15</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</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>0.58</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.3</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-80,-80</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-80,-80</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile15.xml
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+347
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@@ -0,0 +1,347 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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,-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,-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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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,-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,-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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-80,-80</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-80,-80</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile16.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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,-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,-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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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,-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,-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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-65,-65</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-65,-65</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile17.xml
Vendored
+347
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile18.xml
Vendored
+347
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@@ -0,0 +1,347 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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,-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,-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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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,-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,-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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile19.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-72</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile2.xml
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+347
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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,-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,-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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.08</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</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>0.62</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.30</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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,-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,-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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.15</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</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>0.58</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.3</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-65,-65</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-65,-65</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile20.xml
Vendored
+347
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@@ -0,0 +1,347 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile21.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile3.xml
Vendored
+347
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.08</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</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>0.62</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.30</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.15</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</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>0.58</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.3</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile32.xml
Vendored
+347
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@@ -0,0 +1,347 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99,-99</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.08</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</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>0.62</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.30</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99,-99</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.15</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</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>0.58</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.3</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile4.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- 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,-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,-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>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- 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,-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,-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>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile5.xml
Vendored
+347
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2016-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-72</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile6.xml
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+347
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@@ -0,0 +1,347 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2017-2018,2021-2023 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hastings">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.57</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>8</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>30</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Hamilton">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.6</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>7</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>45</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>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>

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