service/ServiceWifiResources/res/values/config.xml

<?xml version="1.0" encoding="utf-8"?>
<!-- Copyright (C) 2019 The Android Open Source Project

     Licensed under the Apache License, Version 2.0 (the "License");
     you may not use this file except in compliance with the License.
     You may obtain a copy of the License at

          http://www.apache.org/licenses/LICENSE-2.0

     Unless required by applicable law or agreed to in writing, software
     distributed under the License is distributed on an "AS IS" BASIS,
     WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     See the License for the specific language governing permissions and
     limitations under the License.
-->

<!-- These resources are around just to allow their values to be customized
     for different hardware and product builds.  Do not translate.

     NOTE: The naming convention is "config_camelCaseValue". Some legacy
     entries do not follow the convention, but all new entries should. -->

<resources xmlns:xliff="urn:oasis:names:tc:xliff:document:1.2">
    <!-- boolean indicating whether the WiFi chipset has 24GHz band support -->
    <bool translatable="false" name ="config_wifi24ghzSupport">true</bool>

    <!-- boolean indicating whether the WiFi chipset has 5GHz band support.
         Note: This config is replacing the config_wifi_dual_band_support
         since more bands may now be supported (such as 6GHz), the naming dual_band
         is no longer indicative, and a separate config now exists for each band -->
    <bool translatable="false" name ="config_wifi5ghzSupport">false</bool>

    <!-- boolean indicating whether the WiFi chipset has 6GHz band support -->
    <bool translatable="false" name ="config_wifi6ghzSupport">false</bool>

    <!-- boolean indicating whether the WiFi chipset has 60GHz band support -->
    <bool translatable="false" name ="config_wifi60ghzSupport">false</bool>

    <!-- Indicates that 11ax mode is supported on this device
           Note that if this flag is set to true, then 11ax is assumed to be supported.
           However, if it is left to the default value of false, the 11ax support will
           be checked via NL80211 interface -->
    <bool translatable="false" name="config_wifi11axSupportOverride">false</bool>

    <!-- Indicates that 11be mode is supported on this device
           Note that if this flag is set to true, then 11be is assumed to be supported.
           However, if it is left to the default value of false, the 11be support will
           be checked via NL80211 interface -->
    <bool translatable="false" name="config_wifi11beSupportOverride">false</bool>

    <!-- Indicates whether to enable overriding the max number of spatial stream supported by the device
         If true, config_wifiFrameworkMaxNumSpatialStreamDeviceOverrideValue
         will be used to override the max number of spatial stream supported by the device.
         If false, it will be left to WifiCond to derive the value from NL80211 interface -->
    <bool translatable="false" name="config_wifiFrameworkMaxNumSpatialStreamDeviceOverrideEnable">true</bool>
    <integer translatable="false" name="config_wifiFrameworkMaxNumSpatialStreamDeviceOverrideValue">2</integer>

    <!-- Boolean indicating whether 802.11r Fast BSS Transition is enabled on this platform -->
    <bool translatable="false" name="config_wifi_fast_bss_transition_enabled">false</bool>

    <!-- Device type information conforming to Annex B format in WiFi Direct specification.
         The default represents a dual-mode smartphone -->
    <string translatable="false" name="config_wifi_p2p_device_type">10-0050F204-5</string>

    <!-- Boolean indicating whether the wifi chipset supports background scanning mechanism.
         This mechanism allows the host to remain in suspend state and the dongle to actively
         scan and wake the host when a configured SSID is detected by the dongle. This chipset
         capability can provide power savings when wifi needs to be always kept on. -->
    <bool translatable="false" name="config_wifi_background_scan_support">false</bool>

    <!-- Boolean indicating whether or not to revert to default country code when cellular
         radio is unable to find any MCC information to infer wifi country code from -->
    <bool translatable="false" name="config_wifi_revert_country_code_on_cellular_loss">false</bool>

    <!-- Integer size limit, in KB, for a single WifiLogger ringbuffer, in default logging mode -->
    <integer translatable="false" name="config_wifi_logger_ring_buffer_default_size_limit_kb">32</integer>

    <!-- Integer size limit, in KB, for a single WifiLogger ringbuffer, in verbose logging mode -->
    <integer translatable="false" name="config_wifi_logger_ring_buffer_verbose_size_limit_kb">1024</integer>

    <!-- Array indicating wifi fatal firmware alert error code list from driver -->
    <integer-array translatable="false" name="config_wifi_fatal_firmware_alert_error_code_list">
        <!-- Example:
        <item>0</item>
        <item>1</item>
        <item>2</item>
        -->
    </integer-array>

    <!-- Boolean indicating whether or not wifi should turn off when emergency call is made -->
    <bool translatable="false" name="config_wifi_turn_off_during_emergency_call">false</bool>

    <!-- Parameters for controlling network selection by the framework -->

    <!-- The ratio of the next two parameters is the multiplier that converts the estimated
         throughput in Mbps to score points, when the throughput is less than 800Mbps. -->
    <integer translatable="false" name="config_wifiFrameworkThroughputBonusNumerator">120</integer>
    <integer translatable="false" name="config_wifiFrameworkThroughputBonusDenominator">433</integer>

    <!-- The ratio of the next two parameters is the multiplier that converts the estimated
         throughput in Mbps to score points for each point of throughput more than 800Mbps.
         This default ratio is picked to help favor 6G HE160 over 5G HE80 which have throughput
         difference up to 1200Mbps. 1200Mbps difference leads to 75 points difference, which is
         roughly equivalent to 18dB RSSI.-->
    <integer translatable="false" name="config_wifiFrameworkThroughputBonusNumeratorAfter800Mbps">1</integer>
    <integer translatable="false" name="config_wifiFrameworkThroughputBonusDenominatorAfter800Mbps">16</integer>

    <!-- Boolean indicating whether 6Ghz RSSI boost is given to compensate for power spectrum
         limitations -->
    <bool translatable="false" name="config_wifiEnable6GhzBeaconRssiBoost">true</bool>

    <!-- Maximum contribution (in score points) due to the estimated throughput. -->
    <integer translatable="false" name="config_wifiFrameworkThroughputBonusLimit">320</integer>

    <!-- The default values chosen here establish four non-overlapping categories:
             saved, unmetered
             unsaved, unmetered
             saved, metered
             unsaved, metered
         These values can be reduced to allow overlapping between categories. -->
    <integer translatable="false" name="config_wifiFrameworkSavedNetworkBonus">500</integer>
    <integer translatable="false" name="config_wifiFrameworkUnmeteredNetworkBonus">1000</integer>
    <!-- Integer specifying the minimum bonus for current network -->
    <integer translatable="false" name="config_wifiFrameworkCurrentNetworkBonusMin">16</integer>
    <!-- Integer specifying the percent bonus for current network. The percent is applied to
         the sum of rssi base score and throughput score-->
    <integer translatable="false" name="config_wifiFrameworkCurrentNetworkBonusPercent">20</integer>
    <integer translatable="false" name="config_wifiFrameworkSecureNetworkBonus">40</integer>
    <!-- Integer specifying the bonus to give to a 6Ghz candidate during network selection scoring -->
    <integer translatable="false" name="config_wifiBand6GhzBonus">0</integer>
    <!-- Integer specifying the expected amount of score to reach the next tier during candidate
         scoring. This value should be configured according to the value of parameters that
         determine the scoring buckets such as config_wifiFrameworkSavedNetworkBonus and
         config_wifiFrameworkUnmeteredNetworkBonus. -->
    <integer translatable="false" name="config_wifiScoringBucketStepSize">500</integer>

    <!-- The duration in minutes to strongly favor the last-selected non-metered network over other options. -->
    <integer translatable="false" name="config_wifiFrameworkLastSelectionMinutes">480</integer>
    <!-- The duration in minutes to strongly favor the last-selected metered network over other options. -->
    <integer translatable="false" name="config_wifiFrameworkLastMeteredSelectionMinutes">120</integer>

    <!-- Integer specifying the min packet Tx/Rx rates in packets per second to be considered
         active traffic so that network selection and scan could be skipped-->
    <integer translatable="false" name="config_wifiFrameworkMinPacketPerSecondActiveTraffic">16</integer>
    <!-- Integer specifying the min packet Tx/Rx rates in packets per second to be considered
         high traffic so that the device should stay on WiFi even if RSSI is very low -->
    <integer translatable="false" name="config_wifiFrameworkMinPacketPerSecondHighTraffic">100</integer>
    <!-- Integer parameters of the wifi to cellular handover feature
         wifi should not stick to bad networks -->
    <!-- Integer threshold for low network score, should be somewhat less than the entry threshhold -->
    <integer translatable="false" name="config_wifi_framework_wifi_score_bad_rssi_threshold_5GHz">-80</integer>
    <!-- Integer threshold, do not connect to APs with RSSI lower than the entry threshold -->
    <integer translatable="false" name="config_wifi_framework_wifi_score_entry_rssi_threshold_5GHz">-77</integer>
    <integer translatable="false" name="config_wifi_framework_wifi_score_low_rssi_threshold_5GHz">-70</integer>
    <integer translatable="false" name="config_wifi_framework_wifi_score_good_rssi_threshold_5GHz">-57</integer>
    <integer translatable="false" name="config_wifi_framework_wifi_score_bad_rssi_threshold_24GHz">-83</integer>
    <integer translatable="false" name="config_wifi_framework_wifi_score_entry_rssi_threshold_24GHz">-80</integer>
    <integer translatable="false" name="config_wifi_framework_wifi_score_low_rssi_threshold_24GHz">-73</integer>
    <integer translatable="false" name="config_wifi_framework_wifi_score_good_rssi_threshold_24GHz">-60</integer>
    <integer translatable="false" name="config_wifiFrameworkScoreBadRssiThreshold6ghz">-80</integer>
    <integer translatable="false" name="config_wifiFrameworkScoreEntryRssiThreshold6ghz">-77</integer>
    <integer translatable="false" name="config_wifiFrameworkScoreLowRssiThreshold6ghz">-70</integer>
    <integer translatable="false" name="config_wifiFrameworkScoreGoodRssiThreshold6ghz">-57</integer>

    <!-- Integer delay in milliseconds before shutting down soft AP when there
         are no connected devices. -->
    <integer translatable="false" name="config_wifiFrameworkSoftApShutDownTimeoutMilliseconds">600000</integer>

    <!-- Integer delay in milliseconds before shutting down idle soft AP instance.
         This timer is the inactivity timer for transitioning a Dual AP to Single AP mode
         by shutting down one of the APs that has been inactive/unused.
         If both APs in Dual AP mode are idle, it shuts down the AP in higher band. -->
    <integer translatable="false" name="config_wifiFrameworkSoftApShutDownIdleInstanceInBridgedModeTimeoutMillisecond">300000</integer>

    <!-- boolean indicating whether or not to disable shutdown idle instance timer in the bridged mode when connected to a power source -->
    <bool translatable="false" name ="config_wifiFrameworkSoftApDisableBridgedModeShutdownIdleInstanceWhenCharging">false</bool>

    <!-- Integer indicating maximum hardware supported client number of soft ap -->
    <integer translatable="false" name="config_wifiHardwareSoftapMaxClientCount">16</integer>

    <!-- boolean indicating whether or not to reset channel configuration during cloud configuration restore -->
    <bool translatable="false" name ="config_wifiSoftapResetChannelConfig">true</bool>

    <!-- boolean indicating whether or not to reset hiddenSsid configuration during cloud configuration restore -->
    <bool translatable="false" name ="config_wifiSoftapResetHiddenConfig">true</bool>

    <!-- boolean indicating whether or not to reset user control configuration during cloud configuration restore -->
    <bool translatable="false" name ="config_wifiSoftapResetUserControlConfig">true</bool>

    <!-- boolean indicating whether or not to reset auto shotdown configuration during cloud configuration restore -->
    <bool translatable="false" name ="config_wifiSoftapResetAutoShutdownTimerConfig">true</bool>

    <!-- boolean indicating whether or not to reset max client setting configuration during cloud configuration restore -->
    <bool translatable="false" name ="config_wifiSoftapResetMaxClientSettingConfig">true</bool>

    <!-- boolean indicating whether or not to auto-upgrade band setting configuration to dual bands during cloud configuration restore when device supported -->
    <bool translatable="false" name ="config_wifiSoftapAutoUpgradeToBridgedConfigWhenSupported">true</bool>

    <!-- List of allowed channels in 2GHz band for softap. If the device doesn't want to restrict
         channels this should be empty. Values is a comma separated channel string and/or channel
         range string like '1-6,11'. -->
    <string  translatable="false" name="config_wifiSoftap2gChannelList">1-11</string>

    <!-- List of allowed channels in 5GHz band for softap. If the device doesn't want to restrict
         channels this should be empty. Values is a comma separated channel string and/or channel
         range string like '36-48,149'. -->
    <string  translatable="false" name="config_wifiSoftap5gChannelList"></string>

    <!-- List of allowed channels in 6GHz band for softap. If the device doesn't want to restrict
         channels this should be empty. Values is a comma separated channel string and/or channel
         range string like '36-48,149'. -->
    <string  translatable="false" name="config_wifiSoftap6gChannelList"></string>

    <!-- List of allowed channels in 60GHz band for softap. If the device doesn't want to restrict
         channels this should be empty. Values is a comma separated channel string and/or channel
         range string like '1-2,4'. -->
    <string  translatable="false" name="config_wifiSoftap60gChannelList"></string>

    <!-- Integer indicating associated full scan max num active channels -->
    <integer translatable="false" name="config_wifi_framework_associated_partial_scan_max_num_active_channels">6</integer>

    <!-- Integer delay in milliseconds before set wlan interface up during watchdog recovery -->
    <integer translatable="false" name="config_wifi_framework_recovery_timeout_delay">2000</integer>

    <!-- Boolean indicating associated network selection is allowed -->
    <bool translatable="false" name="config_wifi_framework_enable_associated_network_selection">true</bool>

    <!-- Integer duration after connection that a user-selected network is considered sufficient (milliseconds) -->
    <integer translatable="false" name="config_wifiSufficientDurationAfterUserSelectionMilliseconds">60000</integer>

    <!-- Trigger connectivity scan for MBB when the connected score is below the configured value.
         This scan is only done when the external scorer is not being used. -->
    <integer translatable="false" name="config_wifiLowConnectedScoreThresholdToTriggerScanForMbb">55</integer>

    <!-- Defines the minimum period between scans triggered due to low score.
    This is used together with config_wifiConnectedScoreThresholdToTriggerScanForMbb.-->
    <integer translatable="false" name="config_wifiLowConnectedScoreScanPeriodSeconds">60</integer>

    <!-- Boolean indicating whether the wifi module should always scan the 6Ghz Preferred Scanning
         Channels when performing full connectivity scans.
         If set to true, the wifi module will scan 6Ghz PSC channels in addition to the 2.4Ghz,
         5Ghz, and 6Ghz channels co-located with 2.4/5Ghz APs when doing full connectivity scans.
         If set to false, the wifi module will only scan the 2.4Ghz, 5Ghz,
         and 6Ghz channels co-located with 2.4/5Ghz APs when doing full connectivity scans.-->
    <bool translatable="false" name="config_wifiEnable6ghzPscScanning">true</bool>

    <!-- Boolean indicating performing a partial initial scan is enabled -->
    <bool translatable="false" name="config_wifiEnablePartialInitialScan">false</bool>

    <!-- Integer for maximum number of channels to use in initial partial scan. If equals to 0, means add all available channels for networks -->
    <integer translatable="false" name="config_wifiInitialPartialScanChannelMaxCount">10</integer>

    <!-- Integer for maximum age for scan results used to identify channels for partial initial
         scan in minutes -->
    <integer translatable="false" name="config_wifiInitialPartialScanChannelCacheAgeMins">14400</integer>

    <!-- Boolean indicating whether single radio chain scan results are to be used for network selection -->
    <bool translatable="false" name="config_wifi_framework_use_single_radio_chain_scan_results_network_selection">true</bool>

    <!-- Boolean indicating that wifi may link networks whose gateways have not yet been determined -->
    <bool translatable="false" name="config_wifiAllowLinkingUnknownDefaultGatewayConfigurations">true</bool>

    <!-- Boolean indicating that enable roaming between linked networks -->
    <bool translatable="false" name="config_wifiEnableLinkedNetworkRoaming">false</bool>

    <!-- Boolean indicating that only configurations that have the same pre-shared key will be linked -->
    <bool translatable="false" name="config_wifi_only_link_same_credential_configurations">true</bool>

    <!-- Boolean indicating whether framework needs to set the tx power limit for meeting SAR requirements -->
    <bool translatable="false" name="config_wifi_framework_enable_sar_tx_power_limit">false</bool>

    <!-- Boolean indicating whether framework should use detection of softAP mode to set the tx
         power limit for meeting SAR requirements -->
    <bool translatable="false" name="config_wifi_framework_enable_soft_ap_sar_tx_power_limit">false</bool>

    <!-- Boolean indicating that softap passphrase need to enable ASCII encodable check -->
    <bool translatable="false" name="config_wifiSoftapPassphraseAsciiEncodableCheck">true</bool>

    <!-- Wifi Hal supports force client disconnect for softap -->
    <bool translatable="false" name="config_wifiSofapClientForceDisconnectSupported">true</bool>

    <!-- Wifi driver supports Automatic channel selection (ACS) for softap -->
    <bool translatable="false" name="config_wifi_softap_acs_supported">false</bool>

    <!-- Wifi driver supports WPA3 Simultaneous Authentication of Equals (WPA3-SAE) for softap -->
    <bool translatable="false" name="config_wifi_softap_sae_supported">false</bool>

    <!-- Wifi driver supports Mac address customization for softap -->
    <bool translatable="false" name="config_wifiSoftapMacAddressCustomizationSupported">true</bool>

    <!-- Wifi driver supports IEEE80211AC for softap -->
    <bool translatable="false" name="config_wifi_softap_ieee80211ac_supported">false</bool>

    <!-- Wifi driver supports IEEE80211AX for softap -->
    <bool translatable="false" name="config_wifiSoftapIeee80211axSupported">false</bool>

    <!-- Wifi driver supports IEEE80211BE for softap -->
    <bool translatable="false" name="config_wifiSoftapIeee80211beSupported">false</bool>

    <!-- Wifi driver supports IEEE80211AX single user beamformer for softap -->
    <bool translatable="false" name="config_wifiSoftapHeSuBeamformerSupported">false</bool>

    <!-- Wifi driver supports IEEE80211AX single user beamformee for softap -->
    <bool translatable="false" name="config_wifiSoftapHeSuBeamformeeSupported">false</bool>

    <!-- Wifi driver supports IEEE80211AX multiple user beamformer for softap -->
    <bool translatable="false" name="config_wifiSoftapHeMuBeamformerSupported">false</bool>

    <!-- Wifi driver supports IEEE80211AX TWT (Target Wake Time) for softap -->
    <bool translatable="false" name="config_wifiSoftapHeTwtSupported">false</bool>

    <!-- Wifi driver supports 2.4GHz band for softap when chip support 24GHz -->
    <bool translatable="false" name="config_wifiSoftap24ghzSupported">true</bool>

    <!-- Wifi driver supports 5GHz band for softap when chip support 5GHz -->
    <bool translatable="false" name="config_wifiSoftap5ghzSupported">true</bool>

    <!-- Wifi driver supports 6GHz band for softap when chip support 6GHz -->
    <bool translatable="false" name="config_wifiSoftap6ghzSupported">false</bool>

    <!-- Wifi driver supports 60GHz band for softap when chip support 60GHz -->
    <bool translatable="false" name="config_wifiSoftap60ghzSupported">false</bool>

    <!-- Indicates that the framework should auto append lower bands to band configuration for
         avoiding coexistence handling. For example: 5g only band will change to 2.4g|5g and
         6g band will change to 2.4|5g|6g band -->
    <bool translatable="false" name="config_wifiSoftapAutoAppendLowerBandsToBandConfigurationEnabled">true</bool>

    <!-- Indicates that local-only hotspot should be brought up at 6GHz if possible.
         This option is for automotive builds only (the one that have
         PackageManager#FEATURE_AUTOMOTIVE) -->
    <bool translatable="false" name="config_wifiLocalOnlyHotspot6ghz">false</bool>

    <!-- Indicates that local-only hotspot should be brought up at 5GHz if 6GHz is not enabled
         or feasible.  This option is for automotive builds only (the one that have
         PackageManager#FEATURE_AUTOMOTIVE) -->
    <bool translatable="false" name="config_wifi_local_only_hotspot_5ghz">false</bool>

    <!-- Set to "true" to always use the factory MAC saved in WifiConfigStore when available.
         Set to "false" to get the factory MAC from vendor HAL every time it's needed. -->
    <bool translatable="false" name="config_wifiSaveFactoryMacToWifiConfigStore">true</bool>

    <!-- Indicates that connected MAC randomization is supported on this device -->
    <bool translatable="false" name="config_wifi_connected_mac_randomization_supported">false</bool>

    <!-- Indicates that non-persistent MAC randomization is allowed on open networks that do not
     use captive portals -->
    <bool translatable="false" name="config_wifiAllowNonPersistentMacRandomizationOnOpenSsids">false</bool>

    <!-- Indicates that p2p MAC randomization is supported on this device -->
    <bool translatable="false" name="config_wifi_p2p_mac_randomization_supported">false</bool>

    <!-- Indicates that AP mode MAC randomization is supported on this device -->
    <bool translatable="false" name="config_wifi_ap_mac_randomization_supported">true</bool>

    <!-- Indicates that bridged AP mode is supported on this device -->
    <bool translatable="false" name="config_wifiBridgedSoftApSupported">false</bool>

    <!-- Indicates that STA + bridged AP concurrency mode is supported on this device -->
    <bool translatable="false" name="config_wifiStaWithBridgedSoftApConcurrencySupported">false</bool>

    <!-- Indicates that dynamic country code update in AP mode is supported on this device -->
    <bool translatable="false" name="config_wifiSoftApDynamicCountryCodeUpdateSupported">false</bool>

    <!-- Indicates that dynamic country code update in STA mode is supported on this device -->
    <bool translatable="false" name="config_wifiStaDynamicCountryCodeUpdateSupported">false</bool>

    <!-- list of SSIDs to force disable MAC randomization -->
    <string-array translatable="false" name="config_wifiForceDisableMacRandomizationSsidList">
        <!-- SSIDs are expected in quoted format:
        <item>\"SSID_1\"</item>
        <item>\"SSID_2\"</item>
        -->
    </string-array>

    <!-- list of SSIDs to enable non-persistent MAC randomization on -->
    <string-array translatable="false" name="config_wifi_non_persistent_randomization_ssid_allowlist">
        <!-- SSIDs are expected in quoted format:
        <item>\"SSID_1\"</item>
        <item>\"SSID_2\"</item>
        -->
    </string-array>

    <!-- list of SSIDs to disable non-persistent MAC randomization on. If a SSID is in both the
    allowlist and blocklist, then non-persistent MAC randomization will still be disabled. -->
    <string-array translatable="false" name="config_wifi_non_persistent_randomization_ssid_blocklist">
        <!-- SSIDs are expected in quoted format:
        <item>\"SSID_1\"</item>
        <item>\"SSID_2\"</item>
        -->
    </string-array>

    <!-- Duration in minutes a recent failure should be displayed in the wifi picker UI. -->
    <integer translatable="false" name="config_wifiRecentFailureReasonExpirationMinutes">30</integer>

    <!-- The minimum duration in minutes that all non-carrier-merged wifi becomes disabled when
    WifiManager#startRestrictingAutoJoinToSubscriptionId is called. -->
    <integer translatable="false"
             name="config_wifiAllNonCarrierMergedWifiMinDisableDurationMinutes">30</integer>

    <!-- Configures 2 things:
    1. The maximum duration in minutes that all non-carrier-merged wifi becomes disabled when
    WifiManager#startRestrictingAutoJoinToSubscriptionId is called.
    2. The maximum duration in minutes that a network is disabled when the user manually
    triggers the "disconnect" feature.-->
    <integer translatable="false"
             name="config_wifiAllNonCarrierMergedWifiMaxDisableDurationMinutes">480</integer>

    <!-- Indicates that wifi link probing is supported on this device -->
    <bool translatable="false" name="config_wifi_link_probing_supported">false</bool>

    <!-- Configure wifi tcp buffersizes in the form:
         rmem_min,rmem_def,rmem_max,wmem_min,wmem_def,wmem_max -->
    <string name="config_wifi_tcp_buffers" translatable="false">524288,1048576,2097152,262144,524288,1048576</string>

    <!-- Do not translate. Default access point SSID used for tethering -->
    <string name="wifi_tether_configure_ssid_default" translatable="false">AndroidAP</string>
    <!-- Do not translate. Default access point SSID used for local only hotspot -->
    <string name="wifi_localhotspot_configure_ssid_default" translatable="false">AndroidShare</string>

    <!-- Indicates that a full bugreport should be triggered when wifi diagnostics detects an error on non-user (i.e debug) builds -->
    <bool translatable="false" name="config_wifi_diagnostics_bugreport_enabled">false</bool>

    <!-- Indicates that wifi watchdog is enabled on this device -->
    <bool translatable="false" name="config_wifi_watchdog_enabled">true</bool>

    <!-- list of package names for which WifiManager.startScan() will not be throttled when the app
    is in foreground. -->
    <string-array translatable="false" name="config_wifiForegroundScanThrottleExceptionList">
        <!-- Below is a sample configuration for this list:
        <item>com.company1.example.test.name1</item>
        <item>com.company2.example.test.name2</item>
        -->
    </string-array>

    <!-- list of package names for which WifiManager.startScan() will not be throttled when the app
    is in background. -->
    <string-array translatable="false" name="config_wifiBackgroundScanThrottleExceptionList">
        <!-- Below is a sample configuration for this list:
        <item>com.company1.example.test.name1</item>
        <item>com.company2.example.test.name2</item>
        -->
    </string-array>

    <!--
    Controls the mapping between RSSI and RSSI levels.

    RSSI                                    RSSI Level
    (-infinity, thresholds[0])                       0
    [threshold[0], threshold[1])                     1
    [threshold[1], threshold[2])                     2
    ...                                            ...
    [threshold[len-2], threshold[len-1])         len-1
    [threshold[len-1], +infinity)                  len

    where:
        [a, b) is the range of integers `n` such that a <= n < b
        `threshold[i]` represents the i'th element of the config_wifiRssiLevelThresholds array
        and `len` is the length of the config_wifiRssiLevelThresholds array.
    -->
    <integer-array translatable="false" name="config_wifiRssiLevelThresholds">
                         <!-- RSSI                RSSI Level -->
        <item>-88</item> <!-- (-infinity, -88)             0 -->
        <item>-77</item> <!-- [-88, -77)                   1 -->
        <item>-66</item> <!-- [-77, -66)                   2 -->
        <item>-55</item> <!-- [-66, -55)                   3 -->
                         <!-- [-55, +infinity)             4 -->
    </integer-array>

    <!-- Array describing scanning schedule in seconds when device is disconnected and screen is on -->
    <integer-array translatable="false" name="config_wifiDisconnectedScanIntervalScheduleSec">
        <item>20</item>
        <item>40</item>
        <item>80</item>
        <item>160</item>
    </integer-array>

    <!-- Array describing scanning schedule in seconds when device is connected and screen is on -->
    <integer-array translatable="false" name="config_wifiConnectedScanIntervalScheduleSec">
        <item>20</item>
        <item>40</item>
        <item>80</item>
        <item>160</item>
    </integer-array>

    <!-- Array describing scanning schedule in seconds when device is connected and screen is on
     and the connected network is the only saved network.
     When this array is set to an empty array, the normal connected scan schedule defined
     in config_wifiConnectedScanIntervalScheduleSec will be used -->
    <integer-array translatable="false" name="config_wifiSingleSavedNetworkConnectedScanIntervalScheduleSec">
    </integer-array>

    <!-- This controls the scan type when config_wifiDisconnectedScanIntervalScheduleSec is being
    used as the scan schedule.

    Valid values: a non-empty list of WifiAnnotations#ScanType of variable length.
    For example, if this is programmed as
        <item>2</item>
        <item>2</item>
        <item>1</item>
    then the first 2 periodic scan will be of type WifiScanner.SCAN_TYPE_HIGH_ACCURACY, and from
    the 3rd scan onward, the scan type will be WifiScanner.SCAN_TYPE_LOW_POWER.
    -->
    <integer-array translatable="false" name="config_wifiDisconnectedScanType">
        <item>2</item>
    </integer-array>

    <!-- This controls the scan type when config_wifiConnectedScanIntervalScheduleSec is being
    used as the scan schedule.

    Valid values: a non-empty list of WifiAnnotations#ScanType of variable length.
    For example, if this is programmed as
        <item>2</item>
        <item>2</item>
        <item>1</item>
    then the first 2 periodic scan will be of type WifiScanner.SCAN_TYPE_HIGH_ACCURACY, and from
    the 3rd scan onward, the scan type will be WifiScanner.SCAN_TYPE_LOW_POWER.
    -->
    <integer-array translatable="false" name="config_wifiConnectedScanType">
        <item>2</item>
    </integer-array>

    <!-- This controls the scan type when config_wifiSingleSavedNetworkConnectedScanIntervalScheduleSec
    is being used as the scan schedule.

    Valid values: Leave as empty, or a list of WifiAnnotations#ScanType of variable length.
    For example, if this is programmed as
        <item>2</item>
        <item>2</item>
        <item>1</item>
    then the first 2 periodic scan will be of type WifiScanner.SCAN_TYPE_HIGH_ACCURACY, and from
    the 3rd scan onward, the scan type will be WifiScanner.SCAN_TYPE_LOW_POWER.

    When this array is set to an empty array, the normal scan type defined in
    config_wifiConnectedScanType will be used.
    -->
    <integer-array translatable="false" name="config_wifiSingleSavedNetworkConnectedScanType">
    </integer-array>

    <!-- Integer specifying minimum wait time in seconds for next PNO scan when a network is found
    by PNO scan but gets rejected by Wifi Network Selector due to its low RSSI value-->
    <integer translatable="false" name="config_wifiPnoScanLowRssiNetworkRetryStartDelaySec"> 20 </integer>

    <!-- Integer specifying maximum wait time in seconds for next PNO scan when a network is found
    by PNO scan but gets rejected by Wifi Network Selector due to its low RSSI value-->
    <integer translatable="false" name="config_wifiPnoScanLowRssiNetworkRetryMaxDelaySec"> 80 </integer>

    <!-- Integer for minimum time between the last network selection and next high RSSI scan
         in seconds when device is connected and screen is on -->
    <integer translatable="false" name="config_wifiConnectedHighRssiScanMinimumWindowSizeSec"> 600 </integer>

    <!-- List of constants to indicate how many failures are needed to temporarily disable a network
    from auto-connect -->
    <integer translatable="false" name="config_wifiDisableReasonAssociationRejectionThreshold"> 3 </integer>
    <integer translatable="false" name="config_wifiDisableReasonAuthenticationFailureThreshold"> 3 </integer>
    <integer translatable="false" name="config_wifiDisableReasonDhcpFailureThreshold"> 2 </integer>
    <integer translatable="false" name="config_wifiDisableReasonNetworkNotFoundThreshold"> 2 </integer>
    <integer translatable="false" name="config_wifiDisableReasonNoInternetTemporaryThreshold"> 1 </integer>
    <integer translatable="false" name="config_wifiDisableReasonAuthenticationNoCredentialsThreshold"> 3 </integer>
    <integer translatable="false" name="config_wifiDisableReasonNoInternetPermanentThreshold"> 1 </integer>
    <integer translatable="false" name="config_wifiDisableReasonByWrongPasswordThreshold"> 1 </integer>
    <integer translatable="false" name="config_wifiDisableReasonAuthenticationNoSubscriptionThreshold"> 1 </integer>
    <integer translatable="false" name="config_wifiDisableReasonConsecutiveFailuresThreshold"> 1 </integer>

    <!-- Base duration to set a network disabled after validation failure happen-->
    <integer translatable="false" name="config_wifiDisableReasonAssociationRejectionDurationMs"> 300000 </integer>
    <integer translatable="false" name="config_wifiDisableReasonAuthenticationFailureDurationMs"> 300000 </integer>
    <integer translatable="false" name="config_wifiDisableReasonDhcpFailureDurationMs"> 300000 </integer>
    <integer translatable="false" name="config_wifiDisableReasonNetworkNotFoundDurationMs"> 300000 </integer>
    <integer translatable="false" name="config_wifiDisableReasonNoInternetTemporaryDurationMs"> 600000 </integer>
    <integer translatable="false" name="config_wifiDisableReasonAuthenticationNoCredentialsDurationMs"> -1 </integer>
    <integer translatable="false" name="config_wifiDisableReasonNoInternetPermanentDurationMs"> -1 </integer>
    <integer translatable="false" name="config_wifiDisableReasonByWrongPasswordDurationMs"> -1 </integer>
    <integer translatable="false" name="config_wifiDisableReasonAuthenticationNoSubscriptionDurationMs"> -1 </integer>
    <integer translatable="false" name="config_wifiDisableReasonConsecutiveFailuresDurationMs"> 300000 </integer>

    <!-- List of constants that indicate the number of consecutive failures per type needed to block a BSSID.
    A blocked BSSID will not be considered in network selection and firmware roaming.-->
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorApUnableToHandleNewStaThreshold"> 1 </integer>
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorNetworkValidationFailureThreshold"> 1 </integer>
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorWrongPasswordThreshold"> 1 </integer>
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorEapFailureThreshold"> 1 </integer>
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorAssociationRejectionThreshold"> 3 </integer>
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorAssociationTimeoutThreshold"> 3 </integer>
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorAuthenticationFailureThreshold"> 3 </integer>
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorDhcpFailureThreshold"> 2 </integer>
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorAbnormalDisconnectThreshold"> 3 </integer>
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorNonlocalDisconnectConnectingThreshold"> 2 </integer>
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorNoResponseThreshold"> 1 </integer>

    <!-- Base duration to block a BSSID after consecutive failures happen. (default = 5 mins)
    The blocklist duration is increased exponentially for a BSSID that consecutively gets added to the blocklist.
    ie. 5/10/20/40/80/160/320/640 minutes - capped at 640 minutes because the default for
    config_wifiBssidBlocklistMonitorFailureStreakCap is set to 7-->
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorBaseBlockDurationMs"> 300000 </integer>

    <!-- Base duration to block a bssid after validation failure happen-->
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorValidationFailureBaseBlockDurationMs"> 300000 </integer>

    <!-- Base duration to block a BSSID after the external connected scorer sets wifi as unusable.
    The block duration is increased exponentially if the same BSSID is repeated marked as unusable.
    ie. 0.5/1/2/4/8/16/32/64 minutes - capped at 64 minutes because the default for
    config_wifiBssidBlocklistMonitorFailureStreakCap is set to 7. The block duration is reset to
    the base value 3 hours after the latest connection to this BSSID. -->
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorConnectedScoreBaseBlockDurationMs"> 30000 </integer>

    <!-- The failure streak is the number of times a BSSID consecutively gets blocked without ever
    successfully connecting in between, and is used to calculate the exponentially growing blocklist time.
    The config_wifiBssidBlocklistMonitorFailureStreakCap controls how many times the block duration
    could exponentially grow when a BSSID keeps failing.
    ie. A value of 0 means BSSIDs are always blocked for the flat base duration defined by
    config_wifiBssidBlocklistMonitorBaseBlockDurationMs. -->
    <integer translatable="false" name="config_wifiBssidBlocklistMonitorFailureStreakCap"> 7 </integer>

    <!-- If a non-locally generated disconnect happens within this time window after association,
    then count it as a failure with reason code REASON_ABNORMAL_DISCONNECT (default = 30 seconds) -->
    <integer translatable="false" name="config_wifiBssidBlocklistAbnormalDisconnectTimeWindowMs"> 30000 </integer>

    <!-- Indicates that hidden networks are to be scanned during scan only mode -->
    <bool translatable="false" name="config_wifiScanHiddenNetworksScanOnlyMode">false</bool>

    <!-- Enable logging WifiIsUnusableEvent in metrics which gets triggered when wifi becomes unusable. -->
    <bool translatable="false" name="config_wifiIsUnusableEventMetricsEnabled">true</bool>

    <!-- The minimum number of txBad the framework has to observe to trigger a wifi data stall. -->
    <integer translatable="false" name="config_wifiDataStallMinTxBad">1</integer>

    <!-- The minimum number of txSuccess the framework has to observe
         to trigger a wifi data stall when rxSuccess is 0. -->
    <integer translatable="false" name="config_wifiDataStallMinTxSuccessWithoutRx">50</integer>

    <!-- Enable logging Wifi LinkSpeedCounts in metrics. -->
    <bool translatable="false" name="config_wifiLinkSpeedMetricsEnabled">true</bool>

    <!-- Enable the PNO frequency culling optimization. -->
    <bool translatable="false" name="config_wifiPnoFrequencyCullingEnabled">true</bool>

    <!-- Enable the PNO frequency culling optimization. -->
    <bool translatable="false" name="config_wifiPnoRecencySortingEnabled">true</bool>

    <!-- Maximum number of SSIDs that can be PNO scanned concurrently-->
    <integer translatable="false" name="config_wifiMaxPnoSsidCount">16</integer>

    <!-- When disconnected and PNO scan is enabled, wake up to do a single scan every
    config_wifiPnoWatchdogIntervalMs in case PNO scan failed. (default = 20 minutes)-->
    <integer translatable="false" name="config_wifiPnoWatchdogIntervalMs">1200000</integer>

    <!-- Enable the Software PNO feature. If Hardware PNO is not enabled, the device is in
    standby and Wifi is disconnected, periodic scans are performed according to the
    following schedule:
    1) config_wifiSwPnoMobilityStateTimerIterations iterations with initial interval provided by
    the mobility status (see config_wifiMovingPnoScanIntervalMillis and
    config_wifiStationaryPnoScanIntervalMillis for the default values respectively for moving and
    stationary devices). At each iteration the interval is increased proportionally to the elapsed
    iterations. The device is awakened even if currently in doze/idle mode.
    2) config_wifiSwPnoFastTimerIterations iterations with initial interval provided by
    config_wifiSwPnoFastTimerMs. The device is awakened even if currently in doze/idle mode.
    3) config_wifiSwPnoSlowTimerIterations iterations with initial provided by
    config_wifiSwPnoSlowTimerMs and a window of config_wifiSwPnoSlowTimerMargin.
    Inside such time window, the device is not awakened to perform the scan. If a wakeup happens for
    other reasons, the scan might be performed as well in order to avoid subsequent awakening.
    If no spontaneous awakening happens at the end of the time window, the device is awakened to
    perform the scan.-->
    <bool translatable="false" name="config_wifiSwPnoEnabled">true</bool>

    <!-- When disconnected and Sw PNO scan is enabled, wake up to do a single scan every
    config_wifiSwPnoFastTimerSec for config_wifiSwPnoFastTimerIterations iterations-->
    <integer translatable="false" name="config_wifiSwPnoFastTimerMs">300000</integer>

    <!-- Number of iterations of Sw PNO that uses mobility information as timer interval-->
    <integer translatable="false" name="config_wifiSwPnoMobilityStateTimerIterations">2</integer>

    <!-- Number of iterations of Sw PNO that uses config_wifiSwPnoFastTimerSec as timer interval-->
    <integer translatable="false" name="config_wifiSwPnoFastTimerIterations">3</integer>

    <!-- Number of iterations of Sw PNO that uses config_wifiSwPnoSlowTimerSec as timer interval.-->
    <integer translatable="false" name="config_wifiSwPnoSlowTimerIterations">10</integer>

    <!-- Timer interval for Sw PNO scans that happen after config_wifiSwPnoFastTimerIterations
    iterations, if no network has been found-->
    <integer translatable="false" name="config_wifiSwPnoSlowTimerMs">1200000</integer>

    <!-- Maximum interval of time of which slow scans can be delayed due to alarms schedule
    optimization and/or CPU being in sleep state-->
    <integer translatable="false" name="config_wifiSwPnoSlowTimerMargin">600000</integer>

    <!-- Suspend optimization. -->
    <bool translatable="false" name="config_wifiSuspendOptimizationsEnabled">true</bool>

    <!-- Network selection optimization at DEVICE_MOBILITY_STATE_HIGH_MVMT -->
    <bool translatable="false" name="config_wifiHighMovementNetworkSelectionOptimizationEnabled">true</bool>

    <!-- Do a single scan when cell data loss is detected. -->
    <bool translatable="false" name="config_wifiScanOnCellularDataLossEnabled">false</bool>

    <!-- Duration for the delayed scan used to verify access points are staying relatively stationary
    to the device at high mobility state. (default = 10 seconds) -->
    <integer translatable="false" name="config_wifiHighMovementNetworkSelectionOptimizationScanDelayMs">10000</integer>

    <!-- When config_wifiHighMovementNetworkSelectionOptimizationEnabled is true, BSSIDs with RSSI
    from 2 consecutive scans that differ in either direction by more than this threshold will be
    filtered out from network selection. (default = 10 dBs) -->
    <integer translatable="false" name="config_wifiHighMovementNetworkSelectionOptimizationRssiDelta">10</integer>

    <!-- The estimate RSSI error margin in dBs to account minor differences in the environment and
    the device's orientation. -->
    <integer translatable="false" name="config_wifiEstimateRssiErrorMarginDb">5</integer>

    <!-- The interval in milliseconds at which wifi rtt ranging requests will be throttled when
         they are coming from the background apps (default = 30 mins). -->
    <integer translatable="false" name="config_wifiRttBackgroundExecGapMs">1800000</integer>

    <!-- Integer indicating the RSSI and link layer stats polling interval (regular interval) in
    milliseconds when device is connected and screen is on -->
    <integer translatable="false" name="config_wifiPollRssiIntervalMilliseconds">3000</integer>

    <!-- Integer indicating the RSSI and link layer stats polling interval (long interval) in
    milliseconds when device is connected and screen is on. The long interval is to reduce
    power consumption of link layer stats polling. This value should be greater than the regular
    interval -->
    <integer translatable="false" name="config_wifiPollRssiLongIntervalMilliseconds">9000</integer>

    <!-- RSSI threshold in dBm to decide the RSSI and link layer stats polling interval, and also
    for the client mode RSSI monitor. When the polling is enabled, if the device is stationary
    and current RSSI >= Threshold + Hysteresis value, set long interval and enable RSSI monitoring
    using the RSSI threshold. If device is non-stationary or current RSSI <= Threshold, set regular
    interval and disable RSSI monitoring. -->
    <integer translatable="false" name="config_wifiClientRssiMonitorThresholdDbm">-73</integer>

    <!-- Hysteresis value in dB for the client mode RSSI monitor threshold. After the monitor is
    enabled with RSSI >= Threshold + Hysteresis value, the RSSI threshold breach only happens
    when the current RSSI <= Threshold, in order to avoid frequent switch between regular and
    long polling intervals -->
    <integer translatable="false" name="config_wifiClientRssiMonitorHysteresisDb">5</integer>

    <!-- Enable the feature of adjusting link layer stats polling interval based on
    device mobility state and client mode RSSI monitoring. -->
    <bool translatable="false" name="config_wifiAdjustPollRssiIntervalEnabled">false</bool>

    <!-- Override channel utilization estimation with fixed value -->
    <bool translatable="false" name="config_wifiChannelUtilizationOverrideEnabled">true</bool>
    <!-- Integer values represent the channel utilization in different RF bands when
          config_wifiChannelUtilizationOverridingEnabled is true.
         They should be set to [0, 255] corresponding to utilization ratio between 0 and 1 -->
    <integer translatable="false" name="config_wifiChannelUtilizationOverride2g">80</integer>
    <integer translatable="false" name="config_wifiChannelUtilizationOverride5g">15</integer>
    <integer translatable="false" name="config_wifiChannelUtilizationOverride6g">10</integer>

    <!-- Enable WPA2 to WPA3 auto-upgrade -->
    <bool translatable="false" name="config_wifiSaeUpgradeEnabled">true</bool>

    <!-- Enable WPA2 to WPA3 auto-upgrade offload to capable Driver/Firmware -->
    <bool translatable="false" name="config_wifiSaeUpgradeOffloadEnabled">false</bool>

    <!-- Enable Open to OWE auto-upgrade -->
    <bool translatable="false" name="config_wifiOweUpgradeEnabled">true</bool>

    <!-- Number of self recoveries to be attempted per hour. Any fatal errors beyond this will
         cause the wifi stack to turn wifi off and wait for user input.
         Set to 0 to turn off recovery attempts and always turn off wifi on failures -->
    <integer translatable="false" name="config_wifiMaxNativeFailureSelfRecoveryPerHour">2</integer>

    <!-- Enable self recovery when an interface is added. -->
    <bool translatable="false" name="config_wifiInterfaceAddedSelfRecoveryEnabled">false</bool>

    <!-- For which interface to enable self recovery. -->
    <string translatable="false" name="config_wifiSelfRecoveryInterfaceName">wlan0</string>

    <!-- Ignore the open saved network if from carrier provisioning app, there is a same open suggestion and a secure suggestion from same carrier available -->
    <bool translatable="false" name="config_wifiIgnoreOpenSavedNetworkWhenSecureSuggestionAvailable">true</bool>

    <!-- Wifi driver Automatic channel selection (ACS) for softap to include DFS channels -->
    <bool translatable="false" name="config_wifiSoftapAcsIncludeDfs">false</bool>

    <!-- Initial PNO scan interval, in milliseconds, when the device is moving (i.e.
         WifiManager.DEVICE_MOBILITY_STATE_UNKNOWN, WifiManager.DEVICE_MOBILITY_STATE_HIGH_MVMT, or
         WifiManager.DEVICE_MOBILITY_STATE_LOW_MVMT).
         The scan interval backs off from this initial interval on subsequent scans.
         This scan is performed when screen is off and disconnected. -->
    <integer translatable="false" name="config_wifiMovingPnoScanIntervalMillis">20000</integer>

    <!-- Initial PNO scan interval, in milliseconds, when the device is stationary (i.e.
         WifiManager.DEVICE_MOBILITY_STATE_STATIONARY).
         The scan interval backs off from this initial interval on subsequent scans.
         This scan is performed when screen is off and disconnected. -->
    <integer translatable="false" name="config_wifiStationaryPnoScanIntervalMillis">60000</integer>

    <!-- integer indicating additional disconnect delay (in ms) after IMS onLost() indication is received -->
    <integer translatable="false" name="config_wifiDelayDisconnectOnImsLostMs">0</integer>

    <!-- Enable adding minimum confirmation duration when sending network score to connectivity service. -->
    <bool translatable="false" name="config_wifiMinConfirmationDurationSendNetworkScoreEnabled">false</bool>

    <!-- Enable Make-Before-Break Wifi network switching.
         Note: this is conditional on the device supporting dual concurrent STAs. -->
    <bool translatable="false" name="config_wifiMultiStaNetworkSwitchingMakeBeforeBreakEnabled">false</bool>
    <!-- Enable concurrent peer to peer + internet connectivity
         Note: this is conditional on the device supporting dual concurrent STAs. -->
    <bool translatable="false" name="config_wifiMultiStaLocalOnlyConcurrencyEnabled">false</bool>
    <!-- Enable concurrent restricted connectivity + internet connectivity
         Note: this is conditional on the device supporting dual concurrent STAs. -->
    <bool translatable="false" name="config_wifiMultiStaRestrictedConcurrencyEnabled">false</bool>
    <!-- Enable concurrent internet connectivity + internet connectivity
         Note: this is conditional on the device supporting dual concurrent STAs. -->
    <bool translatable="false" name="config_wifiMultiStaMultiInternetConcurrencyEnabled">false</bool>
    <!-- Enable the default coex channel avoidance algorithm and disable the functionality of
         WifiManager#setCoexUnsafeChannels. -->
    <bool translatable="false" name="config_wifiDefaultCoexAlgorithmEnabled">false</bool>
    <!-- If the default coex channel avoidance algorithm is enabled, then avoid channels that
         conflict with GPS L1. -->
    <bool translatable="false" name="config_wifiCoexForGpsL1">false</bool>
    <!-- The distance in KHz between Wi-Fi-based interference and GPS L1 that is considered unsafe. -->
    <integer translatable="false" name="config_wifiCoexGpsL1ThresholdKhz">10000</integer>
    <!-- Filepath of the xml table of parameters used by Wifi coex channel avoidance. -->
    <string translatable="false" name="config_wifiCoexTableFilepath">/vendor/etc/wifi/coex_table.xml</string>
    <!-- A value to indicate how many failures are needed to temporarily or permanently
    (depends on config_wifiDisableReasonAuthenticationFailureCarrierSpecificDurationMs)
    disable a network from auto-connect based on Carrier requirement -->
    <integer translatable="false" name="config_wifiDisableReasonAuthenticationFailureCarrierSpecificThreshold">1</integer>
    <!-- Carrier specific override for the disable threshold -->
    <string-array translatable="false" name="config_wifiDisableReasonAuthenticationFailureCarrierSpecificThreshold_carrier_overrides">
        <item><xliff:g id="carrier_id_prefix">:::1839:::</xliff:g>2</item>
    </string-array>
    <!-- A value to indicate the duration (in ms) to disable a network from auto-connect based on
    Carrier requirement. -1 represents disabling a network permanently -->
    <integer translatable="false" name="config_wifiDisableReasonAuthenticationFailureCarrierSpecificDurationMs">-1</integer>
    <!-- Carrier specific override for the disable duration -->
    <string-array translatable="false" name="config_wifiDisableReasonAuthenticationFailureCarrierSpecificDurationMs_carrier_overrides">
        <item><xliff:g id="carrier_id_prefix">:::1839:::</xliff:g>14400000</item>
    </string-array>
    <!-- Flush ANQP cache on Wi-Fi toggle off event -->
    <bool translatable="false" name="config_wifiFlushAnqpCacheOnWifiToggleOffEvent">true</bool>

    <!-- Enable Aware NDP interface selection on interface that already has network set up.
     Note: the default AOSP Android does not support multiple networks on the same Aware NDI.
     Enabling this configuration will restore legacy behavior but may result in incorrect behavior.
     -->
    <bool translatable="false" name="config_wifiAllowMultipleNetworksOnSameAwareNdi">false</bool>

    <!-- Enable Aware NDP interface selection on interface that already has a network to same peer
    set up. Enable this will offload to FW to do the Aware NDP security upgrade. This may result in
    incorrect behavior when the security upgrade feature is not fully supported.
     -->
    <bool translatable="false" name="config_wifiAwareNdpSecurityUpdateOnSameNdi">false</bool>

    <!-- A boolean indicate if device supports ser channel on the Aware data-path setup. If the
    value is false, channel setting on the data-path request will be ignored.
    -->
    <bool translatable="false" name="config_wifiSupportChannelOnDataPath">false</bool>

    <!-- A value indicate the duration of Wi-Fi Aware Instant Communication Mode for a single
    session. When duration is finished, framework will disable the Instant Communication Mode.
    -->
    <integer translatable="false" name="config_wifiAwareInstantCommunicationModeDurationMillis">30000</integer>

    <!-- Integer threshold for minimum packets required to notify clients of data activity -->
    <integer translatable="false" name="config_wifiTrafficPollerTxPacketThreshold">0</integer>
    <integer translatable="false" name="config_wifiTrafficPollerRxPacketThreshold">0</integer>

    <!-- A value to decide when NetworkCapabilities are updated to reflect the latest link
    bandwidth. If the bandwidth change is above this value, NetworkCapabilities are updated -->
    <integer translatable="false" name="config_wifiLinkBandwidthUpdateThresholdPercent">15</integer>

    <!-- Whether we should apply APF filters on non primary STA connections when STA + STA is active.
         Defaults to false since most wifi chips cannot support concurrent APF filter set needed for STA + STA-->
    <bool translatable="false" name="config_wifiEnableApfOnNonPrimarySta">false</bool>

    <!-- Whether to use the explicit vendor HAL API: IWifiStaIface.setRoamingState for disabling fw roaming (only needed if
         setting the bssid on the connection alone does not disable fw roaming on this chip) -->
    <bool translatable="false" name="config_wifiUseHalApiToDisableFwRoaming">false</bool>

    <!-- Indicates that SAE Hash-to-Element is supported on this device -->
    <bool translatable="false" name="config_wifiSaeH2eSupported">false</bool>

    <!-- Enable aggregation of Wifi link layer radio stats from all radios.
         Defaults to false will fetch radio stats only from Radio 0. This is to avoid
         incorrect behavior due to driver/firmware returning bogus radio stats from other radios.
         Note: Full DBS capable devices interested in radio stats from all the radios can enable this
         configuration. -->
    <bool translatable="false" name="config_wifiLinkLayerAllRadiosStatsAggregationEnabled">false</bool>

    <!-- Indicate the prefix of wifi p2p device name, the length should be between 1 ~ 28. -->
    <string translatable="false" name="config_wifiP2pDeviceNamePrefix">Android_</string>
    <!-- Indicate how many digits the postfix are. If the value is negative or smaller than 4,
         the postfix will fallback to the first digit of ANDROID_ID. -->
    <integer translatable="false" name="config_wifiP2pDeviceNamePostfixNumDigits">-1</integer>
    <!-- Indicate how long p2p extended listen period (in milliseconds) is. -->
    <integer translatable="false" name="config_wifiP2pExtListenPeriodMs">500</integer>
    <!-- Indicate how long p2p extended listen interval (in milliseconds) is. -->
    <integer translatable="false" name="config_wifiP2pExtListenIntervalMs">500</integer>

    <!-- Integer threshold for max number of WifiConfigurations that can be saved on the device.
         A value of -1 indicates no limit. If a max number is specified, then under-used configs will
         be deleted to make room for new configs.-->
    <integer translatable="false" name="config_wifiMaxNumWifiConfigurations">-1</integer>
    <!-- Integer threshold for max number of WifiConfigurations that can be added by all apps (excluding
         DO, PO, and system apps). A value of -1 indicates no limit. If a max number is specified,
         then existing app-added configs will be deleted to make room for new app-added configs.-->
    <integer translatable="false" name="config_wifiMaxNumWifiConfigurationsAddedByAllApps">200</integer>

    <!-- Whether to allow Settings or SUW to create insecure Enterprise networks where server
         certificate is not validated, by not specifying a Root CA certificate and/or server domain
         name. It is STRONGLY RECOMMENDED to be set to false -->
    <bool translatable="false" name="config_wifiAllowInsecureEnterpriseConfigurationsForSettingsAndSUW">false</bool>

    <!-- Indicate the max lines for connectivity local log based on the device ram size -->
    <integer translatable="false" name="config_wifiConnectivityLocalLogMaxLinesLowRam">256</integer>
    <integer translatable="false" name="config_wifiConnectivityLocalLogMaxLinesHighRam">512</integer>

    <!-- Indicate max number of log records for WifiClientModeImpl -->
    <integer translatable="false" name="config_wifiClientModeImplNumLogRecs">100</integer>

    <!-- Indicates whether or not the WLAN driver supports the NL80211_CMD_REG_CHANGE or
         NL80211_CMD_WIPHY_REG_CHANGE events which indicate the current country code which is
         being used by the WLAN driver. If the driver doesn't support these events
         (configuration is `false`) then the driver must handle the setCountryCode request from
         HAL as a blocking call. In such a case the country code will be applied
         immediately after the country code is sent to the driver (if the method returns a
         success). -->
    <bool translatable="false" name="config_wifiDriverSupportedNl80211RegChangedEvent">false</bool>

    <!-- Indicate whether the verbose logging is always on -->
    <!-- 0: verbose logging controlled by user
         1: verbose logging on by default for userdebug
         2: verbose logging on by default for all builds -->
    <integer translatable="false" name="config_wifiVerboseLoggingAlwaysOnLevel">0</integer>

    <!-- Indicate the help page link for the Root CA certifiate installation. -->
    <string translatable="false" name="config_wifiCertInstallationHelpLink">https://support.google.com/pixelphone/answer/2844832</string>

    <!-- Indicate the help page link for the APM enhancement. -->
    <string translatable="false" name="config_wifiApmEnhancementHelpLink">https://support.google.com/pixelphone/answer/12639358</string>

    <!-- Indicate the number of networks to restore in a batch. 0 : all networks in a batch -->
    <integer translatable="false" name="config_wifiConfigurationRestoreNetworksBatchNum">50</integer>

    <!-- Enables logging for any tasks running on the Wi-Fi thread which take longer than this threshold (in milliseconds) -->
    <integer translatable="false" name="config_wifiConfigurationWifiRunnerThresholdInMs">100</integer>

    <!-- OEM privileged WiFi admin package names. Empty by default-->
    <string-array translatable="false" name="config_oemPrivilegedWifiAdminPackages">
        <!-- Add package names here, example: -->
        <!-- <item>com.something.manager</item> -->
    </string-array>

    <!-- Wifi driver supports Opportunistic Wireless Encryption (OWE) Transition
         aka Enhanced Open for Soft-AP -->
    <bool translatable="false" name="config_wifiSoftapOweTransitionSupported">false</bool>

    <!-- Wifi driver supports Opportunistic Wireless Encryption (OWE)
         aka Enhanced Open for Soft-AP -->
    <bool translatable="false" name="config_wifiSoftapOweSupported">false</bool>

    <!-- Indicate the gravity of Wifi dialogs. Must be an integer corresponding to a
         android.view.Gravity.GravityFlags constant. Default = Gravity.NO_GRAVITY (0) -->
    <integer translatable="false" name="config_wifiDialogGravity">0</integer>
    <!-- Indicate whether to cancel Wifi dialogs when the screen is touched outside the dialog. -->
    <bool translatable="false" name="config_wifiDialogCanceledOnTouchOutside">false</bool>
    <!-- Whether to show a confirmation dialog to the user if a third party app targeting below SDK
         level Q tries to enable Wi-Fi -->
    <bool translatable="false" name="config_showConfirmationDialogForThirdPartyAppsEnablingWifi">false</bool>
    <!-- Indicate the time in milliseconds to wait before auto-cancelling a P2P invitation received
         dialog that the user has not responded to. A value of 0 indicates no timeout. -->
    <integer translatable="false" name="config_p2pInvitationReceivedDialogTimeoutMs">0</integer>
    <!-- Indicates whether or not to play a notification sound upon displaying a P2P invitation
         received dialog that the user has not responded to. If the device is in vibrate mode, then
         the device will vibrate instead of playing a sound. -->
    <bool translatable="false" name="config_p2pInvitationReceivedDialogNotificationSound">false</bool>
    <!-- Indicate the time in milliseconds to wait before handling surplus requests from the same
         peer to avoid duplicate pop-ups. When there is an external approver, a request might be
         approved soon and the state goes back to ready for next request. Sometimes there might
         be surplus requests due to packet retransmission and these requests will result in
         unnecessary pop-ups. Generally a user takes at least 1 second to react to the pop-up,
         to simulate the similar behavior, the default value is 1000 milliseconds. -->
    <integer translatable="false" name="config_wifiP2pJoinRequestAuthorizingTimeoutMs">1000</integer>

    <!-- Indicates whether or not the Soft AP needs to be restarted when country code changed -->
    <bool translatable="false" name="config_wifiForcedSoftApRestartWhenCountryCodeChanged">true</bool>

    <!-- list of package names that HalDeviceManager (interface priority decision maker) will
         treat as foreground, even if they are in the background. -->
    <string-array translatable="false" name="config_wifiInterfacePriorityTreatAsForegroundList">
        <!-- Below is a sample configuration for this list:
        <item>com.company1.example.test.name1</item>
        <item>com.company2.example.test.name2</item>
        -->
    </string-array>

    <!-- Indicates whether or not user approval is required for device-to-device interface priority
         decisions (note: packages included in
         `config_excludedFromUserApprovalForD2dInterfacePriority` are excluded). -->
    <bool translatable="false" name="config_wifiUserApprovalRequiredForD2dInterfacePriority">false</bool>
    <!-- list of package names that are excluded from the user approval flag
         `config_wifiUserApprovalRequiredForD2dInterfacePriority`. I.e. any priority conflicts from
          requests by these packages will be handled by the default resolution of the framework. -->
    <string-array translatable="false" name="config_wifiExcludedFromUserApprovalForD2dInterfacePriority">
        <!-- Below is a sample configuration for this list:
        <item>com.company1.example.test.name1</item>
        <item>com.company2.example.test.name2</item>
        -->
    </string-array>
    <!-- Indicates whether or not P2P interface removal can be approved automatically when P2P
         is not connected. -->
    <bool translatable="false" name="config_wifiUserApprovalNotRequireForDisconnectedP2p">false</bool>

    <!-- boolean indicating whether the Easy Connect (DPP) AKM is supported -->
    <bool translatable="false" name ="config_wifiDppAkmSupported">false</bool>
    <!-- Indicates the number of octets to mask for each BSSID in the SecurityLog output.
         The first N octets will each be replaced with 'xx' in the formatted BSSID string. -->
    <integer translatable="false" name="config_wifiNumMaskedBssidOctetsInSecurityLog">4</integer>
    <!-- Indicates whether the network-centric QoS policy feature is enabled. -->
    <bool translatable="false" name="config_wifiNetworkCentricQosPolicyFeatureEnabled">false</bool>
    <!-- Indicates whether the application-centric QoS policy feature is enabled. -->
    <bool translatable="false" name="config_wifiApplicationCentricQosPolicyFeatureEnabled">false</bool>

    <!-- The world mode country code value definition in the wifi driver -->
    <string translatable="false" name="config_wifiDriverWorldModeCountryCode">00</string>

    <!-- The value indicates if the OOB Pseudonym is Enabled, not override,
         see config_wifiOobPseudonymEnabled_carrier_overrides. -->
    <bool translatable="false" name="config_wifiOobPseudonymEnabled">false</bool>
    <!-- Carrier specific override for enabling the OOB pseudonym feature, only boolean
         values - true and false are valid input, see examples -->
    <string-array translatable="false" name="config_wifiOobPseudonymEnabled_carrier_overrides">
        <!-- example -->
        <!-- <item><xliff:g id="carrier_id_prefix">:::1234:::</xliff:g>true</item> -->
        <!-- <item><xliff:g id="carrier_id_prefix">:::5678:::</xliff:g>false</item> -->
    </string-array>
    <!-- The URL of entitlement server which is used to get the OOB pseudonym, not
         override, see config_wifiOobPseudonymEntitlementServerUrl_carrier_overrides -->
    <string translatable="false" name="config_wifiOobPseudonymEntitlementServerUrl"/>
    <!-- Carrier specific override for the URL of entitlement server retrieving OOB pseudonym. -->
    <string-array translatable="false" name="config_wifiOobPseudonymEntitlementServerUrl_carrier_overrides">
        <!-- example -->
        <!-- <item><xliff:g id="carrier_id_prefix">:::1234:::</xliff:g>https://example.com/oob</item> -->
    </string-array>

    <!-- Indicates whether or not the AP WAN Link Status ANQP element is used to filter candidate
         networks. Note that even if enabled (overlay = true) that invalid elements (all zeros
         are still ignored).
         If disabled (overlay = false) then the
         `config_wifiPasspointUseApWanLinkStatusAnqpElementFqdnAllowList`
         specifies a list of FQDNs for which the element will still be considered. -->
    <bool translatable="false" name="config_wifiPasspointUseApWanLinkStatusAnqpElement">true</bool>
    <!-- list of FQDNs for which to use the AP WAN Link Status ANQP element. Overrides any
         configuration specified in `config_wifiPasspointUseApWanLinkStatusAnqpElement`. -->
    <string-array translatable="false" name="config_wifiPasspointUseApWanLinkStatusAnqpElementFqdnAllowlist">
        <!-- Below is a sample configuration for this list:
        <item>XYZ</item>
        <item>ABC</item>
        -->
    </string-array>
    <!-- list of package names for which WifiRttManager.startRanging() will not be throttled when
    the app is in background. -->
    <string-array translatable="false" name="config_wifiBackgroundRttThrottleExceptionList">
        <!-- Below is a sample configuration for this list:
        <item>com.company1.example.test.name1</item>
        <item>com.company2.example.test.name2</item>
        -->
    </string-array>

    <!-- Lists each alternate character set per locale language for SSID translation to UTF-8. This
         will translate all SSIDs encoded with the specified character set from the native layer
         into UTF-8 SSIDs. The translated SSIDs are then converted back to the original character
         set when passed back to the native layer. This effectively switches all non-UTF-8 APs into
         UTF-8 APs from the perspective of the framework and apps, and is intended to provide
         backwards compatibility with apps that only work with UTF-8 SSIDs. Values must be in the
         form of the locale language and canonical java.nio Charset name, separated by a comma. If
         the locale language is "all", then the character set will apply to all locale languages
         that do not specify their own character set. -->
    <string-array translatable="false" name="config_wifiCharsetsForSsidTranslation">
        <!-- Below is a sample configuration for this list:
        <item>all,EUC-JP</item>
        <item>zh,GBK</item>
        <item>ko,EUC-KR</item>
        -->
    </string-array>

    <!-- ACTION_FILE_BUG_DEEPLINK intent name -->
    <string name="config_wifiBugreportDeepLink" translatable="false">com.google.android.apps.betterbug.intent.FILE_BUG_DEEPLINK</string>

    <!-- boolean indicating whether the caller thread needs to wait for destroyed listeners -->
    <bool translatable="false" name ="config_wifiWaitForDestroyedListeners">false</bool>

    <!-- Indicates the number of channels is allowed to set in a WifiNetworkSpecifier  -->
    <integer translatable="false" name ="config_wifiNetworkSpecifierMaxPreferredChannels">5</integer>

    <!-- Boolean indicating whether we should enable the STA current connected indoor channel
     for SAP, WFD GO, Wi-Fi Aware -->
    <bool translatable="false" name="config_wifiEnableStaIndoorChannelForPeerNetwork">false</bool>

    <!-- Boolean indicating whether we should enable the STA current connected DFS channel
         for SAP, WFD GO, Wi-Fi Aware -->
    <bool translatable="false" name="config_wifiEnableStaDfsChannelForPeerNetwork">false</bool>
    <!-- Indicates the number of seconds to delay the next IMSI protection notification after user
         dismiss the current one-->
    <integer translatable="false" name="config_wifiImsiProtectionNotificationDelaySeconds">300</integer>
    <!-- Boolean indicating whether DTIM multiplier configuration is enabled. DTIM multiplier value
        is when the system is in the suspended mode. Enabling this feature with the low multiplier
        in IPv6 mode and the high multiplier in IPv4 only mode ensures the IPv6 address
        doesn't expire due to missing RA while reducing the power consumption in IPv4 only mode.
        -->
    <bool translatable="false" name="config_wifiDtimMultiplierConfigEnabled">false</bool>
    <!-- Indicates the DTIM multiple value used when the multicast lock is enabled regardless of
        IP address type -->
    <integer translatable="false" name="config_wifiDtimMultiplierMulticastLockEnabled">1</integer>
    <!-- Indicates the DTIM multiple value used when it has only IPv6 address -->
    <integer translatable="false" name="config_wifiDtimMultiplierIpv6Only">2</integer>
    <!-- Indicates the DTIM multiple value used when it has only IPv4 address -->
    <integer translatable="false" name="config_wifiDtimMultiplierIpv4Only">9</integer>
    <!-- Indicates the DTIM multiple value used when it has both IPv4 and IPv6 addresses -->
    <integer translatable="false" name="config_wifiDtimMultiplierIpv6Ipv4">2</integer>
    <!-- Boolean indicating whether the firmware can handle the Wifi Aware request priority between
    the offloading and framework-->
    <bool translatable="false" name="config_wifiAwareOffloadingFirmwareHandlePriority">false</bool>
    <!-- Boolean indicating whether the framework can disable Wi-Fi chip power save while acquiring
         a low latency lock. If the flag is set to false, chipset should make changes to replace
         disable of power save to avoid the high latency when chip is in power save mode as part of
         handling the HAL API setLatencyMode(). -->
    <bool translatable="false" name ="config_wifiLowLatencyLockDisableChipPowerSave">true</bool>
    <!-- Boolean indicating whether NIAP mode is enabled by default for Wi-Fi. -->
    <bool translatable="false" name="config_wifiNiapModeEnabled">false</bool>
</resources>