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android / platform / frameworks / base / refs/heads/main / . / telephony / java / android / telephony / CarrierConfigManager.java
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/*
* 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.
*/
package android.telephony;
import android.Manifest;
import android.annotation.CallbackExecutor;
import android.annotation.FlaggedApi;
import android.annotation.IntDef;
import android.annotation.NonNull;
import android.annotation.Nullable;
import android.annotation.RequiresFeature;
import android.annotation.RequiresPermission;
import android.annotation.SuppressAutoDoc;
import android.annotation.SuppressLint;
import android.annotation.SystemApi;
import android.annotation.SystemService;
import android.compat.annotation.UnsupportedAppUsage;
import android.content.ComponentName;
import android.content.Context;
import android.content.pm.PackageManager;
import android.net.NetworkCapabilities;
import android.net.ipsec.ike.SaProposal;
import android.os.Build;
import android.os.Handler;
import android.os.PersistableBundle;
import android.os.RemoteException;
import android.service.carrier.CarrierService;
import android.telecom.TelecomManager;
import android.telephony.AccessNetworkConstants.AccessNetworkType;
import android.telephony.data.ApnSetting;
import android.telephony.gba.TlsParams;
import android.telephony.gba.UaSecurityProtocolIdentifier;
import android.telephony.ims.ImsReasonInfo;
import android.telephony.ims.ImsRegistrationAttributes;
import android.telephony.ims.ImsSsData;
import android.telephony.ims.MediaQualityStatus;
import android.telephony.ims.RcsUceAdapter;
import android.telephony.ims.feature.MmTelFeature;
import android.telephony.ims.feature.RcsFeature;
import com.android.internal.telephony.ICarrierConfigLoader;
import com.android.internal.telephony.flags.Flags;
import com.android.telephony.Rlog;
import java.util.List;
import java.util.Objects;
import java.util.concurrent.Executor;
import java.util.concurrent.TimeUnit;
import java.util.function.Consumer;
/**
* Provides access to telephony configuration values that are carrier-specific.
*/
@SystemService(Context.CARRIER_CONFIG_SERVICE)
@RequiresFeature(PackageManager.FEATURE_TELEPHONY_SUBSCRIPTION)
public class CarrierConfigManager {
private static final String TAG = "CarrierConfigManager";
/**
* Extra included in {@link #ACTION_CARRIER_CONFIG_CHANGED} to indicate the slot index that the
* broadcast is for.
*/
public static final String EXTRA_SLOT_INDEX = "android.telephony.extra.SLOT_INDEX";
/**
* {@link #ACTION_CARRIER_CONFIG_CHANGED} is broadcast once on device bootup and then again when
* the device is unlocked. Direct-Boot-aware applications may use the first broadcast as an
* early signal that the carrier config has been loaded, but other applications will only
* receive the second broadcast, when the device is unlocked.
*
* This extra is included in {@link #ACTION_CARRIER_CONFIG_CHANGED} to indicate whether this is
* a rebroadcast on unlock.
*/
public static final String EXTRA_REBROADCAST_ON_UNLOCK =
"android.telephony.extra.REBROADCAST_ON_UNLOCK";
/**
* Optional extra included in {@link #ACTION_CARRIER_CONFIG_CHANGED} to indicate the
* subscription index that the broadcast is for, if a valid one is available.
*/
public static final String EXTRA_SUBSCRIPTION_INDEX =
SubscriptionManager.EXTRA_SUBSCRIPTION_INDEX;
/**
* Service class flag if no specific service class is specified.
* Reference: 3GPP TS 27.007 Section 7.4 Facility lock +CLCK
*/
public static final int SERVICE_CLASS_NONE = ImsSsData.SERVICE_CLASS_NONE;
/**
* Service class flag for voice telephony.
* Reference: 3GPP TS 27.007 Section 7.4 Facility lock +CLCK
*/
public static final int SERVICE_CLASS_VOICE = ImsSsData.SERVICE_CLASS_VOICE;
/**
* Only send USSD over IMS while CS is out of service, otherwise send USSD over CS.
* {@link #KEY_CARRIER_USSD_METHOD_INT}
*/
public static final int USSD_OVER_CS_PREFERRED = 0;
/**
* Send USSD over IMS or CS while IMS is out of service or silent redial over CS if needed.
* {@link #KEY_CARRIER_USSD_METHOD_INT}
*/
public static final int USSD_OVER_IMS_PREFERRED = 1;
/**
* Only send USSD over CS.
* {@link #KEY_CARRIER_USSD_METHOD_INT}
*/
public static final int USSD_OVER_CS_ONLY = 2;
/**
* Only send USSD over IMS and disallow silent redial over CS.
* {@link #KEY_CARRIER_USSD_METHOD_INT}
*/
public static final int USSD_OVER_IMS_ONLY = 3;
/**
* Indicates CARRIER_NR_AVAILABILITY_NSA determine that the carrier enable the non-standalone
* (NSA) mode of 5G NR.
*/
public static final int CARRIER_NR_AVAILABILITY_NSA = 1;
/**
* Indicates CARRIER_NR_AVAILABILITY_SA determine that the carrier enable the standalone (SA)
* mode of 5G NR.
*/
public static final int CARRIER_NR_AVAILABILITY_SA = 2;
private final Context mContext;
/**
* @hide
*/
public CarrierConfigManager(Context context) {
mContext = context;
}
/**
* This intent is broadcast by the system when carrier config changes. An int is specified in
* {@link #EXTRA_SLOT_INDEX} to indicate the slot index that this is for. An optional int extra
* {@link #EXTRA_SUBSCRIPTION_INDEX} is included to indicate the subscription index if a valid
* one is available for the slot index. An optional int extra
* {@link TelephonyManager#EXTRA_CARRIER_ID} is included to indicate the carrier id for the
* changed carrier configuration. An optional int extra
* {@link TelephonyManager#EXTRA_SPECIFIC_CARRIER_ID} is included to indicate the precise
* carrier id for the changed carrier configuration.
* @see TelephonyManager#getSimCarrierId()
* @see TelephonyManager#getSimSpecificCarrierId()
*/
public static final String ACTION_CARRIER_CONFIG_CHANGED =
"android.telephony.action.CARRIER_CONFIG_CHANGED";
// Below are the keys used in carrier config bundles. To add a new variable, define the key and
// give it a default value in sDefaults. If you need to ship a per-network override in the
// system image, that can be added in packages/apps/CarrierConfig.
/**
* Specifies a value that identifies the version of the carrier configuration that is
* currently in use. This string is displayed on the UI.
* The format of the string is not specified.
*/
public static final String KEY_CARRIER_CONFIG_VERSION_STRING =
"carrier_config_version_string";
/**
* This flag specifies whether VoLTE availability is based on provisioning. By default this is
* false.
* Used for UCE to determine if EAB provisioning checks should be based on provisioning.
* @deprecated Use {@link Ims#KEY_CARRIER_RCS_PROVISIONING_REQUIRED_BOOL} instead.
*/
@Deprecated
public static final String KEY_CARRIER_VOLTE_PROVISIONED_BOOL =
"carrier_volte_provisioned_bool";
/**
* Boolean indicating the Supplementary Services(SS) is disable when airplane mode on in the
* Call Settings menu.
* {@code true}: SS is disable when airplane mode on.
* {@code false}: SS is enable when airplane mode on.
* The default value for this key is {@code false}
*/
public static final String KEY_DISABLE_SUPPLEMENTARY_SERVICES_IN_AIRPLANE_MODE_BOOL =
"disable_supplementary_services_in_airplane_mode_bool";
/**
* Boolean indicating if the "Call forwarding" item is visible in the Call Settings menu.
* true means visible. false means gone.
* @hide
*/
public static final String KEY_CALL_FORWARDING_VISIBILITY_BOOL =
"call_forwarding_visibility_bool";
/**
* Boolean indicating if carrier supports call forwarding option "When unreachable".
*
* {@code true}: Call forwarding option "When unreachable" is supported.
* {@code false}: Call forwarding option "When unreachable" is not supported. Option will be
* removed in the UI.
*
* By default this value is true.
* @hide
*/
public static final String KEY_CALL_FORWARDING_WHEN_UNREACHABLE_SUPPORTED_BOOL =
"call_forwarding_when_unreachable_supported_bool";
/**
* Boolean indicating if carrier supports call forwarding option "When unanswered".
*
* {@code true}: Call forwarding option "When unanswered" is supported.
* {@code false}: Call forwarding option "When unanswered" is not supported. Option will be
* removed in the UI.
*
* By default this value is true.
* @hide
*/
public static final String KEY_CALL_FORWARDING_WHEN_UNANSWERED_SUPPORTED_BOOL =
"call_forwarding_when_unanswered_supported_bool";
/**
* Boolean indicating if carrier supports call forwarding option "When busy".
*
* {@code true}: Call forwarding option "When busy" is supported.
* {@code false}: Call forwarding option "When busy" is not supported. Option will be
* removed in the UI.
*
* By default this value is true.
* @hide
*/
public static final String KEY_CALL_FORWARDING_WHEN_BUSY_SUPPORTED_BOOL =
"call_forwarding_when_busy_supported_bool";
/**
* Boolean indicating if the "Caller ID" item is visible in the Additional Settings menu.
* true means visible. false means gone.
*
* The default value is true.
*/
@FlaggedApi(Flags.FLAG_SHOW_CALL_ID_AND_CALL_WAITING_IN_ADDITIONAL_SETTINGS_MENU)
public static final String KEY_ADDITIONAL_SETTINGS_CALLER_ID_VISIBILITY_BOOL =
"additional_settings_caller_id_visibility_bool";
/**
* Boolean indicating if the "Call Waiting" item is visible in the Additional Settings menu.
* true means visible. false means gone.
*
* The default value is true.
*/
@FlaggedApi(Flags.FLAG_SHOW_CALL_ID_AND_CALL_WAITING_IN_ADDITIONAL_SETTINGS_MENU)
public static final String KEY_ADDITIONAL_SETTINGS_CALL_WAITING_VISIBILITY_BOOL =
"additional_settings_call_waiting_visibility_bool";
/**
* Boolean indicating if the "Call barring" item is visible in the Call Settings menu.
* If true, the "Call Barring" menu will be visible. If false, the menu will be gone.
*
* Disabled by default.
*/
public static final String KEY_CALL_BARRING_VISIBILITY_BOOL =
"call_barring_visibility_bool";
/**
* Flag indicating whether or not changing the call barring password via the "Call Barring"
* settings menu is supported. If true, the option will be visible in the "Call
* Barring" settings menu. If false, the option will not be visible.
*
* Enabled by default.
*/
public static final String KEY_CALL_BARRING_SUPPORTS_PASSWORD_CHANGE_BOOL =
"call_barring_supports_password_change_bool";
/**
* Flag indicating whether or not deactivating all call barring features via the "Call Barring"
* settings menu is supported. If true, the option will be visible in the "Call
* Barring" settings menu. If false, the option will not be visible.
*
* Enabled by default.
*/
public static final String KEY_CALL_BARRING_SUPPORTS_DEACTIVATE_ALL_BOOL =
"call_barring_supports_deactivate_all_bool";
/**
* Specifies the service class for call barring service. Default value is
* {@link #SERVICE_CLASS_VOICE}.
* The value set as below:
* <ul>
* <li>0: {@link #SERVICE_CLASS_NONE}</li>
* <li>1: {@link #SERVICE_CLASS_VOICE}</li>
* </ul>
*/
public static final String KEY_CALL_BARRING_DEFAULT_SERVICE_CLASS_INT =
"call_barring_default_service_class_int";
/**
* This carrier supports dialing USSD codes to enable/disable supplementary services such as
* call forwarding and call waiting over CDMA.
* <p>
* The supplementary service menu will still need to be set as visible, see
* {@link #KEY_CALL_FORWARDING_VISIBILITY_BOOL} and
* {@link #KEY_ADDITIONAL_SETTINGS_CALL_WAITING_VISIBILITY_BOOL}.
* <p>
* If this is set as false and the supplementary service menu is visible, the associated setting
* will be enabled and disabled based on the availability of supplementary services over UT. See
* {@link #KEY_CARRIER_SUPPORTS_SS_OVER_UT_BOOL}.
* @hide
*/
public static final String KEY_SUPPORT_SS_OVER_CDMA_BOOL = "support_ss_over_cdma_bool";
/**
* Flag indicating whether the Phone app should ignore EVENT_SIM_NETWORK_LOCKED
* events from the Sim.
* If true, this will prevent the IccNetworkDepersonalizationPanel from being shown, and
* effectively disable the "Sim network lock" feature.
*/
public static final String KEY_IGNORE_SIM_NETWORK_LOCKED_EVENTS_BOOL =
"ignore_sim_network_locked_events_bool";
/**
* When checking if a given number is the voicemail number, if this flag is true
* then in addition to comparing the given number to the voicemail number, we also compare it
* to the mdn. If this flag is false, the given number is only compared to the voicemail number.
* By default this value is false.
*/
public static final String KEY_MDN_IS_ADDITIONAL_VOICEMAIL_NUMBER_BOOL =
"mdn_is_additional_voicemail_number_bool";
/**
* Flag indicating whether the Phone app should provide a "Dismiss" button on the SIM network
* unlock screen. The default value is true. If set to false, there will be *no way* to dismiss
* the SIM network unlock screen if you don't enter the correct unlock code. (One important
* consequence: there will be no way to make an Emergency Call if your SIM is network-locked and
* you don't know the PIN.)
*/
public static final String KEY_SIM_NETWORK_UNLOCK_ALLOW_DISMISS_BOOL =
"sim_network_unlock_allow_dismiss_bool";
/**
* Flag indicating whether or not sending emergency SMS messages over IMS
* is supported when in LTE/limited LTE (Emergency only) service mode..
*/
public static final String KEY_SUPPORT_EMERGENCY_SMS_OVER_IMS_BOOL =
"support_emergency_sms_over_ims_bool";
/** Flag indicating if the phone is a world phone */
public static final String KEY_WORLD_PHONE_BOOL = "world_phone_bool";
/**
* Flag to require or skip entitlement checks.
* If true, entitlement checks will be executed if device has been configured for it,
* If false, entitlement checks will be skipped.
*/
public static final String KEY_REQUIRE_ENTITLEMENT_CHECKS_BOOL =
"require_entitlement_checks_bool";
/**
* Flag indicating if the carrier supports tethering of mobile data.
*/
public static final String KEY_CARRIER_SUPPORTS_TETHERING_BOOL =
"carrier_supports_tethering_bool";
/**
* Flag indicating whether radio is to be restarted on error PDP_FAIL_REGULAR_DEACTIVATION
* This is false by default.
*
* @deprecated Use {@link #KEY_RADIO_RESTART_FAILURE_CAUSES_INT_ARRAY} instead
*/
@Deprecated
public static final String KEY_RESTART_RADIO_ON_PDP_FAIL_REGULAR_DEACTIVATION_BOOL =
"restart_radio_on_pdp_fail_regular_deactivation_bool";
/**
* A list of failure cause codes that will trigger a modem restart when telephony receiving
* one of those during data setup. The cause codes are defined in 3GPP TS 24.008 Annex I and
* TS 24.301 Annex B.
*/
public static final String KEY_RADIO_RESTART_FAILURE_CAUSES_INT_ARRAY =
"radio_restart_failure_causes_int_array";
/**
* If true, enable vibration (haptic feedback) for key presses in the EmergencyDialer activity.
* The pattern is set on a per-platform basis using config_virtualKeyVibePattern. To be
* consistent with the regular Dialer, this value should agree with the corresponding values
* from config.xml under apps/Contacts.
*/
public static final String KEY_ENABLE_DIALER_KEY_VIBRATION_BOOL =
"enable_dialer_key_vibration_bool";
/** Flag indicating if dtmf tone type is enabled */
public static final String KEY_DTMF_TYPE_ENABLED_BOOL = "dtmf_type_enabled_bool";
/** Flag indicating if auto retry is enabled */
public static final String KEY_AUTO_RETRY_ENABLED_BOOL = "auto_retry_enabled_bool";
/**
* Determine whether we want to play local DTMF tones in a call, or just let the radio/BP handle
* playing of the tones.
*/
public static final String KEY_ALLOW_LOCAL_DTMF_TONES_BOOL = "allow_local_dtmf_tones_bool";
/**
* Determines if the carrier requires that a tone be played to the remote party when an app is
* recording audio during a call (e.g. using a call recording app).
* <p>
* Note: This requires the Telephony config_supports_telephony_audio_device overlay to be true
* in order to work.
* @hide
*/
public static final String KEY_PLAY_CALL_RECORDING_TONE_BOOL = "play_call_recording_tone_bool";
/**
* Determines if the carrier requires converting the destination number before sending out an
* SMS. Certain networks and numbering plans require different formats.
*/
public static final String KEY_SMS_REQUIRES_DESTINATION_NUMBER_CONVERSION_BOOL =
"sms_requires_destination_number_conversion_bool";
/**
* If true, show an onscreen "Dial" button in the dialer. In practice this is used on all
* platforms, even the ones with hard SEND/END keys, but for maximum flexibility it's controlled
* by a flag here (which can be overridden on a per-product basis.)
*/
public static final String KEY_SHOW_ONSCREEN_DIAL_BUTTON_BOOL =
"show_onscreen_dial_button_bool";
/** Determines if device implements a noise suppression device for in call audio. */
public static final String
KEY_HAS_IN_CALL_NOISE_SUPPRESSION_BOOL = "has_in_call_noise_suppression_bool";
/**
* Determines if the current device should allow emergency numbers to be logged in the Call Log.
* (Some carriers require that emergency calls *not* be logged, presumably to avoid the risk of
* accidental redialing from the call log UI. This is a good idea, so the default here is
* false.)
*/
public static final String KEY_ALLOW_EMERGENCY_NUMBERS_IN_CALL_LOG_BOOL =
"allow_emergency_numbers_in_call_log_bool";
/**
* A string array containing numbers that shouldn't be included in the call log.
*/
public static final String KEY_UNLOGGABLE_NUMBERS_STRING_ARRAY =
"unloggable_numbers_string_array";
/** If true, removes the Voice Privacy option from Call Settings */
public static final String KEY_VOICE_PRIVACY_DISABLE_UI_BOOL = "voice_privacy_disable_ui_bool";
/** Control whether users can reach the carrier portions of Cellular Network Settings. */
public static final String
KEY_HIDE_CARRIER_NETWORK_SETTINGS_BOOL = "hide_carrier_network_settings_bool";
/**
* Only allow auto selection in Advanced Network Settings when in home network.
* Manual selection is allowed when in roaming network.
*/
public static final String KEY_ONLY_AUTO_SELECT_IN_HOME_NETWORK_BOOL =
"only_auto_select_in_home_network";
/**
* Flag indicating whether to show single operator row in the choose network setting.
*
* The device configuration value {@code config_enableNewAutoSelectNetworkUI} ultimately
* controls whether this carrier configuration option is used.
* Where {@code config_enableNewAutoSelectNetworkUI} is false, the value of this
* carrier configuration is ignored.
*
* If {@code true}, default value, merge the duplicate networks which with the same plmn, keep
* the one that with the higher signal strength level.
* If {@code false}, show all operators without merging.
* @hide
*/
public static final String KEY_SHOW_SINGLE_OPERATOR_ROW_IN_CHOOSE_NETWORK_SETTING_BOOL =
"show_single_operator_row_in_choose_network_setting_bool";
/**
* Flag indicating whether to display SPN as network name for home network in choose
* network setting.
*
* If {@code true}, display SPN as network name in choose network setting.
* If {@code false}, display PLMN in choose network setting.
* @hide
*/
public static final String KEY_SHOW_SPN_FOR_HOME_IN_CHOOSE_NETWORK_SETTING_BOOL =
"show_spn_for_home_in_choose_network_setting_bool";
/**
* Control whether users receive a simplified network settings UI and improved network
* selection.
*
* @deprecated Never implemented. Has no behavior impact when override. DO NOT USE.
*/
@Deprecated
public static final String KEY_SIMPLIFIED_NETWORK_SETTINGS_BOOL =
"simplified_network_settings_bool";
/** Control whether users can reach the SIM lock settings. */
public static final String KEY_HIDE_SIM_LOCK_SETTINGS_BOOL = "hide_sim_lock_settings_bool";
/** Control whether users can edit APNs in Settings. */
public static final String KEY_APN_EXPAND_BOOL = "apn_expand_bool";
/** Control whether users can choose a network operator. */
public static final String KEY_OPERATOR_SELECTION_EXPAND_BOOL =
"operator_selection_expand_bool";
/**
* Used in the Preferred Network Types menu to determine if the 2G option is displayed.
* Value defaults to false as of Android T to discourage the use of insecure 2G protocols.
*/
public static final String KEY_PREFER_2G_BOOL = "prefer_2g_bool";
/**
* Used in Cellular Network Settings for preferred network type to show 4G only mode.
* @hide
*/
public static final String KEY_4G_ONLY_BOOL = "4g_only_bool";
/** Show cdma network mode choices 1x, 3G, global etc. */
public static final String KEY_SHOW_CDMA_CHOICES_BOOL = "show_cdma_choices_bool";
/** CDMA activation goes through HFA */
public static final String KEY_USE_HFA_FOR_PROVISIONING_BOOL = "use_hfa_for_provisioning_bool";
/**
* CDMA activation goes through OTASP.
*/
// TODO: This should be combined with config_use_hfa_for_provisioning and implemented as an enum
// (NONE, HFA, OTASP).
public static final String KEY_USE_OTASP_FOR_PROVISIONING_BOOL =
"use_otasp_for_provisioning_bool";
/** Display carrier settings menu if true */
public static final String KEY_CARRIER_SETTINGS_ENABLE_BOOL = "carrier_settings_enable_bool";
/** Does not display additional call setting for IMS phone based on GSM Phone */
public static final String KEY_ADDITIONAL_CALL_SETTING_BOOL = "additional_call_setting_bool";
/** Show APN Settings for some CDMA carriers */
public static final String KEY_SHOW_APN_SETTING_CDMA_BOOL = "show_apn_setting_cdma_bool";
/** After a CDMA conference call is merged, the swap button should be displayed. */
public static final String KEY_SUPPORT_SWAP_AFTER_MERGE_BOOL = "support_swap_after_merge_bool";
/**
* Determine whether user can edit voicemail number in Settings.
*/
public static final String KEY_EDITABLE_VOICEMAIL_NUMBER_SETTING_BOOL =
"editable_voicemail_number_setting_bool";
/**
* Since the default voicemail number is empty, if a SIM card does not have a voicemail number
* available the user cannot use voicemail. This flag allows the user to edit the voicemail
* number in such cases, and is false by default.
*/
public static final String KEY_EDITABLE_VOICEMAIL_NUMBER_BOOL =
"editable_voicemail_number_bool";
/**
* Determine whether the voicemail number in Settings is hidden.
* @hide
*/
public static final String KEY_HIDE_VOICEMAIL_NUMBER_SETTING_BOOL =
"hide_voicemail_number_setting_bool";
/**
* Determine whether the voicemail notification is persistent in the notification bar. If true,
* the voicemail notifications cannot be dismissed from the notification bar.
*/
public static final String KEY_VOICEMAIL_NOTIFICATION_PERSISTENT_BOOL =
"voicemail_notification_persistent_bool";
/** For IMS video over LTE calls, determines whether video pause signalling is supported. */
public static final String KEY_SUPPORT_PAUSE_IMS_VIDEO_CALLS_BOOL =
"support_pause_ims_video_calls_bool";
/**
* Disables dialing "*228" (OTASP provisioning) on CDMA carriers where it is not supported or is
* potentially harmful by locking the SIM to 3G.
*/
public static final String KEY_DISABLE_CDMA_ACTIVATION_CODE_BOOL =
"disable_cdma_activation_code_bool";
/**
* List of network type constants which support only a single data connection at a time.
* Some carriers do not support multiple PDP on UMTS.
* @see TelephonyManager NETWORK_TYPE_*
* @see #KEY_ONLY_SINGLE_DC_ALLOWED_INT_ARRAY
*/
public static final String KEY_ONLY_SINGLE_DC_ALLOWED_INT_ARRAY =
"only_single_dc_allowed_int_array";
/**
* Only apply if {@link #KEY_ONLY_SINGLE_DC_ALLOWED_INT_ARRAY} specifies the network types that
* support a single data connection at a time. This key defines a list of network capabilities
* which, if requested, will exempt the request from single data connection checks.
* @see NetworkCapabilities NET_CAPABILITY_*
*/
public static final String KEY_CAPABILITIES_EXEMPT_FROM_SINGLE_DC_CHECK_INT_ARRAY =
"capabilities_exempt_from_single_dc_check_int_array";
/**
* Override the platform's notion of a network operator being considered roaming.
* Value is string array of MCCMNCs to be considered roaming for 3GPP RATs.
*/
public static final String KEY_GSM_ROAMING_NETWORKS_STRING_ARRAY =
"gsm_roaming_networks_string_array";
/**
* Override the platform's notion of a network operator being considered not roaming.
* Value is string array of MCCMNCs to be considered not roaming for 3GPP RATs.
*/
public static final String KEY_GSM_NONROAMING_NETWORKS_STRING_ARRAY =
"gsm_nonroaming_networks_string_array";
/**
* The package name containing the ImsService that will be bound to the telephony framework to
* support both IMS MMTEL and RCS feature functionality instead of the device default
* ImsService for this subscription.
* @deprecated Use {@link #KEY_CONFIG_IMS_MMTEL_PACKAGE_OVERRIDE_STRING} and
* {@link #KEY_CONFIG_IMS_RCS_PACKAGE_OVERRIDE_STRING} instead to configure these values
* separately. If any of those values are not empty, they will override this value.
*/
@Deprecated
public static final String KEY_CONFIG_IMS_PACKAGE_OVERRIDE_STRING =
"config_ims_package_override_string";
/**
* The package name containing the ImsService that will be bound to the telephony framework to
* support IMS MMTEL feature functionality instead of the device default ImsService for this
* subscription.
*/
public static final String KEY_CONFIG_IMS_MMTEL_PACKAGE_OVERRIDE_STRING =
"config_ims_mmtel_package_override_string";
/**
* The package name containing the ImsService that will be bound to the telephony framework to
* support IMS RCS feature functionality instead of the device default ImsService for this
* subscription.
*/
public static final String KEY_CONFIG_IMS_RCS_PACKAGE_OVERRIDE_STRING =
"config_ims_rcs_package_override_string";
/**
* Override the package that will manage {@link SubscriptionPlan}
* information instead of the {@link CarrierService} that defines this
* value.
*
* @see SubscriptionManager#getSubscriptionPlans(int)
* @see SubscriptionManager#setSubscriptionPlans(int, java.util.List)
*/
public static final String KEY_CONFIG_PLANS_PACKAGE_OVERRIDE_STRING =
"config_plans_package_override_string";
/**
* Override the platform's notion of a network operator being considered roaming.
* Value is string array of SIDs to be considered roaming for 3GPP2 RATs.
*/
public static final String
KEY_CDMA_ROAMING_NETWORKS_STRING_ARRAY = "cdma_roaming_networks_string_array";
/**
* Override the platform's notion of a network operator being considered non roaming.
* Value is string array of SIDs to be considered not roaming for 3GPP2 RATs.
*/
public static final String
KEY_CDMA_NONROAMING_NETWORKS_STRING_ARRAY = "cdma_nonroaming_networks_string_array";
/**
* Override the platform's notion of a network operator being considered non roaming.
* If true all networks are considered as home network a.k.a. non-roaming. When false,
* the 2 pairs of CMDA and GSM roaming/non-roaming arrays are consulted.
*
* @see #KEY_GSM_ROAMING_NETWORKS_STRING_ARRAY
* @see #KEY_GSM_NONROAMING_NETWORKS_STRING_ARRAY
* @see #KEY_CDMA_ROAMING_NETWORKS_STRING_ARRAY
* @see #KEY_CDMA_NONROAMING_NETWORKS_STRING_ARRAY
*/
public static final String
KEY_FORCE_HOME_NETWORK_BOOL = "force_home_network_bool";
/**
* Flag specifying whether VoLTE should be available for carrier, independent of carrier
* provisioning. If false: hard disabled. If true: then depends on carrier provisioning,
* availability, etc.
*/
public static final String KEY_CARRIER_VOLTE_AVAILABLE_BOOL = "carrier_volte_available_bool";
/**
* Flag specifying whether video telephony is available for carrier. If false: hard disabled.
* If true: then depends on carrier provisioning, availability, etc.
*/
public static final String KEY_CARRIER_VT_AVAILABLE_BOOL = "carrier_vt_available_bool";
/**
* Specify the method of selection for UE sending USSD requests. The default value is
* {@link #USSD_OVER_CS_PREFERRED}.
* <p> Available options:
* <ul>
* <li>0: {@link #USSD_OVER_CS_PREFERRED} </li>
* <li>1: {@link #USSD_OVER_IMS_PREFERRED} </li>
* <li>2: {@link #USSD_OVER_CS_ONLY} </li>
* <li>3: {@link #USSD_OVER_IMS_ONLY} </li>
* </ul>
*/
public static final String KEY_CARRIER_USSD_METHOD_INT = "carrier_ussd_method_int";
/**
* Flag specifying whether to show an alert dialog for 5G disable when the user disables VoLTE.
* By default this value is {@code false}.
*
* @hide
*/
public static final String KEY_VOLTE_5G_LIMITED_ALERT_DIALOG_BOOL =
"volte_5g_limited_alert_dialog_bool";
/**
* Flag specifying whether the carrier wants to notify the user when a VT call has been handed
* over from WIFI to LTE.
* <p>
* The handover notification is sent as a
* {@link TelephonyManager#EVENT_HANDOVER_VIDEO_FROM_WIFI_TO_LTE}
* {@link android.telecom.Connection} event, which an {@link android.telecom.InCallService}
* should use to trigger the display of a user-facing message.
* <p>
* The Connection event is sent to the InCallService only once, the first time it occurs.
* @hide
*/
public static final String KEY_NOTIFY_HANDOVER_VIDEO_FROM_WIFI_TO_LTE_BOOL =
"notify_handover_video_from_wifi_to_lte_bool";
/**
* Flag specifying whether the carrier supports merging a RTT call with a voice call,
* downgrading the call in the process.
* @hide
*/
public static final String KEY_ALLOW_MERGING_RTT_CALLS_BOOL = "allow_merging_rtt_calls_bool";
/**
* Flag specifying whether the carrier wants to notify the user when a VT call has been handed
* over from LTE to WIFI.
* <p>
* The handover notification is sent as a
* {@link TelephonyManager#EVENT_HANDOVER_VIDEO_FROM_LTE_TO_WIFI}
* {@link android.telecom.Connection} event, which an {@link android.telecom.InCallService}
* should use to trigger the display of a user-facing message.
* @hide
*/
public static final String KEY_NOTIFY_HANDOVER_VIDEO_FROM_LTE_TO_WIFI_BOOL =
"notify_handover_video_from_lte_to_wifi_bool";
/**
* Flag specifying whether the carrier supports downgrading a video call (tx, rx or tx/rx)
* directly to an audio call.
* @hide
*/
public static final String KEY_SUPPORT_DOWNGRADE_VT_TO_AUDIO_BOOL =
"support_downgrade_vt_to_audio_bool";
/**
* Where there is no preloaded voicemail number on a SIM card, specifies the carrier's default
* voicemail number.
* When empty string, no default voicemail number is specified.
*/
public static final String KEY_DEFAULT_VM_NUMBER_STRING = "default_vm_number_string";
/**
* Where there is no preloaded voicemail number on a SIM card, specifies the carrier's default
* voicemail number for roaming network.
* When empty string, no default voicemail number is specified for roaming network.
* @hide
*/
public static final String KEY_DEFAULT_VM_NUMBER_ROAMING_STRING =
"default_vm_number_roaming_string";
/**
* Where there is no preloaded voicemail number on a SIM card, specifies the carrier's default
* voicemail number while the device is both roaming and not registered for IMS.
* When empty string, no default voicemail number is specified for roaming network and
* unregistered state in IMS.
*/
public static final String KEY_DEFAULT_VM_NUMBER_ROAMING_AND_IMS_UNREGISTERED_STRING =
"default_vm_number_roaming_and_ims_unregistered_string";
/**
* Flag that specifies to use the user's own phone number as the voicemail number when there is
* no pre-loaded voicemail number on the SIM card.
* <p>
* {@link #KEY_DEFAULT_VM_NUMBER_STRING} takes precedence over this flag.
* <p>
* If false, the system default (*86) will be used instead.
*/
public static final String KEY_CONFIG_TELEPHONY_USE_OWN_NUMBER_FOR_VOICEMAIL_BOOL =
"config_telephony_use_own_number_for_voicemail_bool";
/**
* When {@code true}, changes to the mobile data enabled switch will not cause the VT
* registration state to change. That is, turning on or off mobile data will not cause VT to be
* enabled or disabled.
* When {@code false}, disabling mobile data will cause VT to be de-registered.
*/
public static final String KEY_IGNORE_DATA_ENABLED_CHANGED_FOR_VIDEO_CALLS =
"ignore_data_enabled_changed_for_video_calls";
/**
* Flag indicating whether data used for a video call over LTE is metered or not.
* <p>
* When {@code true}, if the device hits the data limit or data is disabled during a ViLTE call,
* the call will be downgraded to audio-only (or paused if
* {@link #KEY_SUPPORT_PAUSE_IMS_VIDEO_CALLS_BOOL} is {@code true}).
*
* @hide
*/
public static final String KEY_VILTE_DATA_IS_METERED_BOOL = "vilte_data_is_metered_bool";
/**
* Flag specifying whether WFC over IMS should be available for carrier: independent of
* carrier provisioning. If false: hard disabled. If true: then depends on carrier
* provisioning, availability etc.
*/
public static final String KEY_CARRIER_WFC_IMS_AVAILABLE_BOOL =
"carrier_wfc_ims_available_bool";
/**
* Flag specifying whether Cross SIM over IMS should be available for carrier.
* When {@code false} the carrier does not support cross SIM calling.
* When {@code true} the carrier does support cross sim calling, where available
*/
public static final String KEY_CARRIER_CROSS_SIM_IMS_AVAILABLE_BOOL =
"carrier_cross_sim_ims_available_bool";
/**
* Flag specifying whether cross sim calling on opportunistic data is supported for carrier.
* When {@code false} the carrier does not support cross sim calling on opportunistic data.
* When {@code true} the carrier does support cross sim calling on opportunistic data.
*/
public static final String KEY_ENABLE_CROSS_SIM_CALLING_ON_OPPORTUNISTIC_DATA_BOOL =
"enable_cross_sim_calling_on_opportunistic_data_bool";
/**
* Specifies a map from dialstrings to replacements for roaming network service numbers which
* cannot be replaced on the carrier side.
* <p>
* Individual entries have the format:
* [dialstring to replace]:[replacement]
*/
public static final String KEY_DIAL_STRING_REPLACE_STRING_ARRAY =
"dial_string_replace_string_array";
/**
* Specifies a map from dialstrings to replacements for international roaming network service
* numbers which cannot be replaced on the carrier side.
* <p>
* Individual entries have the format:
* [dialstring to replace]:[replacement]
* @hide
*/
public static final String KEY_INTERNATIONAL_ROAMING_DIAL_STRING_REPLACE_STRING_ARRAY =
"international_roaming_dial_string_replace_string_array";
/**
* Flag specifying whether WFC over IMS supports the "wifi only" option. If false, the wifi
* calling settings will not include an option for "wifi only". If true, the wifi calling
* settings will include an option for "wifi only"
* <p>
* By default, it is assumed that WFC supports "wifi only".
*/
public static final String KEY_CARRIER_WFC_SUPPORTS_WIFI_ONLY_BOOL =
"carrier_wfc_supports_wifi_only_bool";
/**
* Default mode for WFC over IMS on home network:
* <ul>
* <li>0: Wi-Fi only
* <li>1: prefer mobile network
* <li>2: prefer Wi-Fi
* </ul>
*/
public static final String KEY_CARRIER_DEFAULT_WFC_IMS_MODE_INT =
"carrier_default_wfc_ims_mode_int";
/**
* Default mode for WFC over IMS on roaming network.
* See {@link #KEY_CARRIER_DEFAULT_WFC_IMS_MODE_INT} for meaning of values.
*/
public static final String KEY_CARRIER_DEFAULT_WFC_IMS_ROAMING_MODE_INT =
"carrier_default_wfc_ims_roaming_mode_int";
/**
* Default WFC_IMS_enabled: true VoWiFi by default is on
* false VoWiFi by default is off
*/
public static final String KEY_CARRIER_DEFAULT_WFC_IMS_ENABLED_BOOL =
"carrier_default_wfc_ims_enabled_bool";
/**
* Default WFC_IMS_roaming_enabled: true VoWiFi roaming by default is on
* false VoWiFi roaming by default is off
* @hide
*/
public static final String KEY_CARRIER_DEFAULT_WFC_IMS_ROAMING_ENABLED_BOOL =
"carrier_default_wfc_ims_roaming_enabled_bool";
/**
* Flag indicating whether failed calls due to no service should prompt the user to enable
* WIFI calling. When {@code true}, if the user attempts to establish a call when there is no
* service available, they are connected to WIFI, and WIFI calling is disabled, a different
* call failure message will be used to encourage the user to enable WIFI calling.
* @hide
*/
public static final String KEY_CARRIER_PROMOTE_WFC_ON_CALL_FAIL_BOOL =
"carrier_promote_wfc_on_call_fail_bool";
/**
* Flag specifying whether provisioning is required for RCS.
*/
public static final String KEY_CARRIER_RCS_PROVISIONING_REQUIRED_BOOL =
"carrier_rcs_provisioning_required_bool";
/**
* Flag specifying whether provisioning is required for VoLTE, Video Telephony, and WiFi
* Calling.
* Combines VoLTE, VT, VoWiFI calling provisioning into one parameter.
* @deprecated Use {@link Ims#KEY_MMTEL_REQUIRES_PROVISIONING_BUNDLE} instead for
* finer-grained control.
* changing carrier_volte_provisioning_required_bool requires changes to
* mmtel_requires_provisioning_bundle and vice versa
* {@link Ims#KEY_MMTEL_REQUIRES_PROVISIONING_BUNDLE}
*/
@Deprecated
public static final String KEY_CARRIER_VOLTE_PROVISIONING_REQUIRED_BOOL =
"carrier_volte_provisioning_required_bool";
/**
* Flag indicating whether or not the IMS MmTel UT capability requires carrier provisioning
* before it can be set as enabled.
*
* If true, the UT capability will be set to false for the newly loaded subscription
* and will require the carrier provisioning app to set the persistent provisioning result.
* If false, the platform will not wait for provisioning status updates for the UT capability
* and enable the UT over IMS capability for the subscription when the subscription is loaded.
*
* The default value for this key is {@code false}.
*
* @deprecated Use {@link Ims#KEY_MMTEL_REQUIRES_PROVISIONING_BUNDLE} instead for
* determining if UT requires provisioning.
*/
@Deprecated
public static final String KEY_CARRIER_UT_PROVISIONING_REQUIRED_BOOL =
"carrier_ut_provisioning_required_bool";
/**
* Flag indicating whether or not the carrier supports Supplementary Services over the UT
* interface for this subscription.
*
* If true, the device will use Supplementary Services over UT when provisioned (see
* {@link #KEY_CARRIER_UT_PROVISIONING_REQUIRED_BOOL}). If false, this device will fallback to
* circuit switch for supplementary services and will disable this capability for IMS entirely.
*
* The default value for this key is {@code false}.
*/
public static final String KEY_CARRIER_SUPPORTS_SS_OVER_UT_BOOL =
"carrier_supports_ss_over_ut_bool";
/**
* Flag specifying if WFC provisioning depends on VoLTE provisioning.
*
* {@code false}: default value; honor actual WFC provisioning state.
* {@code true}: when VoLTE is not provisioned, treat WFC as not provisioned; when VoLTE is
* provisioned, honor actual WFC provisioning state.
*
* As of now, Verizon is the only carrier enforcing this dependency in their
* WFC awareness and activation requirements.
*/
public static final String KEY_CARRIER_VOLTE_OVERRIDE_WFC_PROVISIONING_BOOL =
"carrier_volte_override_wfc_provisioning_bool";
/**
* Override the device's configuration for the cellular data service to use for this SIM card.
* @hide
*/
public static final String KEY_CARRIER_DATA_SERVICE_WWAN_PACKAGE_OVERRIDE_STRING =
"carrier_data_service_wwan_package_override_string";
/**
* Override the device's configuration for the IWLAN data service to use for this SIM card.
* @hide
*/
public static final String KEY_CARRIER_DATA_SERVICE_WLAN_PACKAGE_OVERRIDE_STRING =
"carrier_data_service_wlan_package_override_string";
/**
* Override the device's configuration for the cellular data service class to use
* for this SIM card.
* @hide
*/
public static final String KEY_CARRIER_DATA_SERVICE_WWAN_CLASS_OVERRIDE_STRING =
"carrier_data_service_wwan_class_override_string";
/**
* Override the device's configuration for the IWLAN data service class to use
* for this SIM card.
* @hide
*/
public static final String KEY_CARRIER_DATA_SERVICE_WLAN_CLASS_OVERRIDE_STRING =
"carrier_data_service_wlan_class_override_string";
/** Flag specifying whether VoLTE TTY is supported. */
public static final String KEY_CARRIER_VOLTE_TTY_SUPPORTED_BOOL =
"carrier_volte_tty_supported_bool";
/** Flag specifying whether VoWIFI TTY is supported.
* @hide
*/
public static final String KEY_CARRIER_VOWIFI_TTY_SUPPORTED_BOOL =
"carrier_vowifi_tty_supported_bool";
/**
* Flag specifying whether IMS service can be turned off. If false then the service will not be
* turned-off completely, but individual features can be disabled.
*/
public static final String KEY_CARRIER_ALLOW_TURNOFF_IMS_BOOL =
"carrier_allow_turnoff_ims_bool";
/**
* Flag specifying whether Generic Bootstrapping Architecture capable SIM is required for IMS.
*/
public static final String KEY_CARRIER_IMS_GBA_REQUIRED_BOOL =
"carrier_ims_gba_required_bool";
/**
* Flag specifying whether IMS instant lettering is available for the carrier. {@code True} if
* instant lettering is available for the carrier, {@code false} otherwise.
*/
public static final String KEY_CARRIER_INSTANT_LETTERING_AVAILABLE_BOOL =
"carrier_instant_lettering_available_bool";
/**
* Flag specifying whether IMS should be the first phone attempted for E911 even if the
* phone is not in service.
*/
public static final String KEY_CARRIER_USE_IMS_FIRST_FOR_EMERGENCY_BOOL =
"carrier_use_ims_first_for_emergency_bool";
/**
* When {@code true}, this carrier will preferentially dial normal routed emergency calls over
* an in-service SIM if one is available.
* @hide
*/
public static final String KEY_PREFER_IN_SERVICE_SIM_FOR_NORMAL_ROUTED_EMERGENCY_CALLS_BOOL =
"prefer_in_service_sim_for_normal_routed_emergency_calls_bool";
/**
* When {@code true}, the determination of whether to place a call as an emergency call will be
* based on the known {@link android.telephony.emergency.EmergencyNumber}s for the SIM on which
* the call is being placed. In a dual SIM scenario, if Sim A has the emergency numbers
* 123, 456 and Sim B has the emergency numbers 789, and the user places a call on SIM A to 789,
* it will not be treated as an emergency call in this case.
* When {@code false}, the determination is based on the emergency numbers from all device SIMs,
* regardless of which SIM the call is being placed on. If Sim A has the emergency numbers
* 123, 456 and Sim B has the emergency numbers 789, and the user places a call on SIM A to 789,
* the call will be dialed as an emergency number, but with an unspecified routing.
* @hide
*/
public static final String KEY_USE_ONLY_DIALED_SIM_ECC_LIST_BOOL =
"use_only_dialed_sim_ecc_list_bool";
/**
* When IMS instant lettering is available for a carrier (see
* {@link #KEY_CARRIER_INSTANT_LETTERING_AVAILABLE_BOOL}), determines the list of characters
* which may not be contained in messages. Should be specified as a regular expression suitable
* for use with {@link String#matches(String)}.
*/
public static final String KEY_CARRIER_INSTANT_LETTERING_INVALID_CHARS_STRING =
"carrier_instant_lettering_invalid_chars_string";
/**
* When IMS instant lettering is available for a carrier (see
* {@link #KEY_CARRIER_INSTANT_LETTERING_AVAILABLE_BOOL}), determines a list of characters which
* must be escaped with a backslash '\' character. Should be specified as a string containing
* the characters to be escaped. For example to escape quote and backslash the string would be
* a quote and a backslash.
*/
public static final String KEY_CARRIER_INSTANT_LETTERING_ESCAPED_CHARS_STRING =
"carrier_instant_lettering_escaped_chars_string";
/**
* When IMS instant lettering is available for a carrier (see
* {@link #KEY_CARRIER_INSTANT_LETTERING_AVAILABLE_BOOL}), determines the character encoding
* which will be used when determining the length of messages. Used in the InCall UI to limit
* the number of characters the user may type. If empty-string, the instant lettering
* message size limit will be enforced on a 1:1 basis. That is, each character will count
* towards the messages size limit as a single byte. If a character encoding is specified, the
* message size limit will be based on the number of bytes in the message per the specified
* encoding.
*/
public static final String KEY_CARRIER_INSTANT_LETTERING_ENCODING_STRING =
"carrier_instant_lettering_encoding_string";
/**
* When IMS instant lettering is available for a carrier (see
* {@link #KEY_CARRIER_INSTANT_LETTERING_AVAILABLE_BOOL}), the length limit for messages. Used
* in the InCall UI to ensure the user cannot enter more characters than allowed by the carrier.
* See also {@link #KEY_CARRIER_INSTANT_LETTERING_ENCODING_STRING} for more information on how
* the length of the message is calculated.
*/
public static final String KEY_CARRIER_INSTANT_LETTERING_LENGTH_LIMIT_INT =
"carrier_instant_lettering_length_limit_int";
/**
* If Voice Radio Technology is RIL_RADIO_TECHNOLOGY_LTE:14 or RIL_RADIO_TECHNOLOGY_UNKNOWN:0
* this is the value that should be used instead. A configuration value of
* RIL_RADIO_TECHNOLOGY_UNKNOWN:0 means there is no replacement value and that the default
* assumption for phone type (GSM) should be used.
*/
public static final String KEY_VOLTE_REPLACEMENT_RAT_INT = "volte_replacement_rat_int";
/**
* The default sim call manager to use when the default dialer doesn't implement one. A sim call
* manager can control and route outgoing and incoming phone calls, even if they're placed
* using another connection service (PSTN, for example).
*/
public static final String KEY_DEFAULT_SIM_CALL_MANAGER_STRING =
"default_sim_call_manager_string";
/**
* The default flag specifying whether ETWS/CMAS test setting is forcibly disabled in
* Settings->More->Emergency broadcasts menu even though developer options is turned on.
* @deprecated Use {@code com.android.cellbroadcastreceiver.CellBroadcastReceiver} resource
* {@code show_test_settings} to control whether to show test alert settings or not.
*/
@Deprecated
public static final String KEY_CARRIER_FORCE_DISABLE_ETWS_CMAS_TEST_BOOL =
"carrier_force_disable_etws_cmas_test_bool";
/**
* The default flag specifying whether "Allow alerts" option will be always shown in
* emergency alerts settings regardless developer options is turned on or not.
*
* @deprecated The allow alerts option is always shown now. No longer need a config for that.
*/
@Deprecated
public static final String KEY_ALWAYS_SHOW_EMERGENCY_ALERT_ONOFF_BOOL =
"always_show_emergency_alert_onoff_bool";
/**
* Default mobile network MTU value, in bytes.
* @hide
*/
public static final String KEY_DEFAULT_MTU_INT = "default_mtu_int";
/**
* Delay in milliseconds for retrying APN after disconnect
* @hide
*/
public static final String KEY_CARRIER_DATA_CALL_APN_RETRY_AFTER_DISCONNECT_LONG =
"carrier_data_call_apn_retry_after_disconnect_long";
/**
* Data call setup permanent failure causes by the carrier.
*
* @deprecated This API key was added in mistake and is not used anymore by the telephony data
* frameworks.
*/
@Deprecated
public static final String KEY_CARRIER_DATA_CALL_PERMANENT_FAILURE_STRINGS =
"carrier_data_call_permanent_failure_strings";
/**
* A string array indicating the default APN types that are metered by the carrier.
*
* The string in the array is the name of the APN type. For example, "default" for
* {@link ApnSetting#TYPE_DEFAULT}, "mms" for {@link ApnSetting#TYPE_MMS}, etc.
*
* The default value is {@code {"default", "mms", "dun", "supl"}}.
*
* @see ApnSetting#TYPE_DEFAULT
* @see ApnSetting#TYPE_MMS
* @see ApnSetting#TYPE_SUPL
* @see ApnSetting#TYPE_DUN
* @see ApnSetting#TYPE_HIPRI
* @see ApnSetting#TYPE_FOTA
* @see ApnSetting#TYPE_IMS
* @see ApnSetting#TYPE_CBS
* @see ApnSetting#TYPE_IA
* @see ApnSetting#TYPE_EMERGENCY
* @see ApnSetting#TYPE_MCX
* @see ApnSetting#TYPE_XCAP
* @see ApnSetting#TYPE_BIP
* @see ApnSetting#TYPE_VSIM
* @see ApnSetting#TYPE_ENTERPRISE
*/
public static final String KEY_CARRIER_METERED_APN_TYPES_STRINGS =
"carrier_metered_apn_types_strings";
/**
* A string array indicating the default APN types that are roaming-metered by the carrier.
*
* The string in the array is the name of the APN type. For example, "default" for
* {@link ApnSetting#TYPE_DEFAULT}, "mms" for {@link ApnSetting#TYPE_MMS}, etc.
*
* The default value is {@code {"default", "mms", "dun", "supl"}}.
*
* @see ApnSetting#TYPE_DEFAULT
* @see ApnSetting#TYPE_MMS
* @see ApnSetting#TYPE_SUPL
* @see ApnSetting#TYPE_DUN
* @see ApnSetting#TYPE_HIPRI
* @see ApnSetting#TYPE_FOTA
* @see ApnSetting#TYPE_IMS
* @see ApnSetting#TYPE_CBS
* @see ApnSetting#TYPE_IA
* @see ApnSetting#TYPE_EMERGENCY
* @see ApnSetting#TYPE_MCX
* @see ApnSetting#TYPE_XCAP
* @see ApnSetting#TYPE_BIP
* @see ApnSetting#TYPE_VSIM
* @see ApnSetting#TYPE_ENTERPRISE
*/
public static final String KEY_CARRIER_METERED_ROAMING_APN_TYPES_STRINGS =
"carrier_metered_roaming_apn_types_strings";
/**
* CDMA carrier ERI (Enhanced Roaming Indicator) file name
* @hide
*/
public static final String KEY_CARRIER_ERI_FILE_NAME_STRING = "carrier_eri_file_name_string";
/* The following 3 fields are related to carrier visual voicemail. */
/**
* The carrier number mobile outgoing (MO) sms messages are sent to.
*/
public static final String KEY_VVM_DESTINATION_NUMBER_STRING = "vvm_destination_number_string";
/**
* The port through which the mobile outgoing (MO) sms messages are sent through.
*/
public static final String KEY_VVM_PORT_NUMBER_INT = "vvm_port_number_int";
/**
* The type of visual voicemail protocol the carrier adheres to. See {@link TelephonyManager}
* for possible values. For example {@link TelephonyManager#VVM_TYPE_OMTP}.
*/
public static final String KEY_VVM_TYPE_STRING = "vvm_type_string";
/**
* Whether cellular data is required to access visual voicemail.
*/
public static final String KEY_VVM_CELLULAR_DATA_REQUIRED_BOOL =
"vvm_cellular_data_required_bool";
/**
* The default OMTP visual voicemail client prefix to use. Defaulted to "//VVM"
*/
public static final String KEY_VVM_CLIENT_PREFIX_STRING = "vvm_client_prefix_string";
/**
* Whether to use SSL to connect to the visual voicemail IMAP server. Defaulted to false.
*/
public static final String KEY_VVM_SSL_ENABLED_BOOL = "vvm_ssl_enabled_bool";
/**
* A set of capabilities that should not be used even if it is reported by the visual voicemail
* IMAP CAPABILITY command.
*/
public static final String KEY_VVM_DISABLED_CAPABILITIES_STRING_ARRAY =
"vvm_disabled_capabilities_string_array";
/**
* Whether legacy mode should be used when the visual voicemail client is disabled.
*
* <p>Legacy mode is a mode that on the carrier side visual voicemail is still activated, but on
* the client side all network operations are disabled. SMSs are still monitored so a new
* message SYNC SMS will be translated to show a message waiting indicator, like traditional
* voicemails.
*
* <p>This is for carriers that does not support VVM deactivation so voicemail can continue to
* function without the data cost.
*/
public static final String KEY_VVM_LEGACY_MODE_ENABLED_BOOL = "vvm_legacy_mode_enabled_bool";
/**
* Whether to prefetch audio data on new voicemail arrival, defaulted to true.
*/
public static final String KEY_VVM_PREFETCH_BOOL = "vvm_prefetch_bool";
/**
* The package name of the carrier's visual voicemail app to ensure that dialer visual voicemail
* and carrier visual voicemail are not active at the same time.
*
* @deprecated use {@link #KEY_CARRIER_VVM_PACKAGE_NAME_STRING_ARRAY}.
*/
@Deprecated
public static final String KEY_CARRIER_VVM_PACKAGE_NAME_STRING =
"carrier_vvm_package_name_string";
/**
* A list of the carrier's visual voicemail app package names to ensure that dialer visual
* voicemail and carrier visual voicemail are not active at the same time.
*/
public static final String KEY_CARRIER_VVM_PACKAGE_NAME_STRING_ARRAY =
"carrier_vvm_package_name_string_array";
/**
* Flag specifying whether ICCID is showed in SIM Status screen, default to false.
*/
public static final String KEY_SHOW_ICCID_IN_SIM_STATUS_BOOL = "show_iccid_in_sim_status_bool";
/**
* Flag specifying whether the {@link android.telephony.SignalStrength} is shown in the SIM
* Status screen. The default value is true.
*/
public static final String KEY_SHOW_SIGNAL_STRENGTH_IN_SIM_STATUS_BOOL =
"show_signal_strength_in_sim_status_bool";
/**
* Flag specifying if we should interpret all signal strength as one bar higher
* This is a replacement for the former resource config_inflateSignalStrength
* The default value is false.
* @hide
*/
public static final String KEY_INFLATE_SIGNAL_STRENGTH_BOOL =
"inflate_signal_strength_bool";
/**
* Flag specifying whether an additional (client initiated) intent needs to be sent on System
* update
*/
public static final String KEY_CI_ACTION_ON_SYS_UPDATE_BOOL = "ci_action_on_sys_update_bool";
/**
* Intent to be sent for the additional action on System update
*/
public static final String KEY_CI_ACTION_ON_SYS_UPDATE_INTENT_STRING =
"ci_action_on_sys_update_intent_string";
/**
* Extra to be included in the intent sent for additional action on System update
*/
public static final String KEY_CI_ACTION_ON_SYS_UPDATE_EXTRA_STRING =
"ci_action_on_sys_update_extra_string";
/**
* Value of extra included in intent sent for additional action on System update
*/
public static final String KEY_CI_ACTION_ON_SYS_UPDATE_EXTRA_VAL_STRING =
"ci_action_on_sys_update_extra_val_string";
/**
* Specifies the amount of gap to be added in millis between postdial DTMF tones. When a
* non-zero value is specified, the UE shall wait for the specified amount of time before it
* sends out successive DTMF tones on the network.
*/
public static final String KEY_GSM_DTMF_TONE_DELAY_INT = "gsm_dtmf_tone_delay_int";
/**
* Specifies the amount of gap to be added in millis between DTMF tones. When a non-zero value
* is specified, the UE shall wait for the specified amount of time before it sends out
* successive DTMF tones on the network.
*/
public static final String KEY_IMS_DTMF_TONE_DELAY_INT = "ims_dtmf_tone_delay_int";
/**
* Specifies the amount of gap to be added in millis between postdial DTMF tones. When a
* non-zero value is specified, the UE shall wait for the specified amount of time before it
* sends out successive DTMF tones on the network.
*/
public static final String KEY_CDMA_DTMF_TONE_DELAY_INT = "cdma_dtmf_tone_delay_int";
/**
* Some carriers will send call forwarding responses for voicemail in a format that is not 3gpp
* compliant, which causes issues during parsing. This causes the
* {@link com.android.internal.telephony.CallForwardInfo#number} to contain non-numerical
* characters instead of a number.
*
* If true, we will detect the non-numerical characters and replace them with "Voicemail".
* @hide
*/
public static final String KEY_CALL_FORWARDING_MAP_NON_NUMBER_TO_VOICEMAIL_BOOL =
"call_forwarding_map_non_number_to_voicemail_bool";
/**
* When {@code true}, the phone will always tell the IMS stack to keep RTT enabled and
* determine on a per-call basis (based on extras from the dialer app) whether a call should be
* an RTT call or not.
*
* When {@code false}, the old behavior is used, where the toggle in accessibility settings is
* used to set the IMS stack's RTT enabled state.
*/
public static final String KEY_IGNORE_RTT_MODE_SETTING_BOOL =
"ignore_rtt_mode_setting_bool";
/**
* Determines whether adhoc conference calls are supported by a carrier. When {@code true},
* adhoc conference calling is supported, {@code false otherwise}.
*/
public static final String KEY_SUPPORT_ADHOC_CONFERENCE_CALLS_BOOL =
"support_adhoc_conference_calls_bool";
/**
* Determines whether conference participants can be added to existing call to form an adhoc
* conference call (in contrast to merging calls to form a conference). When {@code true},
* adding conference participants to existing call is supported, {@code false otherwise}.
*/
public static final String KEY_SUPPORT_ADD_CONFERENCE_PARTICIPANTS_BOOL =
"support_add_conference_participants_bool";
/**
* Determines whether conference calls are supported by a carrier. When {@code true},
* conference calling is supported, {@code false otherwise}.
*/
public static final String KEY_SUPPORT_CONFERENCE_CALL_BOOL = "support_conference_call_bool";
/**
* Determines whether a maximum size limit for IMS conference calls is enforced on the device.
* When {@code true}, IMS conference calls will be limited to at most
* {@link #KEY_IMS_CONFERENCE_SIZE_LIMIT_INT} participants. When {@code false}, no attempt is
* made to limit the number of participants in a conference (the carrier will raise an error
* when an attempt is made to merge too many participants into a conference).
* <p>
* Note: The maximum size of a conference can ONLY be supported where
* {@link #KEY_SUPPORT_IMS_CONFERENCE_EVENT_PACKAGE_BOOL} is {@code true} since the platform
* needs conference event package data to accurately know the number of participants in the
* conference.
*/
public static final String KEY_IS_IMS_CONFERENCE_SIZE_ENFORCED_BOOL =
"is_ims_conference_size_enforced_bool";
/**
* Determines the maximum number of participants the carrier supports for a conference call.
* This number is exclusive of the current device. A conference between 3 devices, for example,
* would have a size limit of 2 participants.
* Enforced when {@link #KEY_IS_IMS_CONFERENCE_SIZE_ENFORCED_BOOL} is {@code true}.
*/
public static final String KEY_IMS_CONFERENCE_SIZE_LIMIT_INT = "ims_conference_size_limit_int";
/**
* Determines whether manage IMS conference calls is supported by a carrier. When {@code true},
* manage IMS conference call is supported, {@code false otherwise}.
* @hide
*/
public static final String KEY_SUPPORT_MANAGE_IMS_CONFERENCE_CALL_BOOL =
"support_manage_ims_conference_call_bool";
/**
* Determines whether the IMS conference merge process supports and returns its participants
* data. When {@code true}, on merge complete, conference call would have a list of its
* participants returned in XML format, {@code false otherwise}.
*/
public static final String KEY_SUPPORT_IMS_CONFERENCE_EVENT_PACKAGE_BOOL =
"support_ims_conference_event_package_bool";
/**
* Determines whether processing of conference event package data received on a device other
* than the conference host is supported.
* <p>
* When a device A merges calls B and C into a conference it is considered the conference host
* and B and C are considered the conference peers.
* <p>
* When {@code true}, the conference peer will display the conference state if it receives
* conference event package data from the network. When {@code false}, the conference peer will
* ignore conference event package data received from the network.
* @hide
*/
public static final String KEY_SUPPORT_IMS_CONFERENCE_EVENT_PACKAGE_ON_PEER_BOOL =
"support_ims_conference_event_package_on_peer_bool";
/**
* Indicates whether the carrier supports the use of RFC8285 compliant RTP header extensions for
* the purpose of device to device communication while in a call.
* <p>
* See also {@link #KEY_SUPPORTS_SDP_NEGOTIATION_OF_D2D_RTP_HEADER_EXTENSIONS_BOOL}.
*/
public static final String KEY_SUPPORTS_DEVICE_TO_DEVICE_COMMUNICATION_USING_RTP_BOOL =
"supports_device_to_device_communication_using_rtp_bool";
/**
* Indicates whether the carrier supports the negotiations of RFC8285 compliant RTP header
* extensions supported on a call during the Session Description Protocol (SDP). This option
* is only used when {@link #KEY_SUPPORTS_DEVICE_TO_DEVICE_COMMUNICATION_USING_RTP_BOOL} is
* {@code true}.
* <p>
* When {@code true}, the RTP header extensions the platform uses for device to device
* communication will be offered to the remote end during the SDP negotiation process.
* When {@code false}, the RTP header extensions will not be negotiated during the SDP
* negotiation process and the platform will send RTP header extensions without prior
* negotiation if {@link #KEY_SUPPORTS_DEVICE_TO_DEVICE_COMMUNICATION_USING_RTP_BOOL} is
* {@code true}.
*/
public static final String KEY_SUPPORTS_SDP_NEGOTIATION_OF_D2D_RTP_HEADER_EXTENSIONS_BOOL =
"supports_sdp_negotiation_of_d2d_rtp_header_extensions_bool";
/**
* Indicates whether the carrier supports the use of DTMF digits A-D for the purpose of device
* to device communication while in a call.
*/
public static final String KEY_SUPPORTS_DEVICE_TO_DEVICE_COMMUNICATION_USING_DTMF_BOOL =
"supports_device_to_device_communication_using_dtmf_bool";
/**
* Determines whether High Definition audio property is displayed in the dialer UI.
* If {@code false}, remove the HD audio property from the connection so that HD audio related
* UI is not displayed. If {@code true}, keep HD audio property as it is configured.
*/
public static final String KEY_DISPLAY_HD_AUDIO_PROPERTY_BOOL =
"display_hd_audio_property_bool";
/**
* Determines whether IMS conference calls are supported by a carrier. When {@code true},
* IMS conference calling is supported, {@code false} otherwise.
* @hide
*/
public static final String KEY_SUPPORT_IMS_CONFERENCE_CALL_BOOL =
"support_ims_conference_call_bool";
/**
* Determines whether the device will locally disconnect an IMS conference when the participant
* count drops to zero. When {@code true}, it is assumed the carrier does NOT disconnect a
* conference when the participant count drops to zero and that the device must do this by
* disconnecting the conference locally. When {@code false}, it is assumed that the carrier
* is responsible for disconnecting the conference when there are no longer any participants
* present.
* <p>
* Note: both {@link #KEY_SUPPORT_IMS_CONFERENCE_CALL_BOOL} and
* {@link #KEY_SUPPORT_IMS_CONFERENCE_EVENT_PACKAGE_BOOL} must be true for this configuration to
* have any effect.
* <p>
* Defaults to {@code false}, meaning the carrier network is responsible for disconnecting an
* empty IMS conference.
* @hide
*/
public static final String KEY_LOCAL_DISCONNECT_EMPTY_IMS_CONFERENCE_BOOL =
"local_disconnect_empty_ims_conference_bool";
/**
* Determines whether video conference calls are supported by a carrier. When {@code true},
* video calls can be merged into conference calls, {@code false} otherwise.
* <p>
* Note: even if video conference calls are not supported, audio calls may be merged into a
* conference if {@link #KEY_SUPPORT_CONFERENCE_CALL_BOOL} is {@code true}.
* @hide
*/
public static final String KEY_SUPPORT_VIDEO_CONFERENCE_CALL_BOOL =
"support_video_conference_call_bool";
/**
* Determine whether user can toggle Enhanced 4G LTE Mode in Settings.
*/
public static final String KEY_EDITABLE_ENHANCED_4G_LTE_BOOL = "editable_enhanced_4g_lte_bool";
/**
* Determines whether the Enhanced 4G LTE toggle will be shown in the settings. When this
* option is {@code true}, the toggle will be hidden regardless of whether the device and
* carrier supports 4G LTE or not.
*/
public static final String KEY_HIDE_ENHANCED_4G_LTE_BOOL = "hide_enhanced_4g_lte_bool";
/**
* Sets the default state for the "Enhanced 4G LTE" or "Advanced Calling" mode toggle set by the
* user. When this is {@code true}, this mode by default is on, otherwise if {@code false},
* this mode by default is off.
*/
public static final String KEY_ENHANCED_4G_LTE_ON_BY_DEFAULT_BOOL =
"enhanced_4g_lte_on_by_default_bool";
/**
* Determine whether IMS apn can be shown.
*/
public static final String KEY_HIDE_IMS_APN_BOOL = "hide_ims_apn_bool";
/**
* Determine whether preferred network type can be shown.
*/
public static final String KEY_HIDE_PREFERRED_NETWORK_TYPE_BOOL =
"hide_preferred_network_type_bool";
/**
* String array for package names that need to be enabled for this carrier.
* If user has explicitly disabled some packages in the list, won't re-enable.
* Other carrier specific apps which are not in this list may be disabled for current carrier,
* and only be re-enabled when this config for another carrier includes it.
*
* @hide
*/
public static final String KEY_ENABLE_APPS_STRING_ARRAY = "enable_apps_string_array";
/**
* Determine whether user can switch Wi-Fi preferred or Cellular preferred
* in calling preference.
* Some operators support Wi-Fi Calling only, not VoLTE.
* They don't need "Cellular preferred" option.
* In this case, set uneditable attribute for preferred preference.
*/
public static final String KEY_EDITABLE_WFC_MODE_BOOL = "editable_wfc_mode_bool";
/**
* Flag to indicate if Wi-Fi needs to be disabled in ECBM.
*/
public static final String KEY_CONFIG_WIFI_DISABLE_IN_ECBM = "config_wifi_disable_in_ecbm";
/**
* List operator-specific error codes and indices of corresponding error strings in
* wfcOperatorErrorAlertMessages and wfcOperatorErrorNotificationMessages.
*
* Example: "REG09|0" specifies error code "REG09" and index "0". This index will be
* used to find alert and notification messages in wfcOperatorErrorAlertMessages and
* wfcOperatorErrorNotificationMessages.
*
* @hide
*/
public static final String KEY_WFC_OPERATOR_ERROR_CODES_STRING_ARRAY =
"wfc_operator_error_codes_string_array";
/**
* Indexes of SPN format strings in wfcSpnFormats.
*
* <p>Available options are:
* <ul>
* <li> 0: %s</li>
* <li> 1: %s Wi-Fi Calling</li>
* <li> 2: WLAN Call</li>
* <li> 3: %s WLAN Call</li>
* <li> 4: %s Wi-Fi</li>
* <li> 5: WiFi Calling | %s</li>
* <li> 6: %s VoWifi</li>
* <li> 7: Wi-Fi Calling</li>
* <li> 8: Wi-Fi</li>
* <li> 9: WiFi Calling</li>
* <li> 10: VoWifi</li>
* <li> 11: %s WiFi Calling</li>
* <li> 12: WiFi Call</li>
* @hide
*/
public static final String KEY_WFC_SPN_FORMAT_IDX_INT = "wfc_spn_format_idx_int";
/**
* Indexes of data SPN format strings in wfcSpnFormats.
*
* @see KEY_WFC_SPN_FORMAT_IDX_INT for available options.
* @hide
*/
public static final String KEY_WFC_DATA_SPN_FORMAT_IDX_INT = "wfc_data_spn_format_idx_int";
/**
* Indexes of SPN format strings in wfcSpnFormats used during flight mode.
*
* Set to -1 to use the value from KEY_WFC_SPN_FORMAT_IDX_INT also in this case.
* @see KEY_WFC_SPN_FORMAT_IDX_INT for other available options.
* @hide
*/
public static final String KEY_WFC_FLIGHT_MODE_SPN_FORMAT_IDX_INT =
"wfc_flight_mode_spn_format_idx_int";
/**
* Use root locale when reading wfcSpnFormats.
*
* If true, then the root locale will always be used when reading wfcSpnFormats. This means the
* non localized version of wfcSpnFormats will be used.
* @hide
*/
public static final String KEY_WFC_SPN_USE_ROOT_LOCALE = "wfc_spn_use_root_locale";
/**
* The Component Name of the activity that can setup the emergency address for WiFi Calling
* as per carrier requirement.
*/
public static final String KEY_WFC_EMERGENCY_ADDRESS_CARRIER_APP_STRING =
"wfc_emergency_address_carrier_app_string";
/**
* Unconditionally override the carrier name string using #KEY_CARRIER_NAME_STRING.
*
* If true, then the carrier name string will be #KEY_CARRIER_NAME_STRING, unconditionally.
*
* <p>If false, then the override will be performed conditionally and the
* #KEY_CARRIER_NAME_STRING will have the lowest-precedence; it will only be used in the event
* that the name string would otherwise be empty, allowing it to serve as a last-resort. If
* used, this value functions in place of the SPN on any/all ICC records for the corresponding
* subscription.
*/
public static final String KEY_CARRIER_NAME_OVERRIDE_BOOL = "carrier_name_override_bool";
/**
* String to identify carrier name in CarrierConfig app. This string overrides SPN if
* #KEY_CARRIER_NAME_OVERRIDE_BOOL is true; otherwise, it will be used if its value is provided
* and SPN is unavailable
*/
public static final String KEY_CARRIER_NAME_STRING = "carrier_name_string";
/**
* To override wifi calling's carrier name string using ef_pnn from sim card when SPN in empty.
*
* @hide
*/
public static final String KEY_WFC_CARRIER_NAME_OVERRIDE_BY_PNN_BOOL =
"wfc_carrier_name_override_by_pnn_bool";
/**
* Specifies SPN format of displaying carrier name only.
*
*/
public static final int CROSS_SIM_SPN_FORMAT_CARRIER_NAME_ONLY = 0;
/**
* Specifies SPN format of displaying carrier name along with "Cross-SIM calling".
*/
public static final int CROSS_SIM_SPN_FORMAT_CARRIER_NAME_WITH_BRANDING = 1;
/**
* Indexes of SPN format strings in crossSimSpnFormats.
*
* <p>Available options are:
* <ul>
* <li> {@link #CROSS_SIM_SPN_FORMAT_CARRIER_NAME_ONLY}: %s</li>
* <li> {@link #CROSS_SIM_SPN_FORMAT_CARRIER_NAME_WITH_BRANDING}: %s Cross-SIM Calling</li>
* </ul>
* %s will be filled with carrier name
*/
public static final String KEY_CROSS_SIM_SPN_FORMAT_INT = "cross_sim_spn_format_int";
/**
* Override the SPN Display Condition 2 integer bits (lsb). B2, B1 is the last two bits of the
* spn display condition coding.
*
* The default value -1 mean this field is not set.
*
* B1 = 0: display of registered PLMN name not required when registered PLMN is either HPLMN
* or a PLMN in the service provider PLMN list (see EF_SPDI).
* B1 = 1: display of registered PLMN name required when registered PLMN is either HPLMN or a
* PLMN in the service provider PLMN list(see EF_SPDI).
* B2 = 0: display of the service provider name is required when registered PLMN is neither
* HPLMN nor a PLMN in the service provider PLMN list(see EF_SPDI).
* B2 = 1: display of the service provider name is not required when registered PLMN is neither
* HPLMN nor a PLMN in the service provider PLMN list(see EF_SPDI).
*
* Reference: 3GPP TS 31.102 v15.2.0 Section 4.2.12 EF_SPN.
* @hide
*/
public static final String KEY_SPN_DISPLAY_CONDITION_OVERRIDE_INT =
"spn_display_condition_override_int";
/**
* Override the SPDI - an array of PLMN(MCC + MNC) strings.
*
* Reference: 3GPP TS 31.102 v15.2.0 Section 4.2.66 EF_SPDI.
* @hide
*/
public static final String KEY_SPDI_OVERRIDE_STRING_ARRAY = "spdi_override_string_array";
/**
* Override the EHPLMNs - an array of PLMN(MCC + MNC) strings.
*
* To allow provision for multiple HPLMN codes, PLMN codes that are present within this list
* shall replace the HPLMN code derived from the IMSI for PLMN selection purposes.
*
* Reference: 3GPP TS 31.102 v15.2.0 Section 4.2.84 EF_EHPLMN
* Reference: 3GPP TS 23.122 v15.6.0 Section 1.2 Equivalent HPLMN list
* @hide
*/
public static final String KEY_EHPLMN_OVERRIDE_STRING_ARRAY = "ehplmn_override_string_array";
/**
* Override the PNN - a string array of comma-separated alpha long and short names:
* "alpha_long1,alpha_short1".
*
* Reference: 3GPP TS 31.102 v15.2.0 Section 4.2.58 EF_PNN.
* @hide
*/
public static final String KEY_PNN_OVERRIDE_STRING_ARRAY = "pnn_override_string_array";
/**
* A string array of OPL records, each with comma-delimited data fields as follows:
* "plmn1,lactac_start,lactac_end,index".
*
* Reference: 3GPP TS 31.102 v15.2.0 Section 4.2.59 EF_OPL.
* @hide
*/
public static final String KEY_OPL_OVERRIDE_STRING_ARRAY = "opl_override_opl_string_array";
/**
* Allow ERI rules to select a carrier name display string when using 3gpp2 access technologies.
* If this bit is not set, the carrier name display string will be selected from the carrier
* display name resolver which doesn't apply the ERI rules.
*
* @hide
*/
public static final String KEY_ALLOW_ERI_BOOL = "allow_cdma_eri_bool";
/**
* If true, use the carrier display name(SPN and PLMN) from the carrier display name resolver.
*
* @hide
*/
public static final String KEY_ENABLE_CARRIER_DISPLAY_NAME_RESOLVER_BOOL =
"enable_carrier_display_name_resolver_bool";
/**
* String to override sim country iso.
* Sim country iso is based on sim MCC which is coarse and doesn't work with dual IMSI SIM where
* a SIM can have multiple MCC from different countries.
* Instead, each sim carrier should have a single country code, apply per carrier based iso
* code as an override. The overridden value can be read from
* {@link TelephonyManager#getSimCountryIso()} and {@link SubscriptionInfo#getCountryIso()}
*/
public static final String KEY_SIM_COUNTRY_ISO_OVERRIDE_STRING =
"sim_country_iso_override_string";
/**
* The Component Name of a carrier-provided CallScreeningService implementation. Telecom will
* bind to {@link android.telecom.CallScreeningService} for ALL incoming calls and provide
* the carrier
* CallScreeningService with the opportunity to allow or block calls.
* <p>
* The String includes the package name/the class name.
* Example:
* <item>com.android.carrier/com.android.carrier.callscreeningserviceimpl</item>
* <p>
* Using {@link ComponentName#flattenToString()} to convert a ComponentName object to String.
* Using {@link ComponentName#unflattenFromString(String)} to convert a String object to a
* ComponentName.
*/
public static final String KEY_CARRIER_CALL_SCREENING_APP_STRING = "call_screening_app";
/**
* Override the registered PLMN name using #KEY_CDMA_HOME_REGISTERED_PLMN_NAME_STRING.
*
* If true, then the registered PLMN name (only for CDMA/CDMA-LTE and only when not roaming)
* will be #KEY_CDMA_HOME_REGISTERED_PLMN_NAME_STRING. If false, or if phone type is not
* CDMA/CDMA-LTE or if roaming, then #KEY_CDMA_HOME_REGISTERED_PLMN_NAME_STRING will be ignored.
* @hide
*/
public static final String KEY_CDMA_HOME_REGISTERED_PLMN_NAME_OVERRIDE_BOOL =
"cdma_home_registered_plmn_name_override_bool";
/**
* String to identify registered PLMN name in CarrierConfig app. This string overrides
* registered PLMN name if #KEY_CDMA_HOME_REGISTERED_PLMN_NAME_OVERRIDE_BOOL is true, phone type
* is CDMA/CDMA-LTE and device is not in roaming state; otherwise, it will be ignored.
* @hide
*/
public static final String KEY_CDMA_HOME_REGISTERED_PLMN_NAME_STRING =
"cdma_home_registered_plmn_name_string";
/**
* If this is true, the SIM card (through Customer Service Profile EF file) will be able to
* prevent manual operator selection. If false, this SIM setting will be ignored and manual
* operator selection will always be available. See CPHS4_2.WW6, CPHS B.4.7.1 for more
* information
*/
public static final String KEY_CSP_ENABLED_BOOL = "csp_enabled_bool";
/**
* Allow user to add APNs
*/
public static final String KEY_ALLOW_ADDING_APNS_BOOL = "allow_adding_apns_bool";
/**
* APN types that user is not allowed to modify.
*/
public static final String KEY_READ_ONLY_APN_TYPES_STRING_ARRAY =
"read_only_apn_types_string_array";
/**
* APN fields that user is not allowed to modify.
*/
public static final String KEY_READ_ONLY_APN_FIELDS_STRING_ARRAY =
"read_only_apn_fields_string_array";
/**
* Default value of APN types field if not specified by user when adding/modifying an APN.
*/
public static final String KEY_APN_SETTINGS_DEFAULT_APN_TYPES_STRING_ARRAY =
"apn_settings_default_apn_types_string_array";
/**
* Configs used for APN setup.
*/
public static final class Apn {
/**
* Prefix of all Apn.KEY_* constants.
*
* @deprecated Since KEY_PREFIX is unnecessary to public, it will modify to private
* next android generation.
*/
@Deprecated
public static final String KEY_PREFIX = "apn.";
/** IPv4 internet protocol */
public static final String PROTOCOL_IPV4 = "IP";
/** IPv6 internet protocol */
public static final String PROTOCOL_IPV6 = "IPV6";
/** IPv4 or IPv6 internet protocol */
public static final String PROTOCOL_IPV4V6 = "IPV4V6";
/**
* Default value of APN protocol field if not specified by user when adding/modifying
* an APN.
*
* Available options are: {@link #PROTOCOL_IPV4}, {@link #PROTOCOL_IPV6},
* {@link #PROTOCOL_IPV4V6}
*/
public static final String KEY_SETTINGS_DEFAULT_PROTOCOL_STRING =
KEY_PREFIX + "settings_default_protocol_string";
/**
* Default value of APN roaming protocol field if not specified by user when
* adding/modifying an APN.
*
* Available options are: {@link #PROTOCOL_IPV4}, {@link #PROTOCOL_IPV6},
* {@link #PROTOCOL_IPV4V6}
*/
public static final String KEY_SETTINGS_DEFAULT_ROAMING_PROTOCOL_STRING =
KEY_PREFIX + "settings_default_roaming_protocol_string";
private Apn() {}
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putString(KEY_SETTINGS_DEFAULT_PROTOCOL_STRING, "");
defaults.putString(KEY_SETTINGS_DEFAULT_ROAMING_PROTOCOL_STRING, "");
return defaults;
}
}
/**
* Boolean indicating if intent for emergency call state changes should be broadcast
* @hide
*/
public static final String KEY_BROADCAST_EMERGENCY_CALL_STATE_CHANGES_BOOL =
"broadcast_emergency_call_state_changes_bool";
/**
* Indicates whether STK LAUNCH_BROWSER command is disabled.
* If {@code true}, then the browser will not be launched
* on UI for the LAUNCH_BROWSER STK command.
* @hide
*/
public static final String KEY_STK_DISABLE_LAUNCH_BROWSER_BOOL =
"stk_disable_launch_browser_bool";
/**
* Boolean indicating if the helper text for STK GET INKEY/INPUT commands with the digit only
* mode is displayed on the input screen.
* The helper text is displayed regardless of the input mode, if {@code false}.
* @hide
*/
public static final String KEY_HIDE_DIGITS_HELPER_TEXT_ON_STK_INPUT_SCREEN_BOOL =
"hide_digits_helper_text_on_stk_input_screen_bool";
/**
* Boolean indicating if show data RAT icon on status bar even when data is disabled.
*/
public static final String KEY_ALWAYS_SHOW_DATA_RAT_ICON_BOOL =
"always_show_data_rat_icon_bool";
/**
* Boolean indicating if default data account should show LTE or 4G icon.
*/
public static final String KEY_SHOW_4G_FOR_LTE_DATA_ICON_BOOL =
"show_4g_for_lte_data_icon_bool";
/**
* Boolean indicating if default data account should show 4G LTE or 4G icon.
* @hide
*/
public static final String KEY_SHOW_4GLTE_FOR_LTE_DATA_ICON_BOOL =
"show_4glte_for_lte_data_icon_bool";
/**
* Boolean indicating if default data account should show 4G icon when in 3G.
*/
public static final String KEY_SHOW_4G_FOR_3G_DATA_ICON_BOOL =
"show_4g_for_3g_data_icon_bool";
/**
* Boolean indicating if LTE+ icon should be shown if available.
*/
public static final String KEY_HIDE_LTE_PLUS_DATA_ICON_BOOL = "hide_lte_plus_data_icon_bool";
/**
* Boolean indicting if the 5G slice icon should be shown if available.
* @hide
*/
public static final String KEY_SHOW_5G_SLICE_ICON_BOOL = "show_5g_slice_icon_bool";
/**
* The combined channel bandwidth threshold (non-inclusive) in KHz required to display the
* LTE+ data icon. It is 20000 by default, meaning the LTE+ icon will be shown if the device is
* using carrier aggregation and the combined channel bandwidth is strictly greater than 20 MHz.
* @hide
*/
public static final String KEY_LTE_PLUS_THRESHOLD_BANDWIDTH_KHZ_INT =
"lte_plus_threshold_bandwidth_khz_int";
/**
* The combined channel bandwidth threshold (inclusive) in KHz required to display the
* NR advanced (i.e. 5G+) data icon. It is 0 by default, meaning minimum bandwidth check is
* not enabled. Other factors like bands or frequency can also determine whether the NR
* advanced data icon is shown or not.
*
* @see #KEY_ADDITIONAL_NR_ADVANCED_BANDS_INT_ARRAY
* @see #KEY_NR_ADVANCED_CAPABLE_PCO_ID_INT
*
* @hide
*/
public static final String KEY_NR_ADVANCED_THRESHOLD_BANDWIDTH_KHZ_INT =
"nr_advanced_threshold_bandwidth_khz_int";
/**
* Indicating whether to include LTE cell bandwidths when determining whether the aggregated
* cell bandwidth meets the required threshold for NR advanced.
*
* @see TelephonyDisplayInfo#OVERRIDE_NETWORK_TYPE_NR_ADVANCED
*/
public static final String KEY_INCLUDE_LTE_FOR_NR_ADVANCED_THRESHOLD_BANDWIDTH_BOOL =
"include_lte_for_nr_advanced_threshold_bandwidth_bool";
/**
* Indicating whether to ratchet the aggregated cell bandwidths on receiving new values when
* the device is in RRC IDLE mode.
* The aggregated cell bandwidths are used for determining NR advanced state.
*
* If this is {@code true}, we will only update the aggregate cell bandwidths if the new
* aggregate is higher than the current aggregate and the anchor NR cell is the same.
* If this is {@code false}, we will always update the aggregate cell bandwidths when receiving
* new values.
*/
public static final String KEY_RATCHET_NR_ADVANCED_BANDWIDTH_IF_RRC_IDLE_BOOL =
"ratchet_nr_advanced_bandwidth_if_rrc_idle_bool";
/**
* Boolean indicating if operator name should be shown in the status bar
* @hide
*/
public static final String KEY_SHOW_OPERATOR_NAME_IN_STATUSBAR_BOOL =
"show_operator_name_in_statusbar_bool";
/**
* The string is used to filter redundant string from PLMN Network Name that's supplied by
* specific carrier.
*
* @hide
*/
public static final String KEY_OPERATOR_NAME_FILTER_PATTERN_STRING =
"operator_name_filter_pattern_string";
/**
* The string is used to compare with operator name.
* If it matches the pattern then show specific data icon.
* @hide
*/
public static final String KEY_SHOW_CARRIER_DATA_ICON_PATTERN_STRING =
"show_carrier_data_icon_pattern_string";
/**
* Boolean to decide whether to show precise call failed cause to user
* @hide
*/
public static final String KEY_SHOW_PRECISE_FAILED_CAUSE_BOOL =
"show_precise_failed_cause_bool";
/**
* A list of carrier nr availability is used to determine whether the carrier enable the
* non-standalone (NSA) mode of 5G NR, standalone (SA) mode of 5G NR
*
* <p> The value of list is
* {@link #CARRIER_NR_AVAILABILITY_NSA}, or {@link #CARRIER_NR_AVAILABILITY_SA}.
*
* <p> For example, if both NSA and SA are used, the list value is {
* {@link #CARRIER_NR_AVAILABILITY_NSA},{@link #CARRIER_NR_AVAILABILITY_SA}}.
* If the carrier doesn't support 5G NR, the value is the empty array.
* If the key is invalid or not configured, the default value {
* {@link #CARRIER_NR_AVAILABILITY_NSA},{@link #CARRIER_NR_AVAILABILITY_SA}} will apply.
*/
public static final String KEY_CARRIER_NR_AVAILABILITIES_INT_ARRAY =
"carrier_nr_availabilities_int_array";
/**
* Boolean to decide whether LTE is enabled.
*/
public static final String KEY_LTE_ENABLED_BOOL = "lte_enabled_bool";
/**
* Boolean to decide whether TD-SCDMA is supported.
*/
public static final String KEY_SUPPORT_TDSCDMA_BOOL = "support_tdscdma_bool";
/**
* A list of mcc/mnc that support TD-SCDMA for device when connect to the roaming network.
*/
public static final String KEY_SUPPORT_TDSCDMA_ROAMING_NETWORKS_STRING_ARRAY =
"support_tdscdma_roaming_networks_string_array";
/**
* Boolean to decide whether world mode is enabled.
*/
public static final String KEY_WORLD_MODE_ENABLED_BOOL = "world_mode_enabled_bool";
/**
* Flatten {@link android.content.ComponentName} of the carrier's settings activity.
*/
public static final String KEY_CARRIER_SETTINGS_ACTIVITY_COMPONENT_NAME_STRING =
"carrier_settings_activity_component_name_string";
// These variables are used by the MMS service and exposed through another API,
// SmsManager. The variable names and string values are copied from there.
public static final String KEY_MMS_ALIAS_ENABLED_BOOL = "aliasEnabled";
public static final String KEY_MMS_ALLOW_ATTACH_AUDIO_BOOL = "allowAttachAudio";
public static final String KEY_MMS_APPEND_TRANSACTION_ID_BOOL = "enabledTransID";
public static final String KEY_MMS_GROUP_MMS_ENABLED_BOOL = "enableGroupMms";
public static final String KEY_MMS_MMS_DELIVERY_REPORT_ENABLED_BOOL =
"enableMMSDeliveryReports";
public static final String KEY_MMS_MMS_ENABLED_BOOL = "enabledMMS";
public static final String KEY_MMS_MMS_READ_REPORT_ENABLED_BOOL = "enableMMSReadReports";
public static final String KEY_MMS_MULTIPART_SMS_ENABLED_BOOL = "enableMultipartSMS";
public static final String KEY_MMS_NOTIFY_WAP_MMSC_ENABLED_BOOL = "enabledNotifyWapMMSC";
public static final String KEY_MMS_SEND_MULTIPART_SMS_AS_SEPARATE_MESSAGES_BOOL =
"sendMultipartSmsAsSeparateMessages";
public static final String KEY_MMS_SHOW_CELL_BROADCAST_APP_LINKS_BOOL =
"config_cellBroadcastAppLinks";
public static final String KEY_MMS_SMS_DELIVERY_REPORT_ENABLED_BOOL =
"enableSMSDeliveryReports";
public static final String KEY_MMS_SUPPORT_HTTP_CHARSET_HEADER_BOOL =
"supportHttpCharsetHeader";
public static final String KEY_MMS_SUPPORT_MMS_CONTENT_DISPOSITION_BOOL =
"supportMmsContentDisposition";
public static final String KEY_MMS_ALIAS_MAX_CHARS_INT = "aliasMaxChars";
public static final String KEY_MMS_ALIAS_MIN_CHARS_INT = "aliasMinChars";
public static final String KEY_MMS_HTTP_SOCKET_TIMEOUT_INT = "httpSocketTimeout";
public static final String KEY_MMS_MAX_IMAGE_HEIGHT_INT = "maxImageHeight";
public static final String KEY_MMS_MAX_IMAGE_WIDTH_INT = "maxImageWidth";
public static final String KEY_MMS_MAX_MESSAGE_SIZE_INT = "maxMessageSize";
public static final String KEY_MMS_MESSAGE_TEXT_MAX_SIZE_INT = "maxMessageTextSize";
public static final String KEY_MMS_RECIPIENT_LIMIT_INT = "recipientLimit";
public static final String KEY_MMS_SMS_TO_MMS_TEXT_LENGTH_THRESHOLD_INT =
"smsToMmsTextLengthThreshold";
public static final String KEY_MMS_SMS_TO_MMS_TEXT_THRESHOLD_INT = "smsToMmsTextThreshold";
public static final String KEY_MMS_SUBJECT_MAX_LENGTH_INT = "maxSubjectLength";
public static final String KEY_MMS_EMAIL_GATEWAY_NUMBER_STRING = "emailGatewayNumber";
public static final String KEY_MMS_HTTP_PARAMS_STRING = "httpParams";
public static final String KEY_MMS_NAI_SUFFIX_STRING = "naiSuffix";
public static final String KEY_MMS_UA_PROF_TAG_NAME_STRING = "uaProfTagName";
public static final String KEY_MMS_UA_PROF_URL_STRING = "uaProfUrl";
public static final String KEY_MMS_USER_AGENT_STRING = "userAgent";
/**
* If true, add "Connection: close" header to MMS HTTP requests so the connection
* is immediately closed (disabling keep-alive).
*/
public static final String KEY_MMS_CLOSE_CONNECTION_BOOL = "mmsCloseConnection";
/**
* Waiting time in milliseconds used before releasing an MMS data call. Not tearing down an MMS
* data connection immediately helps to reduce the message delivering latency if messaging
* continues between all parties in the conversation since the same data connection can be
* reused for further messages.
*
* This timer will control how long the data call will be kept alive before being torn down.
*/
public static final String KEY_MMS_NETWORK_RELEASE_TIMEOUT_MILLIS_INT =
"mms_network_release_timeout_millis_int";
/**
* The flatten {@link android.content.ComponentName componentName} of the activity that can
* setup the device and activate with the network per carrier requirements.
*
* e.g., com.google.android.carrierPackageName/.CarrierActivityName
* @hide
*/
@SystemApi
public static final String KEY_CARRIER_SETUP_APP_STRING = "carrier_setup_app_string";
/**
* Defines carrier-specific actions which act upon
* com.android.internal.telephony.CARRIER_SIGNAL_REDIRECTED, used for customization of the
* default carrier app.
* Format: "CARRIER_ACTION_IDX, ..."
* Where {@code CARRIER_ACTION_IDX} is an integer defined in
* com.android.carrierdefaultapp.CarrierActionUtils
* Example:
* com.android.carrierdefaultapp.CarrierActionUtils#CARRIER_ACTION_DISABLE_METERED_APNS
* disables metered APNs
*/
@SuppressLint("IntentName")
public static final String KEY_CARRIER_DEFAULT_ACTIONS_ON_REDIRECTION_STRING_ARRAY =
"carrier_default_actions_on_redirection_string_array";
/**
* Defines carrier-specific actions which act upon CARRIER_SIGNAL_REQUEST_NETWORK_FAILED
* and configured signal args:
* android.telephony.TelephonyManager#EXTRA_APN_TYPE,
* android.telephony.TelephonyManager#EXTRA_ERROR_CODE
* used for customization of the default carrier app
* Format:
* {
* "APN_1, ERROR_CODE_1 : CARRIER_ACTION_IDX_1, CARRIER_ACTION_IDX_2...",
* "APN_1, ERROR_CODE_2 : CARRIER_ACTION_IDX_1 "
* }
* Where {@code APN_1} is an integer defined in {@link android.telephony.data.ApnSetting}
* (e.g. {@link android.telephony.data.ApnSetting#TYPE_DEFAULT}
*
* {@code ERROR_CODE_1} is an integer defined in android.telephony.DataFailCause
* Example:
* android.telephony.DataFailCause#MISSING_UNKNOWN_APN
*
* {@code CARRIER_ACTION_IDX_1} is an integer defined in
* com.android.carrierdefaultapp.CarrierActionUtils
* Example:
* com.android.carrierdefaultapp.CarrierActionUtils#CARRIER_ACTION_DISABLE_METERED_APNS
* disables metered APNs
*/
@SuppressLint("IntentName")
public static final String KEY_CARRIER_DEFAULT_ACTIONS_ON_DCFAILURE_STRING_ARRAY =
"carrier_default_actions_on_dcfailure_string_array";
/**
* Defines carrier-specific actions which act upon CARRIER_SIGNAL_RESET,
* used for customization of the default carrier app.
* Format: "CARRIER_ACTION_IDX, ..."
* Where {@code CARRIER_ACTION_IDX} is an integer defined in
* com.android.carrierdefaultapp.CarrierActionUtils
* Example:
* com.android.carrierdefaultapp.CarrierActionUtils#CARRIER_ACTION_CANCEL_ALL_NOTIFICATIONS
* clears all notifications on reset
*/
@SuppressLint("IntentName")
public static final String KEY_CARRIER_DEFAULT_ACTIONS_ON_RESET =
"carrier_default_actions_on_reset_string_array";
/**
* Defines carrier-specific actions which act upon
* com.android.internal.telephony.CARRIER_SIGNAL_DEFAULT_NETWORK_AVAILABLE,
* used for customization of the default carrier app.
* Format:
* {
* "true : CARRIER_ACTION_IDX_1",
* "false: CARRIER_ACTION_IDX_2"
* }
* Where {@code true} is a boolean indicates default network available/unavailable
* Where {@code CARRIER_ACTION_IDX} is an integer defined in
* com.android.carrierdefaultapp.CarrierActionUtils CarrierActionUtils
* Example:
* com.android.carrierdefaultapp.CarrierActionUtils#CARRIER_ACTION_ENABLE_DEFAULT_URL_HANDLER
* enables the app as the default URL handler
*/
@SuppressLint("IntentName")
public static final String KEY_CARRIER_DEFAULT_ACTIONS_ON_DEFAULT_NETWORK_AVAILABLE =
"carrier_default_actions_on_default_network_available_string_array";
/**
* Defines a list of acceptable redirection url for default carrier app.
*/
public static final String KEY_CARRIER_DEFAULT_REDIRECTION_URL_STRING_ARRAY =
"carrier_default_redirection_url_string_array";
/**
* Each config includes the componentName of the carrier app, followed by a list of interesting
* signals(declared in the manifest) which could wake up the app.
* @see com.android.internal.telephony.TelephonyIntents
* Example:
* <item>com.google.android.carrierAPK/.CarrierSignalReceiverA:
* com.android.internal.telephony.CARRIER_SIGNAL_REDIRECTED,
* com.android.internal.telephony.CARRIER_SIGNAL_PCO_VALUE
* </item>
* <item>com.google.android.carrierAPK/.CarrierSignalReceiverB:
* com.android.internal.telephony.CARRIER_SIGNAL_PCO_VALUE
* </item>
* @hide
*/
public static final String KEY_CARRIER_APP_WAKE_SIGNAL_CONFIG_STRING_ARRAY =
"carrier_app_wake_signal_config";
/**
* Each config includes the componentName of the carrier app, followed by a list of interesting
* signals for the app during run-time. The list of signals(intents) are targeting on run-time
* broadcast receivers only, aiming to avoid unnecessary wake-ups and should not be declared in
* the app's manifest.
* @see com.android.internal.telephony.TelephonyIntents
* Example:
* <item>com.google.android.carrierAPK/.CarrierSignalReceiverA:
* com.android.internal.telephony.CARRIER_SIGNAL_REQUEST_NETWORK_FAILED,
* com.android.internal.telephony.CARRIER_SIGNAL_PCO_VALUE
* </item>
* <item>com.google.android.carrierAPK/.CarrierSignalReceiverB:
* com.android.internal.telephony.CARRIER_SIGNAL_REQUEST_NETWORK_FAILED
* </item>
* @hide
*/
public static final String KEY_CARRIER_APP_NO_WAKE_SIGNAL_CONFIG_STRING_ARRAY =
"carrier_app_no_wake_signal_config";
/**
* Determines whether the carrier app needed to be involved when users try to finish setting up
* the SIM card to get network service.
*/
public static final String KEY_CARRIER_APP_REQUIRED_DURING_SIM_SETUP_BOOL =
"carrier_app_required_during_setup_bool";
/**
* Default value for {@link Settings.Global#DATA_ROAMING}
* @hide
*/
public static final String KEY_CARRIER_DEFAULT_DATA_ROAMING_ENABLED_BOOL =
"carrier_default_data_roaming_enabled_bool";
/**
* Determines whether the carrier supports making non-emergency phone calls while the phone is
* in emergency callback mode. Default value is {@code true}, meaning that non-emergency calls
* are allowed in emergency callback mode.
*/
public static final String KEY_ALLOW_NON_EMERGENCY_CALLS_IN_ECM_BOOL =
"allow_non_emergency_calls_in_ecm_bool";
/**
* Time that the telephony framework stays in "emergency SMS mode" after an emergency SMS is
* sent to the network. This is used by carriers to configure the time
* {@link TelephonyManager#isInEmergencySmsMode()} will be true after an emergency SMS is sent.
* This is used by GNSS to override user location permissions so that the carrier network can
* get the user's location for emergency services.
*
* The default is 0, which means that this feature is disabled. The maximum value for this timer
* is 300000 mS (5 minutes).
*
* @hide
*/
public static final String KEY_EMERGENCY_SMS_MODE_TIMER_MS_INT =
"emergency_sms_mode_timer_ms_int";
/**
* Flag indicating whether to allow carrier video calls to emergency numbers.
* When {@code true}, video calls to emergency numbers will be allowed. When {@code false},
* video calls to emergency numbers will be initiated as audio-only calls instead.
*/
public static final String KEY_ALLOW_EMERGENCY_VIDEO_CALLS_BOOL =
"allow_emergency_video_calls_bool";
/**
* Flag indicating whether or not an ongoing call will be held when an outgoing emergency call
* is placed. If true, ongoing calls will be put on hold when an emergency call is placed. If
* false, placing an emergency call will trigger the disconnect of all ongoing calls before
* the emergency call is placed.
*/
public static final String KEY_ALLOW_HOLD_CALL_DURING_EMERGENCY_BOOL =
"allow_hold_call_during_emergency_bool";
/**
* Flag indicating whether or not the carrier supports the periodic exchange of phone numbers
* in the user's address book with the carrier's presence server in order to retrieve the RCS
* capabilities for each contact used in the RCS User Capability Exchange (UCE) procedure. See
* RCC.71, section 3 for more information.
* <p>
* The flag {@link Ims#KEY_ENABLE_PRESENCE_PUBLISH_BOOL} must also be enabled if this flag is
* enabled, as sending a periodic SIP PUBLISH with this device's RCS capabilities is a
* requirement for capability exchange to begin.
* <p>
* When presence is supported, the device should use the
* {@link android.provider.ContactsContract.Data#CARRIER_PRESENCE} bit mask and set the
* {@link android.provider.ContactsContract.Data#CARRIER_PRESENCE_VT_CAPABLE} bit to indicate
* whether each contact supports video calling. The UI is made aware that presence is enabled
* via {@link android.telecom.PhoneAccount#CAPABILITY_VIDEO_CALLING_RELIES_ON_PRESENCE}
* and can choose to hide or show the video calling icon based on whether a contact supports
* video.
*
* @deprecated No longer used in framework code, however it may still be used by applications
* that have not updated their code. This config should still be set to {@code true} if
* {@link Ims#KEY_RCS_BULK_CAPABILITY_EXCHANGE_BOOL} is set to {@code true} and
* {@link Ims#KEY_ENABLE_PRESENCE_CAPABILITY_EXCHANGE_BOOL} is set to {@code true}.
*/
@Deprecated
public static final String KEY_USE_RCS_PRESENCE_BOOL = "use_rcs_presence_bool";
/**
* Flag indicating whether the carrier supports RCS SIP OPTIONS indication for
* User Capability Exchange (UCE).
*/
public static final String KEY_USE_RCS_SIP_OPTIONS_BOOL = "use_rcs_sip_options_bool";
/**
* The duration in seconds that platform call and message blocking is disabled after the user
* contacts emergency services. Platform considers values for below cases:
* 1) 0 <= VALUE <= 604800(one week): the value will be used as the duration directly.
* 2) VALUE > 604800(one week): will use the default value as duration instead.
* 3) VALUE < 0: block will be disabled forever until user re-enable block manually,
* the suggested value to disable forever is -1.
* See {@code android.provider.BlockedNumberContract#notifyEmergencyContact(Context)}
* See {@code android.provider.BlockedNumberContract#isBlocked(Context, String)}.
*/
public static final String KEY_DURATION_BLOCKING_DISABLED_AFTER_EMERGENCY_INT =
"duration_blocking_disabled_after_emergency_int";
/**
* Determines whether to enable enhanced call blocking feature on the device.
* android.provider.BlockedNumberContract.SystemContract#ENHANCED_SETTING_KEY_BLOCK_UNREGISTERED
* android.provider.BlockedNumberContract.SystemContract#ENHANCED_SETTING_KEY_BLOCK_PRIVATE
* android.provider.BlockedNumberContract.SystemContract#ENHANCED_SETTING_KEY_BLOCK_PAYPHONE
* android.provider.BlockedNumberContract.SystemContract#ENHANCED_SETTING_KEY_BLOCK_UNKNOWN
* android.provider.BlockedNumberContract.SystemContract#ENHANCED_SETTING_KEY_BLOCK_UNAVAILABLE
*
* <p>
* 1. For Single SIM(SS) device, it can be customized in both carrier_config_mccmnc.xml
* and vendor.xml.
* <p>
* 2. For Dual SIM(DS) device, it should be customized in vendor.xml, since call blocking
* function is used regardless of SIM.
* <p>
* If {@code true} enable enhanced call blocking feature on the device, {@code false} otherwise.
*/
public static final String KEY_SUPPORT_ENHANCED_CALL_BLOCKING_BOOL =
"support_enhanced_call_blocking_bool";
/**
* For carriers which require an empty flash to be sent before sending the normal 3-way calling
* flash, the duration in milliseconds of the empty flash to send. When {@code 0}, no empty
* flash is sent.
*/
public static final String KEY_CDMA_3WAYCALL_FLASH_DELAY_INT = "cdma_3waycall_flash_delay_int";
/**
* The CDMA roaming mode (aka CDMA system select).
*
* <p>The value should be one of the CDMA_ROAMING_MODE_ constants in {@link TelephonyManager}.
* Values other than {@link TelephonyManager#CDMA_ROAMING_MODE_RADIO_DEFAULT} (which is the
* default) will take precedence over user selection.
*
* @see TelephonyManager#CDMA_ROAMING_MODE_RADIO_DEFAULT
* @see TelephonyManager#CDMA_ROAMING_MODE_HOME
* @see TelephonyManager#CDMA_ROAMING_MODE_AFFILIATED
* @see TelephonyManager#CDMA_ROAMING_MODE_ANY
*/
public static final String KEY_CDMA_ROAMING_MODE_INT = "cdma_roaming_mode_int";
/**
* Determines whether 1X voice calls is supported for some CDMA carriers.
* Default value is true.
* @hide
*/
@SystemApi
public static final String KEY_SUPPORT_CDMA_1X_VOICE_CALLS_BOOL =
"support_cdma_1x_voice_calls_bool";
/**
* Boolean indicating if support is provided for directly dialing FDN number from FDN list.
* If false, this feature is not supported.
* @hide
*/
public static final String KEY_SUPPORT_DIRECT_FDN_DIALING_BOOL =
"support_direct_fdn_dialing_bool";
/**
* Int indicating the max number length for FDN
* @hide
*/
public static final String KEY_FDN_NUMBER_LENGTH_LIMIT_INT = "fdn_number_length_limit_int";
/**
* Report IMEI as device id even if it's a CDMA/LTE phone.
*
* @hide
*/
public static final String KEY_FORCE_IMEI_BOOL = "force_imei_bool";
/**
* The families of Radio Access Technologies that will get clustered and ratcheted,
* ie, we will report transitions up within the family, but not down until we change
* cells. This prevents flapping between base technologies and higher techs that are
* granted on demand within the cell.
* @hide
*/
public static final String KEY_RATCHET_RAT_FAMILIES = "ratchet_rat_families";
/**
* Flag indicating whether some telephony logic will treat a call which was formerly a video
* call as if it is still a video call. When {@code true}:
* <p>
* Logic which will automatically drop a video call which takes place over WIFI when a
* voice call is answered (see {@link #KEY_DROP_VIDEO_CALL_WHEN_ANSWERING_AUDIO_CALL_BOOL}.
* <p>
* Logic which determines whether the user can use TTY calling.
*/
public static final String KEY_TREAT_DOWNGRADED_VIDEO_CALLS_AS_VIDEO_CALLS_BOOL =
"treat_downgraded_video_calls_as_video_calls_bool";
/**
* When {@code true}, if the user is in an ongoing video call over WIFI and answers an incoming
* audio call, the video call will be disconnected before the audio call is answered. This is
* in contrast to the usual expected behavior where a foreground video call would be put into
* the background and held when an incoming audio call is answered.
*/
public static final String KEY_DROP_VIDEO_CALL_WHEN_ANSWERING_AUDIO_CALL_BOOL =
"drop_video_call_when_answering_audio_call_bool";
/**
* Flag indicating whether the carrier supports merging wifi calls when VoWIFI is disabled.
* This can happen in the case of a carrier which allows offloading video calls to WIFI
* separately of whether voice over wifi is enabled. In such a scenario when two video calls
* are downgraded to voice, they remain over wifi. However, if VoWIFI is disabled, these calls
* cannot be merged.
*/
public static final String KEY_ALLOW_MERGE_WIFI_CALLS_WHEN_VOWIFI_OFF_BOOL =
"allow_merge_wifi_calls_when_vowifi_off_bool";
/**
* Flag indicating whether the carrier supports the Hold command while in an IMS call.
* <p>
* The device configuration value {@code config_device_respects_hold_carrier_config} ultimately
* controls whether this carrier configuration option is used.
* Where {@code config_device_respects_hold_carrier_config} is false, the value of
* this carrier configuration is ignored.
* @hide
*/
public static final String KEY_ALLOW_HOLD_IN_IMS_CALL_BOOL = "allow_hold_in_ims_call";
/**
* Flag indicating whether the carrier supports call deflection for an incoming IMS call.
*/
public static final String KEY_CARRIER_ALLOW_DEFLECT_IMS_CALL_BOOL =
"carrier_allow_deflect_ims_call_bool";
/**
* Flag indicating whether the carrier supports explicit call transfer for an IMS call.
* @hide
*/
public static final String KEY_CARRIER_ALLOW_TRANSFER_IMS_CALL_BOOL =
"carrier_allow_transfer_ims_call_bool";
/**
* Flag indicating whether the carrier always wants to play an "on-hold" tone when a call has
* been remotely held.
* <p>
* When {@code true}, if the IMS stack indicates that the call session has been held, a signal
* will be sent from Telephony to play an audible "on-hold" tone played to the user.
* When {@code false}, a hold tone will only be played if the audio session becomes inactive.
* @hide
*/
public static final String KEY_ALWAYS_PLAY_REMOTE_HOLD_TONE_BOOL =
"always_play_remote_hold_tone_bool";
/**
* When true, the Telephony stack will automatically turn off airplane mode and retry a wifi
* emergency call over the cell network if the initial attempt at dialing was met with a SIP 308
* error.
* @hide
*/
public static final String KEY_AUTO_RETRY_FAILED_WIFI_EMERGENCY_CALL =
"auto_retry_failed_wifi_emergency_call";
/**
* When true, indicates that adding a call is disabled when there is an ongoing video call
* or when there is an ongoing call on wifi which was downgraded from video and VoWifi is
* turned off.
*/
public static final String KEY_ALLOW_ADD_CALL_DURING_VIDEO_CALL_BOOL =
"allow_add_call_during_video_call";
/**
* When {@code true}, indicates that video calls can be put on hold in order to swap to another
* call (e.g. a new outgoing call).
* When {@code false}, indicates that video calls will be disconnected when swapping to another
* call.
* <p>
* This is {@code true} by default.
*/
public static final String KEY_ALLOW_HOLD_VIDEO_CALL_BOOL = "allow_hold_video_call_bool";
/**
* When true, indicates that the HD audio icon in the in-call screen should not be shown for
* VoWifi calls.
* @hide
*/
public static final String KEY_WIFI_CALLS_CAN_BE_HD_AUDIO = "wifi_calls_can_be_hd_audio";
/**
* When true, indicates that the HD audio icon in the in-call screen should not be shown for
* video calls.
* @hide
*/
public static final String KEY_VIDEO_CALLS_CAN_BE_HD_AUDIO = "video_calls_can_be_hd_audio";
/**
* When true, indicates that the HD audio icon in the in-call screen should be shown for
* GSM/CDMA calls.
* @hide
*/
public static final String KEY_GSM_CDMA_CALLS_CAN_BE_HD_AUDIO =
"gsm_cdma_calls_can_be_hd_audio";
/**
* Whether system apps are allowed to use fallback if carrier video call is not available.
* Defaults to {@code true}.
*/
public static final String KEY_ALLOW_VIDEO_CALLING_FALLBACK_BOOL =
"allow_video_calling_fallback_bool";
/**
* Defines operator-specific {@link ImsReasonInfo} mappings.
*
* Format: "ORIGINAL_CODE|MESSAGE|NEW_CODE"
* Where {@code ORIGINAL_CODE} corresponds to a {@link ImsReasonInfo#getCode()} code,
* {@code MESSAGE} corresponds to an expected {@link ImsReasonInfo#getExtraMessage()} string,
* and {@code NEW_CODE} is the new {@code ImsReasonInfo#CODE_*} which this combination of
* original code and message shall be remapped to.
*
* Note: If {@code *} is specified for the original code, any ImsReasonInfo with the matching
* {@code MESSAGE} will be remapped to {@code NEW_CODE}.
* If {@code *} is specified for the message, any ImsReasonInfo with the matching
* {@code ORIGINAL_CODE} will be remapped to {@code NEW_CODE}.
* The wildcard for {@code ORIGINAL_CODE} takes precedence to the wildcard for {@code MESSAGE}.
* A mapping with both wildcards has no effect.
*
* Example: "501|call completion elsewhere|1014"
* When the {@link ImsReasonInfo#getCode()} is {@link ImsReasonInfo#CODE_USER_TERMINATED} and
* the {@link ImsReasonInfo#getExtraMessage()} is {@code "call completion elsewhere"},
* {@link ImsReasonInfo#CODE_ANSWERED_ELSEWHERE} shall be used as the {@link ImsReasonInfo}
* code instead.
* @hide
*/
public static final String KEY_IMS_REASONINFO_MAPPING_STRING_ARRAY =
"ims_reasoninfo_mapping_string_array";
/**
* When {@code false}, use default title for Enhanced 4G LTE Mode settings.
* When {@code true}, use the variant.
* @hide
* @deprecated use {@link #KEY_ENHANCED_4G_LTE_TITLE_VARIANT_INT}.
*/
@Deprecated
public static final String KEY_ENHANCED_4G_LTE_TITLE_VARIANT_BOOL =
"enhanced_4g_lte_title_variant_bool";
/**
* The index indicates the carrier specified title string of Enhanced 4G LTE Mode settings.
* Default value is 0, which indicates the default title string.
*/
public static final String KEY_ENHANCED_4G_LTE_TITLE_VARIANT_INT =
"enhanced_4g_lte_title_variant_int";
/**
* Indicates whether the carrier wants to notify the user when handover of an LTE video call to
* WIFI fails.
* <p>
* When {@code true}, if a video call starts on LTE and the modem reports a failure to handover
* the call to WIFI or if no handover success is reported within 60 seconds of call initiation,
* the {@link android.telephony.TelephonyManager#EVENT_HANDOVER_TO_WIFI_FAILED} event is raised
* on the connection.
* @hide
*/
public static final String KEY_NOTIFY_VT_HANDOVER_TO_WIFI_FAILURE_BOOL =
"notify_vt_handover_to_wifi_failure_bool";
/**
* A upper case list of CNAP names that are unhelpful to the user for distinguising calls and
* should be filtered out of the CNAP information. This includes CNAP names such as "WIRELESS
* CALLER" or "UNKNOWN NAME". By default, if there are no filtered names for this carrier, null
* is returned.
* @hide
*/
public static final String KEY_FILTERED_CNAP_NAMES_STRING_ARRAY =
"filtered_cnap_names_string_array";
/**
* The RCS configuration server URL. This URL is used to initiate RCS provisioning.
*/
public static final String KEY_RCS_CONFIG_SERVER_URL_STRING = "rcs_config_server_url_string";
/**
* Determine whether user can change Wi-Fi Calling preference in roaming.
* {@code false} - roaming preference cannot be changed by user independently. If
* {@link #KEY_USE_WFC_HOME_NETWORK_MODE_IN_ROAMING_NETWORK_BOOL} is false,
* {@link #KEY_CARRIER_DEFAULT_WFC_IMS_ROAMING_MODE_INT} is used as the default
* value. If {@link #KEY_USE_WFC_HOME_NETWORK_MODE_IN_ROAMING_NETWORK_BOOL} is
* true, roaming preference is the same as home preference and
* {@link #KEY_CARRIER_DEFAULT_WFC_IMS_MODE_INT} is used as the default value.
* {@code true} - roaming preference can be changed by user independently if
* {@link #KEY_USE_WFC_HOME_NETWORK_MODE_IN_ROAMING_NETWORK_BOOL} is false. If
* {@link #KEY_USE_WFC_HOME_NETWORK_MODE_IN_ROAMING_NETWORK_BOOL} is true, this
* configuration is ignored and roaming preference cannot be changed.
*/
public static final String KEY_EDITABLE_WFC_ROAMING_MODE_BOOL =
"editable_wfc_roaming_mode_bool";
/**
* Flag specifying whether to show blocking pay phone option in blocked numbers screen.
* Only show the option if payphone call presentation is present in the carrier's region.
*/
public static final java.lang.String KEY_SHOW_BLOCKING_PAY_PHONE_OPTION_BOOL =
"show_blocking_pay_phone_option_bool";
/**
* Flag specifying whether the carrier will use the
* WFC home network mode in roaming network.
* {@code false} - roaming preference can be selected separately from the home preference.
* {@code true} - roaming preference is the same as home preference and
* {@link #KEY_CARRIER_DEFAULT_WFC_IMS_MODE_INT} is used as the default value.
*/
public static final String KEY_USE_WFC_HOME_NETWORK_MODE_IN_ROAMING_NETWORK_BOOL =
"use_wfc_home_network_mode_in_roaming_network_bool";
/**
* Flag specifying whether the carrier is allowed to use metered network to download a
* certificate of Carrier-WiFi.
* {@code false} - default value.
*
* @hide
*/
public static final String KEY_ALLOW_METERED_NETWORK_FOR_CERT_DOWNLOAD_BOOL =
"allow_metered_network_for_cert_download_bool";
/**
* Time delay (in ms) after which we show the notification to switch the preferred
* network.
* @hide
*/
public static final String KEY_PREF_NETWORK_NOTIFICATION_DELAY_INT =
"network_notification_delay_int";
/**
* Time delay (in ms) after which we show the notification for emergency calls,
* while the device is registered over WFC. Default value is -1, which indicates
* that this notification is not pertinent for a particular carrier. We've added a delay
* to prevent false positives.
*/
public static final String KEY_EMERGENCY_NOTIFICATION_DELAY_INT =
"emergency_notification_delay_int";
/**
* When {@code true}, the carrier allows the user of the {@link
* TelephonyManager#sendUssdRequest(String, TelephonyManager.UssdResponseCallback, Handler)}
* API to perform USSD requests. {@code True} by default.
* @hide
*/
public static final String KEY_ALLOW_USSD_REQUESTS_VIA_TELEPHONY_MANAGER_BOOL =
"allow_ussd_requests_via_telephony_manager_bool";
/**
* Indicates whether the carrier supports 3gpp call forwarding MMI codes while roaming. If
* false, the user will be notified that call forwarding is not available when the MMI code
* fails.
*/
public static final String KEY_SUPPORT_3GPP_CALL_FORWARDING_WHILE_ROAMING_BOOL =
"support_3gpp_call_forwarding_while_roaming_bool";
/**
* Boolean indicating whether to display voicemail number as default call forwarding number in
* call forwarding settings.
* If true, display vm number when cf number is null.
* If false, display the cf number from network.
* By default this value is false.
* @hide
*/
public static final String KEY_DISPLAY_VOICEMAIL_NUMBER_AS_DEFAULT_CALL_FORWARDING_NUMBER_BOOL =
"display_voicemail_number_as_default_call_forwarding_number";
/**
* When {@code true}, the user will be notified when they attempt to place an international call
* when the call is placed using wifi calling.
* @hide
*/
public static final String KEY_NOTIFY_INTERNATIONAL_CALL_ON_WFC_BOOL =
"notify_international_call_on_wfc_bool";
/**
* Flag to hide Preset APN details. If true, user cannot enter ApnEditor view of Preset APN,
* and cannot view details of the APN. If false, user can enter ApnEditor view of Preset APN.
* Default value is false.
*/
public static final String KEY_HIDE_PRESET_APN_DETAILS_BOOL = "hide_preset_apn_details_bool";
/**
* Flag specifying whether to show an alert dialog for video call charges.
* By default this value is {@code false}.
*/
public static final String KEY_SHOW_VIDEO_CALL_CHARGES_ALERT_DIALOG_BOOL =
"show_video_call_charges_alert_dialog_bool";
/**
* An array containing custom call forwarding number prefixes that will be blocked while the
* device is reporting that it is roaming. By default, there are no custom call
* forwarding prefixes and none of these numbers will be filtered. If one or more entries are
* present, the system will not complete the call and display an error message.
*
* To display a message to the user when call forwarding fails for 3gpp MMI codes while roaming,
* use the {@link #KEY_SUPPORT_3GPP_CALL_FORWARDING_WHILE_ROAMING_BOOL} option instead.
*/
public static final String KEY_CALL_FORWARDING_BLOCKS_WHILE_ROAMING_STRING_ARRAY =
"call_forwarding_blocks_while_roaming_string_array";
/**
* Call forwarding number prefixes defined by {@link
* #KEY_CALL_FORWARDING_BLOCKS_WHILE_ROAMING_STRING_ARRAY} which will be allowed while the
* device is reporting that it is roaming and IMS is registered over LTE or Wi-Fi.
* By default this value is {@code true}.
* @hide
*/
public static final String KEY_SUPPORT_IMS_CALL_FORWARDING_WHILE_ROAMING_BOOL =
"support_ims_call_forwarding_while_roaming_bool";
/**
* The day of the month (1-31) on which the data cycle rolls over.
* <p>
* If the current month does not have this day, the cycle will roll over at
* the start of the next month.
* <p>
* This setting may be still overridden by explicit user choice. By default,
* {@link #DATA_CYCLE_USE_PLATFORM_DEFAULT} will be used.
*/
public static final String KEY_MONTHLY_DATA_CYCLE_DAY_INT = "monthly_data_cycle_day_int";
/**
* When {@link #KEY_MONTHLY_DATA_CYCLE_DAY_INT}, {@link #KEY_DATA_LIMIT_THRESHOLD_BYTES_LONG},
* or {@link #KEY_DATA_WARNING_THRESHOLD_BYTES_LONG} are set to this value, the platform default
* value will be used for that key.
*/
public static final int DATA_CYCLE_USE_PLATFORM_DEFAULT = -1;
/**
* Flag indicating that a data cycle threshold should be disabled.
* <p>
* If {@link #KEY_DATA_WARNING_THRESHOLD_BYTES_LONG} is set to this value, the platform's
* default data warning, if one exists, will be disabled. A user selected data warning will not
* be overridden.
* <p>
* If {@link #KEY_DATA_LIMIT_THRESHOLD_BYTES_LONG} is set to this value, the platform's
* default data limit, if one exists, will be disabled. A user selected data limit will not be
* overridden.
*/
public static final int DATA_CYCLE_THRESHOLD_DISABLED = -2;
/**
* Controls the data usage warning.
* <p>
* If the user uses more than this amount of data in their billing cycle, as defined by
* {@link #KEY_MONTHLY_DATA_CYCLE_DAY_INT}, the user will be alerted about the usage.
* If the value is set to {@link #DATA_CYCLE_THRESHOLD_DISABLED}, the data usage warning will
* be disabled.
* <p>
* This setting may be overridden by explicit user choice. By default,
* {@link #DATA_CYCLE_USE_PLATFORM_DEFAULT} will be used.
*/
public static final String KEY_DATA_WARNING_THRESHOLD_BYTES_LONG =
"data_warning_threshold_bytes_long";
/**
* Controls if the device should automatically notify the user as they reach
* their cellular data warning. When set to {@code false} the carrier is
* expected to have implemented their own notification mechanism. {@code true} by default.
*/
public static final String KEY_DATA_WARNING_NOTIFICATION_BOOL =
"data_warning_notification_bool";
/**
* Controls if the device should automatically warn the user that sim voice & data function
* might be limited due to dual sim scenario. When set to {@code true} display the notification,
* {@code false} otherwise.
* @hide
*/
public static final String KEY_LIMITED_SIM_FUNCTION_NOTIFICATION_FOR_DSDS_BOOL =
"limited_sim_function_notification_for_dsds_bool";
/**
* Controls the cellular data limit.
* <p>
* If the user uses more than this amount of data in their billing cycle, as defined by
* {@link #KEY_MONTHLY_DATA_CYCLE_DAY_INT}, cellular data will be turned off by the user's
* phone. If the value is set to {@link #DATA_CYCLE_THRESHOLD_DISABLED}, the data limit will be
* disabled.
* <p>
* This setting may be overridden by explicit user choice. By default,
* {@link #DATA_CYCLE_USE_PLATFORM_DEFAULT} will be used.
*/
public static final String KEY_DATA_LIMIT_THRESHOLD_BYTES_LONG =
"data_limit_threshold_bytes_long";
/**
* Controls if the device should automatically notify the user as they reach
* their cellular data limit. When set to {@code false} the carrier is
* expected to have implemented their own notification mechanism. {@code true} by default.
*/
public static final String KEY_DATA_LIMIT_NOTIFICATION_BOOL = "data_limit_notification_bool";
/**
* Controls if the device should automatically notify the user when rapid
* cellular data usage is observed. When set to {@code false} the carrier is
* expected to have implemented their own notification mechanism. {@code true} by default.
*/
public static final String KEY_DATA_RAPID_NOTIFICATION_BOOL = "data_rapid_notification_bool";
/**
* Offset to be reduced from rsrp threshold while calculating signal strength level.
* @hide
*/
public static final String KEY_LTE_EARFCNS_RSRP_BOOST_INT = "lte_earfcns_rsrp_boost_int";
/**
* List of EARFCN (E-UTRA Absolute Radio Frequency Channel Number,
* Reference: 3GPP TS 36.104 5.4.3) inclusive ranges on which lte_earfcns_rsrp_boost_int
* will be applied. Format of the String array is expected to be {"earfcn1_start-earfcn1_end",
* "earfcn2_start-earfcn2_end" ... }
* @hide
*/
public static final String KEY_BOOSTED_LTE_EARFCNS_STRING_ARRAY =
"boosted_lte_earfcns_string_array";
/**
* Offset to be reduced from rsrp threshold while calculating signal strength level.
* @hide
*/
public static final String KEY_NRARFCNS_RSRP_BOOST_INT_ARRAY = "nrarfcns_rsrp_boost_int_array";
/**
* List of NR ARFCN (5G Absolute Radio Frequency Channel Number,
* Reference: 3GPP TS 36.108) inclusive ranges on which corresponding
* nrarfcns_rsrp_boost_int_array will be applied. The size of this array and
* nrarfcns_rsrp_boost_int_array must be the same.
* Format of the String array is expected to be {"nrarfcn1_start-nrarfcn1_end",
* "nrarfcn2_start-nrarfcn2_end" ... }
* @hide
*/
public static final String KEY_BOOSTED_NRARFCNS_STRING_ARRAY = "boosted_nrarfcns_string_array";
/**
* Determine whether to use only RSRP for the number of LTE signal bars.
* @hide
*
* @deprecated use {@link #KEY_PARAMETERS_USED_FOR_LTE_SIGNAL_BAR_INT}.
*/
// FIXME: this key and related keys must not be exposed without a consistent philosophy for
// all RATs.
@Deprecated
public static final String KEY_USE_ONLY_RSRP_FOR_LTE_SIGNAL_BAR_BOOL =
"use_only_rsrp_for_lte_signal_bar_bool";
/**
* Bit-field integer to determine whether to use Reference Signal Received Power (RSRP),
* Reference Signal Received Quality (RSRQ), or/and Reference Signal Signal to Noise Ratio
* (RSSNR) for the number of LTE signal bars and signal criteria reporting enabling.
*
* <p> If a measure is not set, signal criteria reporting from modem will not be triggered and
* not be used for calculating signal level. If multiple measures are set bit, the parameter
* whose value is smallest is used to indicate the signal level.
* <UL>
* <LI>RSRP = 1 << 0</LI>
* <LI>RSRQ = 1 << 1</LI>
* <LI>RSSNR = 1 << 2</LI>
* </UL>
* <p> The value of this key must be bitwise OR of {@link CellSignalStrengthLte#USE_RSRP},
* {@link CellSignalStrengthLte#USE_RSRQ}, {@link CellSignalStrengthLte#USE_RSSNR}.
*
* <p> For example, if both RSRP and RSRQ are used, the value of key is 3 (1 << 0 | 1 << 1).
* If the key is invalid or not configured, a default value (RSRP = 1 << 0) will apply.
*
* @hide
*/
public static final String KEY_PARAMETERS_USED_FOR_LTE_SIGNAL_BAR_INT =
"parameters_used_for_lte_signal_bar_int";
/**
* List of 4 customized 5G SS reference signal received power (SSRSRP) thresholds.
* <p>
* Reference: 3GPP TS 38.215
* <p>
* 4 threshold integers must be within the boundaries [-140 dB, -44 dB], and the levels are:
* <UL>
* <LI>"NONE: [-140, threshold1)"</LI>
* <LI>"POOR: [threshold1, threshold2)"</LI>
* <LI>"MODERATE: [threshold2, threshold3)"</LI>
* <LI>"GOOD: [threshold3, threshold4)"</LI>
* <LI>"EXCELLENT: [threshold4, -44]"</LI>
* </UL>
* <p>
* This key is considered invalid if the format is violated. If the key is invalid or
* not configured, a default value set will apply.
*/
public static final String KEY_5G_NR_SSRSRP_THRESHOLDS_INT_ARRAY =
"5g_nr_ssrsrp_thresholds_int_array";
/**
* List of 4 customized 5G SS reference signal received quality (SSRSRQ) thresholds.
* <p>
* Reference: 3GPP TS 38.215; 3GPP TS 38.133 section 10
* <p>
* 4 threshold integers must be within the boundaries [-43 dB, 20 dB], and the levels are:
* <UL>
* <LI>"NONE: [-43, threshold1)"</LI>
* <LI>"POOR: [threshold1, threshold2)"</LI>
* <LI>"MODERATE: [threshold2, threshold3)"</LI>
* <LI>"GOOD: [threshold3, threshold4)"</LI>
* <LI>"EXCELLENT: [threshold4, 20]"</LI>
* </UL>
* <p>
* This key is considered invalid if the format is violated. If the key is invalid or
* not configured, a default value set will apply.
*/
public static final String KEY_5G_NR_SSRSRQ_THRESHOLDS_INT_ARRAY =
"5g_nr_ssrsrq_thresholds_int_array";
/**
* List of 4 customized 5G SS signal-to-noise and interference ratio (SSSINR) thresholds.
* <p>
* Reference: 3GPP TS 38.215,
* 3GPP TS 38.133 10.1.16.1
* <p>
* 4 threshold integers must be within the boundaries [-23 dB, 40 dB], and the levels are:
* <UL>
* <LI>"NONE: [-23, threshold1)"</LI>
* <LI>"POOR: [threshold1, threshold2)"</LI>
* <LI>"MODERATE: [threshold2, threshold3)"</LI>
* <LI>"GOOD: [threshold3, threshold4)"</LI>
* <LI>"EXCELLENT: [threshold4, 40]"</LI>
* </UL>
* <p>
* This key is considered invalid if the format is violated. If the key is invalid or
* not configured, a default value set will apply.
*/
public static final String KEY_5G_NR_SSSINR_THRESHOLDS_INT_ARRAY =
"5g_nr_sssinr_thresholds_int_array";
/**
* An interval in dB for {@link SignalThresholdInfo#SIGNAL_MEASUREMENT_TYPE_SSRSRP} measurement
* type defining the required magnitude change between reports.
*
* <p>The default value is 2 and the minimum allowed value is 0. If no value or negative value
* is set, the default value 2 is used.
* @hide
*/
public static final String KEY_NGRAN_SSRSRP_HYSTERESIS_DB_INT =
"ngran_ssrsrp_hysteresis_db_int";
/**
* An interval in dB for {@link SignalThresholdInfo#SIGNAL_MEASUREMENT_TYPE_SSRSRQ} measurement
* type defining the required magnitude change between reports.
*
* <p>The default value is 2 and the minimum allowed value is 0. If no value or negative value
* is set, the default value 2 is used.
* @hide
*/
public static final String KEY_NGRAN_SSRSRQ_HYSTERESIS_DB_INT =
"ngran_ssrsrq_hysteresis_db_int";
/**
* An interval in dB for {@link SignalThresholdInfo#SIGNAL_MEASUREMENT_TYPE_SSSINR} measurement
* type defining the required magnitude change between reports.
*
* <p>The default value is 2 and the minimum allowed value is 0. If no value or negative value
* is set, the default value 2 is used.
* @hide
*/
public static final String KEY_NGRAN_SSSINR_HYSTERESIS_DB_INT =
"ngran_sssinr_hysteresis_db_int";
/**
* Bit-field integer to determine whether to use SS reference signal received power (SSRSRP),
* SS reference signal received quality (SSRSRQ), or/and SS signal-to-noise and interference
* ratio (SSSINR) for the number of 5G NR signal bars and signal criteria reporting enabling.
*
* <p> If a measure is not set, signal criteria reporting from modem will not be triggered and
* not be used for calculating signal level. If multiple measures are set bit, the parameter
* whose value is smallest is used to indicate the signal level.
* <UL>
* <LI>SSRSRP = 1 << 0</LI>
* <LI>SSRSRQ = 1 << 1</LI>
* <LI>SSSINR = 1 << 2</LI>
* </UL>
* The value of this key must be bitwise OR of {@link CellSignalStrengthNr#USE_SSRSRP},
* {@link CellSignalStrengthNr#USE_SSRSRQ}, {@link CellSignalStrengthNr#USE_SSSINR}.
*
* <p> For example, if both SSRSRP and SSSINR are used, the value of key is 5 (1 << 0 | 1 << 2).
* If the key is invalid or not configured, a default value (SSRSRP = 1 << 0) will apply.
*
* <p> Reference: 3GPP TS 38.215,
* 3GPP TS 38.133 10.1.16.1
*
* @hide
*/
public static final String KEY_PARAMETERS_USE_FOR_5G_NR_SIGNAL_BAR_INT =
"parameters_use_for_5g_nr_signal_bar_int";
/**
* There are two signal strengths, NR and LTE signal strength, during NR (non-standalone).
* Boolean indicating whether to use LTE signal strength as primary during NR (non-standalone).
* By default this value is true.
*
* @hide
*/
public static final String KEY_SIGNAL_STRENGTH_NR_NSA_USE_LTE_AS_PRIMARY_BOOL =
"signal_strength_nr_nsa_use_lte_as_primary_bool";
/**
* String array of default bandwidth values per network type.
* The entries should be of form: "network_name:downlink,uplink", with values in Kbps.
* For NR (5G), the following network names should be used:
* - NR_NSA: NR NSA, sub-6 frequencies
* - NR_NSA_MMWAVE: NR NSA, mmwave frequencies
* - NR_SA: NR SA, sub-6 frequencies
* - NR_SA_MMWAVE: NR SA, mmwave frequencies
* @hide
*/
public static final String KEY_BANDWIDTH_STRING_ARRAY = "bandwidth_string_array";
/**
* For NR (non-standalone), whether to use the LTE value instead of NR value as the default for
* uplink bandwidth. Downlink bandwidth will still use the NR value as the default.
* @hide
*/
public static final String KEY_BANDWIDTH_NR_NSA_USE_LTE_VALUE_FOR_UPLINK_BOOL =
"bandwidth_nr_nsa_use_lte_value_for_uplink_bool";
/**
* Key identifying if voice call barring notification is required to be shown to the user.
* @hide
*/
@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553)
public static final String KEY_DISABLE_VOICE_BARRING_NOTIFICATION_BOOL =
"disable_voice_barring_notification_bool";
/**
* List of operators considered non-roaming which won't show roaming icon.
* <p>
* Can use mcc or mcc+mnc as item. For example, 302 or 21407.
* If operators, 21404 and 21407, make roaming agreements, users of 21404 should not see
* the roaming icon as using 21407 network.
* @hide
*/
public static final String KEY_NON_ROAMING_OPERATOR_STRING_ARRAY =
"non_roaming_operator_string_array";
/**
* List of operators considered roaming with the roaming icon.
* <p>
* Can use mcc or mcc+mnc as item. For example, 302 or 21407.
* If operators, 21404 and 21407, make roaming agreements, users of 21404 should see
* the roaming icon as using 21407 network.
* <p>
* A match on this supersedes a match on {@link #KEY_NON_ROAMING_OPERATOR_STRING_ARRAY}.
* @hide
*/
public static final String KEY_ROAMING_OPERATOR_STRING_ARRAY = "roaming_operator_string_array";
/**
* Config to show the roaming indicator (i.e. the "R" icon) from the status bar when roaming.
* The roaming indicator will be shown if this is {@code true} and will not be shown if this is
* {@code false}.
*/
@FlaggedApi(Flags.FLAG_HIDE_ROAMING_ICON)
public static final String KEY_SHOW_ROAMING_INDICATOR_BOOL = "show_roaming_indicator_bool";
/**
* URL from which the proto containing the public key of the Carrier used for
* IMSI encryption will be downloaded.
* @hide
*/
public static final String IMSI_KEY_DOWNLOAD_URL_STRING = "imsi_key_download_url_string";
/**
* String representation of a carrier's public key used for IMSI encryption for ePDG. If this
* is provided, the device will use it as a fallback when no key exists on device, but the key
* download will still initiate.
* Example string:
* "-----BEGIN CERTIFICATE-----\nabcde12345abcde12345abcde12345abcde1234
* 5abcde12345abcde12345\nabcde12345abcde12345abcde12345abcde12345a\n-----END CERTIFICATE-----"
* @hide
*/
public static final String IMSI_CARRIER_PUBLIC_KEY_EPDG_STRING =
"imsi_carrier_public_key_epdg_string";
/**
* String representation of a carrier's public key used for IMSI encryption for WLAN. If this
* is provided, the device will use it as a fallback when no key exists on device, but the key
* download will still initiate.
* Example string:
* "-----BEGIN CERTIFICATE-----\nabcde12345abcde12345abcde12345abcde1234
* 5abcde12345abcde12345\nabcde12345abcde12345abcde12345abcde12345a\n-----END CERTIFICATE-----"
* @hide
*/
public static final String IMSI_CARRIER_PUBLIC_KEY_WLAN_STRING =
"imsi_carrier_public_key_wlan_string";
/**
* Identifies if the key is available for WLAN or EPDG or both. The value is a bitmask.
* 0 indicates that neither EPDG or WLAN is enabled.
* 1 indicates that key type TelephonyManager#KEY_TYPE_EPDG is enabled.
* 2 indicates that key type TelephonyManager#KEY_TYPE_WLAN is enabled.
* 3 indicates that both are enabled.
*/
public static final String IMSI_KEY_AVAILABILITY_INT = "imsi_key_availability_int";
/**
* Key identifying if the CDMA Caller ID presentation and suppression MMI codes
* should be converted to 3GPP CLIR codes when a multimode (CDMA+UMTS+LTE) device is roaming
* on a 3GPP network. Specifically *67<number> will be converted to #31#<number> and
* *82<number> will be converted to *31#<number> before dialing a call when this key is
* set TRUE and device is roaming on a 3GPP network.
* @hide
*/
public static final String KEY_CONVERT_CDMA_CALLER_ID_MMI_CODES_WHILE_ROAMING_ON_3GPP_BOOL =
"convert_cdma_caller_id_mmi_codes_while_roaming_on_3gpp_bool";
/**
* Flag specifying whether IMS registration state menu is shown in Status Info setting,
* default to false.
*/
public static final String KEY_SHOW_IMS_REGISTRATION_STATUS_BOOL =
"show_ims_registration_status_bool";
/**
* Flag indicating whether the carrier supports RTT over IMS.
*/
public static final String KEY_RTT_SUPPORTED_BOOL = "rtt_supported_bool";
/**
* Boolean flag indicating whether the carrier supports TTY.
* <p>
* Note that {@link #KEY_CARRIER_VOLTE_TTY_SUPPORTED_BOOL} controls availability of TTY over
* VoLTE; if this carrier configuration is disabled, then
* {@link #KEY_CARRIER_VOLTE_TTY_SUPPORTED_BOOL} is also implicitly disabled.
* <p>
* {@link TelecomManager#isTtySupported()} should be used to determine if a device supports TTY,
* and this carrier config key should be used to see if the current carrier supports it.
*/
public static final String KEY_TTY_SUPPORTED_BOOL = "tty_supported_bool";
/**
* Indicates if the carrier supports auto-upgrading a call to RTT when receiving a call from a
* RTT-supported device.
*/
public static final String KEY_RTT_AUTO_UPGRADE_BOOL = "rtt_auto_upgrade_bool";
/**
* Indicates if the carrier supports RTT during a video call.
*/
public static final String KEY_RTT_SUPPORTED_FOR_VT_BOOL = "rtt_supported_for_vt_bool";
/**
* Indicates if the carrier supports upgrading a call that was previously an RTT call to VT.
*/
public static final String KEY_VT_UPGRADE_SUPPORTED_FOR_DOWNGRADED_RTT_CALL_BOOL =
"vt_upgrade_supported_for_downgraded_rtt_call";
/**
* Indicates if the carrier supports upgrading a call that was previously a VT call to RTT.
*/
public static final String KEY_RTT_UPGRADE_SUPPORTED_FOR_DOWNGRADED_VT_CALL_BOOL =
"rtt_upgrade_supported_for_downgraded_vt_call";
/**
* Indicates if the carrier supports upgrading a voice call to an RTT call during the call.
*/
public static final String KEY_RTT_UPGRADE_SUPPORTED_BOOL = "rtt_upgrade_supported_bool";
/**
* Indicates if the carrier supports downgrading a RTT call to a voice call during the call.
*/
public static final String KEY_RTT_DOWNGRADE_SUPPORTED_BOOL = "rtt_downgrade_supported_bool";
/**
* Indicates if the TTY HCO and VCO options should be hidden in the accessibility menu
* if the device is capable of RTT.
*/
public static final String KEY_HIDE_TTY_HCO_VCO_WITH_RTT_BOOL = "hide_tty_hco_vco_with_rtt";
/**
* The flag to disable the popup dialog which warns the user of data charges.
*/
public static final String KEY_DISABLE_CHARGE_INDICATION_BOOL =
"disable_charge_indication_bool";
/**
* Boolean indicating whether to skip the call forwarding (CF) fail-to-disable dialog.
* The logic used to determine whether we succeeded in disabling is carrier specific,
* so the dialog may not always be accurate.
* {@code false} - show CF fail-to-disable dialog.
* {@code true} - skip showing CF fail-to-disable dialog.
*
* @hide
*/
public static final String KEY_SKIP_CF_FAIL_TO_DISABLE_DIALOG_BOOL =
"skip_cf_fail_to_disable_dialog_bool";
/**
* Flag specifying whether operator supports including no reply condition timer option on
* CFNRy (3GPP TS 24.082 3: Call Forwarding on No Reply) in the call forwarding settings UI.
* {@code true} - include no reply condition timer option on CFNRy
* {@code false} - don't include no reply condition timer option on CFNRy
*
* @hide
*/
public static final String KEY_SUPPORT_NO_REPLY_TIMER_FOR_CFNRY_BOOL =
"support_no_reply_timer_for_cfnry_bool";
/**
* List of the FAC (feature access codes) to dial as a normal call.
* @hide
*/
public static final String KEY_FEATURE_ACCESS_CODES_STRING_ARRAY =
"feature_access_codes_string_array";
/**
* Determines if the carrier wants to identify high definition calls in the call log.
* @hide
*/
public static final String KEY_IDENTIFY_HIGH_DEFINITION_CALLS_IN_CALL_LOG_BOOL =
"identify_high_definition_calls_in_call_log_bool";
/**
* Flag specifying whether to use the {@link ServiceState} roaming status, which can be
* affected by other carrier configs (e.g.
* {@link #KEY_GSM_NONROAMING_NETWORKS_STRING_ARRAY}), when setting the SPN display.
* <p>
* If {@code true}, the SPN display uses {@link ServiceState#getRoaming}.
* If {@code false} the SPN display checks if the current MCC/MNC is different from the
* SIM card's MCC/MNC.
*
* @see #KEY_GSM_ROAMING_NETWORKS_STRING_ARRAY
* @see #KEY_GSM_NONROAMING_NETWORKS_STRING_ARRAY
* @see #KEY_NON_ROAMING_OPERATOR_STRING_ARRAY
* @see #KEY_ROAMING_OPERATOR_STRING_ARRAY
* @see #KEY_FORCE_HOME_NETWORK_BOOL
*
* @hide
*/
public static final String KEY_SPN_DISPLAY_RULE_USE_ROAMING_FROM_SERVICE_STATE_BOOL =
"spn_display_rule_use_roaming_from_service_state_bool";
/**
* Determines whether any carrier has been identified and its specific config has been applied,
* default to false.
*/
public static final String KEY_CARRIER_CONFIG_APPLIED_BOOL = "carrier_config_applied_bool";
/**
* Determines whether we should show a warning asking the user to check with their carrier
* on pricing when the user enabled data roaming,
* default to false.
*/
public static final String KEY_CHECK_PRICING_WITH_CARRIER_FOR_DATA_ROAMING_BOOL =
"check_pricing_with_carrier_data_roaming_bool";
/**
* Determines whether we should show a notification when the phone established a data
* connection in roaming network, to warn users about possible roaming charges.
*
* @see #KEY_DATA_CONNECTED_ROAMING_NOTIFICATION_EXCLUDED_MCCS_STRING_ARRAY
* @see #KEY_DATA_CONNECTED_ROAMING_NOTIFICATION_INCLUDED_MCC_MNCS_STRING_ARRAY
* @hide
*/
public static final String KEY_SHOW_DATA_CONNECTED_ROAMING_NOTIFICATION_BOOL =
"show_data_connected_roaming_notification";
/**
* Determines what MCCs are exceptions for the value of
* {@link #KEY_SHOW_DATA_CONNECTED_ROAMING_NOTIFICATION_BOOL}.
* An empty list indicates that there are no exceptions.
*
* @see #KEY_SHOW_DATA_CONNECTED_ROAMING_NOTIFICATION_BOOL
* @see #KEY_DATA_CONNECTED_ROAMING_NOTIFICATION_INCLUDED_MCC_MNCS_STRING_ARRAY
* @hide
*/
public static final String
KEY_DATA_CONNECTED_ROAMING_NOTIFICATION_EXCLUDED_MCCS_STRING_ARRAY =
"data_connected_roaming_notification_excluded_mccs_string_array";
/**
* Determines what MCC+MNCs are exceptions for the MCCs specified in
* {@link #KEY_DATA_CONNECTED_ROAMING_NOTIFICATION_EXCLUDED_MCCS_STRING_ARRAY}, meaning the
* value for the MCC+MNC is {@link #KEY_SHOW_DATA_CONNECTED_ROAMING_NOTIFICATION_BOOL}.
* An empty list indicates that there are no MNC-specific exceptions.
*
* @see #KEY_SHOW_DATA_CONNECTED_ROAMING_NOTIFICATION_BOOL
* @see #KEY_DATA_CONNECTED_ROAMING_NOTIFICATION_EXCLUDED_MCCS_STRING_ARRAY
* @hide
*/
public static final String
KEY_DATA_CONNECTED_ROAMING_NOTIFICATION_INCLUDED_MCC_MNCS_STRING_ARRAY =
"data_connected_roaming_notification_included_mcc_mncs_string_array";
/**
* A list of 4 LTE RSRP thresholds above which a signal level is considered POOR,
* MODERATE, GOOD, or EXCELLENT, to be used in SignalStrength reporting.
*
* Note that the min and max thresholds are fixed at -140 and -44, as explained in
* TS 136.133 9.1.4 - RSRP Measurement Report Mapping.
* <p>
* See SignalStrength#MAX_LTE_RSRP and SignalStrength#MIN_LTE_RSRP. Any signal level outside
* these boundaries is considered invalid.
* @hide
*/
public static final String KEY_LTE_RSRP_THRESHOLDS_INT_ARRAY = "lte_rsrp_thresholds_int_array";
/**
* A list of 4 customized LTE Reference Signal Received Quality (RSRQ) thresholds.
*
* Reference: TS 136.133 v12.6.0 section 9.1.7 - RSRQ Measurement Report Mapping.
*
* 4 threshold integers must be within the boundaries [-34 dB, 3 dB], and the levels are:
* "NONE: [-34, threshold1)"
* "POOR: [threshold1, threshold2)"
* "MODERATE: [threshold2, threshold3)"
* "GOOD: [threshold3, threshold4)"
* "EXCELLENT: [threshold4, 3]"
*
* This key is considered invalid if the format is violated. If the key is invalid or
* not configured, a default value set will apply.
*/
public static final String KEY_LTE_RSRQ_THRESHOLDS_INT_ARRAY = "lte_rsrq_thresholds_int_array";
/**
* A list of 4 customized LTE Reference Signal Signal to Noise Ratio (RSSNR) thresholds.
*
* 4 threshold integers must be within the boundaries [-20 dB, 30 dB], and the levels are:
* "NONE: [-20, threshold1)"
* "POOR: [threshold1, threshold2)"
* "MODERATE: [threshold2, threshold3)"
* "GOOD: [threshold3, threshold4)"
* "EXCELLENT: [threshold4, 30]"
*
* This key is considered invalid if the format is violated. If the key is invalid or
* not configured, a default value set will apply.
*/
public static final String KEY_LTE_RSSNR_THRESHOLDS_INT_ARRAY =
"lte_rssnr_thresholds_int_array";
/**
* An interval in dB for {@link SignalThresholdInfo#SIGNAL_MEASUREMENT_TYPE_RSRP} measurement
* type defining the required magnitude change between reports.
*
* <p>The default value is 2 and the minimum allowed value is 0. If no value or negative value
* is set, the default value 2 is used.
* @hide
*/
public static final String KEY_EUTRAN_RSRP_HYSTERESIS_DB_INT = "eutran_rsrp_hysteresis_db_int";
/**
* An interval in dB for {@link SignalThresholdInfo#SIGNAL_MEASUREMENT_TYPE_RSRQ} measurement
* type defining the required magnitude change between reports.
*
* <p>The default value is 2 and the minimum allowed value is 0. If no value or negative value
* is set, the default value 2 is used.
* @hide
*/
public static final String KEY_EUTRAN_RSRQ_HYSTERESIS_DB_INT = "eutran_rsrq_hysteresis_db_int";
/**
* An interval in dB for {@link SignalThresholdInfo#SIGNAL_MEASUREMENT_TYPE_RSSNR} measurement
* type defining the required magnitude change between reports.
*
* <p>The default value is 2 and the minimum allowed value is 0. If no value or negative value
* is set, the default value 2 is used.
* @hide
*/
public static final String KEY_EUTRAN_RSSNR_HYSTERESIS_DB_INT =
"eutran_rssnr_hysteresis_db_int";
/**
* Decides when clients try to bind to iwlan network service, which package name will
* the binding intent go to.
* @hide
*/
public static final String KEY_CARRIER_NETWORK_SERVICE_WLAN_PACKAGE_OVERRIDE_STRING =
"carrier_network_service_wlan_package_override_string";
/**
* Decides when clients try to bind to iwlan network service, which class name will
* the binding intent go to.
* @hide
*/
public static final String KEY_CARRIER_NETWORK_SERVICE_WLAN_CLASS_OVERRIDE_STRING =
"carrier_network_service_wlan_class_override_string";
/**
* Decides when clients try to bind to wwan (cellular) network service, which package name will
* the binding intent go to.
* @hide
*/
public static final String KEY_CARRIER_NETWORK_SERVICE_WWAN_PACKAGE_OVERRIDE_STRING =
"carrier_network_service_wwan_package_override_string";
/**
* Decides when clients try to bind to wwan (cellular) network service, which class name will
* the binding intent go to.
* @hide
*/
public static final String KEY_CARRIER_NETWORK_SERVICE_WWAN_CLASS_OVERRIDE_STRING =
"carrier_network_service_wwan_class_override_string";
/**
* The package name of qualified networks service that telephony binds to.
*
* @hide
*/
public static final String KEY_CARRIER_QUALIFIED_NETWORKS_SERVICE_PACKAGE_OVERRIDE_STRING =
"carrier_qualified_networks_service_package_override_string";
/**
* The class name of qualified networks service that telephony binds to.
*
* @hide
*/
public static final String KEY_CARRIER_QUALIFIED_NETWORKS_SERVICE_CLASS_OVERRIDE_STRING =
"carrier_qualified_networks_service_class_override_string";
/**
* A list of 4 WCDMA RSCP thresholds above which a signal level is considered POOR,
* MODERATE, GOOD, or EXCELLENT, to be used in SignalStrength reporting.
*
* Note that the min and max thresholds are fixed at -120 and -24, as set in 3GPP TS 27.007
* section 8.69.
* <p>
* See CellSignalStrengthWcdma#WCDMA_RSCP_MAX and CellSignalStrengthWcdma#WCDMA_RSCP_MIN.
* Any signal level outside these boundaries is considered invalid.
* @hide
*/
public static final String KEY_WCDMA_RSCP_THRESHOLDS_INT_ARRAY =
"wcdma_rscp_thresholds_int_array";
/**
* A list of 4 WCDMA ECNO thresholds above which a signal level is considered POOR,
* MODERATE, GOOD, or EXCELLENT, to be used in SignalStrength reporting.
*
* Note that the min and max thresholds are fixed at -24 and 1, as set in 3GPP TS 25.215
* section 5.1.5.
* Any signal level outside these boundaries is considered invalid.
* <p>
*
* The default value is {@code {-24, -14, -6, 1}}.
* @hide
*/
public static final String KEY_WCDMA_ECNO_THRESHOLDS_INT_ARRAY =
"wcdma_ecno_thresholds_int_array";
/**
* An interval in dB for {@link SignalThresholdInfo#SIGNAL_MEASUREMENT_TYPE_RSCP} measurement
* type defining the required magnitude change between reports.
*
* <p>The default value is 2 and the minimum allowed value is 0. If no value or negative value
* is set, the default value 2 is used.
* @hide
*/
public static final String KEY_UTRAN_RSCP_HYSTERESIS_DB_INT = "utran_rscp_hysteresis_db_int";
/**
* An interval in dB for {@link SignalThresholdInfo#SIGNAL_MEASUREMENT_TYPE_ECNO} measurement
* type defining the required magnitude change between reports.
*
* <p>The default value is 2 and the minimum allowed value is 0. If no value or negative value
* is set, the default value 2 is used.
* @hide
*/
public static final String KEY_UTRAN_ECNO_HYSTERESIS_DB_INT = "utran_ecno_hysteresis_db_int";
/**
* The default measurement to use for signal strength reporting. If this is not specified, the
* RSSI is used.
* <p>
* e.g.) To use RSCP by default, set the value to "rscp". The signal strength level will
* then be determined by #KEY_WCDMA_RSCP_THRESHOLDS_INT_ARRAY
* <p>
* Currently this supports the value "rscp","rssi" and "ecno".
* @hide
*/
// FIXME: this key and related keys must not be exposed without a consistent philosophy for
// all RATs.
public static final String KEY_WCDMA_DEFAULT_SIGNAL_STRENGTH_MEASUREMENT_STRING =
"wcdma_default_signal_strength_measurement_string";
/**
* When a partial sms / mms message stay in raw table for too long without being completed,
* we expire them and delete them from the raw table. This carrier config defines the
* expiration time. The default value is milliseconds in 7 days.
* @hide
*/
public static final String KEY_UNDELIVERED_SMS_MESSAGE_EXPIRATION_TIME =
"undelivered_sms_message_expiration_time";
/**
* Specifies a carrier-defined {@link android.telecom.CallRedirectionService} which Telecom
* will bind to for outgoing calls. An empty string indicates that no carrier-defined
* {@link android.telecom.CallRedirectionService} is specified.
*/
public static final String KEY_CALL_REDIRECTION_SERVICE_COMPONENT_NAME_STRING =
"call_redirection_service_component_name_string";
/**
* Support for the original string display of CDMA MO call.
* By default, it is disabled.
* @hide
*/
public static final String KEY_CONFIG_SHOW_ORIG_DIAL_STRING_FOR_CDMA_BOOL =
"config_show_orig_dial_string_for_cdma";
/**
* Flag specifying whether to show notification(call blocking disabled) when Enhanced Call
* Blocking(KEY_SUPPORT_ENHANCED_CALL_BLOCKING_BOOL) is enabled and making emergency call.
* When true, notification is shown always.
* When false, notification is shown only when any setting of "Enhanced Blocked number" is
* enabled.
*/
public static final String KEY_SHOW_CALL_BLOCKING_DISABLED_NOTIFICATION_ALWAYS_BOOL =
"show_call_blocking_disabled_notification_always_bool";
/**
* Some carriers only support SS over UT via INTERNET PDN.
* When mobile data is OFF or data roaming OFF during roaming,
* UI should block the call forwarding operation and notify the user
* that the function only works if data is available.
* @hide
*/
public static final String KEY_CALL_FORWARDING_OVER_UT_WARNING_BOOL =
"call_forwarding_over_ut_warning_bool";
/**
* Some carriers only support SS over UT via INTERNET PDN.
* When mobile data is OFF or data roaming OFF during roaming,
* UI should block the call barring operation and notify the user
* that the function only works if data is available.
* @hide
*/
public static final String KEY_CALL_BARRING_OVER_UT_WARNING_BOOL =
"call_barring_over_ut_warning_bool";
/**
* Some carriers only support SS over UT via INTERNET PDN.
* When mobile data is OFF or data roaming OFF during roaming,
* UI should block the caller id operation and notify the user
* that the function only works if data is available.
* @hide
*/
public static final String KEY_CALLER_ID_OVER_UT_WARNING_BOOL =
"caller_id_over_ut_warning_bool";
/**
* Some carriers only support SS over UT via INTERNET PDN.
* When mobile data is OFF or data roaming OFF during roaming,
* UI should block the call waiting operation and notify the user
* that the function only works if data is available.
* @hide
*/
public static final String KEY_CALL_WAITING_OVER_UT_WARNING_BOOL =
"call_waiting_over_ut_warning_bool";
/**
* Flag indicating whether to support "Network default" option in Caller ID settings for Calling
* Line Identification Restriction (CLIR).
*/
public static final String KEY_SUPPORT_CLIR_NETWORK_DEFAULT_BOOL =
"support_clir_network_default_bool";
/**
* Determines whether the carrier want to support emergency dialer shortcut.
* @hide
*/
public static final String KEY_SUPPORT_EMERGENCY_DIALER_SHORTCUT_BOOL =
"support_emergency_dialer_shortcut_bool";
/**
* Call forwarding uses USSD command without SS command.
* When {@code true}, the call forwarding query/set by ussd command and UI only display Call
* Forwarding when unanswered.
* When {@code false}, don't use USSD to query/set call forwarding.
* @hide
*/
public static final String KEY_USE_CALL_FORWARDING_USSD_BOOL = "use_call_forwarding_ussd_bool";
/**
* This flag specifies whether to support for the caller id set command by ussd.
* When {@code true}, device shall sync caller id ussd result to ss command.
* When {@code false}, caller id don't support ussd command.
* @hide
*/
public static final String KEY_USE_CALLER_ID_USSD_BOOL = "use_caller_id_ussd_bool";
/**
* Call waiting uses USSD command without SS command.
* When {@code true}, the call waiting query/set by ussd command.
* When {@code false}, doesn't use USSD to query/set call waiting.
* @hide
*/
public static final String KEY_USE_CALL_WAITING_USSD_BOOL = "use_call_waiting_ussd_bool";
/**
* Specifies the service class for call waiting service.
* Default value is
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_VOICE}.
* <p>
* See 27.007 +CCFC or +CLCK.
* The value set as below:
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_NONE}
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_VOICE}
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_DATA}
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_FAX}
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_SMS}
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_DATA_SYNC}
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_DATA_ASYNC}
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_PACKET}
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_PAD}
* {@link com.android.internal.telephony.CommandsInterface#SERVICE_CLASS_MAX}
* @hide
*/
public static final String KEY_CALL_WAITING_SERVICE_CLASS_INT =
"call_waiting_service_class_int";
/**
* This configuration allows the system UI to display different 5G icons for different 5G
* scenarios.
*
* There are five 5G scenarios:
* 1. connected_mmwave: device currently connected to 5G cell as the secondary cell and using
* millimeter wave.
* 2. connected: device currently connected to 5G cell as the secondary cell but not using
* millimeter wave.
* 3. not_restricted_rrc_idle: device camped on a network that has 5G capability(not necessary
* to connect a 5G cell as a secondary cell) and the use of 5G is not restricted and RRC
* currently in IDLE state.
* 4. not_restricted_rrc_con: device camped on a network that has 5G capability(not necessary
* to connect a 5G cell as a secondary cell) and the use of 5G is not restricted and RRC
* currently in CONNECTED state.
* 5. restricted: device camped on a network that has 5G capability(not necessary to connect a
* 5G cell as a secondary cell) but the use of 5G is restricted.
*
* The configured string contains multiple key-value pairs separated by comma. For each pair,
* the key and value are separated by a colon. The key corresponds to a 5G status above and
* the value is the icon name. Use "None" as the icon name if no icon should be shown in a
* specific 5G scenario. If the scenario is "None", config can skip this key and value.
*
* Icon name options: "5G_Plus", "5G".
*
* Here is an example:
* UE wants to display 5G_Plus icon for scenario#1, and 5G icon for scenario#2; otherwise not
* define.
* The configuration is: "connected_mmwave:5G_Plus,connected:5G"
* @hide
*/
public static final String KEY_5G_ICON_CONFIGURATION_STRING = "5g_icon_configuration_string";
/**
* This configuration allows the system UI to determine how long to continue to display 5G icons
* when the device switches between different 5G scenarios.
*
* There are seven 5G scenarios:
* 1. connected_mmwave: device currently connected to 5G cell as the secondary cell and using
* millimeter wave.
* 2. connected: device currently connected to 5G cell as the secondary cell but not using
* millimeter wave.
* 3. not_restricted_rrc_idle: device camped on a network that has 5G capability (not necessary
* to connect a 5G cell as a secondary cell) and the use of 5G is not restricted and RRC
* currently in IDLE state.
* 4. not_restricted_rrc_con: device camped on a network that has 5G capability (not necessary
* to connect a 5G cell as a secondary cell) and the use of 5G is not restricted and RRC
* currently in CONNECTED state.
* 5. restricted: device camped on a network that has 5G capability (not necessary to connect a
* 5G cell as a secondary cell) but the use of 5G is restricted.
* 6. legacy: device is not camped on a network that has 5G capability
* 7. any: any of the above scenarios
*
* The configured string contains various timer rules separated by a semicolon.
* Each rule will have three items: prior 5G scenario, current 5G scenario, and grace period
* in seconds before changing the icon. When the 5G state changes from the prior to the current
* 5G scenario, the system UI will continue to show the icon for the prior 5G scenario (defined
* in {@link #KEY_5G_ICON_CONFIGURATION_STRING}) for the amount of time specified by the grace
* period. If the prior 5G scenario is reestablished, the timer will reset and start again if
* the UE changes 5G scenarios again. Defined states (5G scenarios #1-5) take precedence over
* 'any' (5G scenario #6), and unspecified transitions have a default grace period of 0.
* The order of rules in the configuration determines the priority (the first applicable timer
* rule will be used).
*
* Here is an example: "connected_mmwave,connected,30;connected_mmwave,any,10;connected,any,10"
* This configuration defines 3 timers:
* 1. When UE goes from 'connected_mmwave' to 'connected', system UI will continue to display
* the 5G icon for 'connected_mmwave' for 30 seconds.
* 2. When UE goes from 'connected_mmwave' to any other state (except for connected, since
* rule 1 would be used instead), system UI will continue to display the 5G icon for
* 'connected_mmwave' for 10 seconds.
* 3. When UE goes from 'connected' to any other state, system UI will continue to display the
* 5G icon for 'connected' for 10 seconds.
*
* @hide
*/
public static final String KEY_5G_ICON_DISPLAY_GRACE_PERIOD_STRING =
"5g_icon_display_grace_period_string";
/**
* This configuration extends {@link #KEY_5G_ICON_DISPLAY_GRACE_PERIOD_STRING} to allow the
* system UI to continue displaying 5G icons after the initial timer expires.
*
* There are seven 5G scenarios:
* 1. connected_mmwave: device currently connected to 5G cell as the secondary cell and using
* millimeter wave.
* 2. connected: device currently connected to 5G cell as the secondary cell but not using
* millimeter wave.
* 3. not_restricted_rrc_idle: device camped on a network that has 5G capability (not necessary
* to connect a 5G cell as a secondary cell) and the use of 5G is not restricted and RRC
* currently in IDLE state.
* 4. not_restricted_rrc_con: device camped on a network that has 5G capability (not necessary
* to connect a 5G cell as a secondary cell) and the use of 5G is not restricted and RRC
* currently in CONNECTED state.
* 5. restricted: device camped on a network that has 5G capability (not necessary to connect a
* 5G cell as a secondary cell) but the use of 5G is restricted.
* 6. legacy: device is not camped on a network that has 5G capability
* 7. any: any of the above scenarios
*
* The configured string contains various timer rules separated by a semicolon.
* Each rule will have three items: primary 5G scenario, secondary 5G scenario, and
* grace period in seconds before changing the icon. When the timer for the primary 5G timer
* expires, the system UI will continue to show the icon for the primary 5G scenario (defined
* in {@link #KEY_5G_ICON_CONFIGURATION_STRING}) for the amount of time specified by the grace
* period. If the primary 5G scenario is reestablished, the timers will reset and the system UI
* will continue to display the icon for the primary 5G scenario without interruption. If the
* secondary 5G scenario is lost, the timer will reset and the icon will reflect the true state.
* Defined states (5G scenarios #1-5) take precedence over 'any' (5G scenario #6), and
* unspecified transitions have a default grace period of 0. The order of rules in the
* configuration determines the priority (the first applicable timer rule will be used).
*
* Here is an example: "connected,not_restricted_rrc_idle,30"
* This configuration defines a secondary timer that extends the primary 'connected' timer.
* When the primary 'connected' timer expires while the UE is in the 'not_restricted_rrc_idle'
* 5G state, system UI will continue to display the 5G icon for 'connected' for 30 seconds.
* If the 5G state returns to 'connected', the timer will be reset without change to the icon,
* and if the 5G state changes to neither 'connected' not 'not_restricted_rrc_idle', the icon
* will change to reflect the true state.
*
* @hide
*/
public static final String KEY_5G_ICON_DISPLAY_SECONDARY_GRACE_PERIOD_STRING =
"5g_icon_display_secondary_grace_period_string";
/**
* Whether device reset all of NR timers when device camped on a network that haven't 5G
* capability and RRC currently in IDLE state.
*
* The default value is false;
*
* @hide
*/
public static final String KEY_NR_TIMERS_RESET_IF_NON_ENDC_AND_RRC_IDLE_BOOL =
"nr_timers_reset_if_non_endc_and_rrc_idle_bool";
/**
* A list of additional NR advanced band would map to
* {@link TelephonyDisplayInfo#OVERRIDE_NETWORK_TYPE_NR_ADVANCED} when the device is on that
* band.
*
* @hide
*/
public static final String KEY_ADDITIONAL_NR_ADVANCED_BANDS_INT_ARRAY =
"additional_nr_advanced_bands_int_array";
/**
* This configuration allows the framework to control the NR advanced capable by protocol
* configuration options(PCO).
*
* If this config is 0, then the nr advanced capable is enabled.
* If this config is not 0 and PCO container with this config's address is 1, then the nr
* advanced capable is enabled.
* If this config is not 0 and PCO container with this config's address is 0, then the nr
* advanced capable is disabled.
*
* @hide
*/
public static final String KEY_NR_ADVANCED_CAPABLE_PCO_ID_INT =
"nr_advanced_capable_pco_id_int";
/**
* Enabled NR advanced (i.e. 5G+) icon while roaming. The default value is {@code true}, meaming
* the same NR advanced logic used for home network will be used for roaming network as well.
* Set this to {@code false} will disable NR advanced icon while the device is roaming,
* regardless meeting NR advanced criteria or not.
*
* @hide
*/
public static final String KEY_ENABLE_NR_ADVANCED_WHILE_ROAMING_BOOL =
"enable_nr_advanced_for_roaming_bool";
/**
* This configuration allows the framework to use user data communication to detect Idle state,
* and this is used on the 5G icon.
*
* There is a new way for RRC state detection at Android 12. If
* {@link android.telephony.TelephonyManager#isRadioInterfaceCapabilitySupported}(
* {@link TelephonyManager#CAPABILITY_PHYSICAL_CHANNEL_CONFIG_1_6_SUPPORTED}) returns true,
* then framework can use PHYSICAL_CHANNEL_CONFIG for RRC state detection. Based on this
* condition, some carriers want to use the legacy behavior that way is using user data
* communication to detect the Idle state. Therefore, this configuration allows the framework
* to use user data communication to detect Idle state.
*
* There are 3 situations reflects the carrier define Idle state.
* 1. using PHYSICAL_CHANNEL_CONFIG to detect RRC Idle
* 2. using all of data connections to detect RRC Idle.
* 3. using data communication(consider internet data connection only) to detect data Idle.
*
* How to setup for above 3 cases?
* For below part, we call the condition#1 is device support
* {@link android.telephony.TelephonyManager#isRadioInterfaceCapabilitySupported}(
* {@link TelephonyManager#CAPABILITY_PHYSICAL_CHANNEL_CONFIG_1_6_SUPPORTED}).
* The condition#2 is carrier enable the KEY_LTE_ENDC_USING_USER_DATA_FOR_RRC_DETECTION_BOOL.
*
* For case#1, the condition#1 is true and the condition#2 is false.
* For case#2, the condition#1 is false and the condition#2 is false.
* For case#3, the condition#2 is true.
* @hide
*/
public static final String KEY_LTE_ENDC_USING_USER_DATA_FOR_RRC_DETECTION_BOOL =
"lte_endc_using_user_data_for_rrc_detection_bool";
/**
* Controls time in milliseconds until DcTracker reevaluates 5G connection state.
* @hide
*/
public static final String KEY_5G_WATCHDOG_TIME_MS_LONG = "5g_watchdog_time_ms_long";
/**
* Which network types are unmetered. A string array that can contain network type names from
* {@link TelephonyManager#getNetworkTypeName(int)} in addition to the following NR keys:
* NR_NSA - NR NSA is unmetered for sub-6 frequencies
* NR_NSA_MMWAVE - NR NSA is unmetered for mmwave frequencies
* NR_SA - NR SA is unmetered for sub-6 frequencies
* NR_SA_MMWAVE - NR SA is unmetered for mmwave frequencies
*
* Note that this config only applies if an unmetered SubscriptionPlan is set via {@link
* SubscriptionManager#setSubscriptionPlans(int, List, long)} or an unmetered override is set
* via {@link SubscriptionManager#setSubscriptionOverrideUnmetered(int, boolean, int[], long)}
* or {@link SubscriptionManager#setSubscriptionOverrideUnmetered(int, boolean, long)}.
* If neither SubscriptionPlans nor an override are set, then no network types can be unmetered
* regardless of the value of this config.
* @hide
*/
public static final String KEY_UNMETERED_NETWORK_TYPES_STRING_ARRAY =
"unmetered_network_types_string_array";
/**
* Which network types are unmetered when roaming. A string array that can contain network type
* names from {@link TelephonyManager#getNetworkTypeName(int)} in addition to the following
* NR keys:
* NR_NSA - NR NSA is unmetered when roaming for sub-6 frequencies
* NR_NSA_MMWAVE - NR NSA is unmetered when roaming for mmwave frequencies
* NR_SA - NR SA is unmetered when roaming for sub-6 frequencies
* NR_SA_MMWAVE - NR SA is unmetered when roaming for mmwave frequencies
*
* Note that this config only applies if an unmetered SubscriptionPlan is set via {@link
* SubscriptionManager#setSubscriptionPlans(int, List, long)} or an unmetered override is set
* via {@link SubscriptionManager#setSubscriptionOverrideUnmetered(int, boolean, int[], long)}
* or {@link SubscriptionManager#setSubscriptionOverrideUnmetered(int, boolean, long)}.
* If neither SubscriptionPlans nor an override are set, then no network types can be unmetered
* when roaming regardless of the value of this config.
* @hide
*/
public static final String KEY_ROAMING_UNMETERED_NETWORK_TYPES_STRING_ARRAY =
"roaming_unmetered_network_types_string_array";
/**
* Support ASCII 7-BIT encoding for long SMS. This carrier config is used to enable
* this feature.
* @hide
*/
public static final String KEY_ASCII_7_BIT_SUPPORT_FOR_LONG_MESSAGE_BOOL =
"ascii_7_bit_support_for_long_message_bool";
/**
* Controls whether to show wifi calling icon in statusbar when wifi calling is available.
* @hide
*/
public static final String KEY_SHOW_WIFI_CALLING_ICON_IN_STATUS_BAR_BOOL =
"show_wifi_calling_icon_in_status_bar_bool";
/**
* Configuration to indicate that the carrier supports opportunistic data
* auto provisioning. Based on this flag, the device downloads and activates
* corresponding opportunistic profile.
*/
public static final String KEY_CARRIER_SUPPORTS_OPP_DATA_AUTO_PROVISIONING_BOOL =
"carrier_supports_opp_data_auto_provisioning_bool";
/**
* SMDP+ server address for downloading opportunistic eSIM profile.
* FQDN (Fully Qualified Domain Name) of the SM-DP+ (e.g., smdp.gsma.com) restricted to the
* Alphanumeric mode character set defined in table 5 of ISO/IEC 18004 excluding '$'.
*/
public static final String KEY_SMDP_SERVER_ADDRESS_STRING = "smdp_server_address_string";
/**
* This timer value is used in the eSIM Exponential Backoff download retry algorithm.
* Value should be in seconds.
* <OL>
* <LI>When the first download failure occurs, retry download after BACKOFF_TIMER_VALUE
* seconds.</LI>
*
* <LI>If download fails again then, retry after either BACKOFF_TIMER_VALUE,
* 2xBACKOFF_TIMER_VALUE, or 3xBACKOFF_TIMER_VALUE seconds.</LI>
*
* <LI>In general after the cth failed attempt, retry after k * BACKOFF_TIMER_VALUE
* seconds, where k is a random integer between 1 and 2^c − 1. Max c value is
* {@link #KEY_ESIM_MAX_DOWNLOAD_RETRY_ATTEMPTS_INT}</LI>
* </OL>
*/
public static final String KEY_ESIM_DOWNLOAD_RETRY_BACKOFF_TIMER_SEC_INT =
"esim_download_retry_backoff_timer_sec_int";
/**
* If eSIM profile download fails then, the number of retry attempts by UE
* will be based on this configuration. If download still fails even after the
* MAX attempts configured by this item then the retry is postponed until next
* device bootup.
*/
public static final String KEY_ESIM_MAX_DOWNLOAD_RETRY_ATTEMPTS_INT =
"esim_max_download_retry_attempts_int";
/**
* List of opportunistic carrier-ids associated with CBRS Primary SIM. When CBRS pSIM is
* inserted, opportunistic eSIM is download and this configuration is used for grouping pSIM
* and opportunistic eSIM. Also when a new CBRS pSIM is inserted, old opportunistic eSIMs are
* deleted using the carrier-ids in this configuration.
*
* @hide
*/
public static final String KEY_OPPORTUNISTIC_CARRIER_IDS_INT_ARRAY =
"opportunistic_carrier_ids_int_array";
/**
* Boolean configuration to control auto provisioning eSIM download in
* OpportunisticNetworkService using only WiFi or both WiFi/Data.
* True will download esim only via WiFi.
* False will use both WiFi and Data connection.
*
* @hide
*/
public static final String KEY_OPPORTUNISTIC_ESIM_DOWNLOAD_VIA_WIFI_ONLY_BOOL =
"opportunistic_esim_download_via_wifi_only_bool";
/**
* Controls RSRP threshold, in dBm, at which OpportunisticNetworkService will decide whether
* the opportunistic network is good enough for internet data.
*
* <p>The value of {@link CellSignalStrengthLte#getRsrp()} will be compared with this
* threshold.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_ENTRY_THRESHOLD_RSRP_INT =
"opportunistic_network_entry_threshold_rsrp_int";
/**
* Controls RSSNR threshold, in dB, at which OpportunisticNetworkService will
* decide whether the opportunistic network is good enough for internet data.
*
* <p>The value of {@link CellSignalStrengthLte#getRssnr()} will be compared with this
* threshold.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_ENTRY_THRESHOLD_RSSNR_INT =
"opportunistic_network_entry_threshold_rssnr_int";
/**
* Controls RSRP threshold, in dBm, below which OpportunisticNetworkService will decide whether
* the opportunistic network available is not good enough for internet data.
*
* <p>The value of {@link CellSignalStrengthLte#getRsrp()} will be compared with this
* threshold.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_EXIT_THRESHOLD_RSRP_INT =
"opportunistic_network_exit_threshold_rsrp_int";
/**
* Controls RSSNR threshold, in dB, below which OpportunisticNetworkService will
* decide whether the opportunistic network available is not good enough for internet data.
*
* <p>The value of {@link CellSignalStrengthLte#getRssnr()} will be compared with this
* threshold.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_EXIT_THRESHOLD_RSSNR_INT =
"opportunistic_network_exit_threshold_rssnr_int";
/**
* Controls bandwidth threshold in Kbps at which OpportunisticNetworkService will decide whether
* the opportunistic network is good enough for internet data.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_ENTRY_THRESHOLD_BANDWIDTH_INT =
"opportunistic_network_entry_threshold_bandwidth_int";
/**
* Controls hysteresis time in milli seconds for which OpportunisticNetworkService
* will wait before attaching to a network.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_ENTRY_OR_EXIT_HYSTERESIS_TIME_LONG =
"opportunistic_network_entry_or_exit_hysteresis_time_long";
/**
* Controls hysteresis time in milli seconds for which OpportunisticNetworkService
* will wait before switching data to an opportunistic network.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_DATA_SWITCH_HYSTERESIS_TIME_LONG =
"opportunistic_network_data_switch_hysteresis_time_long";
/**
* Controls hysteresis time in milli seconds for which OpportunisticNetworkService
* will wait before switching data from opportunistic network to primary network.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_DATA_SWITCH_EXIT_HYSTERESIS_TIME_LONG =
"opportunistic_network_data_switch_exit_hysteresis_time_long";
/**
* Controls whether to do ping test before switching data to opportunistic network.
* This carrier config is used to disable this feature.
*/
public static final String KEY_PING_TEST_BEFORE_DATA_SWITCH_BOOL =
"ping_test_before_data_switch_bool";
/**
* Controls whether to switch data to primary from opportunistic subscription
* if primary is out of service. This control only affects system or 1st party app
* initiated data switch, but will not override data switch initiated by privileged carrier apps
* This carrier config is used to disable this feature.
*/
public static final String KEY_SWITCH_DATA_TO_PRIMARY_IF_PRIMARY_IS_OOS_BOOL =
"switch_data_to_primary_if_primary_is_oos_bool";
/**
* Controls the ping pong determination of opportunistic network.
* If opportunistic network is determined as out of service or below
* #KEY_OPPORTUNISTIC_NETWORK_EXIT_THRESHOLD_RSRP_INT or
* #KEY_OPPORTUNISTIC_NETWORK_EXIT_THRESHOLD_RSSNR_INT within
* #KEY_OPPORTUNISTIC_NETWORK_PING_PONG_TIME_LONG of switching to opportunistic network,
* it will be determined as ping pong situation by system app or 1st party app.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_PING_PONG_TIME_LONG =
"opportunistic_network_ping_pong_time_long";
/**
* Controls back off time in milli seconds for switching back to
* opportunistic subscription. This time will be added to
* {@link CarrierConfigManager#KEY_OPPORTUNISTIC_NETWORK_DATA_SWITCH_HYSTERESIS_TIME_LONG} to
* determine hysteresis time if there is ping pong situation
* (determined by system app or 1st party app) between primary and opportunistic
* subscription. Ping ping situation is defined in
* #KEY_OPPORTUNISTIC_NETWORK_PING_PONG_TIME_LONG.
* If ping pong situation continuous #KEY_OPPORTUNISTIC_NETWORK_BACKOFF_TIME_LONG
* will be added to previously determined hysteresis time.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_BACKOFF_TIME_LONG =
"opportunistic_network_backoff_time_long";
/**
* Controls the max back off time in milli seconds for switching back to
* opportunistic subscription.
* This time will be the max hysteresis that can be determined irrespective of there is
* continuous ping pong situation or not as described in
* #KEY_OPPORTUNISTIC_NETWORK_PING_PONG_TIME_LONG and
* #KEY_OPPORTUNISTIC_NETWORK_BACKOFF_TIME_LONG.
*/
public static final String KEY_OPPORTUNISTIC_NETWORK_MAX_BACKOFF_TIME_LONG =
"opportunistic_network_max_backoff_time_long";
/** @hide */
public static class OpportunisticNetwork {
/**
* Prefix of all {@code OpportunisticNetwork.KEY_*} constants.
*
* @hide
*/
public static final String PREFIX = "opportunistic.";
/**
* Controls SS-RSRP threshold in dBm at which 5G opportunistic network will be considered
* good enough for internet data. Note other factors may be considered for the final
* decision.
*
* <p>The value of {@link CellSignalStrengthNr#getSsRsrp()} will be compared with this
* threshold.
*
* @hide
*/
public static final String KEY_ENTRY_THRESHOLD_SS_RSRP_INT =
PREFIX + "entry_threshold_ss_rsrp_int";
/**
* Similar to {@link #KEY_ENTRY_THRESHOLD_SS_RSRP_INT} but supports different
* thresholds for different 5G bands. For bands not specified here, the threshold
* will be {@link #KEY_ENTRY_THRESHOLD_SS_RSRP_INT}.
*
* <p>For each key-value in the bundle: the key is the band number in string, which
* shall be a decimal integer as defined in {@code NgranBands.BAND_*} constants;
* the value is the threshold in int.
*
* @hide
*/
public static final String KEY_ENTRY_THRESHOLD_SS_RSRP_INT_BUNDLE =
PREFIX + "entry_threshold_ss_rsrp_int_bundle";
/**
* Controls SS-RSRQ threshold in dB at which 5G opportunistic network will be considered
* good enough for internet data. Note other factors may be considered for the final
* decision.
*
* <p>The value of {@link CellSignalStrengthNr#getSsRsrq()} will be compared with this
* threshold.
*
* @hide
*/
public static final String KEY_ENTRY_THRESHOLD_SS_RSRQ_DOUBLE =
PREFIX + "entry_threshold_ss_rsrq_double";
/**
* Similar to {@link #KEY_ENTRY_THRESHOLD_SS_RSRQ_DOUBLE} but supports different
* thresholds for different 5G bands. For bands not specified here, the threshold
* will be {@link #KEY_ENTRY_THRESHOLD_SS_RSRQ_DOUBLE}.
*
* <p>For each key-value in the bundle: the key is the band number in string, which
* shall be a decimal integer as defined in {@code NgranBands.BAND_*} constants;
* the value is the threshold in double.
*
* @hide
*/
public static final String KEY_ENTRY_THRESHOLD_SS_RSRQ_DOUBLE_BUNDLE =
PREFIX + "entry_threshold_ss_rsrq_double_bundle";
/**
* Controls SS-RSRP threshold in dBm below which 5G opportunistic network available will not
* be considered good enough for internet data. Note other factors may be considered
* for the final decision.
*
* <p>The value of {@link CellSignalStrengthNr#getSsRsrp()} will be compared with this
* threshold.
*
* @hide
*/
public static final String KEY_EXIT_THRESHOLD_SS_RSRP_INT =
PREFIX + "exit_threshold_ss_rsrp_int";
/**
* Similar to {@link #KEY_EXIT_THRESHOLD_SS_RSRP_INT} but supports different
* thresholds for different 5G bands. For bands not specified here, the threshold
* will be {@link #KEY_EXIT_THRESHOLD_SS_RSRP_INT}.
*
* <p>The syntax of its value is similar to
* {@link #KEY_ENTRY_THRESHOLD_SS_RSRP_INT_BUNDLE}.
*
* @hide
*/
public static final String KEY_EXIT_THRESHOLD_SS_RSRP_INT_BUNDLE =
PREFIX + "exit_threshold_ss_rsrp_int_bundle";
/**
* Controls SS-RSRQ threshold in dB below which 5G opportunistic network available will not
* be considered good enough for internet data. Note other factors may be considered
* for the final decision.
*
* <p>The value of {@link CellSignalStrengthNr#getSsRsrq()} will be compared with this
* threshold.
*
* @hide
*/
public static final String KEY_EXIT_THRESHOLD_SS_RSRQ_DOUBLE =
PREFIX + "exit_threshold_ss_rsrq_double";
/**
* Similar to {@link #KEY_EXIT_THRESHOLD_SS_RSRQ_DOUBLE} but supports different
* thresholds for different 5G bands. For bands not specified here, the threshold
* will be {@link #KEY_EXIT_THRESHOLD_SS_RSRQ_DOUBLE}.
*
* <p>The syntax of its value is similar to
* {@link #KEY_ENTRY_THRESHOLD_SS_RSRQ_DOUBLE_BUNDLE}.
*
* @hide
*/
public static final String KEY_EXIT_THRESHOLD_SS_RSRQ_DOUBLE_BUNDLE =
PREFIX + "exit_threshold_ss_rsrq_double_bundle";
/**
* Controls hysteresis time in milliseconds for which will be waited before switching
* data to a 5G opportunistic network.
*
* @hide
*/
public static final String KEY_5G_DATA_SWITCH_HYSTERESIS_TIME_LONG =
PREFIX + "5g_data_switch_hysteresis_time_long";
/**
* Similar to {@link #KEY_5G_DATA_SWITCH_HYSTERESIS_TIME_LONG} but supports
* different values for different 5G bands. For bands not specified here, the threshold
* will be {@link #KEY_5G_DATA_SWITCH_HYSTERESIS_TIME_LONG}.
*
* <p>For each key-value in the bundle: the key is the band number in string, which
* shall be a decimal integer as defined in {@code NgranBands.BAND_*} constants;
* the value is the time in long.
*
* @hide
*/
public static final String KEY_5G_DATA_SWITCH_HYSTERESIS_TIME_LONG_BUNDLE =
PREFIX + "5g_data_switch_hysteresis_time_long_bundle";
/**
* Controls hysteresis time in milliseconds for which will be waited before switching from
* 5G opportunistic network to primary network.
*
* @hide
*/
public static final String KEY_5G_DATA_SWITCH_EXIT_HYSTERESIS_TIME_LONG =
PREFIX + "5g_data_switch_exit_hysteresis_time_long";
/**
* Similar to {@link #KEY_5G_DATA_SWITCH_EXIT_HYSTERESIS_TIME_LONG} but supports
* different values for different 5G bands. For bands not specified here, the threshold
* will be {@link #KEY_5G_DATA_SWITCH_EXIT_HYSTERESIS_TIME_LONG}.
*
* <p>The syntax is similar to
* {@link KEY_5G_DATA_SWITCH_HYSTERESIS_TIME_LONG_BUNDLE}.
*
* @hide
*/
public static final String KEY_5G_DATA_SWITCH_EXIT_HYSTERESIS_TIME_LONG_BUNDLE =
PREFIX + "5g_data_switch_exit_hysteresis_time_long_bundle";
/**
* Controls back off time in milliseconds for switching back to
* 5G opportunistic subscription. This time will be added to
* {@link #KEY_5G_DATA_SWITCH_HYSTERESIS_TIME_LONG} to
* determine hysteresis time if there is ping pong situation
* (determined by system app or 1st party app) between primary and 5G opportunistic
* subscription. Ping ping situation is defined in
* {@link #KEY_5G_PING_PONG_TIME_LONG}.
* If ping pong situation continuous {@link #KEY_5G_NETWORK_BACKOFF_TIME_LONG}
* will be added to previously determined hysteresis time.
*
* @hide
*/
public static final String KEY_5G_BACKOFF_TIME_LONG =
PREFIX + "5g_backoff_time_long";
/**
* Controls the max back off time in milliseconds for switching back to
* 5G opportunistic subscription.
* This time will be the max hysteresis that can be determined irrespective of there is
* continuous ping pong situation or not as described in
* {@link #KEY_5G_PING_PONG_TIME_LONG} and
* {@link #KEY_5G_BACKOFF_TIME_LONG}.
*
* @hide
*/
public static final String KEY_5G_MAX_BACKOFF_TIME_LONG =
PREFIX + "5g_max_backoff_time_long";
/**
* Controls the ping pong determination of 5G opportunistic network.
* If opportunistic network is determined as out of service or below
* {@link #KEY_EXIT_THRESHOLD_SS_RSRP_INT} or
* {@link #KEY_EXIT_THRESHOLD_SS_RSRQ_DOUBLE} within
* the time specified by this carrier config of switching to opportunistic network,
* it will be determined as ping pong situation by system app or 1st party app.
*
* @hide
*/
public static final String KEY_5G_PING_PONG_TIME_LONG =
PREFIX + "5g_ping_pong_time_long";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
// Default value is -111 dBm for all bands.
sDefaults.putInt(KEY_ENTRY_THRESHOLD_SS_RSRP_INT, -111);
sDefaults.putPersistableBundle(KEY_ENTRY_THRESHOLD_SS_RSRP_INT_BUNDLE,
PersistableBundle.EMPTY);
// Default value is -18.5 dB for all bands.
sDefaults.putDouble(KEY_ENTRY_THRESHOLD_SS_RSRQ_DOUBLE, -18.5);
sDefaults.putPersistableBundle(
KEY_ENTRY_THRESHOLD_SS_RSRQ_DOUBLE_BUNDLE,
PersistableBundle.EMPTY);
// Default value is -120 dBm for all bands.
sDefaults.putInt(KEY_EXIT_THRESHOLD_SS_RSRP_INT, -120);
sDefaults.putPersistableBundle(KEY_EXIT_THRESHOLD_SS_RSRP_INT_BUNDLE,
PersistableBundle.EMPTY);
// Default value is -18.5 dB for all bands.
sDefaults.putDouble(KEY_EXIT_THRESHOLD_SS_RSRQ_DOUBLE, -18.5);
sDefaults.putPersistableBundle(
KEY_EXIT_THRESHOLD_SS_RSRQ_DOUBLE_BUNDLE,
PersistableBundle.EMPTY);
// Default value is 2 seconds for all bands.
defaults.putLong(KEY_5G_DATA_SWITCH_HYSTERESIS_TIME_LONG, 2000);
defaults.putPersistableBundle(
KEY_5G_DATA_SWITCH_HYSTERESIS_TIME_LONG_BUNDLE,
PersistableBundle.EMPTY);
// Default value is 2 seconds for all bands.
defaults.putLong(KEY_5G_DATA_SWITCH_EXIT_HYSTERESIS_TIME_LONG, 2000);
defaults.putPersistableBundle(
KEY_5G_DATA_SWITCH_EXIT_HYSTERESIS_TIME_LONG_BUNDLE,
PersistableBundle.EMPTY);
// Default value is 10 seconds.
sDefaults.putLong(KEY_5G_BACKOFF_TIME_LONG, 10000);
// Default value is 60 seconds.
sDefaults.putLong(KEY_5G_MAX_BACKOFF_TIME_LONG, 60000);
// Default value is 60 seconds.
sDefaults.putLong(KEY_5G_PING_PONG_TIME_LONG, 60000);
return defaults;
}
}
/**
* Controls whether 4G opportunistic networks should be scanned for possible data switch.
*
* @hide
*/
public static final String KEY_ENABLE_4G_OPPORTUNISTIC_NETWORK_SCAN_BOOL =
"enabled_4g_opportunistic_network_scan_bool";
/**
* Only relevant when the device supports opportunistic networks but does not support
* simultaneous 5G+5G. Controls how long, in milliseconds, to wait before opportunistic network
* goes out of service before switching the 5G capability back to primary stack. The idea of
* waiting a few seconds is to minimize the calling of the expensive capability switching
* operation in the case where CBRS goes back into service shortly after going out of it.
*
* @hide
*/
public static final String KEY_TIME_TO_SWITCH_BACK_TO_PRIMARY_IF_OPPORTUNISTIC_OOS_LONG =
"time_to_switch_back_to_primary_if_opportunistic_oos_long";
/**
* Only relevant when the device supports opportunistic networks but does not support
* simultaneous 5G+5G. Controls how long, in milliseconds, after 5G capability has switched back
* to primary stack due to opportunistic network being OOS. The idea is to minimizing the
* 'ping-ponging' effect where device is constantly witching capability back and forth between
* primary and opportunistic stack.
*
* @hide
*/
public static final String
KEY_OPPORTUNISTIC_TIME_TO_SCAN_AFTER_CAPABILITY_SWITCH_TO_PRIMARY_LONG =
"opportunistic_time_to_scan_after_capability_switch_to_primary_long";
/**
* Indicates zero or more emergency number prefix(es), because some carrier requires
* if users dial an emergency number address with a specific prefix, the combination of the
* prefix and the address is also a valid emergency number to dial. For example, an emergency
* number prefix is 318, and the emergency number is 911. Both 318911 and 911 can be dialed by
* users for emergency call. An empty array of string indicates that current carrier does not
* have this requirement.
*/
public static final String KEY_EMERGENCY_NUMBER_PREFIX_STRING_ARRAY =
"emergency_number_prefix_string_array";
/**
* Indicates whether carrier treats "*67" or "*82" as a temporary mode CLIR.
* @hide
*/
public static final String KEY_CARRIER_SUPPORTS_CALLER_ID_VERTICAL_SERVICE_CODES_BOOL =
"carrier_supports_caller_id_vertical_service_codes_bool";
/**
* Smart forwarding config. Smart forwarding is a feature to configure call forwarding to a
* different SIM in the device when one SIM is not reachable. The config here specifies a smart
* forwarding component that will launch UI for changing the configuration. An empty string
* indicates that no smart forwarding component is specified.
*
* Currently, only one non-empty configuration of smart forwarding component within system will
* be used when multiple SIMs are inserted.
*
* Empty string by default.
*
* @hide
*/
public static final String KEY_SMART_FORWARDING_CONFIG_COMPONENT_NAME_STRING =
"smart_forwarding_config_component_name_string";
/**
* Indicates when a carrier has a primary subscription and an opportunistic subscription active,
* and when Internet data is switched to opportunistic network, whether to still show
* signal bar of primary network. By default it will be false, meaning whenever data
* is going over opportunistic network, signal bar will reflect signal strength and rat
* icon of that network.
*/
public static final String KEY_ALWAYS_SHOW_PRIMARY_SIGNAL_BAR_IN_OPPORTUNISTIC_NETWORK_BOOLEAN =
"always_show_primary_signal_bar_in_opportunistic_network_boolean";
/**
* Upon data switching between subscriptions within a carrier group, if switch depends on
* validation result, this value defines customized value of how long we wait for validation
* success before we fail and revoke the switch.
* Time out is in milliseconds.
*/
public static final String KEY_DATA_SWITCH_VALIDATION_TIMEOUT_LONG =
"data_switch_validation_timeout_long";
/**
* The minimum timeout of UDP port 4500 NAT / firewall entries on the Internet PDN of this
* carrier network. This will be used by Android platform VPNs to tune IPsec NAT keepalive
* interval. If this value is too low to provide uninterrupted inbound connectivity, then
* Android system VPNs may indicate to applications that the VPN cannot support long-lived
* TCP connections.
* @hide
*/
@SystemApi(client = SystemApi.Client.MODULE_LIBRARIES)
public static final String KEY_MIN_UDP_PORT_4500_NAT_TIMEOUT_SEC_INT =
"min_udp_port_4500_nat_timeout_sec_int";
/**
* The preferred IKE protocol for ESP packets.
*
* This will be used by Android platform VPNs to select preferred encapsulation type and IP
* protocol type. The possible customization values are:
*
* AUTO IP VERSION and ENCAPSULATION TYPE SELECTION : "0"
* IPv4 UDP : "40"
* IPv6 ESP : "61"
*
* See the {@code PREFERRED_IKE_PROTOCOL_} constants in
* {@link com.android.server.connectivity.Vpn}.
* @hide
*/
public static final String KEY_PREFERRED_IKE_PROTOCOL_INT = "preferred_ike_protocol_int";
/**
* Specifies whether the system should prefix the EAP method to the anonymous identity.
* The following prefix will be added if this key is set to TRUE:
* EAP-AKA: "0"
* EAP-SIM: "1"
* EAP-AKA_PRIME: "6"
*/
public static final String ENABLE_EAP_METHOD_PREFIX_BOOL = "enable_eap_method_prefix_bool";
/**
* Indicates that GBA_ME should be used for GBA authentication, as defined in 3GPP TS 33.220.
* @hide
*/
@SystemApi
public static final int GBA_ME = 1;
/**
* Indicates that GBA_U should be used for GBA authentication, as defined in 3GPP TS 33.220.
* @hide
*/
@SystemApi
public static final int GBA_U = 2;
/**
* Indicates that GBA_Digest should be used for GBA authentication, as defined
* in 3GPP TS 33.220.
* @hide
*/
@SystemApi
public static final int GBA_DIGEST = 3;
/**
* An integer representing the GBA mode to use for requesting credentials
* via {@link TelephonyManager#bootstrapAuthenticationRequest}.
*
* One of {@link #GBA_ME}, {@link #GBA_U}, or {@link #GBA_DIGEST}.
* @hide
*/
@SystemApi
public static final String KEY_GBA_MODE_INT = "gba_mode_int";
/**
* An integer representing the organization code to be used when building the
* {@link UaSecurityProtocolIdentifier} used when requesting GBA authentication.
*
* See the {@code ORG_} constants in {@link UaSecurityProtocolIdentifier}.
* @hide
*/
@SystemApi
public static final String KEY_GBA_UA_SECURITY_ORGANIZATION_INT =
"gba_ua_security_organization_int";
/**
* An integer representing the security protocol to be used when building the
* {@link UaSecurityProtocolIdentifier} used when requesting GBA authentication.
*
* See the {@code UA_SECURITY_PROTOCOL_} constants in {@link UaSecurityProtocolIdentifier}.
* @hide
*/
@SystemApi
public static final String KEY_GBA_UA_SECURITY_PROTOCOL_INT = "gba_ua_security_protocol_int";
/**
* An integer representing the cipher suite to be used when building the
* {@link UaSecurityProtocolIdentifier} used when requesting GBA authentication.
*
* See the {@code TLS_} constants in {@link android.telephony.gba.TlsParams}.
* @hide
*/
@SystemApi
public static final String KEY_GBA_UA_TLS_CIPHER_SUITE_INT = "gba_ua_tls_cipher_suite_int";
/**
* The data stall recovery timers array in milliseconds, each element is the delay before
* performining next recovery action.
*
* The default value of timers array are: [180000ms, 180000ms, 180000ms, 180000ms] (3 minutes)
* Array[0]: It's the timer between RECOVERY_ACTION GET_DATA_CALL_LIST and CLEANUP, if data
* stall symptom still occurred, it will perform next recovery action after 180000ms.
* Array[1]: It's the timer between RECOVERY_ACTION CLEANUP and RE-REGISTER, if data stall
* symptom still occurred, it will perform next recovery action after 180000ms.
* Array[2]: It's the timer between RECOVERY_ACTION RE-REGISTER and RADIO_RESTART, if data stall
* symptom still occurred, it will perform next recovery action after 180000ms.
* Array[3]: It's the timer between RECOVERY_ACTION RADIO_RESTART and RESET_MODEM, if data stall
* symptom still occurred, it will perform next recovery action after 180000ms.
*
* See the {@code RECOVERY_ACTION_*} constants in
* {@link com.android.internal.telephony.data.DataStallRecoveryManager}
* @hide
*/
public static final String KEY_DATA_STALL_RECOVERY_TIMERS_LONG_ARRAY =
"data_stall_recovery_timers_long_array";
/**
* The data stall recovery action boolean array, we use this array to determine if the
* data stall recovery action needs to be skipped.
*
* For example, if the carrier use the same APN for both of IA and default type,
* the data call will not disconnect in modem side (so the RECOVERY_ACTION_CLEANUP
* did not effect). In this case, we can config the boolean variable of action
* RECOVERY_ACTION_CLEANUP to true, then it can be ignored to speed up the recovery
* action procedure.
*
* The default value of boolean array are: [false, false, true, false, false]
* Array[0]: When performing the recovery action, we can use this boolean value to determine
* if we need to perform RECOVERY_ACTION_GET_DATA_CALL_LIST.
* Array[1]: If data stall symptom still occurred, we can use this boolean value to determine
* if we need to perform RECOVERY_ACTION_CLEANUP. For example, if the carrier use the same APN
* for both of IA and default type, the data call will not disconnect in modem side
* (so the RECOVERY_ACTION_CLEANUP did not effect). In this case, we can config the boolean
* variable of action RECOVERY_ACTION_CLEANUP to true, then it can be ignored to speed up the
* recovery action procedure.
* Array[2]: If data stall symptom still occurred, we can use this boolean value to determine
* if we need to perform RE-REGISTER.
* Array[3]: If data stall symptom still occurred, we can use this boolean value to determine
* if we need to perform RECOVERY_ACTION_RADIO_RESTART.
* Array[4]: If data stall symptom still occurred, we can use this boolean value to determine
* if we need to perform RECOVERY_ACTION_MODEM_RESET.
*
* See the {@code RECOVERY_ACTION_*} constants in
* {@link com.android.internal.telephony.data.DataStallRecoveryManager}
* @hide
*/
public static final String KEY_DATA_STALL_RECOVERY_SHOULD_SKIP_BOOL_ARRAY =
"data_stall_recovery_should_skip_bool_array";
/**
* String array containing the list of names for service numbers provided by carriers. This key
* should be used with {@link #KEY_CARRIER_SERVICE_NUMBER_STRING_ARRAY}. The names provided in
* this array will be mapped 1:1 with the numbers provided in the {@link
* #KEY_CARRIER_SERVICE_NUMBER_STRING_ARRAY} array.
*
* <p>The data would be considered valid if and only if:
*
* <ul>
* <li>The number of items in both the arrays are equal
* <li>The data added to the {@link #KEY_CARRIER_SERVICE_NUMBER_STRING_ARRAY} array is valid.
* See {@link #KEY_CARRIER_SERVICE_NUMBER_STRING_ARRAY} for more information.
* </ul>
*
* <p>Example:
*
* <pre>{@code
* <string-array name="carrier_service_name_array" num="2">
* <item value="Police"/>
* <item value="Ambulance"/>
* </string-array>
* }</pre>
*/
public static final String KEY_CARRIER_SERVICE_NAME_STRING_ARRAY = "carrier_service_name_array";
/**
* String array containing the list of service numbers provided by carriers. This key should be
* used with {@link #KEY_CARRIER_SERVICE_NAME_STRING_ARRAY}. The numbers provided in this array
* will be mapped 1:1 with the names provided in the {@link
* #KEY_CARRIER_SERVICE_NAME_STRING_ARRAY} array.
*
* <p>The data would be considered valid if and only if:
*
* <ul>
* <li>The number of items in both the arrays are equal
* <li>The item should contain dialable characters only which includes 0-9, -, *, #, (, ),
* SPACE.
* </ul>
*
* <p>Example:
*
* <pre>{@code
* <string-array name="carrier_service_number_array" num="2">
* <item value="*123"/>
* <item value="+ (111) 111-111"/>
* </string-array>
* }</pre>
*/
public static final String KEY_CARRIER_SERVICE_NUMBER_STRING_ARRAY =
"carrier_service_number_array";
/**
* Configs used by ImsServiceEntitlement.
*/
public static final class ImsServiceEntitlement {
private ImsServiceEntitlement() {}
/** Prefix of all ImsServiceEntitlement.KEY_* constants. */
public static final String KEY_PREFIX = "imsserviceentitlement.";
/**
* The address of the entitlement configuration server.
*
* Reference: GSMA TS.43-v5, section 2.1 Default Entitlement Configuration Server.
*/
public static final String KEY_ENTITLEMENT_SERVER_URL_STRING =
KEY_PREFIX + "entitlement_server_url_string";
/**
* For some carriers, end-users may be presented with a web portal of the carrier before
* being allowed to use the VoWiFi service.
* To support this feature, the app hosts a {@link android.webkit.WebView} in the foreground
* VoWiFi entitlement configuration flow to show the web portal.
*
* {@code true} - show the VoWiFi portal in a webview.
*
* Note: this is effective only if the {@link #KEY_WFC_EMERGENCY_ADDRESS_CARRIER_APP_STRING}
* is set to this app.
*
* Reference: GSMA TS.43-v5, section 3, VoWiFi entitlement configuration.
*/
public static final String KEY_SHOW_VOWIFI_WEBVIEW_BOOL =
KEY_PREFIX + "show_vowifi_webview_bool";
/**
* For some carriers, the network is not provisioned by default to support
* IMS (VoLTE/VoWiFi/SMSoIP) service for all end users. Some type of network-side
* provisioning must then take place before offering the IMS service to the end-user.
*
* {@code true} - need this ImsServiceEntitlement app to do IMS (VoLTE/VoWiFi/SMSoIP)
* provisioning in the background before offering the IMS service to the end-user.
*
* Note: this is effective only if the carrier needs IMS provisioning, i.e.
* {@link #KEY_CARRIER_VOLTE_PROVISIONING_REQUIRED_BOOL} is set to true.
*
* Reference: GSMA TS.43-v5, section 3 - 5, VoWiFi/VoLTE/SMSoIP entitlement configuration.
*/
public static final String KEY_IMS_PROVISIONING_BOOL = KEY_PREFIX + "ims_provisioning_bool";
/**
* The FCM sender ID for the carrier.
* Used to trigger a carrier network requested entitlement configuration
* via Firebase Cloud Messaging (FCM). Do not set if the carrier doesn't use FCM for network
* requested entitlement configuration.
*
* Reference: GSMA TS.43-v5, section 2.4, Network Requested Entitlement Configuration.
*
* @see <a href="https://firebase.google.com/docs/cloud-messaging/concept-options#senderid">
* About FCM messages - Credentials</a>
*/
public static final String KEY_FCM_SENDER_ID_STRING = KEY_PREFIX + "fcm_sender_id_string";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putString(KEY_ENTITLEMENT_SERVER_URL_STRING, "");
defaults.putString(KEY_FCM_SENDER_ID_STRING, "");
defaults.putBoolean(KEY_SHOW_VOWIFI_WEBVIEW_BOOL, false);
defaults.putBoolean(KEY_IMS_PROVISIONING_BOOL, false);
return defaults;
}
}
/**
* GPS configs. See the GNSS HAL documentation for more details.
*/
public static final class Gps {
private Gps() {}
/** Prefix of all Gps.KEY_* constants. */
public static final String KEY_PREFIX = "gps.";
/**
* Location information during (and after) an emergency call is only provided over control
* plane signaling from the network.
* @hide
*/
public static final int SUPL_EMERGENCY_MODE_TYPE_CP_ONLY = 0;
/**
* Location information during (and after) an emergency call is provided over the data
* plane and serviced by the framework GNSS service, but if it fails, the carrier also
* supports control plane backup signaling.
* @hide
*/
public static final int SUPL_EMERGENCY_MODE_TYPE_CP_FALLBACK = 1;
/**
* Location information during (and after) an emergency call is provided over the data plane
* and serviced by the framework GNSS service only. There is no backup signalling over the
* control plane if it fails.
* @hide
*/
public static final int SUPL_EMERGENCY_MODE_TYPE_DP_ONLY = 2;
/**
* Determine whether current lpp_mode used for E-911 needs to be kept persistently.
* {@code false} - not keeping the lpp_mode means using default configuration of gps.conf
* when sim is not presented.
* {@code true} - current lpp_profile of carrier will be kepted persistently
* even after sim is removed. This is default.
*/
public static final String KEY_PERSIST_LPP_MODE_BOOL = KEY_PREFIX + "persist_lpp_mode_bool";
/**
* SUPL server host for SET Initiated & non-ES Network-Initiated SUPL requests.
* Default to supl.google.com
* @hide
*/
public static final String KEY_SUPL_HOST_STRING = KEY_PREFIX + "supl_host";
/**
* SUPL server port. Default to 7275.
* @hide
*/
public static final String KEY_SUPL_PORT_STRING = KEY_PREFIX + "supl_port";
/**
* The SUPL version requested by Carrier. This is a bit mask
* with bits 0:7 representing a service indicator field, bits 8:15
* representing the minor version and bits 16:23 representing the
* major version. Default to 0x20000.
* @hide
*/
public static final String KEY_SUPL_VER_STRING = KEY_PREFIX + "supl_ver";
/**
* SUPL_MODE configuration bit mask
* 1 - Mobile Station Based. This is default.
* 2 - Mobile Station Assisted.
* @hide
*/
public static final String KEY_SUPL_MODE_STRING = KEY_PREFIX + "supl_mode";
/**
* Whether to limit responses to SUPL ES mode requests only during user emergency sessions
* (e.g. E911), and SUPL non-ES requests to only outside of non user emergency sessions.
* 0 - no.
* 1 - yes. This is default.
* @hide
*/
public static final String KEY_SUPL_ES_STRING = KEY_PREFIX + "supl_es";
/**
* LTE Positioning Profile settings bit mask.
* 0 - Radio Resource Location Protocol in user plane and control plane. This is default.
* 1 - Enable LTE Positioning Protocol in user plane.
* 2 - Enable LTE Positioning Protocol in control plane.
* @hide
*/
public static final String KEY_LPP_PROFILE_STRING = KEY_PREFIX + "lpp_profile";
/**
* Determine whether to use emergency PDN for emergency SUPL.
* 0 - no.
* 1 - yes. This is default.
* @hide
*/
public static final String KEY_USE_EMERGENCY_PDN_FOR_EMERGENCY_SUPL_STRING =
KEY_PREFIX + "use_emergency_pdn_for_emergency_supl";
/**
* A_GLONASS_POS_PROTOCOL_SELECT bit mask.
* 0 - Don't use A-GLONASS. This is default.
* 1 - Use A-GLONASS in Radio Resource Control(RRC) control-plane.
* 2 - Use A-GLONASS in Radio Resource Location user-plane.
* 4 - Use A-GLONASS in LTE Positioning Protocol User plane.
* @hide
*/
public static final String KEY_A_GLONASS_POS_PROTOCOL_SELECT_STRING =
KEY_PREFIX + "a_glonass_pos_protocol_select";
/**
* GPS_LOCK configuration bit mask to specify GPS device behavior toward other services,
* when Location Settings are off.
* "0" - No lock.
* "1" - Lock Mobile Originated GPS functionalities.
* "2" - Lock Network initiated GPS functionalities.
* "3" - Lock both. This is default.
* @hide
*/
public static final String KEY_GPS_LOCK_STRING = KEY_PREFIX + "gps_lock";
/**
* Control Plane / SUPL NI emergency extension time in seconds. Default to "0".
* @hide
*/
public static final String KEY_ES_EXTENSION_SEC_STRING = KEY_PREFIX + "es_extension_sec";
/**
* Space separated list of Android package names of proxy applications representing
* the non-framework entities requesting location directly from GNSS without involving
* the framework, as managed by IGnssVisibilityControl.hal. For example,
* "com.example.mdt com.example.ims".
* @hide
*/
public static final String KEY_NFW_PROXY_APPS_STRING = KEY_PREFIX + "nfw_proxy_apps";
/**
* Determines whether or not SUPL ES mode supports a control-plane mechanism to get a user's
* location in the event that data plane SUPL fails or is otherwise unavailable.
* <p>
* An integer value determines the support type of this carrier. If this carrier only
* supports data plane SUPL ES, then the value will be
* {@link #SUPL_EMERGENCY_MODE_TYPE_DP_ONLY}. If the carrier supports control plane fallback
* for emergency SUPL, the value will be {@link #SUPL_EMERGENCY_MODE_TYPE_CP_FALLBACK}.
* If the carrier does not support data plane SUPL using the framework, the value will be
* {@link #SUPL_EMERGENCY_MODE_TYPE_CP_ONLY}.
* <p>
* The default value for this configuration is {@link #SUPL_EMERGENCY_MODE_TYPE_CP_ONLY}.
* @hide
*/
public static final String KEY_ES_SUPL_CONTROL_PLANE_SUPPORT_INT =
KEY_PREFIX + "es_supl_control_plane_support_int";
/**
* A list of roaming PLMNs where SUPL ES mode does not support a control-plane mechanism to
* get a user's location in the event that data plane SUPL fails or is otherwise
* unavailable.
* <p>
* A string array of PLMNs that do not support a control-plane mechanism for getting a
* user's location for SUPL ES.
* @hide
*/
public static final String KEY_ES_SUPL_DATA_PLANE_ONLY_ROAMING_PLMN_STRING_ARRAY =
KEY_PREFIX + "es_supl_data_plane_only_roaming_plmn_string_array";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putBoolean(KEY_PERSIST_LPP_MODE_BOOL, true);
defaults.putString(KEY_SUPL_HOST_STRING, "supl.google.com");
defaults.putString(KEY_SUPL_PORT_STRING, "7275");
defaults.putString(KEY_SUPL_VER_STRING, "0x20000");
defaults.putString(KEY_SUPL_MODE_STRING, "1");
defaults.putString(KEY_SUPL_ES_STRING, "1");
defaults.putString(KEY_LPP_PROFILE_STRING, "2");
defaults.putString(KEY_USE_EMERGENCY_PDN_FOR_EMERGENCY_SUPL_STRING, "1");
defaults.putString(KEY_A_GLONASS_POS_PROTOCOL_SELECT_STRING, "0");
defaults.putString(KEY_GPS_LOCK_STRING, "3");
defaults.putString(KEY_ES_EXTENSION_SEC_STRING, "0");
defaults.putString(KEY_NFW_PROXY_APPS_STRING, "");
defaults.putInt(KEY_ES_SUPL_CONTROL_PLANE_SUPPORT_INT,
SUPL_EMERGENCY_MODE_TYPE_CP_ONLY);
defaults.putStringArray(KEY_ES_SUPL_DATA_PLANE_ONLY_ROAMING_PLMN_STRING_ARRAY, null);
return defaults;
}
}
/**
* An int array containing CDMA enhanced roaming indicator values for Home (non-roaming)
* network.
* The default values come from 3GPP2 C.R1001 table 8.1-1.
* Enhanced Roaming Indicator Number Assignments
*
* @hide
*/
public static final String KEY_CDMA_ENHANCED_ROAMING_INDICATOR_FOR_HOME_NETWORK_INT_ARRAY =
"cdma_enhanced_roaming_indicator_for_home_network_int_array";
/**
* Determines whether wifi calling location privacy policy is shown.
*/
public static final String KEY_SHOW_WFC_LOCATION_PRIVACY_POLICY_BOOL =
"show_wfc_location_privacy_policy_bool";
/**
* Indicates use 3GPP application to replace 3GPP2 application even if it's a CDMA/CDMA-LTE
* phone, because some carriers' CSIM application is present but not supported.
* @hide
*/
public static final String KEY_USE_USIM_BOOL = "use_usim_bool";
/**
* Determines whether the carrier wants to cancel the cs reject notification automatically
* when the voice registration state changes.
* If true, the notification will be automatically removed
* when the voice registration state changes.
* If false, the notification will persist until the user dismisses it,
* the SIM is removed, or the device is rebooted.
* @hide
*/
public static final String KEY_AUTO_CANCEL_CS_REJECT_NOTIFICATION =
"carrier_auto_cancel_cs_notification";
/**
* Passing this value as {@link #KEY_SUBSCRIPTION_GROUP_UUID_STRING} will remove the
* subscription from a group instead of adding it to a group.
*
* <p>This value will work all the way back to {@link android.os.Build.VERSION_CODES#Q}.
*/
public static final String REMOVE_GROUP_UUID_STRING = "00000000-0000-0000-0000-000000000000";
/**
* The UUID of a Group of related subscriptions in which to place the current subscription.
*
* A grouped subscription will behave for billing purposes and other UI purposes as though it
* is a transparent extension of other subscriptions in the group.
*
* <p>If set to {@link #REMOVE_GROUP_UUID_STRING}, then the subscription will be removed from
* its current group.
*
* <p>This key will work all the way back to {@link android.os.Build.VERSION_CODES#Q}.
*/
public static final String KEY_SUBSCRIPTION_GROUP_UUID_STRING =
"subscription_group_uuid_string";
/**
* Controls the cellular usage setting.
*
* The usage setting indicates whether a device will remain attached to a network based on
* the primary use case for the service. A device will detach and search for a more-preferred
* network if the primary use case (voice or data) is not satisfied. Depending on the type
* of device, it may operate in a voice or data-centric mode by default.
*
* <p>Sets the usage setting in accordance with 3gpp 24.301 sec 4.3 and 3gpp 24.501 sec 4.3.
* Also refer to "UE's usage setting" as defined in 3gpp 24.301 section 3.1 and 3gpp 23.221
* Annex A.
*
* Either omit this key or pass a value of
* {@link SubscriptionManager#USAGE_SETTING_UNKNOWN unknown} to preserve the current setting.
*
* <p>Devices that support configuration of the cellular usage setting, including devices
* with HAL capability to set the cellular usage setting, must honor this setting accordingly.
*
* {@link SubscriptionManager#USAGE_SETTING_DEFAULT default},
* {@link SubscriptionManager#USAGE_SETTING_VOICE_CENTRIC voice-centric},
* or {@link SubscriptionManager#USAGE_SETTING_DATA_CENTRIC data-centric}.
* {@see SubscriptionInfo#getUsageSetting}
*
*/
public static final String KEY_CELLULAR_USAGE_SETTING_INT = "cellular_usage_setting_int";
/**
* Data switch validation minimal gap time, in milliseconds.
*
* Which means, if the same subscription on the same network (based on MCC+MNC+TAC+subId)
* was recently validated (within this time gap), and Telephony receives a request to switch to
* it again, Telephony will skip the validation part and switch to it as soon as connection
* is setup, as if it's already validated.
*
* If the network was validated within the gap but the latest validation result is false, the
* validation will not be skipped.
*
* If not set or set to 0, validation will never be skipped.
* The max acceptable value of this config is 24 hours.
*
* @hide
* @deprecated Use {@link #KEY_DATA_SWITCH_VALIDATION_MIN_INTERVAL_MILLIS_LONG} instead.
*/
@Deprecated
public static final String KEY_DATA_SWITCH_VALIDATION_MIN_GAP_LONG =
"data_switch_validation_min_gap_long";
/**
* Data switch validation minimal interval, in milliseconds.
*
* If a connection to the default (Internet) PDN for the current subscription is validated on
* a given operator within a given tracking area, re-validations to that matching operator will
* be skipped if they would occur within the specified interval. Instead, the connection will
* automatically considered validated.
*
* If the network was validated within the interval but the latest validation result was false,
* the validation will not be skipped. If not set or set to 0, validation will not be skipped.
*
* The valid range of value is between 0 millisecond and 24 hours, inclusive in both sides. The
* default value is 24 hours.
*
* @see android.net.NetworkCapabilities#NET_CAPABILITY_VALIDATED
*/
public static final String KEY_DATA_SWITCH_VALIDATION_MIN_INTERVAL_MILLIS_LONG =
KEY_DATA_SWITCH_VALIDATION_MIN_GAP_LONG;
/**
* A boolean property indicating whether this subscription should be managed as an opportunistic
* subscription.
*
* If true, then this subscription will be selected based on available coverage and will not be
* available for a user in settings menus for selecting macro network providers. If unset,
* defaults to “false”.
*
* <p>This key will work all the way back to {@link android.os.Build.VERSION_CODES#Q}.
*/
public static final String KEY_IS_OPPORTUNISTIC_SUBSCRIPTION_BOOL =
"is_opportunistic_subscription_bool";
/**
* The flatten string {@link android.content.ComponentName componentName} of carrier
* provisioning app receiver.
*
* <p>
* The RadioInfo activity(*#*#INFO#*#*) will broadcast an intent to this receiver when the
* "Carrier Provisioning Info" or "Trigger Carrier Provisioning" button clicked.
*
* <p>
* e.g., com.google.android.carrierPackageName/.CarrierReceiverName
*
* @hide
*/
public static final String KEY_CARRIER_PROVISIONING_APP_STRING =
"carrier_provisioning_app_string";
/**
* Configs used by the IMS stack.
*/
public static final class Ims {
/** Prefix of all Ims.KEY_* constants. */
public static final String KEY_PREFIX = "ims.";
/**
* Delay in milliseconds to turn off wifi when IMS is registered over wifi.
*/
public static final String KEY_WIFI_OFF_DEFERRING_TIME_MILLIS_INT =
KEY_PREFIX + "wifi_off_deferring_time_millis_int";
/**
* A boolean flag specifying whether or not this carrier requires one IMS registration for
* all IMS services (MMTEL and RCS).
* <p>
* If set to {@code true}, the IMS Service must use one IMS registration for all IMS
* services. If set to {@code false}, IMS services may use separate IMS registrations for
* MMTEL and RCS.
* <p>
* The default value for this configuration is {@code false}.
*/
public static final String KEY_IMS_SINGLE_REGISTRATION_REQUIRED_BOOL =
KEY_PREFIX + "ims_single_registration_required_bool";
/**
* A boolean flag specifying whether or not this carrier supports the device notifying the
* network of its RCS capabilities using the SIP PUBLISH procedure defined for User
* Capability Exchange (UCE). See RCC.71, section 3 for more information.
* <p>
* If this key's value is set to false, the procedure for RCS contact capability exchange
* via SIP SUBSCRIBE/NOTIFY will also be disabled internally, and this key must also be set
* to false to ensure apps do not improperly think that capability exchange via SIP PUBLISH
* is enabled.
* <p> The default value for this key is {@code false}.
*/
public static final String KEY_ENABLE_PRESENCE_PUBLISH_BOOL =
KEY_PREFIX + "enable_presence_publish_bool";
/**
* Each string in this array contains a mapping between the service-id and version portion
* of the service-description element and the associated IMS feature tag(s) that are
* associated with each element (see RCC.07 Table 7).
* <p>
* Each string contains 3 parts, which define the mapping between service-description and
* feature tag(s) that must be present in the IMS REGISTER for the RCS service to be
* published as part of the RCS PUBLISH procedure:
* [service-id]|[version]|[desc]|[feature_tag];[feature_tag];...
* <ul>
* <li>[service-id]: the service-id element associated with the RCS capability.</li>
* <li>[version]: The version element associated with that service-id</li>
* <li>[desc]: The optional desecription element associated with that service-id</li>
* <li>[feature_tag];[feature_tag]: The list of all feature tags associated with this
* capability that MUST ALL be present in the IMS registration for this this
* capability to be published to the network.</li>
* </ul>
* <p>
* Features managed by the framework will be considered capable when the ImsService reports
* that those services are capable via the
* {@link MmTelFeature#notifyCapabilitiesStatusChanged(MmTelFeature.MmTelCapabilities)} or
* {@link RcsFeature#notifyCapabilitiesStatusChanged(RcsFeature.RcsImsCapabilities)} APIs.
* For RCS services not managed by the framework, the capability of these services are
* determined by looking at the feature tags associated with the IMS registration using the
* {@link ImsRegistrationAttributes} API and mapping them to the service-description map.
* <p>
* The framework contains a default value of this key, which is based off of RCC.07
* specification. Capabilities based of carrier extensions may be added to this list on a
* carrier-by-carrier basis as required in order to support additional services in the
* PUBLISH. If this list contains a service-id and version that overlaps with the default,
* it will override the framework default.
* @hide
*/
public static final String KEY_PUBLISH_SERVICE_DESC_FEATURE_TAG_MAP_OVERRIDE_STRING_ARRAY =
KEY_PREFIX + "publish_service_desc_feature_tag_map_override_string_array";
/**
* Flag indicating whether or not this carrier supports the exchange of phone numbers with
* the carrier's RCS presence server in order to retrieve the RCS capabilities of requested
* contacts used in the RCS User Capability Exchange (UCE) procedure. See RCC.71, section 3
* for more information.
* <p>
* When presence is supported, the device uses the SIP SUBSCRIBE/NOTIFY procedure internally
* to retrieve the requested RCS capabilities. See
* {@link android.telephony.ims.RcsUceAdapter} for more information on how RCS capabilities
* can be retrieved from the carrier's network.
*/
public static final String KEY_ENABLE_PRESENCE_CAPABILITY_EXCHANGE_BOOL =
KEY_PREFIX + "enable_presence_capability_exchange_bool";
/**
* Flag indicating whether or not the carrier expects the RCS UCE service to periodically
* refresh the RCS capabilities cache of the user's contacts as well as request the
* capabilities of call contacts when the SIM card is first inserted or when a new contact
* is added, removed, or modified. This corresponds to the RCC.07 A.19
* "DISABLE INITIAL ADDRESS BOOK SCAN" parameter.
* <p>
* If this flag is disabled, the capabilities cache will not be refreshed internally at all
* and will only be updated if the cached capabilities are stale when an application
* requests them.
*
* @see RcsUceAdapter#isUceSettingEnabled() more information about this feature and how
* it is enabled by the user.
*/
public static final String KEY_RCS_BULK_CAPABILITY_EXCHANGE_BOOL =
KEY_PREFIX + "rcs_bulk_capability_exchange_bool";
/**
* Flag indicating whether or not the carrier supports capability exchange with a list of
* contacts. When {@code true}, the device will batch together multiple requests and
* construct a RLMI document in the SIP SUBSCRIBE request (see RFC 4662). If {@code false},
* the request will be split up into one SIP SUBSCRIBE request per contact.
*/
public static final String KEY_ENABLE_PRESENCE_GROUP_SUBSCRIBE_BOOL =
KEY_PREFIX + "enable_presence_group_subscribe_bool";
/**
* Flag indicating whether or not to use SIP URI when send a presence subscribe.
* When {@code true}, the device sets the To and Contact header to be SIP URI using
* the TelephonyManager#getIsimDomain" API.
* If {@code false}, the device uses a TEL URI.
*/
public static final String KEY_USE_SIP_URI_FOR_PRESENCE_SUBSCRIBE_BOOL =
KEY_PREFIX + "use_sip_uri_for_presence_subscribe_bool";
/**
* Flag indicating whether or not to use TEL URI when setting the entity uri field and
* contact element of each tuple.
*
* When {@code true}, the device sets the entity uri field and contact element to be
* TEL URI. This is done by first searching for the first TEL URI provided in
* p-associated-uri header. If there are no TEL URIs in the p-associated-uri header, we will
* convert the first SIP URI provided in the header to a TEL URI. If there are no URIs in
* the p-associated-uri header, we will then fall back to using the SIM card to generate the
* TEL URI.
* If {@code false}, the first URI provided in the p-associated-uri header is used,
* independent of the URI scheme. If there are no URIs available from p-associated-uri
* header, we will try to generate a SIP URI or TEL URI from the information provided by the
* SIM card, depending on the information available.
* @hide
*/
public static final String KEY_USE_TEL_URI_FOR_PIDF_XML_BOOL =
KEY_PREFIX + "use_tel_uri_for_pidf_xml";
/**
* An integer key associated with the period of time in seconds the non-rcs capability
* information of each contact is cached on the device.
* <p>
* The rcs capability cache expiration sec is managed by
* {@code android.telephony.ims.ProvisioningManager} but non-rcs capability is managed by
* {@link CarrierConfigManager} since non-rcs capability will be provided via ACS or carrier
* config.
* <p>
* The default value is 2592000 secs (30 days), see RCC.07 Annex A.1.9.
*/
public static final String KEY_NON_RCS_CAPABILITIES_CACHE_EXPIRATION_SEC_INT =
KEY_PREFIX + "non_rcs_capabilities_cache_expiration_sec_int";
/**
* Specifies the RCS feature tag allowed for the carrier.
*
* <p>The values refer to RCC.07 2.4.4.
*/
public static final String KEY_RCS_FEATURE_TAG_ALLOWED_STRING_ARRAY =
KEY_PREFIX + "rcs_feature_tag_allowed_string_array";
/**
* Flag indicating whether or not carrier forbids device send the RCS request when the
* device receive the network response with the SIP code 489 BAD EVENT.
* <p>
* The default value for this key is {@code false}.
* @hide
*/
public static final String KEY_RCS_REQUEST_FORBIDDEN_BY_SIP_489_BOOL =
KEY_PREFIX + "rcs_request_forbidden_by_sip_489_bool";
/**
* Indicates the interval that SUBSCRIBE requests from applications will be retried at when
* the carrier network has responded to a previous request with a forbidden error.
* <p>
* The default value for this key is 20 minutes.
* @hide
*/
public static final String KEY_RCS_REQUEST_RETRY_INTERVAL_MILLIS_LONG =
KEY_PREFIX + "rcs_request_retry_interval_millis_long";
/** SIP timer T1 as per 3GPP TS 24.229 Table 7.7.1 */
public static final String KEY_SIP_TIMER_T1_MILLIS_INT =
KEY_PREFIX + "sip_timer_t1_millis_int";
/** SIP timer T2 as per 3GPP TS 24.229 Table 7.7.1 */
public static final String KEY_SIP_TIMER_T2_MILLIS_INT =
KEY_PREFIX + "sip_timer_t2_millis_int";
/** SIP timer T4 as per 3GPP TS 24.229 Table 7.7.1 */
public static final String KEY_SIP_TIMER_T4_MILLIS_INT =
KEY_PREFIX + "sip_timer_t4_millis_int";
/** SIP timer B as per 3GPP TS 24.229 Table 7.7.1 */
public static final String KEY_SIP_TIMER_B_MILLIS_INT =
KEY_PREFIX + "sip_timer_b_millis_int";
/** SIP timer C as per 3GPP TS 24.229 Table 7.7.1 */
public static final String KEY_SIP_TIMER_C_MILLIS_INT =
KEY_PREFIX + "sip_timer_c_millis_int";
/** SIP timer D as per 3GPP TS 24.229 Table 7.7.1 */
public static final String KEY_SIP_TIMER_D_MILLIS_INT =
KEY_PREFIX + "sip_timer_d_millis_int";
/** SIP timer F as per 3GPP TS 24.229 Table 7.7.1 */
public static final String KEY_SIP_TIMER_F_MILLIS_INT =
KEY_PREFIX + "sip_timer_f_millis_int";
/** SIP timer H as per 3GPP TS 24.229 Table 7.7.1 */
public static final String KEY_SIP_TIMER_H_MILLIS_INT =
KEY_PREFIX + "sip_timer_h_millis_int";
/** SIP timer J as per 3GPP TS 24.229 Table 7.7.1 */
public static final String KEY_SIP_TIMER_J_MILLIS_INT =
KEY_PREFIX + "sip_timer_j_millis_int";
/** Specifies the SIP Server default port. */
public static final String KEY_SIP_SERVER_PORT_NUMBER_INT =
KEY_PREFIX + "sip_server_port_number_int";
/**
* Specify the “phone-context” parameter as defined in
* section 7.2A.10 in 3GPP TS 24.229.
*/
public static final String KEY_PHONE_CONTEXT_DOMAIN_NAME_STRING =
KEY_PREFIX + "phone_context_domain_name_string";
/** @hide */
@IntDef({REQUEST_URI_FORMAT_TEL, REQUEST_URI_FORMAT_SIP})
public @interface RequestUriFormatType {}
/**
* Request URI is of type TEL URI.
*/
public static final int REQUEST_URI_FORMAT_TEL = 0;
/**
* Request URI is of type SIP URI.
*/
public static final int REQUEST_URI_FORMAT_SIP = 1;
/**
* Specify whether the request URI is SIP URI
* {@link #REQUEST_URI_FORMAT_SIP} or
* TEL URI {@link #REQUEST_URI_FORMAT_TEL}.
*/
public static final String KEY_REQUEST_URI_TYPE_INT =
KEY_PREFIX + "request_uri_type_int";
/**
* Flag indicating whether Globally Routable User agent (GRUU)
* in supported HEADER is included or not.
*
* <p> Reference: RFC 5627.
*/
public static final String KEY_GRUU_ENABLED_BOOL =
KEY_PREFIX + "gruu_enabled_bool";
/**
* Flag indicating whether to keep/release IMS PDN in case of
* moving to non VOPS area.
*
* <p>if {@code True}, keep IMS PDN in case of moving to non VOPS area.
* if {@code false}, otherwise.
*/
public static final String KEY_KEEP_PDN_UP_IN_NO_VOPS_BOOL =
KEY_PREFIX + "keep_pdn_up_in_no_vops_bool";
/** @hide */
@IntDef({
PREFERRED_TRANSPORT_UDP,
PREFERRED_TRANSPORT_TCP,
PREFERRED_TRANSPORT_DYNAMIC_UDP_TCP,
PREFERRED_TRANSPORT_TLS
})
public @interface PreferredTransportType {}
/** Preferred Transport is always UDP. */
public static final int PREFERRED_TRANSPORT_UDP = 0;
/** Preferred Transport is always TCP. */
public static final int PREFERRED_TRANSPORT_TCP = 1;
/**
* Preferred Transport is both UDP and TCP and selected based
* on MTU size specified in {@link #KEY_IPV4_SIP_MTU_SIZE_CELLULAR_INT}
* and {@link #KEY_IPV6_SIP_MTU_SIZE_CELLULAR_INT}.
*
* <p>Default transport is UDP. If message size is larger
* than MTU, then TCP shall be used.
*/
public static final int PREFERRED_TRANSPORT_DYNAMIC_UDP_TCP = 2;
/** Preferred Transport is TLS. */
public static final int PREFERRED_TRANSPORT_TLS = 3;
/**
* Specify the preferred transport protocol for SIP messages.
*
* <p>Possible values are,
* {@link #PREFERRED_TRANSPORT_UDP},
* {@link #PREFERRED_TRANSPORT_TCP},
* {@link #PREFERRED_TRANSPORT_DYNAMIC_UDP_TCP}
*/
public static final String KEY_SIP_PREFERRED_TRANSPORT_INT =
KEY_PREFIX + "sip_preferred_transport_int";
/**
* Specify the maximum IPV4 MTU size of SIP message on Cellular.
*
* <p>If {@link #KEY_SIP_PREFERRED_TRANSPORT_INT} is
* {@link #PREFERRED_TRANSPORT_DYNAMIC_UDP_TCP} and SIP message MTU size
* is more than this value, then SIP transport will be TCP, else the
* SIP transport is UDP.
*/
public static final String KEY_IPV4_SIP_MTU_SIZE_CELLULAR_INT =
KEY_PREFIX + "ipv4_sip_mtu_size_cellular_int";
/**
* Specify the maximum IPV6 MTU size of SIP message on Cellular.
*
* <p>If {@link #KEY_SIP_PREFERRED_TRANSPORT_INT} is
* {@link #PREFERRED_TRANSPORT_DYNAMIC_UDP_TCP} and SIP message MTU size
* is more than this value, then SIP transport will be TCP, else the
* SIP transport is UDP.
*/
public static final String KEY_IPV6_SIP_MTU_SIZE_CELLULAR_INT =
KEY_PREFIX + "ipv6_sip_mtu_size_cellular_int";
/**
* This config determines whether IMS PDN needs to be enabled
* when VOPS support is not available in both home and roaming scenarios.
*
* <p>This is applicable before IMS PDN is up, to decide whether
* IMS PDN needs to be enabled based on VOPS support in home/roaming.
*
* <p>Possible values are,
* {@link #NETWORK_TYPE_HOME},
* {@link #NETWORK_TYPE_ROAMING}
* An empty array indicates IMS PDN depends on VOPS on both home
* and roaming scenarios.
*/
public static final String KEY_IMS_PDN_ENABLED_IN_NO_VOPS_SUPPORT_INT_ARRAY =
KEY_PREFIX + "ims_pdn_enabled_in_no_vops_support_int_array";
/**
* Flag indicating whether IPSec enabled for SIP messages.
*
* <p> Reference: 3GPP TS 33.203 and RFC 3329.
*/
public static final String KEY_SIP_OVER_IPSEC_ENABLED_BOOL =
KEY_PREFIX + "sip_over_ipsec_enabled_bool";
/** @hide */
@IntDef({IPSEC_AUTHENTICATION_ALGORITHM_HMAC_MD5, IPSEC_AUTHENTICATION_ALGORITHM_HMAC_SHA1})
public @interface IpsecAuthenticationAlgorithmType {}
/** IPSec Authentication algorithm is HMAC-MD5. see Annex H of TS 33.203 */
public static final int IPSEC_AUTHENTICATION_ALGORITHM_HMAC_MD5 = 0;
/** IPSec Authentication algorithm is HMAC-SHA1. see Annex H of TS 33.203 */
public static final int IPSEC_AUTHENTICATION_ALGORITHM_HMAC_SHA1 = 1;
/**
* List of supported IPSEC Authentication algorithms.
*
* <p>Possible values are,
* {@link #IPSEC_AUTHENTICATION_ALGORITHM_HMAC_MD5},
* {@link #IPSEC_AUTHENTICATION_ALGORITHM_HMAC_SHA1}
*/
public static final String KEY_IPSEC_AUTHENTICATION_ALGORITHMS_INT_ARRAY =
KEY_PREFIX + "ipsec_authentication_algorithms_int_array";
/** @hide */
@IntDef({
IPSEC_ENCRYPTION_ALGORITHM_NULL,
IPSEC_ENCRYPTION_ALGORITHM_DES_EDE3_CBC,
IPSEC_ENCRYPTION_ALGORITHM_AES_CBC
})
public @interface IpsecEncryptionAlgorithmType {}
/** IPSec Encryption algorithm is NULL. see Annex H of TS 33.203 */
public static final int IPSEC_ENCRYPTION_ALGORITHM_NULL = 0;
/** IPSec Encryption algorithm is DES_EDE3_CBC. see Annex H of TS 33.203 */
public static final int IPSEC_ENCRYPTION_ALGORITHM_DES_EDE3_CBC = 1;
/** IPSec Encryption algorithm is AES_CBC. see Annex H of TS 33.203 */
public static final int IPSEC_ENCRYPTION_ALGORITHM_AES_CBC = 2;
/**
* List of supported IPSEC encryption algorithms.
*
* <p>Possible values are,
* {@link #IPSEC_ENCRYPTION_ALGORITHM_NULL},
* {@link #IPSEC_ENCRYPTION_ALGORITHM_DES_EDE3_CBC},
* {@link #IPSEC_ENCRYPTION_ALGORITHM_AES_CBC}
*/
public static final String KEY_IPSEC_ENCRYPTION_ALGORITHMS_INT_ARRAY =
KEY_PREFIX + "ipsec_encryption_algorithms_int_array";
/**
* Expiry timer for IMS Registration in seconds.
* <p>Reference: RFC 3261 Section 20.19.
*/
public static final String KEY_REGISTRATION_EXPIRY_TIMER_SEC_INT =
KEY_PREFIX + "registration_expiry_timer_sec_int";
/** Registration Retry Base-time as per RFC 5626 Section 4.5. */
public static final String KEY_REGISTRATION_RETRY_BASE_TIMER_MILLIS_INT =
KEY_PREFIX + "registration_retry_base_timer_millis_int";
/** Registration Retry max-time as per RFC 5626 Section 4.5. */
public static final String KEY_REGISTRATION_RETRY_MAX_TIMER_MILLIS_INT =
KEY_PREFIX + "registration_retry_max_timer_millis_int";
/**
* Flag indicating whether subscription to registration event package
* is supported or not.
*/
public static final String KEY_REGISTRATION_EVENT_PACKAGE_SUPPORTED_BOOL =
KEY_PREFIX + "registration_event_package_supported_bool";
/**
* Expiry timer for SUBSCRIBE in seconds.
* <p>Reference: RFC 3261 Section 20.19.
*/
public static final String KEY_REGISTRATION_SUBSCRIBE_EXPIRY_TIMER_SEC_INT =
KEY_PREFIX + "registration_subscribe_expiry_timer_sec_int";
/** @hide */
@IntDef({
GEOLOCATION_PIDF_FOR_NON_EMERGENCY_ON_WIFI,
GEOLOCATION_PIDF_FOR_EMERGENCY_ON_WIFI,
GEOLOCATION_PIDF_FOR_NON_EMERGENCY_ON_CELLULAR,
GEOLOCATION_PIDF_FOR_EMERGENCY_ON_CELLULAR
})
public @interface GeolocationPidfAllowedType {}
/**
* Indicates geolocation PIDF XML needs to be included for
* normal/non-emergency call scenario on WiFi
*
* <p>Geolocation for normal/non-emergency call should only include
* country code.
*/
public static final int GEOLOCATION_PIDF_FOR_NON_EMERGENCY_ON_WIFI = 1;
/**
* Indicates geolocation PIDF XML needs to be included for emergency
* call scenario on WiFi
*/
public static final int GEOLOCATION_PIDF_FOR_EMERGENCY_ON_WIFI = 2;
/**
* Indicates geolocation PIDF XML needs to be included for normal/non-emergency
* call scenario on Cellular
*
* <p>Geolocation for normal/non-emergency call should only include
* country code.
*/
public static final int GEOLOCATION_PIDF_FOR_NON_EMERGENCY_ON_CELLULAR = 3;
/**
* Indicates geolocation PIDF XML needs to be included for emergency
* call scenario on Cellular
*/
public static final int GEOLOCATION_PIDF_FOR_EMERGENCY_ON_CELLULAR = 4;
/**
* List of cases where geolocation PIDF XML needs to be included in the
* SIP REGISTER over WiFi and Cellular.
*
* <p>Possible values are,
* {@link #GEOLOCATION_PIDF_FOR_NON_EMERGENCY_ON_WIFI},
* {@link #GEOLOCATION_PIDF_FOR_EMERGENCY_ON_WIFI},
* {@link #GEOLOCATION_PIDF_FOR_NON_EMERGENCY_ON_CELLULAR},
* {@link #GEOLOCATION_PIDF_FOR_EMERGENCY_ON_CELLULAR}
*
* <p>An empty array indicates geolocation PIDF XML should not be included in
* the SIP REGISTER over WiFi and Cellular.
*/
public static final String KEY_GEOLOCATION_PIDF_IN_SIP_REGISTER_SUPPORT_INT_ARRAY =
KEY_PREFIX + "geolocation_pidf_in_sip_register_support_int_array";
/**
* List of cases where geolocation PIDF XML needs to be included in the
* SIP INVITE over WiFi and Cellular.
*
* <p>Possible values are,
* {@link #GEOLOCATION_PIDF_FOR_NON_EMERGENCY_ON_WIFI},
* {@link #GEOLOCATION_PIDF_FOR_EMERGENCY_ON_WIFI},
* {@link #GEOLOCATION_PIDF_FOR_NON_EMERGENCY_ON_CELLULAR},
* {@link #GEOLOCATION_PIDF_FOR_EMERGENCY_ON_CELLULAR}
*
* <p>An empty array indicates geolocation PIDF XML should not be included
* in the SIP INVITE over WiFi and Cellular.
*/
public static final String KEY_GEOLOCATION_PIDF_IN_SIP_INVITE_SUPPORT_INT_ARRAY =
KEY_PREFIX + "geolocation_pidf_in_sip_invite_support_int_array";
/**
* Specifies the IMS User Agent in template format.
*
* <p>Example: #MANUFACTURER#_#MODEL#_Android#AV#_#BUILD#".
* IMS Stack should internally substitute the tokens with the
* values from the respective android properties.
*
* <p>List of allowed tokens and the corresponding android properties are,
* <UL>
* <LI>MANUFACTURER : ro.product.manufacturer</LI>
* <LI>MODEL : ro.product.model</LI>
* <LI>AV : ro.build.version.release"</LI>
* <LI>BUILD : ro.build.id</LI>
* </UL>
* <p> Vendor IMS Stack should strip any whitespace characters present
* in the android properties values before replacing the token.
*
* <p> An empty string is invalid as per IR92 section 2.6. This key is
* considered invalid if the format is violated. If the key is invalid or
* not configured, IMS stack should use internal default values.
*/
public static final String KEY_IMS_USER_AGENT_STRING =
KEY_PREFIX + "ims_user_agent_string";
/** @hide */
@IntDef({
NETWORK_TYPE_HOME,
NETWORK_TYPE_ROAMING
})
public @interface NetworkType {}
/** Indicates HOME Network. */
public static final int NETWORK_TYPE_HOME = 0;
/** Indicates Roaming Network. */
public static final int NETWORK_TYPE_ROAMING = 1;
/** @hide */
@IntDef({
RTCP_INACTIVITY_ON_HOLD,
RTCP_INACTIVITY_ON_CONNECTED,
RTP_INACTIVITY_ON_CONNECTED,
E911_RTCP_INACTIVITY_ON_CONNECTED,
E911_RTP_INACTIVITY_ON_CONNECTED
})
public @interface MediaInactivityReason {}
/** RTCP inactivity occurred when call is on HOLD. */
public static final int RTCP_INACTIVITY_ON_HOLD = 0;
/** RTCP inactivity occurred when call is connected. */
public static final int RTCP_INACTIVITY_ON_CONNECTED = 1;
/** RTP inactivity occurred when call is connected. */
public static final int RTP_INACTIVITY_ON_CONNECTED = 2;
/** E911 RTCP inactivity occurred when call is connected. */
public static final int E911_RTCP_INACTIVITY_ON_CONNECTED = 3;
/** E911 RTP inactivity occurred when call is connected. */
public static final int E911_RTP_INACTIVITY_ON_CONNECTED = 4;
/**
* List of different RAT technologies on which IMS
* is supported.
*
* <p>Possible values are,
* {@link AccessNetworkConstants.AccessNetworkType#NGRAN}
* {@link AccessNetworkConstants.AccessNetworkType#EUTRAN}
* {@link AccessNetworkConstants.AccessNetworkType#IWLAN}
* {@link AccessNetworkConstants.AccessNetworkType#UTRAN}
* {@link AccessNetworkConstants.AccessNetworkType#GERAN}
*/
public static final String KEY_SUPPORTED_RATS_INT_ARRAY =
KEY_PREFIX + "supported_rats_int_array";
/**
* A bundle which specifies the MMTEL capability and registration technology
* that requires provisioning. If a tuple is not present, the
* framework will not require that the tuple requires provisioning before
* enabling the capability.
* <p> Possible keys in this bundle are
* <ul>
* <li>{@link #KEY_CAPABILITY_TYPE_VOICE_INT_ARRAY}</li>
* <li>{@link #KEY_CAPABILITY_TYPE_VIDEO_INT_ARRAY}</li>
* <li>{@link #KEY_CAPABILITY_TYPE_UT_INT_ARRAY}</li>
* <li>{@link #KEY_CAPABILITY_TYPE_SMS_INT_ARRAY}</li>
* <li>{@link #KEY_CAPABILITY_TYPE_CALL_COMPOSER_INT_ARRAY}</li>
* </ul>
* <p> The values are defined as {@code REGISTRATION_TECH_*} constants in
* {@link android.telephony.ims.stub.ImsRegistrationImplBase}.
*
* changing mmtel_requires_provisioning_bundle requires changes to
* carrier_volte_provisioning_required_bool and vice versa
* {@link Ims#KEY_CARRIER_VOLTE_PROVISIONING_REQUIRED_BOOL}
*/
public static final String KEY_MMTEL_REQUIRES_PROVISIONING_BUNDLE =
KEY_PREFIX + "mmtel_requires_provisioning_bundle";
/**
* List of different RAT technologies on which Provisioning for Voice calling (IR.92)
* is supported.
* <p>Possible values are,
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_LTE}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_IWLAN}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_CROSS_SIM}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_NR}
* @see MmTelFeature.MmTelCapabilities#CAPABILITY_TYPE_VOICE
*/
public static final String KEY_CAPABILITY_TYPE_VOICE_INT_ARRAY =
KEY_PREFIX + "capability_type_voice_int_array";
/**
* List of different RAT technologies on which Provisioning for Video Telephony (IR.94)
* is supported.
* <p>Possible values are,
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_LTE}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_IWLAN}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_CROSS_SIM}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_NR}
* @see MmTelFeature.MmTelCapabilities#CAPABILITY_TYPE_VIDEO
*/
public static final String KEY_CAPABILITY_TYPE_VIDEO_INT_ARRAY =
KEY_PREFIX + "capability_type_video_int_array";
/**
* List of different RAT technologies on which Provisioning for XCAP over Ut for
* supplementary services. (IR.92) is supported.
* <p>Possible values are,
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_LTE}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_IWLAN}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_CROSS_SIM}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_NR}
* @see MmTelFeature.MmTelCapabilities#CAPABILITY_TYPE_UT
*/
public static final String KEY_CAPABILITY_TYPE_UT_INT_ARRAY =
KEY_PREFIX + "capability_type_ut_int_array";
/**
* List of different RAT technologies on which Provisioning for SMS (IR.92) is supported.
* <p>Possible values are,
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_LTE}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_IWLAN}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_CROSS_SIM}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_NR}
* @see MmTelFeature.MmTelCapabilities#CAPABILITY_TYPE_SMS
*/
public static final String KEY_CAPABILITY_TYPE_SMS_INT_ARRAY =
KEY_PREFIX + "capability_type_sms_int_array";
/**
* List of different RAT technologies on which Provisioning for Call Composer
* (section 2.4 of RCC.20) is supported.
* <p>Possible values are,
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_LTE}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_IWLAN}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_CROSS_SIM}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_NR}
* @see MmTelFeature.MmTelCapabilities#CAPABILITY_TYPE_CALL_COMPOSER
*/
public static final String KEY_CAPABILITY_TYPE_CALL_COMPOSER_INT_ARRAY =
KEY_PREFIX + "capability_type_call_composer_int_array";
/**
* A bundle which specifies the RCS capability and registration technology
* that requires provisioning. If a tuple is not present, the
* framework will not require that the tuple requires provisioning before
* enabling the capability.
* <p> Possible keys in this bundle are
* <ul>
* <li>{@link #KEY_CAPABILITY_TYPE_OPTIONS_UCE_INT_ARRAY}</li>
* <li>{@link #KEY_CAPABILITY_TYPE_PRESENCE_UCE_INT_ARRAY}</li>
* </ul>
* <p> The values are defined as {@code REGISTRATION_TECH_*} constants in
* {@link android.telephony.ims.stub.ImsRegistrationImplBase}.
*/
public static final String KEY_RCS_REQUIRES_PROVISIONING_BUNDLE =
KEY_PREFIX + "rcs_requires_provisioning_bundle";
/**
* This carrier supports User Capability Exchange using SIP OPTIONS as defined by the
* framework. If set, the RcsFeature should support capability exchange using SIP OPTIONS.
* If not set, this RcsFeature should not service capability requests.
* <p>Possible values are,
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_LTE}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_IWLAN}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_CROSS_SIM}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_NR}
*/
public static final String KEY_CAPABILITY_TYPE_OPTIONS_UCE_INT_ARRAY =
KEY_PREFIX + "capability_type_options_uce_int_array";
/**
* This carrier supports User Capability Exchange using a presence server as defined by the
* framework. If set, the RcsFeature should support capability exchange using a presence
* server. If not set, this RcsFeature should not publish capabilities or service capability
* requests using presence.
* <p>Possible values are,
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_LTE}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_IWLAN}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_CROSS_SIM}
* {@link android.telephony.ims.stub.ImsRegistrationImplBase#REGISTRATION_TECH_NR}
*/
public static final String KEY_CAPABILITY_TYPE_PRESENCE_UCE_INT_ARRAY =
KEY_PREFIX + "capability_type_presence_uce_int_array";
/**
* Specifies the policy for disabling NR SA mode. Default value is
*{@link #SA_DISABLE_POLICY_NONE}.
* The value set as below:
* <ul>
* <li>0: {@link #SA_DISABLE_POLICY_NONE }</li>
* <li>1: {@link #SA_DISABLE_POLICY_WFC_ESTABLISHED }</li>
* <li>2: {@link #SA_DISABLE_POLICY_WFC_ESTABLISHED_WHEN_VONR_DISABLED }</li>
* <li>3: {@link #SA_DISABLE_POLICY_VOWIFI_REGISTERED }</li>
* </ul>
* @hide
*/
public static final String KEY_NR_SA_DISABLE_POLICY_INT =
KEY_PREFIX + "sa_disable_policy_int";
/** @hide */
@IntDef({
NR_SA_DISABLE_POLICY_NONE,
NR_SA_DISABLE_POLICY_WFC_ESTABLISHED,
NR_SA_DISABLE_POLICY_WFC_ESTABLISHED_WHEN_VONR_DISABLED,
NR_SA_DISABLE_POLICY_VOWIFI_REGISTERED
})
public @interface NrSaDisablePolicy {}
/**
* Do not disables NR SA mode.
* @hide
*/
public static final int NR_SA_DISABLE_POLICY_NONE = 0;
/**
* Disables NR SA mode when VoWiFi call is established in order to improve the delay or
* voice mute when the handover from ePDG to NR is not supported in UE or network.
* @hide
*/
public static final int NR_SA_DISABLE_POLICY_WFC_ESTABLISHED = 1;
/**
* Disables NR SA mode when VoWiFi call is established when VoNR is disabled in order to
* improve the delay or voice mute when the handover from ePDG to NR is not supported
* in UE or network.
* @hide
*/
public static final int NR_SA_DISABLE_POLICY_WFC_ESTABLISHED_WHEN_VONR_DISABLED = 2;
/**
* Disables NR SA mode when IMS is registered over WiFi in order to improve the delay or
* voice mute when the handover from ePDG to NR is not supported in UE or network.
* @hide
*/
public static final int NR_SA_DISABLE_POLICY_VOWIFI_REGISTERED = 3;
/**
* This specifies whether the carrier support the global number format or not.
* {@link SubscriptionManager#getPhoneNumber(int)},
* {@link SubscriptionManager#getPhoneNumber(int, int)} with
* {@link SubscriptionManager#PHONE_NUMBER_SOURCE_IMS}
* In order to provide the phone number to the APIs, the framework extracts the phone
* number from the message received from the carrier server. If the carrier does not use
* global number format, the framework could not provide phone number.
* <p>
* If not set or set to false value, the framework handle only global number format URI.
* @hide
*/
public static final String KEY_ALLOW_NON_GLOBAL_PHONE_NUMBER_FORMAT_BOOL =
KEY_PREFIX + "allow_non_global_phone_number_format_bool";
private Ims() {}
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putInt(KEY_WIFI_OFF_DEFERRING_TIME_MILLIS_INT, 4000);
defaults.putBoolean(KEY_IMS_SINGLE_REGISTRATION_REQUIRED_BOOL, false);
defaults.putBoolean(KEY_ENABLE_PRESENCE_PUBLISH_BOOL, false);
defaults.putStringArray(KEY_PUBLISH_SERVICE_DESC_FEATURE_TAG_MAP_OVERRIDE_STRING_ARRAY,
new String[0]);
defaults.putBoolean(KEY_ENABLE_PRESENCE_CAPABILITY_EXCHANGE_BOOL, false);
defaults.putBoolean(KEY_RCS_BULK_CAPABILITY_EXCHANGE_BOOL, false);
defaults.putBoolean(KEY_ENABLE_PRESENCE_GROUP_SUBSCRIBE_BOOL, false);
defaults.putBoolean(KEY_USE_SIP_URI_FOR_PRESENCE_SUBSCRIBE_BOOL, false);
defaults.putInt(KEY_NON_RCS_CAPABILITIES_CACHE_EXPIRATION_SEC_INT, 30 * 24 * 60 * 60);
defaults.putBoolean(KEY_RCS_REQUEST_FORBIDDEN_BY_SIP_489_BOOL, false);
defaults.putLong(KEY_RCS_REQUEST_RETRY_INTERVAL_MILLIS_LONG, 20 * 60 * 1000);
defaults.putStringArray(KEY_RCS_FEATURE_TAG_ALLOWED_STRING_ARRAY, new String[]{
"+g.3gpp.icsi-ref=\"urn%3Aurn-7%3A3gpp-service.ims.icsi.oma.cpm.msg\"",
"+g.3gpp.icsi-ref=\"urn%3Aurn-7%3A3gpp-service.ims.icsi.oma.cpm.largemsg\"",
"+g.3gpp.icsi-ref=\"urn%3Aurn-7%3A3gpp-service.ims.icsi.oma.cpm.deferred\"",
"+g.gsma.rcs.cpm.pager-large",
"+g.3gpp.icsi-ref=\"urn%3Aurn-7%3A3gpp-service.ims.icsi.oma.cpm.session\"",
"+g.3gpp.icsi-ref=\"urn%3Aurn-7%3A3gpp-service.ims.icsi.oma.cpm.filetransfer\"",
"+g.3gpp.iari-ref=\"urn%3Aurn-7%3A3gpp-application.ims.iari.rcs.fthttp\"",
"+g.3gpp.iari-ref=\"urn%3Aurn-7%3A3gpp-application.ims.iari.rcs.ftsms\"",
"+g.3gpp.iari-ref=\"urn%3Aurn-7%3A3gpp-service.ims.icsi.gsma.callcomposer\"",
"+g.gsma.callcomposer",
"+g.3gpp.icsi-ref=\"urn%3Aurn-7%3A3gpp-service.ims.icsi.gsma.callunanswered\"",
"+g.3gpp.icsi-ref=\"urn%3Aurn-7%3A3gpp-service.ims.icsi.gsma.sharedmap\"",
"+g.3gpp.icsi-ref=\"urn%3Aurn-7%3A3gpp-service.ims.icsi.gsma.sharedsketch\"",
"+g.3gpp.iari-ref=\"urn%3Aurn-7%3A3gpp-application.ims.iari.rcs.geopush\"",
"+g.3gpp.iari-ref=\"urn%3Aurn-7%3A3gpp-application.ims.iari.rcs.geosms\"",
"+g.3gpp.iari-ref=\"urn%3Aurn-7%3A3gpp-application.ims.iari.rcs.chatbot\"",
"+g.3gpp.iari-ref=\"urn%3Aurn-7%3A3gpp-application.ims.iari.rcs.chatbot.sa\"",
"+g.gsma.rcs.botversion=\"#=1,#=2\"",
"+g.gsma.rcs.cpimext"});
/**
* @see #KEY_MMTEL_REQUIRES_PROVISIONING_BUNDLE
*/
defaults.putPersistableBundle(
KEY_MMTEL_REQUIRES_PROVISIONING_BUNDLE, new PersistableBundle());
/**
* @see #KEY_RCS_REQUIRES_PROVISIONING_BUNDLE
*/
defaults.putPersistableBundle(
KEY_RCS_REQUIRES_PROVISIONING_BUNDLE, new PersistableBundle());
defaults.putBoolean(KEY_GRUU_ENABLED_BOOL, false);
defaults.putBoolean(KEY_SIP_OVER_IPSEC_ENABLED_BOOL, true);
defaults.putBoolean(KEY_KEEP_PDN_UP_IN_NO_VOPS_BOOL, false);
defaults.putBoolean(KEY_REGISTRATION_EVENT_PACKAGE_SUPPORTED_BOOL, true);
defaults.putInt(KEY_SIP_TIMER_T1_MILLIS_INT, 2000);
defaults.putInt(KEY_SIP_TIMER_T2_MILLIS_INT, 16000);
defaults.putInt(KEY_SIP_TIMER_T4_MILLIS_INT, 17000);
defaults.putInt(KEY_SIP_TIMER_B_MILLIS_INT, 128000);
defaults.putInt(KEY_SIP_TIMER_C_MILLIS_INT, 210000);
defaults.putInt(KEY_SIP_TIMER_D_MILLIS_INT, 130000);
defaults.putInt(KEY_SIP_TIMER_F_MILLIS_INT, 128000);
defaults.putInt(KEY_SIP_TIMER_H_MILLIS_INT, 128000);
defaults.putInt(KEY_SIP_TIMER_J_MILLIS_INT, 128000);
defaults.putInt(KEY_SIP_SERVER_PORT_NUMBER_INT, 5060);
defaults.putInt(KEY_REQUEST_URI_TYPE_INT, REQUEST_URI_FORMAT_TEL);
defaults.putInt(KEY_SIP_PREFERRED_TRANSPORT_INT, PREFERRED_TRANSPORT_DYNAMIC_UDP_TCP);
defaults.putInt(KEY_IPV4_SIP_MTU_SIZE_CELLULAR_INT, 1500);
defaults.putInt(KEY_IPV6_SIP_MTU_SIZE_CELLULAR_INT, 1500);
defaults.putInt(KEY_REGISTRATION_EXPIRY_TIMER_SEC_INT, 600000);
defaults.putInt(KEY_REGISTRATION_RETRY_BASE_TIMER_MILLIS_INT, 30000);
defaults.putInt(KEY_REGISTRATION_RETRY_MAX_TIMER_MILLIS_INT, 1800000);
defaults.putInt(KEY_REGISTRATION_SUBSCRIBE_EXPIRY_TIMER_SEC_INT, 600000);
defaults.putInt(KEY_NR_SA_DISABLE_POLICY_INT, NR_SA_DISABLE_POLICY_NONE);
defaults.putIntArray(
KEY_IPSEC_AUTHENTICATION_ALGORITHMS_INT_ARRAY,
new int[] {
IPSEC_AUTHENTICATION_ALGORITHM_HMAC_MD5,
IPSEC_AUTHENTICATION_ALGORITHM_HMAC_SHA1
});
defaults.putIntArray(
KEY_IPSEC_ENCRYPTION_ALGORITHMS_INT_ARRAY,
new int[] {
IPSEC_ENCRYPTION_ALGORITHM_NULL,
IPSEC_ENCRYPTION_ALGORITHM_DES_EDE3_CBC,
IPSEC_ENCRYPTION_ALGORITHM_AES_CBC
});
defaults.putIntArray(
KEY_IMS_PDN_ENABLED_IN_NO_VOPS_SUPPORT_INT_ARRAY,
new int[] {
});
defaults.putIntArray(
KEY_GEOLOCATION_PIDF_IN_SIP_REGISTER_SUPPORT_INT_ARRAY,
new int[] {
GEOLOCATION_PIDF_FOR_EMERGENCY_ON_WIFI
});
defaults.putIntArray(
KEY_GEOLOCATION_PIDF_IN_SIP_INVITE_SUPPORT_INT_ARRAY,
new int[] {
GEOLOCATION_PIDF_FOR_EMERGENCY_ON_WIFI
});
defaults.putIntArray(
KEY_SUPPORTED_RATS_INT_ARRAY,
new int[] {
AccessNetworkType.NGRAN,
AccessNetworkType.EUTRAN,
AccessNetworkType.IWLAN
});
defaults.putString(KEY_PHONE_CONTEXT_DOMAIN_NAME_STRING, "");
defaults.putString(KEY_IMS_USER_AGENT_STRING,
"#MANUFACTURER#_#MODEL#_Android#AV#_#BUILD#");
defaults.putBoolean(KEY_ALLOW_NON_GLOBAL_PHONE_NUMBER_FORMAT_BOOL, false);
return defaults;
}
}
/**
* IMS Voice configs. This groups the configs required for IMS Voice - VoNR/VoLTE
*
* <p>Reference: IR.92
*/
public static final class ImsVoice {
private ImsVoice() {}
/** Prefix of all imsvoice.KEY_* constants. */
public static final String KEY_PREFIX = "imsvoice.";
/**
* Flag specifying whether VoLTE should be available when on
* roaming network.
*
* <p>If {@code false}: hard disabled.
* If {@code true}: then depends on availability, etc.
*/
public static final String KEY_CARRIER_VOLTE_ROAMING_AVAILABLE_BOOL =
KEY_PREFIX + "carrier_volte_roaming_available_bool";
/**
* Flag specifying whether to send vertical caller id service codes
* (*67 and *82) in the dialed string in the SIP:INVITE.
*
* <p>If {@code true}, vertical caller id service codes *67 and *82
* will be sent in the dialed string in the SIP:INVITE.
* If {@code false}, *67 and *82 will be removed.
*/
public static final String KEY_INCLUDE_CALLER_ID_SERVICE_CODES_IN_SIP_INVITE_BOOL =
KEY_PREFIX + "include_caller_id_service_codes_in_sip_invite_bool";
/**
* Flag indicating whether Multi-end point setting is enabled or not.
*/
public static final String KEY_MULTIENDPOINT_SUPPORTED_BOOL =
KEY_PREFIX + "multiendpoint_supported_bool";
/**
* Flag indicating whether Supported header field with the option tag
* 'timer' is enabled or not.
*
* <p>If {@code true}, session timer support is available.{@code false} otherwise.
*
* Reference: RFC 4028 Section 3
*/
public static final String KEY_SESSION_TIMER_SUPPORTED_BOOL =
KEY_PREFIX + "session_timer_supported_bool";
/**
* Session-expires header field expressed in seconds as per
* RFC 4028 Section 3.
*
* <p>This establishes the upper bound for the session refresh interval.
*/
public static final String KEY_SESSION_EXPIRES_TIMER_SEC_INT =
KEY_PREFIX + "session_expires_timer_sec_int";
/**
* Indicates the minimum value for the session interval in seconds.
* Represented as min-SE header field as per RFC 4028 Section 3.
*
* <p>This establishes the lower bound for the session refresh interval.
*/
public static final String KEY_MINIMUM_SESSION_EXPIRES_TIMER_SEC_INT =
KEY_PREFIX + "minimum_session_expires_timer_sec_int";
/** @hide */
@IntDef({
SESSION_REFRESHER_TYPE_UNKNOWN,
SESSION_REFRESHER_TYPE_UAC,
SESSION_REFRESHER_TYPE_UAS
})
public @interface SessionRefresherType {}
/**
* Session Refresher entity is unknown. This means UE does not include the
* "refresher" parameter in the Session-Expires header field of
* the SIP INVITE request.
*/
public static final int SESSION_REFRESHER_TYPE_UNKNOWN = 0;
/**
* Session Refresher entity is User Agent Client (UAC).
*
* <p>Type of "refresher" parameter in the Session-Expires header field
* of the SIP INVITE request is UAC.
*/
public static final int SESSION_REFRESHER_TYPE_UAC = 1;
/**
* Session Refresher entity is User Agent Server (UAS).
*
* <p>Type of "refresher" parameter in the Session-Expires header field
* of the SIP INVITE request is UAS.
*/
public static final int SESSION_REFRESHER_TYPE_UAS = 2;
/**
* Session Refresher entity as per RFC 4028 and IR.92 Section 2.2.8.
*
* <p>This determines,
* a) whether to include the "refresher" parameter
* b) Type of refresher" parameter
* in the Session-Expires header field of the SIP INVITE request.
*
* <p>Possible values are,
* {@link #SESSION_REFRESHER_TYPE_UNKNOWN},
* {@link #SESSION_REFRESHER_TYPE_UAC},
* {@link #SESSION_REFRESHER_TYPE_UAS}
*/
public static final String KEY_SESSION_REFRESHER_TYPE_INT =
KEY_PREFIX + "session_refresher_type_int";
/** @hide */
@IntDef({
SESSION_PRIVACY_TYPE_HEADER,
SESSION_PRIVACY_TYPE_NONE,
SESSION_PRIVACY_TYPE_ID
})
public @interface SessionPrivacyType {}
/**
* Session privacy type is HEADER as per RFC 3323 Section 4.2.
*/
public static final int SESSION_PRIVACY_TYPE_HEADER = 0;
/**
* Session privacy type is NONE as per RFC 3323 Section 4.2.
*/
public static final int SESSION_PRIVACY_TYPE_NONE = 1;
/**
* Session privacy type is ID as per RFC 3325 Section 9.3.
*/
public static final int SESSION_PRIVACY_TYPE_ID = 2;
/**
* Specify the session privacy type.
*
* <p>Reference: RFC 3323 Section 4.2, RFC 3325 Section 9.3.
*
* <p>Possible values are,
* {@link #SESSION_PRIVACY_TYPE_HEADER},
* {@link #SESSION_PRIVACY_TYPE_NONE},
* {@link #SESSION_PRIVACY_TYPE_ID}
*/
public static final String KEY_SESSION_PRIVACY_TYPE_INT =
KEY_PREFIX + "session_privacy_type_int";
/**
* Flag indicating whether PRACK must be enabled for all 18x messages.
*
* <p>If {@code false}, only 18x responses with SDP are sent reliably.
* If {@code true}, SIP 18x responses (other than SIP 183 response)
* are sent reliably.
*/
public static final String KEY_PRACK_SUPPORTED_FOR_18X_BOOL =
KEY_PREFIX + "prack_supported_for_18x_bool";
/** @hide */
@IntDef({
CONFERENCE_SUBSCRIBE_TYPE_IN_DIALOG,
CONFERENCE_SUBSCRIBE_TYPE_OUT_OF_DIALOG
})
public @interface ConferenceSubscribeType {}
/**
* The SIP SUBSCRIBE to conference state events is sent in the
* SIP INVITE dialog between the UE and the conference server.
*
* <p>Reference: IR.92 Section 2.3.3.
*/
public static final int CONFERENCE_SUBSCRIBE_TYPE_IN_DIALOG = 0;
/**
* The SIP SUBSCRIBE to conference state events is sent out of
* the SIP INVITE dialog between the UE and the conference server.
*
* <p>Reference: IR.92 Section 2.3.3.
*/
public static final int CONFERENCE_SUBSCRIBE_TYPE_OUT_OF_DIALOG = 1;
/**
* This is used to specify whether the SIP SUBSCRIBE to conference state events,
* is sent in or out of the SIP INVITE dialog between the UE and the
* conference server.
*
* <p>Reference: IR.92 Section 2.3.3.
*
* <p>Possible values are,
* {@link #CONFERENCE_SUBSCRIBE_TYPE_IN_DIALOG},
* {@link #CONFERENCE_SUBSCRIBE_TYPE_OUT_OF_DIALOG}
*
* An empty array indicates SUBSCRIBE to conference event package
* is not required.
*/
public static final String KEY_CONFERENCE_SUBSCRIBE_TYPE_INT =
KEY_PREFIX + "conference_subscribe_type_int";
/**
* Flag specifying whether QoS preconditions are supported during call setup.
*
* <p>If {@code true}: QoS Preconditions are supported during call setup and
* 'precondition' tag is included in the SIP INVITE header and precondition
* parameters are sent in SDP as required.
* <p>If {@code false}: QoS Preconditions are not supported during call setup.
*
* <p>Reference: 3GPP TS 24.229
*/
public static final String KEY_VOICE_QOS_PRECONDITION_SUPPORTED_BOOL =
KEY_PREFIX + "voice_qos_precondition_supported_bool";
/**
* Flag specifying whether voice is allowed on default bearer.
*
* <p>If {@code true}: voice packets can be sent on default bearer. {@code false} otherwise.
*/
public static final String KEY_VOICE_ON_DEFAULT_BEARER_SUPPORTED_BOOL =
KEY_PREFIX + "voice_on_default_bearer_supported_bool";
/**
* Specifies the dedicated bearer wait time during call establishment.
*
* <p>If dedicated bearer is not established within this time and if
* {@link #KEY_VOICE_ON_DEFAULT_BEARER_SUPPORTED_BOOL} is false, then call setup would fail.
* <p>If dedicated bearer is not established within this time and if
* {@link #KEY_VOICE_ON_DEFAULT_BEARER_SUPPORTED_BOOL} is true, then the media is allowed
* on default bearer.
*/
public static final String KEY_DEDICATED_BEARER_WAIT_TIMER_MILLIS_INT =
KEY_PREFIX + "dedicated_bearer_wait_timer_millis_int";
/** @hide */
@IntDef({
BASIC_SRVCC_SUPPORT,
ALERTING_SRVCC_SUPPORT,
PREALERTING_SRVCC_SUPPORT,
MIDCALL_SRVCC_SUPPORT
})
public @interface SrvccType {}
/**
* Indicates support for basic SRVCC, typically 1 active call
* as detailed in IR.92 Section A.3.
*/
public static final int BASIC_SRVCC_SUPPORT = 0;
/**
* SRVCC access transfer for calls in alerting phase as per 3GPP 24.237
* and IR.64 Section 4.4.
* Media feature tag used: g.3gpp.srvcc-alerting.
*/
public static final int ALERTING_SRVCC_SUPPORT = 1;
/**
* SRVCC access transfer for calls in pre-alerting phase as per 3GPP 24.237.
* Media feature tag used: g.3gpp.ps2cs-srvcc-orig-pre-alerting.
*/
public static final int PREALERTING_SRVCC_SUPPORT = 2;
/**
* SRVCC access transfer for calls in mid-call phase as per 3GPP 24.237.
* and IR.64 Section 4.4.
* <p>This means UE supports the MSC server assisted mid-call feature.
* Media feature tag used: g.3gpp.mid-call.
*/
public static final int MIDCALL_SRVCC_SUPPORT = 3;
/**
* List of different SRVCC types supported as defined in 3GPP 24.237.
*
* <p> Possible values are,
* {@link #BASIC_SRVCC_SUPPORT},
* {@link #ALERTING_SRVCC_SUPPORT},
* {@link #PREALERTING_SRVCC_SUPPORT},
* {@link #MIDCALL_SRVCC_SUPPORT}
*
* <p> Reference: IR.64, 3GPP 24.237, 3GPP 23.216
*/
public static final String KEY_SRVCC_TYPE_INT_ARRAY =
KEY_PREFIX + "srvcc_type_int_array";
/**
* Specifies the ringing timer for Mobile terminated calls.
*
* <p>Ringing timer starts when the device sends SIP 180 Ringing in
* response to a received SIP INVITE. If Ringing timer expires,
* the device sends SIP 486 response.
*/
public static final String KEY_RINGING_TIMER_MILLIS_INT =
KEY_PREFIX + "ringing_timer_millis_int";
/**
* Specifies the ringback timer for Mobile originated calls.
*
* <p>Ringback timer starts when the device receives SIP 180 Ringing
* in response to its SIP INVITE. If Ringback timer expires,
* the device sends SIP CANCEL.
*/
public static final String KEY_RINGBACK_TIMER_MILLIS_INT =
KEY_PREFIX + "ringback_timer_millis_int";
/**
* Specifies the timeout value for RTP inactivity for audio media.
* <p>On timer expiry, call will end.
* See {@link #KEY_AUDIO_INACTIVITY_CALL_END_REASONS_INT_ARRAY} for more
* details.
* <p> Value of 0 means this timer is not enabled.
*/
public static final String KEY_AUDIO_RTP_INACTIVITY_TIMER_MILLIS_INT =
KEY_PREFIX + "audio_rtp_inactivity_timer_millis_int";
/**
* Specifies the timeout value for RTCP inactivity for audio media.
* <p>On timer expiry, call will end.
* See {@link #KEY_AUDIO_INACTIVITY_CALL_END_REASONS_INT_ARRAY} for more
* details.
* <p> Value of 0 means this timer is not enabled.
*/
public static final String KEY_AUDIO_RTCP_INACTIVITY_TIMER_MILLIS_INT =
KEY_PREFIX + "audio_rtcp_inactivity_timer_millis_int";
/**
* Used to specify the conference factory URI.
*
* <p>If this is empty, then conference URI is generated from MCC/MNC as
* specified in clause 13.10 of 3GPP 23.003.
*/
public static final String KEY_CONFERENCE_FACTORY_URI_STRING =
KEY_PREFIX + "conference_factory_uri_string";
/** @hide */
@IntDef({
SESSION_REFRESH_METHOD_INVITE,
SESSION_REFRESH_METHOD_UPDATE_PREFERRED
})
public @interface SessionRefreshMethod {}
/**
* SIP INVITE is used for Session Refresh
*/
public static final int SESSION_REFRESH_METHOD_INVITE = 0;
/**
* Both SIP INVITE and UPDATE are used for session refresh.
*
* <p>SIP UPDATE will be used if UPDATE is in 'Allow' header.
* If UPDATE is not in 'Allow' header, then INVITE will be used.
*/
public static final int SESSION_REFRESH_METHOD_UPDATE_PREFERRED = 1;
/**
* This is used to specify the method used for session refresh.
*
* <p>Possible values are,
* {@link #SESSION_REFRESH_METHOD_INVITE},
* {@link #SESSION_REFRESH_METHOD_UPDATE_PREFERRED}
*/
public static final String KEY_SESSION_REFRESH_METHOD_INT =
KEY_PREFIX + "session_refresh_method_int";
/**
* Flag specifying whether the 'From' header field is used for determination of
* the originating party identity in Originating Identification Presentation(OIP)
* service.
*
* <p>If {@code true}: Indicates that the 'From' header field is used for
* determination of the originating party identity in OIP.
* {@code false} otherwise.
*/
public static final String KEY_OIP_SOURCE_FROM_HEADER_BOOL =
KEY_PREFIX + "oip_source_from_header_bool";
/**
* Specifies the timer value for INVITE to the first 1xx response
* (including 100 trying). If no response is received at timer expiry,
* call is redialed over CS.
*
* <p> Reference: 24.173 Table L.1
*/
public static final String KEY_MO_CALL_REQUEST_TIMEOUT_MILLIS_INT =
KEY_PREFIX + "mo_call_request_timeout_millis_int";
/**
* List of various reasons of media inactivity for which
* voice/emergency call will end.
*
* <p>Possible values are,
* {@link Ims#RTCP_INACTIVITY_ON_HOLD},
* {@link Ims#RTCP_INACTIVITY_ON_CONNECTED},
* {@link Ims#RTP_INACTIVITY_ON_CONNECTED}
* {@link Ims#E911_RTCP_INACTIVITY_ON_CONNECTED},
* {@link Ims#E911_RTP_INACTIVITY_ON_CONNECTED}
*/
public static final String KEY_AUDIO_INACTIVITY_CALL_END_REASONS_INT_ARRAY =
KEY_PREFIX + "audio_inactivity_call_end_reasons_int_array";
/**
* Specifies the AS (Application Specific) SDP modifier for audio media.
*
* <p>This value is expressed in kilobits per second.
* Reference: RFC 3556 Section 2.
*/
public static final String KEY_AUDIO_AS_BANDWIDTH_KBPS_INT =
KEY_PREFIX + "audio_as_bandwidth_kbps_int";
/**
* Specifies the RS SDP modifier for audio media. This indicates the RTCP
* bandwidth allocated to active data senders for audio media.
*
* <p>This value is expressed in bits per second.
* Reference: RFC 3556 Section 2.
*/
public static final String KEY_AUDIO_RS_BANDWIDTH_BPS_INT =
KEY_PREFIX + "audio_rs_bandwidth_bps_int";
/**
* Specifies the RR SDP modifier for audio media. This indicates the RTCP
* bandwidth allocated to receivers for audio media.
*
* <p>This value is expressed in bits per second.
* Reference: RFC 3556 Section 2.
*/
public static final String KEY_AUDIO_RR_BANDWIDTH_BPS_INT =
KEY_PREFIX + "audio_rr_bandwidth_bps_int";
/**
* Specifies the Audio Codec capability. This contains a list of payload types
* representing different audio codec instances.
*
* <p> The priority of the codecs is EVS, AMRWB, AMRNB, DTMF WB, DTMF NB
* from highest to lowest. In each individual codec, the priority is determined
* by the order of the payload types from highest to lowest.
*
* <p>Possible keys in this bundle are,
* <UL>
* <LI>{@link #KEY_EVS_PAYLOAD_TYPE_INT_ARRAY}</LI>
* <LI>{@link #KEY_AMRWB_PAYLOAD_TYPE_INT_ARRAY}</LI>
* <LI>{@link #KEY_AMRNB_PAYLOAD_TYPE_INT_ARRAY}</LI>
* <LI>{@link #KEY_DTMFWB_PAYLOAD_TYPE_INT_ARRAY}</LI>
* <LI>{@link #KEY_DTMFNB_PAYLOAD_TYPE_INT_ARRAY}</LI>
* </UL>
* <p>To specify payload descriptions for each of the audio payload types, see
* <UL>
* <LI>{@link #KEY_EVS_PAYLOAD_DESCRIPTION_BUNDLE}</LI>
* <LI>{@link #KEY_AMRNB_PAYLOAD_DESCRIPTION_BUNDLE}</LI>
* <LI>{@link #KEY_AMRWB_PAYLOAD_DESCRIPTION_BUNDLE}</LI>
* </UL>
*/
public static final String KEY_AUDIO_CODEC_CAPABILITY_PAYLOAD_TYPES_BUNDLE =
KEY_PREFIX + "audio_codec_capability_payload_types_bundle";
/**
* A list of integers representing the different payload types
* in EVS codec in priority order from highest to lowest.
* <p>Payload type is an integer in dynamic payload type range 96-127
* as per RFC RFC 3551 Section 6.
*/
public static final String KEY_EVS_PAYLOAD_TYPE_INT_ARRAY =
KEY_PREFIX + "evs_payload_type_int_array";
/**
* A list of integers representing the different payload types
* in AMR-WB codec in priority order from highest to lowest.
* <p>Payload type is an integer in dynamic payload type range 96-127
* as per RFC RFC 3551 Section 6.
*/
public static final String KEY_AMRWB_PAYLOAD_TYPE_INT_ARRAY =
KEY_PREFIX + "amrwb_payload_type_int_array";
/**
* A list of integers representing the different payload types
* in AMR-NB codec in priority order from highest to lowest.
* <p>Payload type is an integer in dynamic payload type range 96-127
* as per RFC RFC 3551 Section 6.
*/
public static final String KEY_AMRNB_PAYLOAD_TYPE_INT_ARRAY =
KEY_PREFIX + "amrnb_payload_type_int_array";
/**
* A list of integers representing the different payload types
* in DTMF WB codec in priority order from highest to lowest.
* <p>Payload type is an integer in dynamic payload type range 96-127
* as per RFC RFC 3551 Section 6.
*/
public static final String KEY_DTMFWB_PAYLOAD_TYPE_INT_ARRAY =
KEY_PREFIX + "dtmfwb_payload_type_int_array";
/**
* A list of integers representing the different payload types
* in DTMF NB codec in priority order from highest to lowest.
* <p>Payload type is an integer in dynamic payload type range 96-127
* as per RFC RFC 3551 Section 6.
*/
public static final String KEY_DTMFNB_PAYLOAD_TYPE_INT_ARRAY =
KEY_PREFIX + "dtmfnb_payload_type_int_array";
/**
* This indicates the threshold for RTP packet loss rate in percentage. If measured packet
* loss rate crosses this, a callback with {@link MediaQualityStatus} will be invoked to
* listeners.
* See {@link android.telephony.TelephonyCallback.MediaQualityStatusChangedListener}
*
* <p/>
* Valid threshold range : 0 ~ 100
*
* @hide
*/
public static final String KEY_VOICE_RTP_PACKET_LOSS_RATE_THRESHOLD_INT =
KEY_PREFIX + "rtp_packet_loss_rate_threshold_int";
/**
* This indicates the threshold for RTP jitter value in milliseconds (RFC3550). If measured
* jitter value crosses this, a callback with {@link MediaQualityStatus} will be invoked
* to listeners.
* See {@link android.telephony.TelephonyCallback.MediaQualityStatusChangedListener}
*
* <p/>
* Valid threshold range : 0 ~ 10000
*
* @hide
*/
public static final String KEY_VOICE_RTP_JITTER_THRESHOLD_MILLIS_INT =
KEY_PREFIX + "rtp_jitter_threshold_millis_int";
/**
* This indicates the threshold for RTP inactivity time in milliseconds. If measured
* inactivity timer crosses this, a callback with {@link MediaQualityStatus} will be invoked
* to listeners.
* See {@link android.telephony.TelephonyCallback.MediaQualityStatusChangedListener}
*
* <p/>
* Valid threshold range : 0 ~ 60000
*
* @hide
*/
public static final String KEY_VOICE_RTP_INACTIVITY_TIME_THRESHOLD_MILLIS_LONG =
KEY_PREFIX + "rtp_inactivity_time_threshold_millis_long";
/** @hide */
@IntDef({
BANDWIDTH_EFFICIENT,
OCTET_ALIGNED
})
public @interface AmrPayloadFormat {}
/** AMR NB/WB Payload format is bandwidth-efficient. */
public static final int BANDWIDTH_EFFICIENT = 0;
/** AMR NB/WB Payload format is octet-aligned. */
public static final int OCTET_ALIGNED = 1;
/**
* Specifies the payload format of the AMR-NB/AMR-WB codec.
*
* <p>Possible values are,
* {@link #BANDWIDTH_EFFICIENT},
* {@link #OCTET_ALIGNED}
* <p>If value is not specified, payload format is
* {@link #BANDWIDTH_EFFICIENT}.
*
* <p>Reference: RFC 4867 Section 8.1.
*/
public static final String KEY_AMR_CODEC_ATTRIBUTE_PAYLOAD_FORMAT_INT =
KEY_PREFIX + "amr_codec_attribute_payload_format_int";
/**
* Restricts the active mode set to a subset of all modes in the codec.
*
* <p>This attribute is optional. If value is set, then session mode
* set is restricted to the modes specified in this list. If this value
* is not specified, then all available modes in the codec are allowed.
* This attribute is applicable for AMR-WB, AMR-NB,
* and EVS codec (operating in AMR-WB IO Mode).
*
* <p>Possible values are subset of,
* [0,1,2,3,4,5,6,7,8] - AMRWB with the modes representing nine speech codec modes
* with bit rates of 6.6, 8.85, 12.65, 14.25, 15.85, 18.25, 19.85, 23.05, 23.85 kbps.
* [0,1,2,3,4,5,6,7] - AMRNB with the modes representing eight speech codec modes
* with bit rates of 4.75, 5.15, 5.90, 6.70, 7.40, 7.95, 10.2, 12.2 kbps.
*
* <p>If value is not specified, then it means device supports all
* modes in the codec but not included in SDP.
*
* <p>Reference: RFC 4867 Section 8.1, 3GPP 26.445 A.3.1
*/
public static final String KEY_AMR_CODEC_ATTRIBUTE_MODESET_INT_ARRAY =
KEY_PREFIX + "amr_codec_attribute_modeset_int_array";
/**
* Specifies the codec attributes of different payload types in
* the AMR NarrowBand (AMR-NB) codec.
*
* <p> The keys in this bundle are payload types specified
* in {@link #KEY_AMRNB_PAYLOAD_TYPE_INT_ARRAY}.
*
* <p>Codec attributes allowed as part of AMR-NB codec bundle are,
* <UL>
* <LI>{@link #KEY_AMR_CODEC_ATTRIBUTE_PAYLOAD_FORMAT_INT}</LI>
* <LI>{@link #KEY_AMR_CODEC_ATTRIBUTE_MODESET_INT_ARRAY}</LI>
* </UL>
*
* <p> If this bundle is not configured and AMRNB payload type is added
* in {@link #KEY_AMRNB_PAYLOAD_TYPE_INT_ARRAY}, then default
* values as in the individual codec attribute to be used
* for that payload type.
*/
public static final String KEY_AMRNB_PAYLOAD_DESCRIPTION_BUNDLE =
KEY_PREFIX + "amrnb_payload_description_bundle";
/**
* Specifies the codec attributes of different payload types in
* the AMR WideBand (AMR-WB) codec.
*
* <p> The keys in this bundle are payload types specified
* in {@link #KEY_AMRWB_PAYLOAD_TYPE_INT_ARRAY}.
*
* <p>Codec attributes allowed as part of AMR-NB codec bundle are,
* <UL>
* <LI>{@link #KEY_AMR_CODEC_ATTRIBUTE_PAYLOAD_FORMAT_INT}</LI>
* <LI>{@link #KEY_AMR_CODEC_ATTRIBUTE_MODESET_INT_ARRAY}</LI>
* </UL>
*
* <p> If this bundle is not configured and AMRWB payload type is added
* in {@link #KEY_AMRWB_PAYLOAD_TYPE_INT_ARRAY}, then default
* values as in the individual codec attribute to be used
* for that payload type.
*/
public static final String KEY_AMRWB_PAYLOAD_DESCRIPTION_BUNDLE =
KEY_PREFIX + "amrwb_payload_description_bundle";
/** @hide */
@IntDef({
EVS_OPERATIONAL_MODE_PRIMARY,
EVS_OPERATIONAL_MODE_AMRWB_IO
})
public @interface EvsOperationalMode {}
/** Indicates the EVS primary mode. 3GPP 26.445 Section 3.1 */
public static final int EVS_OPERATIONAL_MODE_PRIMARY = 0;
/** Indicates the EVS AMR-WB IO mode. 3GPP 26.445 Section 3.1 */
public static final int EVS_OPERATIONAL_MODE_AMRWB_IO = 1;
/**
* Specifies if the EVS mode used is EVS primary mode
* or EVS AMR-WB IO mode.
*
* <p>Possible values are,
* {@link #EVS_OPERATIONAL_MODE_PRIMARY},
* {@link #EVS_OPERATIONAL_MODE_AMRWB_IO}
*
* <p>If this is not present, then {@link #EVS_OPERATIONAL_MODE_PRIMARY} is used.
* <p>Reference: 3GPP 26.445 Section 3.1.
*/
public static final String KEY_EVS_CODEC_ATTRIBUTE_MODE_SWITCH_INT =
KEY_PREFIX + "evs_codec_attribute_mode_switch_int";
/** @hide */
@IntDef({
EVS_ENCODED_BW_TYPE_NB,
EVS_ENCODED_BW_TYPE_WB,
EVS_ENCODED_BW_TYPE_SWB,
EVS_ENCODED_BW_TYPE_FB,
EVS_ENCODED_BW_TYPE_NB_WB,
EVS_ENCODED_BW_TYPE_NB_WB_SWB,
EVS_ENCODED_BW_TYPE_NB_WB_SWB_FB,
EVS_ENCODED_BW_TYPE_WB_SWB,
EVS_ENCODED_BW_TYPE_WB_SWB_FB
})
public @interface EvsEncodedBwType {}
/**
* EVS encoded Bandwidth is Narrow Band (NB).
* Reference: 3GPP 26.441 Table 1.
*/
public static final int EVS_ENCODED_BW_TYPE_NB = 0;
/**
* EVS encoded Bandwidth is Wide Band (WB).
* Reference: 3GPP 26.441 Table 1.
*/
public static final int EVS_ENCODED_BW_TYPE_WB = 1;
/**
* EVS encoded Bandwidth is Super WideBand (SWB).
* Reference: 3GPP 26.441 Table 1.
*/
public static final int EVS_ENCODED_BW_TYPE_SWB = 2;
/**
* EVS encoded Bandwidth is Full Band (FB).
* Reference: 3GPP 26.441 Table 1.
*/
public static final int EVS_ENCODED_BW_TYPE_FB = 3;
/**
* EVS encoded Bandwidth is in the range NB,WB.
* Reference: 3GPP 26.441 Table 1.
*/
public static final int EVS_ENCODED_BW_TYPE_NB_WB = 4;
/**
* EVS encoded Bandwidth is in the range NB,WB,SWB.
* Reference: 3GPP 26.441 Table 1.
*/
public static final int EVS_ENCODED_BW_TYPE_NB_WB_SWB = 5;
/**
* EVS encoded Bandwidth is in the range NB,WB,SWB,FB.
* Reference: 3GPP 26.441 Table 1.
*/
public static final int EVS_ENCODED_BW_TYPE_NB_WB_SWB_FB = 6;
/**
* EVS encoded Bandwidth is in the range WB,SWB.
* Reference: 3GPP 26.441 Table 1.
*/
public static final int EVS_ENCODED_BW_TYPE_WB_SWB = 7;
/**
* EVS encoded Bandwidth is in the range WB,SWB,FB.
* Reference: 3GPP 26.441 Table 1.
*/
public static final int EVS_ENCODED_BW_TYPE_WB_SWB_FB = 8;
/**
* Specifies the EVS codec encoding bandwidth options.
*
* Possible values are,
* {@link #EVS_ENCODED_BW_TYPE_NB},
* {@link #EVS_ENCODED_BW_TYPE_WB},
* {@link #EVS_ENCODED_BW_TYPE_SWB},
* {@link #EVS_ENCODED_BW_TYPE_FB},
* {@link #EVS_ENCODED_BW_TYPE_NB_WB},
* {@link #EVS_ENCODED_BW_TYPE_NB_WB_SWB},
* {@link #EVS_ENCODED_BW_TYPE_NB_WB_SWB_FB},
* {@link #EVS_ENCODED_BW_TYPE_WB_SWB},
* {@link #EVS_ENCODED_BW_TYPE_WB_SWB_FB}
*
* If this key is not specified, then the behavior is same as
* value {@link #EVS_ENCODED_BW_TYPE_NB_WB_SWB}
*
* <p>Reference: 3GPP 26.441 Table 1.
*/
public static final String KEY_EVS_CODEC_ATTRIBUTE_BANDWIDTH_INT =
KEY_PREFIX + "evs_codec_attribute_bandwidth_int";
/** @hide */
@IntDef({
EVS_PRIMARY_MODE_BITRATE_5_9_KBPS,
EVS_PRIMARY_MODE_BITRATE_7_2_KBPS,
EVS_PRIMARY_MODE_BITRATE_8_0_KBPS,
EVS_PRIMARY_MODE_BITRATE_9_6_KBPS,
EVS_PRIMARY_MODE_BITRATE_13_2_KBPS,
EVS_PRIMARY_MODE_BITRATE_16_4_KBPS,
EVS_PRIMARY_MODE_BITRATE_24_4_KBPS,
EVS_PRIMARY_MODE_BITRATE_32_0_KBPS,
EVS_PRIMARY_MODE_BITRATE_48_0_KBPS,
EVS_PRIMARY_MODE_BITRATE_64_0_KBPS,
EVS_PRIMARY_MODE_BITRATE_96_0_KBPS,
EVS_PRIMARY_MODE_BITRATE_128_0_KBPS
})
public @interface EvsPrimaryModeBitRate {}
/** EVS primary mode with bitrate 5.9 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_5_9_KBPS = 0;
/** EVS primary mode with bitrate 7.2 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_7_2_KBPS = 1;
/** EVS primary mode with bitrate 8.0 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_8_0_KBPS = 2;
/** EVS primary mode with bitrate 9.6 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_9_6_KBPS = 3;
/** EVS primary mode with bitrate 13.2 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_13_2_KBPS = 4;
/** EVS primary mode with bitrate 16.4 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_16_4_KBPS = 5;
/** EVS primary mode with bitrate 24.4 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_24_4_KBPS = 6;
/** EVS primary mode with bitrate 32.0 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_32_0_KBPS = 7;
/** EVS primary mode with bitrate 48.0 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_48_0_KBPS = 8;
/** EVS primary mode with bitrate 64.0 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_64_0_KBPS = 9;
/** EVS primary mode with bitrate 96.0 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_96_0_KBPS = 10;
/** EVS primary mode with bitrate 128.0 kbps */
public static final int EVS_PRIMARY_MODE_BITRATE_128_0_KBPS = 11;
/**
* Specifies the range of source codec bit-rate for EVS Primary mode
* in the session. This is expressed in kilobits per second and
* applicable for both the send and the receive directions.
*
* <p>The range is specified as integer aray of size 2,
* represented as [low, high], where low <= high
*
* <p>Possible values for low and high are,
* {@link #EVS_PRIMARY_MODE_BITRATE_5_9_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_7_2_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_8_0_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_9_6_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_13_2_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_16_4_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_24_4_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_32_0_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_48_0_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_64_0_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_96_0_KBPS},
* {@link #EVS_PRIMARY_MODE_BITRATE_128_0_KBPS}
*
* If this key is not specified, then the behavior is same as
* value {@link #EVS_PRIMARY_MODE_BITRATE_24_4_KBPS}
*
* <p>Reference: 3GPP 26.445 Section A.3.1
*/
public static final String KEY_EVS_CODEC_ATTRIBUTE_BITRATE_INT_ARRAY =
KEY_PREFIX + "evs_codec_attribute_bitrate_int_array";
/**
* Specifies the Channel aware mode (ch-aw-recv) for the receive direction.
* This is applicable for EVS codec.
*
* <p> Permissible values are -1, 0, 2, 3, 5, and 7.
* If this key is not specified, then the behavior is same as value 0
* (channel aware mode disabled).
* <p> If this key is configured, then device is expected to send
* this parameter in the SDP offer.
*
* <p>Reference: 3GPP TS 26.445 section 4.4.5, 3GPP 26.445 Section A.3.1
*/
public static final String KEY_EVS_CODEC_ATTRIBUTE_CH_AW_RECV_INT =
KEY_PREFIX + "evs_codec_attribute_ch_aw_recv_int";
/**
* Specifies whether to limit the session to header-full format.
* This applies to both directions in the session. This attribute
* is applicable for EVS codec.
*
* <p>Permissible values are 0, 1
* If hf-only is 1, only Header-Full format is used and hf-only is
* included in the SDP.
* <p>If hf-only is 0, both Compact and Header-Full formats are used
* and hf-only is included in the SDP.
* <p>If this key is not present, then both Compact
* and Header-Full formats are used and hf-only is not included in
* the SDP.
* <p> If this key is configured, then device is expected to send
* this parameter in the SDP offer if operator required it.
*
* <p>Reference: 3GPP 26.445 Section A.3.1.
*/
public static final String KEY_EVS_CODEC_ATTRIBUTE_HF_ONLY_INT =
KEY_PREFIX + "evs_codec_attribute_hf_only_int";
/**
* Specifies whether DTX (Discontinuous transmission) is enabled
* or not. This applies to both directions in the session.
* This attribute is applicable for EVS codec and can be used
* in both EVS Primary mode and EVS AMR-WB IO mode.
*
* <p>If {@code true}: Indicates DTX is enabled.
* If {@code false}: Indicates DTX is disabled.
*
* <p>If this is not present, then default value of {@code true}
* will apply.
* <p>Reference: 3GPP TS 26.445 Section A.3.1.
*/
public static final String KEY_EVS_CODEC_ATTRIBUTE_DTX_BOOL =
KEY_PREFIX + "evs_codec_attribute_dtx_bool";
/**
* This is used if further restriction is required on DTX in the
* receive direction. This attribute is applicable for EVS codec
* and can be used in both EVS Primary mode and EVS AMR-WB IO mode.
*
* <p> If this value is true or not present, then DTX setting is
* dependent on {@link #KEY_EVS_CODEC_ATTRIBUTE_DTX_BOOL}.
*
* <p> If this is not present, then default value of {@code true}
* will apply.
*
* <p>Reference: 3GPP TS 26.445 Section A.3.1.
*/
public static final String KEY_EVS_CODEC_ATTRIBUTE_DTX_RECV_BOOL =
KEY_PREFIX + "evs_codec_attribute_dtx_recv_bool";
/**
* Specifies the number of audio channels.
* If this is not present, then default value of 1 will apply.
*
* <p>Reference: RFC 3551
*/
public static final String KEY_EVS_CODEC_ATTRIBUTE_CHANNELS_INT =
KEY_PREFIX + "evs_codec_attribute_channels_int";
/**
* Indicates whether the Codec Mode Request (CMR) is supported
* for the session.
* This attribute is applicable for EVS codec in Primary Mode only.
*
* <p>Possible values are -1, 0, 1. If this key is not present,
* then behavior as per value 0 is applicable.
*
* <p>Reference: 3GPP 26.445 Section A.3.1, 3GPP 26.114 Table 6.2a
*/
public static final String KEY_EVS_CODEC_ATTRIBUTE_CMR_INT =
KEY_PREFIX + "codec_attribute_cmr_int";
/**
* Specifies the number of frame-blocks. This indicates the frame-block period
* at which codec mode changes are allowed for the sender. This attribute is
* applicable for EVS codec in AMR-WB IO mode and AMR-WB.
*
* <p>Possible values are 1, 2.
* If the key is not present, behavior as per value 1 is applicable and this
* parameter is not included in SDP.
*
* <p>Reference: RFC 4867 Section 8.1.
*/
public static final String KEY_CODEC_ATTRIBUTE_MODE_CHANGE_PERIOD_INT =
KEY_PREFIX + "codec_attribute_mode_change_period_int";
/**
* Specifies if the client is capable to transmit with a restricted mode
* change period. This attribute is applicable for EVS codec in
* AMR-WB IO mode and AMR-WB.
*
* <p>Possible values are 1, 2. If this key is not present,
* then behavior as per value 1 is applicable and this
* parameter is not included in SDP.
*
* <p>Reference: RFC 4867 Section 8.1.
*/
public static final String KEY_CODEC_ATTRIBUTE_MODE_CHANGE_CAPABILITY_INT =
KEY_PREFIX + "codec_attribute_mode_change_capability_int";
/**
* Specifies the allowed mode changes for the sender in the active mode set.
* This attribute is applicable for EVS codec in AMR-WB IO mode
* and AMR-WB.
*
* <p>Possible values are 0, 1. If value is 1, then the sender should only
* perform mode changes to the neighboring modes in the active codec mode set.
* If value is 0, then mode changes between any two modes
* in the active codec mode set is allowed.
* If the key is not present, behavior as per value 0 is applicable and this
* parameter is not included in SDP.
*
* <p>Reference: RFC 4867 Section 8.1.
*/
public static final String KEY_CODEC_ATTRIBUTE_MODE_CHANGE_NEIGHBOR_INT =
KEY_PREFIX + "codec_attribute_mode_change_neighbor_int";
/**
* Specifies the codec attributes of different payload types in
* the EVS codec.
*
* <p> The keys in this bundle are payload types specified
* in {@link #KEY_EVS_PAYLOAD_TYPE_INT_ARRAY}.
*
* <p>Codec attributes allowed as part of EVS codec are,
* <UL>
* <LI>{@link #KEY_EVS_CODEC_ATTRIBUTE_BANDWIDTH_INT}</LI>
* <LI>{@link #KEY_EVS_CODEC_ATTRIBUTE_BITRATE_INT_ARRAY}</LI>
* <LI>{@link #KEY_EVS_CODEC_ATTRIBUTE_CH_AW_RECV_INT}</LI>
* <LI>{@link #KEY_EVS_CODEC_ATTRIBUTE_HF_ONLY_INT}</LI>
* <LI>{@link #KEY_EVS_CODEC_ATTRIBUTE_DTX_BOOL}</LI>
* <LI>{@link #KEY_EVS_CODEC_ATTRIBUTE_DTX_RECV_BOOL}</LI>
* <LI>{@link #KEY_EVS_CODEC_ATTRIBUTE_MODE_SWITCH_INT}</LI>
* <LI>{@link #KEY_EVS_CODEC_ATTRIBUTE_CMR_INT}</LI>
* <LI>{@link #KEY_EVS_CODEC_ATTRIBUTE_CHANNELS_INT}</LI>
* <LI>{@link #KEY_CODEC_ATTRIBUTE_MODE_CHANGE_PERIOD_INT}</LI>
* <LI>{@link #KEY_CODEC_ATTRIBUTE_MODE_CHANGE_CAPABILITY_INT}</LI>
* <LI>{@link #KEY_CODEC_ATTRIBUTE_MODE_CHANGE_NEIGHBOR_INT}</LI>
* </UL>
*/
public static final String KEY_EVS_PAYLOAD_DESCRIPTION_BUNDLE =
KEY_PREFIX + "evs_payload_description_bundle";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putBoolean(KEY_CARRIER_VOLTE_ROAMING_AVAILABLE_BOOL, true);
defaults.putBoolean(KEY_INCLUDE_CALLER_ID_SERVICE_CODES_IN_SIP_INVITE_BOOL, false);
defaults.putBoolean(KEY_MULTIENDPOINT_SUPPORTED_BOOL, false);
defaults.putBoolean(KEY_SESSION_TIMER_SUPPORTED_BOOL, true);
defaults.putBoolean(KEY_OIP_SOURCE_FROM_HEADER_BOOL, false);
defaults.putBoolean(KEY_PRACK_SUPPORTED_FOR_18X_BOOL, false);
defaults.putBoolean(KEY_VOICE_QOS_PRECONDITION_SUPPORTED_BOOL, true);
defaults.putBoolean(KEY_VOICE_ON_DEFAULT_BEARER_SUPPORTED_BOOL, false);
defaults.putInt(KEY_SESSION_REFRESHER_TYPE_INT, SESSION_REFRESHER_TYPE_UAC);
defaults.putInt(KEY_SESSION_PRIVACY_TYPE_INT, SESSION_PRIVACY_TYPE_HEADER);
defaults.putInt(KEY_SESSION_REFRESH_METHOD_INT,
SESSION_REFRESH_METHOD_UPDATE_PREFERRED);
defaults.putInt(KEY_CONFERENCE_SUBSCRIBE_TYPE_INT,
CONFERENCE_SUBSCRIBE_TYPE_OUT_OF_DIALOG);
defaults.putInt(KEY_AUDIO_RTP_INACTIVITY_TIMER_MILLIS_INT, 20000);
defaults.putInt(KEY_AUDIO_RTCP_INACTIVITY_TIMER_MILLIS_INT, 20000);
defaults.putInt(KEY_DEDICATED_BEARER_WAIT_TIMER_MILLIS_INT, 8000);
defaults.putInt(KEY_RINGING_TIMER_MILLIS_INT, 90000);
defaults.putInt(KEY_RINGBACK_TIMER_MILLIS_INT, 90000);
defaults.putInt(KEY_MO_CALL_REQUEST_TIMEOUT_MILLIS_INT, 5000);
defaults.putInt(KEY_SESSION_EXPIRES_TIMER_SEC_INT, 1800);
defaults.putInt(KEY_MINIMUM_SESSION_EXPIRES_TIMER_SEC_INT, 90);
defaults.putInt(KEY_AUDIO_AS_BANDWIDTH_KBPS_INT, 41);
defaults.putInt(KEY_AUDIO_RS_BANDWIDTH_BPS_INT, 600);
defaults.putInt(KEY_AUDIO_RR_BANDWIDTH_BPS_INT, 2000);
defaults.putInt(KEY_VOICE_RTP_PACKET_LOSS_RATE_THRESHOLD_INT, 40);
defaults.putInt(KEY_VOICE_RTP_JITTER_THRESHOLD_MILLIS_INT, 120);
defaults.putLong(KEY_VOICE_RTP_INACTIVITY_TIME_THRESHOLD_MILLIS_LONG, 5000);
defaults.putIntArray(
KEY_AUDIO_INACTIVITY_CALL_END_REASONS_INT_ARRAY,
new int[] {
Ims.RTCP_INACTIVITY_ON_CONNECTED,
Ims.RTP_INACTIVITY_ON_CONNECTED,
Ims.E911_RTCP_INACTIVITY_ON_CONNECTED,
Ims.RTCP_INACTIVITY_ON_HOLD
});
defaults.putIntArray(
KEY_SRVCC_TYPE_INT_ARRAY,
new int[] {
BASIC_SRVCC_SUPPORT,
ALERTING_SRVCC_SUPPORT,
PREALERTING_SRVCC_SUPPORT,
MIDCALL_SRVCC_SUPPORT
});
defaults.putString(KEY_CONFERENCE_FACTORY_URI_STRING, "");
PersistableBundle audio_codec_capability_payload_types = new PersistableBundle();
audio_codec_capability_payload_types.putIntArray(
KEY_AMRWB_PAYLOAD_TYPE_INT_ARRAY,
new int[] { 97, 98 });
audio_codec_capability_payload_types.putIntArray(
KEY_AMRNB_PAYLOAD_TYPE_INT_ARRAY,
new int[] { 99, 100 });
audio_codec_capability_payload_types.putIntArray(
KEY_DTMFWB_PAYLOAD_TYPE_INT_ARRAY,
new int[] { 101 });
audio_codec_capability_payload_types.putIntArray(
KEY_DTMFNB_PAYLOAD_TYPE_INT_ARRAY,
new int[] { 102 });
defaults.putPersistableBundle(
KEY_AUDIO_CODEC_CAPABILITY_PAYLOAD_TYPES_BUNDLE,
audio_codec_capability_payload_types);
/* Setting defaults for AMRWB */
PersistableBundle all_amrwb_payload_bundles = new PersistableBundle();
PersistableBundle amrwb_bundle_instance1 = new PersistableBundle();
all_amrwb_payload_bundles.putPersistableBundle(
"97", /* Same value of payload type as in KEY_AMRWB_PAYLOAD_TYPE_INT_ARRAY */
amrwb_bundle_instance1);
PersistableBundle amrwb_bundle_instance2 = new PersistableBundle();
amrwb_bundle_instance2.putInt(KEY_AMR_CODEC_ATTRIBUTE_PAYLOAD_FORMAT_INT,
OCTET_ALIGNED);
all_amrwb_payload_bundles.putPersistableBundle(
"98", /* Same value of payload type as in KEY_AMRWB_PAYLOAD_TYPE_INT_ARRAY */
amrwb_bundle_instance2);
defaults.putPersistableBundle(
KEY_AMRWB_PAYLOAD_DESCRIPTION_BUNDLE,
all_amrwb_payload_bundles);
/* Setting defaults for AMRNB */
PersistableBundle all_amrnb_payload_bundles = new PersistableBundle();
PersistableBundle amrnb_bundle_instance1 = new PersistableBundle();
all_amrnb_payload_bundles.putPersistableBundle(
"99", /* Same value of payload type as in KEY_AMRNB_PAYLOAD_TYPE_INT_ARRAY */
amrnb_bundle_instance1);
PersistableBundle amrnb_bundle_instance2 = new PersistableBundle();
amrnb_bundle_instance2.putInt(KEY_AMR_CODEC_ATTRIBUTE_PAYLOAD_FORMAT_INT,
OCTET_ALIGNED);
all_amrnb_payload_bundles.putPersistableBundle(
"100", /* Same value of payload type as in KEY_AMRNB_PAYLOAD_TYPE_INT_ARRAY */
amrnb_bundle_instance2);
defaults.putPersistableBundle(
KEY_AMRNB_PAYLOAD_DESCRIPTION_BUNDLE,
all_amrnb_payload_bundles);
return defaults;
}
}
/**
* IMS SMS configs. This groups the configs specific for SMS over IMS
*/
public static final class ImsSms {
private ImsSms() {}
/** Prefix of all imssms.KEY_* constants. */
public static final String KEY_PREFIX = "imssms.";
/**
* Flag specifying if SMS over IMS support is available or not.
*
* <p>If {@code true}: SMS over IMS support available.
* {@code false}: otherwise.
*/
public static final String KEY_SMS_OVER_IMS_SUPPORTED_BOOL =
KEY_PREFIX + "sms_over_ims_supported_bool";
/**
* Flag specifying whether to allow SMS CSFB in case of
* SMS over PS failure.
*
* <p>If {@code true}: allow SMS CSFB in case of SMS over PS failure.
* {@code false} otherwise.
*/
public static final String KEY_SMS_CSFB_RETRY_ON_FAILURE_BOOL =
KEY_PREFIX + "sms_csfb_retry_on_failure_bool";
/** @hide */
@IntDef({
SMS_FORMAT_3GPP,
SMS_FORMAT_3GPP2
})
public @interface SmsFormat {}
/** SMS format is 3GPP. */
public static final int SMS_FORMAT_3GPP = 0;
/** SMS format is 3GPP2. */
public static final int SMS_FORMAT_3GPP2 = 1;
/**
* Specifies the SMS over IMS format.
*
* <p>Possible values are,
* {@link #SMS_FORMAT_3GPP},
* {@link #SMS_FORMAT_3GPP2}
*/
public static final String KEY_SMS_OVER_IMS_FORMAT_INT =
KEY_PREFIX + "sms_over_ims_format_int";
/**
* List of different RAT technologies on which SMS over IMS
* is supported.
*
* <p>Possible values are,
* {@link AccessNetworkConstants.AccessNetworkType#NGRAN}
* {@link AccessNetworkConstants.AccessNetworkType#EUTRAN}
* {@link AccessNetworkConstants.AccessNetworkType#IWLAN}
* {@link AccessNetworkConstants.AccessNetworkType#UTRAN}
* {@link AccessNetworkConstants.AccessNetworkType#GERAN}
*/
public static final String KEY_SMS_OVER_IMS_SUPPORTED_RATS_INT_ARRAY =
KEY_PREFIX + "sms_over_ims_supported_rats_int_array";
/**
* Maximum Retry Count for Failure, If the Retry Count exceeds this value,
* it must display to User Interface as sending failed
*/
public static final String KEY_SMS_MAX_RETRY_COUNT_INT =
KEY_PREFIX + "sms_max_retry_count_int";
/**
* Maximum Retry Count for SMS over IMS on Failure, If the Retry Count exceeds this value,
* and if the retry count is less than {@link #KEY_SMS_MAX_RETRY_COUNT_INT}
* sending SMS should fallback to CS
*/
public static final String KEY_SMS_MAX_RETRY_OVER_IMS_COUNT_INT =
KEY_PREFIX + "sms_max_retry_over_ims_count_int";
/**
* Delay Timer Value in milliseconds
* Retry SMS over IMS after this Timer expires
*/
public static final String KEY_SMS_OVER_IMS_SEND_RETRY_DELAY_MILLIS_INT =
KEY_PREFIX + "sms_over_ims_send_retry_delay_millis_int";
/**
* TR1 Timer Value in milliseconds,
* Waits for RP-Ack from network for MO SMS.
*/
public static final String KEY_SMS_TR1_TIMER_MILLIS_INT =
KEY_PREFIX + "sms_tr1_timer_millis_int";
/**
* TR2 Timer Value in milliseconds,
* Waits for RP-Ack from Transfer Layer for MT SMS.
*/
public static final String KEY_SMS_TR2_TIMER_MILLIS_INT =
KEY_PREFIX + "sms_tr2_timer_millis_int";
/**
* SMS RP-Cause Values for which SMS should be retried over IMS
*
* <p>Possible values are,
* {@link SmsManager#SMS_RP_CAUSE_UNALLOCATED_NUMBER}
* {@link SmsManager#SMS_RP_CAUSE_OPERATOR_DETERMINED_BARRING}
* {@link SmsManager#SMS_RP_CAUSE_CALL_BARRING}
* {@link SmsManager#SMS_RP_CAUSE_RESERVED}
* {@link SmsManager#SMS_RP_CAUSE_SHORT_MESSAGE_TRANSFER_REJECTED}
* {@link SmsManager#SMS_RP_CAUSE_DESTINATION_OUT_OF_ORDER}
* {@link SmsManager#SMS_RP_CAUSE_UNIDENTIFIED_SUBSCRIBER}
* {@link SmsManager#SMS_RP_CAUSE_FACILITY_REJECTED}
* {@link SmsManager#SMS_RP_CAUSE_UNKNOWN_SUBSCRIBER}
* {@link SmsManager#SMS_RP_CAUSE_NETWORK_OUT_OF_ORDER}
* {@link SmsManager#SMS_RP_CAUSE_TEMPORARY_FAILURE}
* {@link SmsManager#SMS_RP_CAUSE_CONGESTION}
* {@link SmsManager#SMS_RP_CAUSE_RESOURCES_UNAVAILABLE}
* {@link SmsManager#SMS_RP_CAUSE_FACILITY_NOT_SUBSCRIBED}
* {@link SmsManager#SMS_RP_CAUSE_FACILITY_NOT_IMPLEMENTED}
* {@link SmsManager#SMS_RP_CAUSE_INVALID_MESSAGE_REFERENCE_VALUE}
* {@link SmsManager#SMS_RP_CAUSE_SEMANTICALLY_INCORRECT_MESSAGE}
* {@link SmsManager#SMS_RP_CAUSE_INVALID_MANDATORY_INFORMATION}
* {@link SmsManager#SMS_RP_CAUSE_MESSAGE_TYPE_NON_EXISTENT}
* {@link SmsManager#SMS_RP_CAUSE_MESSAGE_INCOMPATIBLE_WITH_PROTOCOL_STATE}
* {@link SmsManager#SMS_RP_CAUSE_INFORMATION_ELEMENT_NON_EXISTENT}
* {@link SmsManager#SMS_RP_CAUSE_PROTOCOL_ERROR}
* {@link SmsManager#SMS_RP_CAUSE_INTERWORKING_UNSPECIFIED
*/
public static final String KEY_SMS_RP_CAUSE_VALUES_TO_RETRY_OVER_IMS_INT_ARRAY =
KEY_PREFIX + "sms_rp_cause_values_to_retry_over_ims_int_array";
/**
* SMS RP-Cause Values for which Sending SMS should fallback
*/
public static final String KEY_SMS_RP_CAUSE_VALUES_TO_FALLBACK_INT_ARRAY =
KEY_PREFIX + "sms_rp_cause_values_to_fallback_int_array";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putBoolean(KEY_SMS_OVER_IMS_SUPPORTED_BOOL, true);
defaults.putBoolean(KEY_SMS_CSFB_RETRY_ON_FAILURE_BOOL, true);
defaults.putInt(KEY_SMS_OVER_IMS_FORMAT_INT, SMS_FORMAT_3GPP);
defaults.putInt(KEY_SMS_MAX_RETRY_COUNT_INT, 3);
defaults.putInt(KEY_SMS_MAX_RETRY_OVER_IMS_COUNT_INT, 3);
defaults.putInt(KEY_SMS_OVER_IMS_SEND_RETRY_DELAY_MILLIS_INT,
2000);
defaults.putInt(KEY_SMS_TR1_TIMER_MILLIS_INT, 130000);
defaults.putInt(KEY_SMS_TR2_TIMER_MILLIS_INT, 15000);
defaults.putIntArray(
KEY_SMS_RP_CAUSE_VALUES_TO_RETRY_OVER_IMS_INT_ARRAY,
new int[] {
SmsManager.SMS_RP_CAUSE_TEMPORARY_FAILURE
});
defaults.putIntArray(
KEY_SMS_RP_CAUSE_VALUES_TO_FALLBACK_INT_ARRAY,
new int[] {
SmsManager.SMS_RP_CAUSE_UNALLOCATED_NUMBER,
SmsManager.SMS_RP_CAUSE_OPERATOR_DETERMINED_BARRING,
SmsManager.SMS_RP_CAUSE_CALL_BARRING,
SmsManager.SMS_RP_CAUSE_RESERVED,
SmsManager.SMS_RP_CAUSE_SHORT_MESSAGE_TRANSFER_REJECTED,
SmsManager.SMS_RP_CAUSE_DESTINATION_OUT_OF_ORDER,
SmsManager.SMS_RP_CAUSE_UNIDENTIFIED_SUBSCRIBER,
SmsManager.SMS_RP_CAUSE_FACILITY_REJECTED,
SmsManager.SMS_RP_CAUSE_UNKNOWN_SUBSCRIBER,
SmsManager.SMS_RP_CAUSE_NETWORK_OUT_OF_ORDER,
SmsManager.SMS_RP_CAUSE_CONGESTION,
SmsManager.SMS_RP_CAUSE_RESOURCES_UNAVAILABLE,
SmsManager.SMS_RP_CAUSE_FACILITY_NOT_SUBSCRIBED,
SmsManager.SMS_RP_CAUSE_FACILITY_NOT_IMPLEMENTED,
SmsManager.SMS_RP_CAUSE_INVALID_MESSAGE_REFERENCE_VALUE,
SmsManager.SMS_RP_CAUSE_SEMANTICALLY_INCORRECT_MESSAGE,
SmsManager.SMS_RP_CAUSE_INVALID_MANDATORY_INFORMATION,
SmsManager.SMS_RP_CAUSE_MESSAGE_TYPE_NON_EXISTENT,
SmsManager.SMS_RP_CAUSE_MESSAGE_INCOMPATIBLE_WITH_PROTOCOL_STATE,
SmsManager.SMS_RP_CAUSE_INFORMATION_ELEMENT_NON_EXISTENT,
SmsManager.SMS_RP_CAUSE_PROTOCOL_ERROR,
SmsManager.SMS_RP_CAUSE_INTERWORKING_UNSPECIFIED
});
defaults.putIntArray(
KEY_SMS_OVER_IMS_SUPPORTED_RATS_INT_ARRAY,
new int[] {
AccessNetworkType.EUTRAN,
AccessNetworkType.IWLAN
});
return defaults;
}
}
/**
* IMS RTT configs. This groups the configs specific for text media,
* RTT (Real Time Text).
*/
public static final class ImsRtt {
private ImsRtt() {}
/** Prefix of all imsrtt.KEY_* constants. */
public static final String KEY_PREFIX = "imsrtt.";
/**
* Flag specifying whether text media is allowed on default bearer.
*
* <p>If {@code true}: text media can be sent on default bearer.
* {@code false} otherwise.
*/
public static final String KEY_TEXT_ON_DEFAULT_BEARER_SUPPORTED_BOOL =
KEY_PREFIX + "text_on_default_bearer_supported_bool";
/**
* Flag specifying whether QoS preconditions are supported for text.
*
* <p>If {@code true}: QoS Preconditions are supported.
* {@code false} otherwise.
* <p>Reference: 3GPP TS 24.229
*/
public static final String KEY_TEXT_QOS_PRECONDITION_SUPPORTED_BOOL =
KEY_PREFIX + "text_qos_precondition_supported_bool";
/**
* Specifies the AS (Application Specific) SDP modifier for text media.
*
* <p>Expressed in kilobits per second as per RFC 3556 Section 2.
*/
public static final String KEY_TEXT_AS_BANDWIDTH_KBPS_INT =
KEY_PREFIX + "text_as_bandwidth_kbps_int";
/**
* Specifies the RS (RTCP bandwidth-Sender) SDP modifier for text media.
*
* <p>This indicates the RTCP bandwidth allocated to active data senders
* for text media.
*
* <p>Expressed in bits per second as per RFC 3556 Section 2.
*/
public static final String KEY_TEXT_RS_BANDWIDTH_BPS_INT =
KEY_PREFIX + "text_rs_bandwidth_bps_int";
/**
* Specifies the RR (RTCP bandwidth-Receiver) SDP modifier for
* text media.
*
* <p>This indicates the RTCP bandwidth allocated to receivers
* for text media.
*
* <p>Expressed in bits per second as per RFC 3556 Section 2.
*/
public static final String KEY_TEXT_RR_BANDWIDTH_BPS_INT =
KEY_PREFIX + "text_rr_bandwidth_bps_int";
/**
* Specifies the Text Codec capability.
*
* <p>Possible keys in this bundle are,
* <UL>
* <LI>{@link #KEY_T140_PAYLOAD_TYPE_INT}</LI>
* <LI>{@link #KEY_RED_PAYLOAD_TYPE_INT}</LI>
* </UL>
*/
public static final String KEY_TEXT_CODEC_CAPABILITY_PAYLOAD_TYPES_BUNDLE =
KEY_PREFIX + "text_codec_capability_payload_types_bundle";
/** Integer representing payload type for T140 codec.
* <p>Payload type is an integer in dynamic payload type range 96-127
* as per RFC RFC 3551 Section 6.
*/
public static final String KEY_T140_PAYLOAD_TYPE_INT =
KEY_PREFIX + "t140_payload_type_int";
/** Integer representing payload type for RED/redundancy codec.
* <p>Payload type is an integer in dynamic payload type range 96-127
* as per RFC RFC 3551 Section 6.
*/
public static final String KEY_RED_PAYLOAD_TYPE_INT =
KEY_PREFIX + "red_payload_type_int";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putBoolean(KEY_TEXT_ON_DEFAULT_BEARER_SUPPORTED_BOOL, false);
defaults.putBoolean(KEY_TEXT_QOS_PRECONDITION_SUPPORTED_BOOL, true);
defaults.putInt(KEY_TEXT_AS_BANDWIDTH_KBPS_INT, 4);
defaults.putInt(KEY_TEXT_RS_BANDWIDTH_BPS_INT, 100);
defaults.putInt(KEY_TEXT_RR_BANDWIDTH_BPS_INT, 300);
PersistableBundle text_codec_capability_payload_types = new PersistableBundle();
text_codec_capability_payload_types.putInt(
KEY_RED_PAYLOAD_TYPE_INT,
112);
text_codec_capability_payload_types.putInt(
KEY_T140_PAYLOAD_TYPE_INT,
111);
defaults.putPersistableBundle(
KEY_TEXT_CODEC_CAPABILITY_PAYLOAD_TYPES_BUNDLE,
text_codec_capability_payload_types);
return defaults;
}
}
/**
* Emergency Call/E911. This groups the configs specific for emergency call
* over IMS.
*
* <p> Reference: 3GPP 24.229, 3GPP 23.167 Annex H, 3GPP 24.301.
*/
public static final class ImsEmergency {
private ImsEmergency() {}
/** Prefix of all imsemergency.KEY_* constants. */
public static final String KEY_PREFIX = "imsemergency.";
/**
* Flag specifying whether UE would retry E911 call on
* IMS PDN if emergency PDN setup failed.
*
* <p>If {@code true}: Allow UE to retry emergency call on
* IMS PDN if emergency PDN setup failed.{@code false} otherwise.
*/
public static final String KEY_RETRY_EMERGENCY_ON_IMS_PDN_BOOL =
KEY_PREFIX + "retry_emergency_on_ims_pdn_bool";
/**
* Flag specifying whether UE should enter Emergency CallBack Mode(ECBM)
* after E911 call is ended.
*
* <p>If {@code true}: Enter ECBM mode after E911 call is ended.
* {@code false} otherwise.
*/
public static final String KEY_EMERGENCY_CALLBACK_MODE_SUPPORTED_BOOL =
KEY_PREFIX + "emergency_callback_mode_supported_bool";
/**
* Flag specifying whether QoS preconditions are supported for emergency
* call setup.
*
* <p>If {@code true}: QoS Preconditions are supported.
* {@code false} otherwise.
*
* <p>Reference: 3GPP TS 24.229
*/
public static final String KEY_EMERGENCY_QOS_PRECONDITION_SUPPORTED_BOOL =
KEY_PREFIX + "emergency_qos_precondition_supported_bool";
/**
* List of different RAT technologies on which emergency call using IMS
* is supported.
*
* <p>Possible values are,
* {@link AccessNetworkConstants.AccessNetworkType#NGRAN}
* {@link AccessNetworkConstants.AccessNetworkType#EUTRAN}
* {@link AccessNetworkConstants.AccessNetworkType#IWLAN}
*/
public static final String KEY_EMERGENCY_OVER_IMS_SUPPORTED_RATS_INT_ARRAY =
KEY_PREFIX + "emergency_over_ims_supported_rats_int_array";
/**
* Specifies the maximum time from deciding that an emergency service is to
* be established until completion of the emergency registration procedure.
* Upon timer expiry, the UE considers the emergency REGISTER request or
* the emergency call attempt as failed.
*/
public static final String KEY_EMERGENCY_REGISTRATION_TIMER_MILLIS_INT =
KEY_PREFIX + "emergency_registration_timer_millis_int";
/**
* This setting will be specify the wait time for refreshing
* geolocation information before dialing emergency call.
*/
public static final String KEY_REFRESH_GEOLOCATION_TIMEOUT_MILLIS_INT =
KEY_PREFIX + "refresh_geolocation_timeout_millis_int";
/**
* List of 3GPP access network technologies where e911 over IMS is supported
* in the home network and domestic 3rd-party networks. The order in the list represents
* the preference. The domain selection service shall scan the network type in the order
* of the preference.
*
* <p>Possible values are,
* {@link AccessNetworkConstants.AccessNetworkType#NGRAN}
* {@link AccessNetworkConstants.AccessNetworkType#EUTRAN}
*
* The default value for this key is
* {{@link AccessNetworkConstants.AccessNetworkType#EUTRAN},
* @hide
*/
public static final String
KEY_EMERGENCY_OVER_IMS_SUPPORTED_3GPP_NETWORK_TYPES_INT_ARRAY = KEY_PREFIX
+ "emergency_over_ims_supported_3gpp_network_types_int_array";
/**
* List of 3GPP access network technologies where e911 over IMS is supported
* in the roaming network and non-domestic 3rd-party networks. The order in the list
* represents the preference. The domain selection service shall scan the network type
* in the order of the preference.
*
* <p>Possible values are,
* {@link AccessNetworkConstants.AccessNetworkType#NGRAN}
* {@link AccessNetworkConstants.AccessNetworkType#EUTRAN}
*
* The default value for this key is
* {{@link AccessNetworkConstants.AccessNetworkType#EUTRAN},
* @hide
*/
public static final String
KEY_EMERGENCY_OVER_IMS_ROAMING_SUPPORTED_3GPP_NETWORK_TYPES_INT_ARRAY = KEY_PREFIX
+ "emergency_over_ims_roaming_supported_3gpp_network_types_int_array";
/**
* List of CS access network technologies where circuit-switched emergency calls are
* supported in the home network and domestic 3rd-party networks. The order in the list
* represents the preference. The domain selection service shall scan the network type
* in the order of the preference.
*
* <p>Possible values are,
* {@link AccessNetworkConstants.AccessNetworkType#GERAN}
* {@link AccessNetworkConstants.AccessNetworkType#UTRAN}
* {@link AccessNetworkConstants.AccessNetworkType#CDMA2000}
*
* The default value for this key is
* {{@link AccessNetworkConstants.AccessNetworkType#UTRAN},
* {@link AccessNetworkConstants.AccessNetworkType#GERAN}}.
* @hide
*/
public static final String KEY_EMERGENCY_OVER_CS_SUPPORTED_ACCESS_NETWORK_TYPES_INT_ARRAY =
KEY_PREFIX + "emergency_over_cs_supported_access_network_types_int_array";
/**
* List of CS access network technologies where circuit-switched emergency calls are
* supported in the roaming network and non-domestic 3rd-party networks. The order
* in the list represents the preference. The domain selection service shall scan
* the network type in the order of the preference.
*
* <p>Possible values are,
* {@link AccessNetworkConstants.AccessNetworkType#GERAN}
* {@link AccessNetworkConstants.AccessNetworkType#UTRAN}
* {@link AccessNetworkConstants.AccessNetworkType#CDMA2000}
*
* The default value for this key is
* {{@link AccessNetworkConstants.AccessNetworkType#UTRAN},
* {@link AccessNetworkConstants.AccessNetworkType#GERAN}}.
* @hide
*/
public static final String
KEY_EMERGENCY_OVER_CS_ROAMING_SUPPORTED_ACCESS_NETWORK_TYPES_INT_ARRAY = KEY_PREFIX
+ "emergency_over_cs_roaming_supported_access_network_types_int_array";
/** @hide */
@IntDef({
DOMAIN_CS,
DOMAIN_PS_3GPP,
DOMAIN_PS_NON_3GPP
})
public @interface EmergencyDomain {}
/**
* Circuit switched domain.
* @hide
*/
public static final int DOMAIN_CS = 1;
/**
* Packet switched domain over 3GPP networks.
* @hide
*/
public static final int DOMAIN_PS_3GPP = 2;
/**
* Packet switched domain over non-3GPP networks such as Wi-Fi.
* @hide
*/
public static final int DOMAIN_PS_NON_3GPP = 3;
/**
* Specifies the emergency call domain preference for the home network.
* The domain selection service shall choose the domain in the order
* for attempting the emergency call
*
* <p>Possible values are,
* {@link #DOMAIN_CS}
* {@link #DOMAIN_PS_3GPP}
* {@link #DOMAIN_PS_NON_3GPP}.
*
* The default value for this key is
* {{@link #DOMAIN_PS_3GPP},
* {@link #DOMAIN_CS},
* {@link #DOMAIN_PS_NON_3GPP}}.
* @hide
*/
public static final String KEY_EMERGENCY_DOMAIN_PREFERENCE_INT_ARRAY =
KEY_PREFIX + "emergency_domain_preference_int_array";
/**
* Specifies the emergency call domain preference for the roaming network.
* The domain selection service shall choose the domain in the order
* for attempting the emergency call.
*
* <p>Possible values are,
* {@link #DOMAIN_CS}
* {@link #DOMAIN_PS_3GPP}
* {@link #DOMAIN_PS_NON_3GPP}.
*
* The default value for this key is
* {{@link #DOMAIN_PS_3GPP},
* {@link #DOMAIN_CS},
* {@link #DOMAIN_PS_NON_3GPP}}.
* @hide
*/
public static final String KEY_EMERGENCY_DOMAIN_PREFERENCE_ROAMING_INT_ARRAY =
KEY_PREFIX + "emergency_domain_preference_roaming_int_array";
/**
* Specifies if emergency call shall be attempted on IMS, if PS is attached even though IMS
* is not registered and normal calls fallback to the CS networks.
*
* The default value for this key is {@code false}.
* @hide
*/
public static final String KEY_PREFER_IMS_EMERGENCY_WHEN_VOICE_CALLS_ON_CS_BOOL =
KEY_PREFIX + "prefer_ims_emergency_when_voice_calls_on_cs_bool";
/** @hide */
@IntDef({
VOWIFI_REQUIRES_NONE,
VOWIFI_REQUIRES_SETTING_ENABLED,
VOWIFI_REQUIRES_VALID_EID,
})
public @interface VoWiFiRequires {}
/**
* Default value.
* If {@link ImsWfc#KEY_EMERGENCY_CALL_OVER_EMERGENCY_PDN_BOOL} is {@code true},
* VoWi-Fi emergency call shall be attempted if Wi-Fi network is connected.
* Otherwise, it shall be attempted if IMS is registered over Wi-Fi.
* @hide
*/
public static final int VOWIFI_REQUIRES_NONE = 0;
/**
* VoWi-Fi emergency call shall be attempted on IMS over Wi-Fi if Wi-Fi network is connected
* and Wi-Fi calling setting is enabled. This value is applicable if the value of
* {@link ImsWfc#KEY_EMERGENCY_CALL_OVER_EMERGENCY_PDN_BOOL} is {@code true}.
* @hide
*/
public static final int VOWIFI_REQUIRES_SETTING_ENABLED = 1;
/**
* VoWi-Fi emergency call shall be attempted on IMS over Wi-Fi if Wi-Fi network is connected
* and Wi-Fi calling is activated successfully. This value is applicable if the value of
* {@link ImsWfc#KEY_EMERGENCY_CALL_OVER_EMERGENCY_PDN_BOOL} is {@code true}.
* @hide
*/
public static final int VOWIFI_REQUIRES_VALID_EID = 2;
/**
* Specifies the condition when emergency call shall be attempted on IMS over Wi-Fi.
*
* The default value for this key is {@code #VOWIFI_REQUIRES_NONE}.
* @hide
*/
public static final String KEY_EMERGENCY_VOWIFI_REQUIRES_CONDITION_INT =
KEY_PREFIX + "emergency_vowifi_requires_condition_int";
/**
* Specifies maximum number of emergency call retries over Wi-Fi.
* This is valid only when {@link #DOMAIN_PS_NON_3GPP} is included in
* {@link #KEY_EMERGENCY_DOMAIN_PREFERENCE_INT_ARRAY} or
* {@link #KEY_EMERGENCY_DOMAIN_PREFERENCE_ROAMING_INT_ARRAY}.
*
* The default value for this key is 1.
* @hide
*/
public static final String KEY_MAXIMUM_NUMBER_OF_EMERGENCY_TRIES_OVER_VOWIFI_INT =
KEY_PREFIX + "maximum_number_of_emergency_tries_over_vowifi_int";
/**
* Emergency scan timer to wait for scan results from radio before attempting the call
* over Wi-Fi. On timer expiry, if emergency call on Wi-Fi is allowed and possible,
* telephony shall cancel the scan and place the call on Wi-Fi. If emergency call on Wi-Fi
* is not possible, then domain seleciton continues to wait for the scan result from the
* radio. If an emergency scan result is received before the timer expires, the timer shall
* be stopped and no dialing over Wi-Fi will be tried. If this value is set to 0, then
* the timer is never started and domain selection waits for the scan result from the radio.
*
* The default value for the timer is 10 seconds.
* @hide
*/
public static final String KEY_EMERGENCY_SCAN_TIMER_SEC_INT =
KEY_PREFIX + "emergency_scan_timer_sec_int";
/**
* The timer to wait for the call completion on the cellular network before attempting the
* call over Wi-Fi. On timer expiry, if emergency call on Wi-Fi is allowed and possible,
* telephony shall cancel the scan on the cellular network and place the call on Wi-Fi.
* If dialing over cellular network is ongoing when timer expires, dialing over Wi-Fi
* will be requested only when the ongoing dialing fails. If emergency call on Wi-Fi is not
* possible, then domain selection continues to try dialing from the radio and the timer
* remains expired. Later when calling over Wi-Fi is possible and dialing over cellular
* networks fails, calling over Wi-Fi will be requested. The timer shall be restarted from
* initial state if calling over Wi-Fi fails.
* If this value is set to {@link #REDIAL_TIMER_DISABLED}, then the timer will never be
* started.
*
* The default value for the timer is {@link #REDIAL_TIMER_DISABLED}.
* @hide
*/
public static final String KEY_MAXIMUM_CELLULAR_SEARCH_TIMER_SEC_INT =
KEY_PREFIX + "maximum_cellular_search_timer_sec_int";
/** @hide */
@IntDef(prefix = "SCAN_TYPE_",
value = {
SCAN_TYPE_NO_PREFERENCE,
SCAN_TYPE_FULL_SERVICE,
SCAN_TYPE_FULL_SERVICE_FOLLOWED_BY_LIMITED_SERVICE})
public @interface EmergencyScanType {}
/**
* No specific preference given to the modem. Modem can return an emergency
* capable network either with limited service or full service.
* @hide
*/
public static final int SCAN_TYPE_NO_PREFERENCE = 0;
/**
* Modem will attempt to camp on a network with full service only.
* @hide
*/
public static final int SCAN_TYPE_FULL_SERVICE = 1;
/**
* Telephony shall attempt full service scan first.
* If a full service network is not found, telephony shall attempt a limited service scan.
* @hide
*/
public static final int SCAN_TYPE_FULL_SERVICE_FOLLOWED_BY_LIMITED_SERVICE = 2;
/**
* Specifies the preferred emergency network scanning type.
*
* <p>Possible values are,
* {@link #SCAN_TYPE_NO_PREFERENCE}
* {@link #SCAN_TYPE_FULL_SERVICE}
* {@link #SCAN_TYPE_FULL_SERVICE_FOLLOWED_BY_LIMITED_SERVICE}
*
* The default value for this key is {@link #SCAN_TYPE_NO_PREFERENCE}.
* @hide
*/
public static final String KEY_EMERGENCY_NETWORK_SCAN_TYPE_INT =
KEY_PREFIX + "emergency_network_scan_type_int";
/**
* Specifies the time by which a call should be set up on the current network
* once the call is routed on the network. If the call cannot be set up by timer expiry,
* call shall be re-dialed on the next available network.
* If this value is set to 0, the timer shall be disabled.
*
* The default value for this key is 0.
* @hide
*/
public static final String KEY_EMERGENCY_CALL_SETUP_TIMER_ON_CURRENT_NETWORK_SEC_INT =
KEY_PREFIX + "emergency_call_setup_timer_on_current_network_sec_int";
/**
* Specifies if emergency call shall be attempted on IMS only when IMS is registered.
* This is applicable only for the case PS is in service.
*
* The default value for this key is {@code false}.
* @hide
*/
public static final String KEY_EMERGENCY_REQUIRES_IMS_REGISTRATION_BOOL =
KEY_PREFIX + "emergency_requires_ims_registration_bool";
/**
* Specifies if LTE is preferred when re-scanning networks after the failure of dialing
* over NR. If not, CS will be preferred.
*
* The default value for this key is {@code false}.
* @hide
*/
public static final String KEY_EMERGENCY_LTE_PREFERRED_AFTER_NR_FAILED_BOOL =
KEY_PREFIX + "emergency_lte_preferred_after_nr_failed_bool";
/**
* Specifies the numbers to be dialed over CDMA network in case of dialing over CS network.
*
* The default value for this key is an empty string array.
* @hide
*/
public static final String KEY_EMERGENCY_CDMA_PREFERRED_NUMBERS_STRING_ARRAY =
KEY_PREFIX + "emergency_cdma_preferred_numbers_string_array";
/**
* Specifies if emergency call shall be attempted on IMS over cellular network
* only when VoLTE is enabled.
*
* The default value for this key is {@code false}.
* @hide
*/
public static final String KEY_EMERGENCY_REQUIRES_VOLTE_ENABLED_BOOL =
KEY_PREFIX + "emergency_requires_volte_enabled_bool";
/**
* This values indicates that the cross SIM redialing timer and maximum celluar search
* timer shall be disabled.
*
* @see #KEY_CROSS_STACK_REDIAL_TIMER_SEC_INT
* @see #KEY_QUICK_CROSS_STACK_REDIAL_TIMER_SEC_INT
* @see #KEY_MAXIMUM_CELLULAR_SEARCH_TIMER_SEC_INT
* @hide
*/
public static final int REDIAL_TIMER_DISABLED = 0;
/**
* A timer to guard the max attempting time on current SIM slot so that modem will not
* stuck in current SIM slot for long time. On timer expiry, if emergency call on the
* other SIM slot is preferable, telephony shall cancel the emergency call and place the
* call on the other SIM slot. If this value is set to {@link #REDIAL_TIMER_DISABLED}, then
* the timer will never be started and domain selection continues on the current SIM slot.
* This value should be greater than the value of {@link #KEY_EMERGENCY_SCAN_TIMER_SEC_INT}.
*
* The default value for the timer is 120 seconds.
* @hide
*/
public static final String KEY_CROSS_STACK_REDIAL_TIMER_SEC_INT =
KEY_PREFIX + "cross_stack_redial_timer_sec_int";
/**
* If emergency calls are only allowed with normal-registered service and UE should get
* normal service in a short time with acquired band information, telephony
* expects dialing emergency call will be completed in a short time.
* If dialing is not completed with in a certain timeout, telephony shall place on
* another SIM slot. If this value is set to {@link #REDIAL_TIMER_DISABLED}, then the timer
* will never be started and domain selection continues on the current SIM slot.
* The timer shall be started for the first trial of each subscription and shall be ignored
* in the roaming networks and non-domestic networks.
*
* The default value for the timer is {@link #REDIAL_TIMER_DISABLED}.
* @hide
*/
public static final String KEY_QUICK_CROSS_STACK_REDIAL_TIMER_SEC_INT =
KEY_PREFIX + "quick_cross_stack_redial_timer_sec_int";
/**
* Indicates whether the quick cross stack redial timer will be triggered only when
* the device is registered to the network.
*
* The default value is {@code true}.
* @hide
*/
public static final String KEY_START_QUICK_CROSS_STACK_REDIAL_TIMER_WHEN_REGISTERED_BOOL =
KEY_PREFIX + "start_quick_cross_stack_redial_timer_when_registered_bool";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putBoolean(KEY_RETRY_EMERGENCY_ON_IMS_PDN_BOOL, false);
defaults.putBoolean(KEY_EMERGENCY_CALLBACK_MODE_SUPPORTED_BOOL, false);
defaults.putBoolean(KEY_EMERGENCY_QOS_PRECONDITION_SUPPORTED_BOOL, true);
defaults.putIntArray(
KEY_EMERGENCY_OVER_IMS_SUPPORTED_RATS_INT_ARRAY,
new int[] {
AccessNetworkType.EUTRAN,
AccessNetworkType.IWLAN
});
defaults.putInt(KEY_EMERGENCY_REGISTRATION_TIMER_MILLIS_INT, 10000);
defaults.putInt(KEY_REFRESH_GEOLOCATION_TIMEOUT_MILLIS_INT, 5000);
defaults.putIntArray(
KEY_EMERGENCY_OVER_IMS_SUPPORTED_3GPP_NETWORK_TYPES_INT_ARRAY,
new int[] {
AccessNetworkType.EUTRAN,
});
defaults.putIntArray(
KEY_EMERGENCY_OVER_IMS_ROAMING_SUPPORTED_3GPP_NETWORK_TYPES_INT_ARRAY,
new int[] {
AccessNetworkType.EUTRAN,
});
defaults.putIntArray(
KEY_EMERGENCY_OVER_CS_SUPPORTED_ACCESS_NETWORK_TYPES_INT_ARRAY,
new int[] {
AccessNetworkType.UTRAN,
AccessNetworkType.GERAN,
});
defaults.putIntArray(
KEY_EMERGENCY_OVER_CS_ROAMING_SUPPORTED_ACCESS_NETWORK_TYPES_INT_ARRAY,
new int[] {
AccessNetworkType.UTRAN,
AccessNetworkType.GERAN,
});
defaults.putIntArray(KEY_EMERGENCY_DOMAIN_PREFERENCE_INT_ARRAY,
new int[] {
DOMAIN_PS_3GPP,
DOMAIN_CS,
DOMAIN_PS_NON_3GPP
});
defaults.putIntArray(KEY_EMERGENCY_DOMAIN_PREFERENCE_ROAMING_INT_ARRAY,
new int[] {
DOMAIN_PS_3GPP,
DOMAIN_CS,
DOMAIN_PS_NON_3GPP
});
defaults.putBoolean(KEY_PREFER_IMS_EMERGENCY_WHEN_VOICE_CALLS_ON_CS_BOOL, false);
defaults.putInt(KEY_EMERGENCY_VOWIFI_REQUIRES_CONDITION_INT, VOWIFI_REQUIRES_NONE);
defaults.putInt(KEY_MAXIMUM_NUMBER_OF_EMERGENCY_TRIES_OVER_VOWIFI_INT, 1);
defaults.putInt(KEY_EMERGENCY_SCAN_TIMER_SEC_INT, 10);
defaults.putInt(KEY_MAXIMUM_CELLULAR_SEARCH_TIMER_SEC_INT, REDIAL_TIMER_DISABLED);
defaults.putInt(KEY_EMERGENCY_NETWORK_SCAN_TYPE_INT, SCAN_TYPE_NO_PREFERENCE);
defaults.putInt(KEY_EMERGENCY_CALL_SETUP_TIMER_ON_CURRENT_NETWORK_SEC_INT, 0);
defaults.putBoolean(KEY_EMERGENCY_REQUIRES_IMS_REGISTRATION_BOOL, false);
defaults.putBoolean(KEY_EMERGENCY_LTE_PREFERRED_AFTER_NR_FAILED_BOOL, false);
defaults.putBoolean(KEY_EMERGENCY_REQUIRES_VOLTE_ENABLED_BOOL, false);
defaults.putStringArray(KEY_EMERGENCY_CDMA_PREFERRED_NUMBERS_STRING_ARRAY,
new String[0]);
defaults.putInt(KEY_CROSS_STACK_REDIAL_TIMER_SEC_INT, 120);
defaults.putInt(KEY_QUICK_CROSS_STACK_REDIAL_TIMER_SEC_INT, REDIAL_TIMER_DISABLED);
defaults.putBoolean(KEY_START_QUICK_CROSS_STACK_REDIAL_TIMER_WHEN_REGISTERED_BOOL,
true);
return defaults;
}
}
/**
* IMS Video Telephony configs. This groups the configs that are specific for video call.
*/
public static final class ImsVt {
private ImsVt() {}
/** Prefix of all imsvt.KEY_* constants. */
public static final String KEY_PREFIX = "imsvt.";
/**
* Flag specifying whether video media is allowed on default bearer.
*
* <p>If {@code true}: video media can be sent on default bearer.
* {@code false} otherwise.
*/
public static final String KEY_VIDEO_ON_DEFAULT_BEARER_SUPPORTED_BOOL =
KEY_PREFIX + "video_on_default_bearer_supported_bool";
/**
* Specifies the timeout value for no video RTP packets received.
* <p>On timer expiry, VT call can downgrade to voice call or end
* or continue depending on the operator requirement.
*/
public static final String KEY_VIDEO_RTP_INACTIVITY_TIMER_MILLIS_INT =
KEY_PREFIX + "video_rtp_inactivity_timer_millis_int";
/**
* Specifies the timeout value for no video RTCP packets received.
* <p>On timer expiry, VT call can downgrade to voice call or end
* or continue depending on the operator requirement.
*/
public static final String KEY_VIDEO_RTCP_INACTIVITY_TIMER_MILLIS_INT =
KEY_PREFIX + "video_rtcp_inactivity_timer_millis_int";
/**
* Specifies the AS (Application Specific) SDP modifier for video media.
*
* <p>Expressed in kilobits per second as per RFC 3556 Section 2.
*/
public static final String KEY_VIDEO_AS_BANDWIDTH_KBPS_INT =
KEY_PREFIX + "video_as_bandwidth_kbps_int";
/**
* Specifies the RS (RTCP bandwidth-Sender) SDP modifier for video media.
*
* <p>This indicates the RTCP bandwidth allocated to active data senders
* for video media.
*
* <p>Expressed in bits per second as per RFC 3556 Section 2.
*/
public static final String KEY_VIDEO_RS_BANDWIDTH_BPS_INT =
KEY_PREFIX + "video_rs_bandwidth_bps_int";
/**
* Specifies the RR (RTCP bandwidth-Receiver) SDP modifier
* for video media.
*
* <p>This indicates the RTCP bandwidth allocated to receivers
* for video media.
*
* <p>Expressed in bits per second as per RFC 3556 Section 2.
*/
public static final String KEY_VIDEO_RR_BANDWIDTH_BPS_INT =
KEY_PREFIX + "video_rr_bandwidth_bps_int";
/**
* Specifies the differentiated services code point (DSCP) value
* for Video RTP.
*
* <p>Reference: RFC 4594 Section 1.4.4
*/
public static final String KEY_VIDEO_RTP_DSCP_INT =
KEY_PREFIX + "video_rtp_dscp_int";
/**
* Flag specifying whether QoS preconditions are supported for Video.
*
* <p>If {@code true}: QoS Preconditions are supported.
* {@code false} otherwise.
* <p>Reference: 3GPP TS 24.229
*/
public static final String KEY_VIDEO_QOS_PRECONDITION_SUPPORTED_BOOL =
KEY_PREFIX + "video_qos_precondition_supported_bool";
/**
* Specifies the Video Codec capability. This contains a list of
* payload types representing different Video codec instances.
* <p>Possible key(s) in this bundle are,
* <UL>
* <LI>{@link #KEY_H264_PAYLOAD_TYPE_INT_ARRAY}</LI>
* </UL>
* <p>To specify payload descriptions for each of the payload types, see
* <UL>
* <LI>{@link #KEY_H264_PAYLOAD_DESCRIPTION_BUNDLE}</LI>
* </UL>
*/
public static final String KEY_VIDEO_CODEC_CAPABILITY_PAYLOAD_TYPES_BUNDLE =
KEY_PREFIX + "video_codec_capability_payload_types_bundle";
/**
* A list of integers representing the different payload types
* in H264 video codec in priority order from highest to lowest.
* <p>Payload type is an integer in dynamic payload type range 96-127
* as per RFC RFC 3551 Section 6.
*/
public static final String KEY_H264_PAYLOAD_TYPE_INT_ARRAY =
KEY_PREFIX + "h264_payload_type_int_array";
/**
* Specifies the codec attributes of different payload types
* representing H264 video codec instances.
*
* <p> The allowed payload types of the video codecs are specified in,
* {@link #KEY_H264_PAYLOAD_TYPE_INT_ARRAY}.
*
* <p>Codec attributes allowed as part of H264 codec bundle are,
* <UL>
* <LI>{@link #KEY_H264_VIDEO_CODEC_ATTRIBUTE_PROFILE_LEVEL_ID_STRING}</LI>
* <LI>{@link #KEY_VIDEO_CODEC_ATTRIBUTE_PACKETIZATION_MODE_INT}</LI>
* <LI>{@link #KEY_VIDEO_CODEC_ATTRIBUTE_FRAME_RATE_INT}</LI>
* <LI>{@link #KEY_VIDEO_CODEC_ATTRIBUTE_RESOLUTION_INT_ARRAY}</LI>
* </UL>
*
* <p>If this bundle is not configured and
* {@link #KEY_H264_PAYLOAD_TYPE_INT_ARRAY} is not empty,
* then default values as in the individual codec attributes to
* be used for that payload type.
* <p>If the codec attributes in a particular codec instance bundle
* is not valid together, then that codec instance should not be used.
*/
public static final String KEY_H264_PAYLOAD_DESCRIPTION_BUNDLE =
KEY_PREFIX + "h264_payload_description_bundle";
/**
* Specifies the packetization mode of the video codec.
*
* <p>Permissible values are 0 (Single NAL unit mode),
* 1(Non-interleaved mode).
*
* <p>If this key is not specified or invalid, then the following
* default value to be used.
* <UL>
* <LI>For H264: 1(Non-interleaved mode)</LI>
* <UL>
*
* <p>Reference: RFC 6184 Section 5.4
*/
public static final String KEY_VIDEO_CODEC_ATTRIBUTE_PACKETIZATION_MODE_INT =
KEY_PREFIX + "video_codec_attribute_packetization_mode_int";
/**
* Specifies the maximum frame rate the offerer wishes to receive.
* This gives the maximum video frame rate in frames/sec.
*
* <p>If this key is not specified or invalid, then the following
* default value to be used.
* <UL>
* <LI>For H264: 15 </LI>
* <UL>
* <p>Reference: RFC 4566 Section 6, 3GPP 26.114 Section 6.2.3.2
*/
public static final String KEY_VIDEO_CODEC_ATTRIBUTE_FRAME_RATE_INT =
KEY_PREFIX + "video_codec_attribute_frame_rate_int";
/**
* Specifies the maximum resolution allowed for the video codec
* instance.
*
* <p>This is specified as an array of two integers, with
* index 0 : Width,
* index 1 : Height
*
* <p>If this key is not specified or invalid as per the video codec,
* then the following default value to be used.
* <UL>
* <LI>For H264: 240 (WIDTH) x 320 (HEIGHT) </LI>
* <UL>
* <p>Reference: RFC 4566 Section 6, 3GPP 26.114 Section 6.2.3.2
*
*/
public static final String KEY_VIDEO_CODEC_ATTRIBUTE_RESOLUTION_INT_ARRAY =
KEY_PREFIX + "video_codec_attribute_resolution_int_array";
/**
* Specifies the profile level id of the H264 video codec.
* This value is represented as "profile-level-id" in the SDP offer
* as per RFC 6184 Section 8.1.
*
* <p>If this key is not specified or invalid as per the video codec,
* then default value of 42C00C to be used.
*
* <p>Reference: RFC 6184 Section 8.1, ITU-T Recommendation H.264
*/
public static final String KEY_H264_VIDEO_CODEC_ATTRIBUTE_PROFILE_LEVEL_ID_STRING =
KEY_PREFIX + "h264_video_codec_attribute_profile_level_id_string";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putBoolean(KEY_VIDEO_ON_DEFAULT_BEARER_SUPPORTED_BOOL, false);
defaults.putBoolean(KEY_VIDEO_QOS_PRECONDITION_SUPPORTED_BOOL, true);
defaults.putInt(KEY_VIDEO_RTP_INACTIVITY_TIMER_MILLIS_INT, 0);
defaults.putInt(KEY_VIDEO_RTCP_INACTIVITY_TIMER_MILLIS_INT, 0);
defaults.putInt(KEY_VIDEO_AS_BANDWIDTH_KBPS_INT, 960);
defaults.putInt(KEY_VIDEO_RS_BANDWIDTH_BPS_INT, 8000);
defaults.putInt(KEY_VIDEO_RR_BANDWIDTH_BPS_INT, 6000);
defaults.putInt(KEY_VIDEO_RTP_DSCP_INT, 40);
PersistableBundle video_codec_capability_payload_types = new PersistableBundle();
video_codec_capability_payload_types.putIntArray(
KEY_H264_PAYLOAD_TYPE_INT_ARRAY,
new int[] { 99, 100 });
defaults.putPersistableBundle(
KEY_VIDEO_CODEC_CAPABILITY_PAYLOAD_TYPES_BUNDLE,
video_codec_capability_payload_types);
PersistableBundle all_h264_payload_bundles = new PersistableBundle();
/* Setting default codec attributes for individual H264 profiles*/
/* For H264 profile-level-id: 42C00C, frame rate:15, Resolution: 240x320 */
PersistableBundle h264_bundle_instance1 = new PersistableBundle();
all_h264_payload_bundles.putPersistableBundle(
"99", /* Same value of payload type as in KEY_H264_PAYLOAD_TYPE_INT_ARRAY */
h264_bundle_instance1);
/* For H264 profile-level-id: 42C00C, packetisation mode:0, frame rate:15,
* Resolution: 240x320 */
PersistableBundle h264_bundle_instance2 = new PersistableBundle();
h264_bundle_instance2.putInt(
KEY_VIDEO_CODEC_ATTRIBUTE_PACKETIZATION_MODE_INT,
0);
all_h264_payload_bundles.putPersistableBundle(
"100", /* Same value of payload type as in KEY_H264_PAYLOAD_TYPE_INT_ARRAY */
h264_bundle_instance2);
defaults.putPersistableBundle(
KEY_H264_PAYLOAD_DESCRIPTION_BUNDLE,
all_h264_payload_bundles);
return defaults;
}
}
/**
* WiFi Calling. This groups the configs specific for Voice over WiFi/WFC call.
*/
public static final class ImsWfc {
private ImsWfc() {}
/** Prefix of all imswfc.KEY_* constants. */
public static final String KEY_PREFIX = "imswfc.";
/**
* List of MDNs for which Geo-location PIDF XML with country info
* needs to included for normal calls involving short code.
*/
public static final String KEY_PIDF_SHORT_CODE_STRING_ARRAY =
KEY_PREFIX + "pidf_short_code_string_array";
/**
* Flag specifying whether emergency call over VoWiFi is requested over
* emergency PDN or IMS PDN.
*
* <p>If {@code false}: E911 call uses IMS PDN for E911 call over VoWiFi.
* If {@code true}: E911 call uses Emergency PDN for E911 call over VoWiFi.
*/
public static final String KEY_EMERGENCY_CALL_OVER_EMERGENCY_PDN_BOOL =
KEY_PREFIX + "emergency_call_over_emergency_pdn_bool";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putBoolean(KEY_EMERGENCY_CALL_OVER_EMERGENCY_PDN_BOOL, false);
defaults.putStringArray(KEY_PIDF_SHORT_CODE_STRING_ARRAY, new String[0]);
return defaults;
}
}
/**
* IMS supplementary services configs. This groups the configs required for
* supplementary services (SS) like XCAP over UT,
* Unstructured Supplementary Service Data(USSD).
*/
public static final class ImsSs {
private ImsSs() {}
/** Prefix of all imsss.KEY_* constants. */
public static final String KEY_PREFIX = "imsss.";
/**
* Flag that controls whether XCAP over UT status need to be
* dependent on IMS registration.
*
* <p>If {@code true}: XCAP over UT status need to be
* dependent on IMS registration.
* {@code false} otherwise.
*/
public static final String KEY_UT_REQUIRES_IMS_REGISTRATION_BOOL =
KEY_PREFIX + "ut_requires_ims_registration_bool";
/**
* Flag that controls whether XCAP over UT is supported
* when on roaming network.
*
* <p>If {@code true}: XCAP over UT is supported when on
* roaming network.
* {@code false} otherwise.
*/
public static final String KEY_UT_SUPPORTED_WHEN_ROAMING_BOOL =
KEY_PREFIX + "ut_supported_when_roaming_bool";
/**
* Flag that controls whether Circuit Switched Fallback (CSFB)
* option is available when XCAP over UT fails.
*
* <p>If {@code false}: XCAP over UT only with no CSFB option.
* If XCAP over UT fails, return error.
* if {@code true}, Use CSFB if XCAP over UT fails.
*/
public static final String KEY_USE_CSFB_ON_XCAP_OVER_UT_FAILURE_BOOL =
KEY_PREFIX + "use_csfb_on_xcap_over_ut_failure_bool";
/**
* Flag that controls whether XCAP over UT is enabled or not
* when PS data is turned off.
*
* <p>If {@code true}: XCAP over UT is enabled when PS data is off.
* {@code false}: Otherwise.
*
* Reference: IR.92 Section 5.5.1
*/
public static final String KEY_UT_SUPPORTED_WHEN_PS_DATA_OFF_BOOL =
KEY_PREFIX + "ut_supported_when_ps_data_off_bool";
/**
* Flag that controls whether network initiated USSD over IMS is
* supported by the UE.
*
* <p>If {@code true}: Support Available.{@code false}: Otherwise.
* Reference: 3GPP 24.390.
*/
public static final String KEY_NETWORK_INITIATED_USSD_OVER_IMS_SUPPORTED_BOOL =
KEY_PREFIX + "network_initiated_ussd_over_ims_supported_bool";
/**
* Specifies the 'XCAP over UT' IP Type when device is
* on Home Network.
*
* <p>Possible values are,
* {@link ApnSetting#PROTOCOL_IPV4V6},
* {@link ApnSetting#PROTOCOL_IP},
* {@link ApnSetting#PROTOCOL_IPV6}
*
* If key is invalid or not configured, the default value
* {@link ApnSetting#PROTOCOL_IPV4V6} will apply.
*/
public static final String KEY_UT_IPTYPE_HOME_INT =
KEY_PREFIX + "ut_iptype_home_int";
/**
* Specifies the 'XCAP over UT' IP Type when device is roaming.
*
* <p>Possible values are,
* {@link ApnSetting#PROTOCOL_IPV4V6},
* {@link ApnSetting#PROTOCOL_IP},
* {@link ApnSetting#PROTOCOL_IPV6}
* If key is invalid or not configured, the default value
* {@link ApnSetting#PROTOCOL_IPV4V6} will apply.
*/
public static final String KEY_UT_IPTYPE_ROAMING_INT =
KEY_PREFIX + "ut_iptype_roaming_int";
/**
* Specifies the XCAP Application Server fully qualified domain name (FQDN).
* <p> Reference: 24.623 Section 5.2.3.
*/
public static final String KEY_UT_AS_SERVER_FQDN_STRING =
KEY_PREFIX + "ut_as_server_fqdn_string";
/**
* Specifies the XCAP Application Server Remote port.
* As XCAP is a usage of HTTP, the default value is same as HTTP, i.e. 80.
*/
public static final String KEY_UT_AS_SERVER_PORT_INT =
KEY_PREFIX + "ut_as_server_port_int";
/**
* Specifies the preferred transport to be used for XCAP over UT.
*
* <p>Possible values are,
* {@link Ims#PREFERRED_TRANSPORT_TCP},
* {@link Ims#PREFERRED_TRANSPORT_TLS}
*
* <p>If key is invalid or not configured, the default value
* {@link Ims#PREFERRED_TRANSPORT_TCP} will apply.
*/
public static final String KEY_UT_TRANSPORT_TYPE_INT =
KEY_PREFIX + "ut_transport_type_int";
/** @hide */
@IntDef({
SUPPLEMENTARY_SERVICE_CW,
SUPPLEMENTARY_SERVICE_CF_ALL,
SUPPLEMENTARY_SERVICE_CF_CFU,
SUPPLEMENTARY_SERVICE_CF_ALL_CONDITONAL_FORWARDING,
SUPPLEMENTARY_SERVICE_CF_CFB,
SUPPLEMENTARY_SERVICE_CF_CFNRY,
SUPPLEMENTARY_SERVICE_CF_CFNRC,
SUPPLEMENTARY_SERVICE_CF_CFNL,
SUPPLEMENTARY_SERVICE_IDENTIFICATION_OIP,
SUPPLEMENTARY_SERVICE_IDENTIFICATION_TIP,
SUPPLEMENTARY_SERVICE_IDENTIFICATION_OIR,
SUPPLEMENTARY_SERVICE_IDENTIFICATION_TIR,
SUPPLEMENTARY_SERVICE_CB_ALL,
SUPPLEMENTARY_SERVICE_CB_OBS,
SUPPLEMENTARY_SERVICE_CB_BAOC,
SUPPLEMENTARY_SERVICE_CB_BOIC,
SUPPLEMENTARY_SERVICE_CB_BOIC_EXHC,
SUPPLEMENTARY_SERVICE_CB_IBS,
SUPPLEMENTARY_SERVICE_CB_BAIC,
SUPPLEMENTARY_SERVICE_CB_BIC_ROAM,
SUPPLEMENTARY_SERVICE_CB_ACR,
SUPPLEMENTARY_SERVICE_CB_BIL
})
public @interface SsType {}
/** Communication Waiting (CW) support as per 3GPP 24.615. */
public static final int SUPPLEMENTARY_SERVICE_CW = 0;
/**
* Call Diversion - All call forwarding support as per 3GPP 24.604.
*
* <p>This value is associated with MMI support service code 002
* as indicated in TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CF_ALL = 1;
/**
* Call Diversion - All Unconditional call forwarding support (CFU) as
* per 3GPP 24.604.
*
* <p>This value is associated with MMI support service code 21
* as indicated in TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CF_CFU = 2;
/**
* Call Diversion - All conditional call forwarding support as
* per 3GPP 24.604.
*
* <p>This value is associated with MMI support service code 004
* as indicated in TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CF_ALL_CONDITONAL_FORWARDING = 3;
/**
* Call Diversion - Call forwarding on mobile subscriber busy (CFB)
* support as per 3GPP 24.604.
*
* <p>This value is associated with MMI support service code 67
* as indicated in TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CF_CFB = 4;
/**
* Call Diversion - Call forwarding on no reply (CFNRY)
* support as per 3GPP 24.604.
*
* <p>This value is associated with MMI support service code 61
* as indicated in TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CF_CFNRY = 5;
/**
* Call Diversion - Call forwarding on mobile subscriber not reachable
* (CFNRC) support as per 3GPP 24.604.
*
* <p>This value is associated with MMI support service code 62
* as indicated in TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CF_CFNRC = 6;
/**
* Communication Forwarding on Not Logged-in (CFNL).
* support as per 3GPP 24.604 Section 4.2.1.7
*
*/
public static final int SUPPLEMENTARY_SERVICE_CF_CFNL = 7;
/**
* Originating Identification Presentation (OIP) support
* as per 3GPP 24.607.
*
*/
public static final int SUPPLEMENTARY_SERVICE_IDENTIFICATION_OIP = 8;
/**
* Terminating Identification Presentation (TIP) support
* as per 3GPP 24.608.
*/
public static final int SUPPLEMENTARY_SERVICE_IDENTIFICATION_TIP = 9;
/**
* Originating Identification Restriction (OIR) support
* as per 3GPP 24.607.
*/
public static final int SUPPLEMENTARY_SERVICE_IDENTIFICATION_OIR = 10;
/**
* Terminating Identification Restriction (TIR) support
* as per 3GPP 24.608.
*/
public static final int SUPPLEMENTARY_SERVICE_IDENTIFICATION_TIR = 11;
/**
* Call Barring - All barring services,
* This value is associated with MMI support service code 330
* as indicated TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CB_ALL = 12;
/**
* Call Barring - Outgoing barring services,
* This value is associated with MMI support service code 333
* as indicated TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CB_OBS = 13;
/**
* Call Barring - Barring of all outgoing calls (BAOC)
* support as per 3GPP TS 24.611.
*
* <p>This value is associated with MMI support service code 33
* as indicated TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CB_BAOC = 14;
/**
* Call Barring - Barring of outgoing international calls
* (BOIC) support as per 3GPP TS 24.611.
*
* <p>This value is associated with MMI support service code 331
* as indicated TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CB_BOIC = 15;
/**
* Call Barring - Barring of outgoing international calls
* except those directed to the home PLMN country (BOIC-EXHC) support
* as per 3GPP TS 24.611.
*
* <p>This value is associated with MMI support service code 332
* as indicated TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CB_BOIC_EXHC = 16;
/**
* Call Barring - Incoming barring services,
* This value is associated with MMI support service code 353
* as indicated TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CB_IBS = 17;
/**
* Call Barring - Barring of all incoming calls (BAIC)
* support as per 3GPP TS 24.611.
*
* <p>This value is associated with MMI support service code 35
* as indicated TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CB_BAIC = 18;
/**
* Call Barring - Barring of incoming calls when roaming outside
* the home PLMN country (BIC-ROAM) support as per 3GPP TS 24.611.
*
* <p>This value is associated with MMI support service code 351
* as indicated TS 22.030 Table B.1
*/
public static final int SUPPLEMENTARY_SERVICE_CB_BIC_ROAM = 19;
/**
* Call Barring - Anonymous Call Rejection/Barring of all anonymous
* incoming number support as per 3GPP TS 24.611.
*/
public static final int SUPPLEMENTARY_SERVICE_CB_ACR = 20;
/**
* Call Barring - Barring list of incoming numbers support.
*/
public static final int SUPPLEMENTARY_SERVICE_CB_BIL = 21;
/**
* List of UT services that are Server based.
*
* <p>Possible values are,
* <UL>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CW}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CF_ALL}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CF_CFU}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CF_ALL_CONDITONAL_FORWARDING}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CF_CFB}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CF_CFNRY}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CF_CFNRC}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CF_CFNL}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_IDENTIFICATION_OIP}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_IDENTIFICATION_TIP}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_IDENTIFICATION_OIR}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_IDENTIFICATION_TIR}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CB_ALL}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CB_OBS}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CB_IBS}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CB_BAOC}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CB_BOIC}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CB_BOIC_EXHC}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CB_BAIC}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CB_BIC_ROAM}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CB_ACR}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CB_BIL}</LI>
* </UL>
*/
public static final String KEY_UT_SERVER_BASED_SERVICES_INT_ARRAY =
KEY_PREFIX + "ut_server_based_services_int_array";
/**
* List of UT services that are terminal based.
*
* By default, all services are server based and defined in
* {@link #KEY_UT_SERVER_BASED_SERVICES_INT_ARRAY}.
* Adding here will override that service setting to terminal based.
*
* <p>Possible values are,
* <UL>
* <LI>{@link #SUPPLEMENTARY_SERVICE_CW}</LI>
* <LI>{@link #SUPPLEMENTARY_SERVICE_IDENTIFICATION_OIR}</LI>
* </UL>
*/
public static final String KEY_UT_TERMINAL_BASED_SERVICES_INT_ARRAY =
KEY_PREFIX + "ut_terminal_based_services_int_array";
/**
* List of different RAT technologies on which XCAP over UT
* is supported.
*
* <p>Possible values are,
* {@link AccessNetworkConstants.AccessNetworkType#NGRAN}
* {@link AccessNetworkConstants.AccessNetworkType#EUTRAN}
* {@link AccessNetworkConstants.AccessNetworkType#IWLAN}
* {@link AccessNetworkConstants.AccessNetworkType#UTRAN}
* {@link AccessNetworkConstants.AccessNetworkType#GERAN}
*/
public static final String KEY_XCAP_OVER_UT_SUPPORTED_RATS_INT_ARRAY =
KEY_PREFIX + "xcap_over_ut_supported_rats_int_array";
/** @hide */
@IntDef({
CALL_WAITING_SYNC_NONE,
CALL_WAITING_SYNC_USER_CHANGE,
CALL_WAITING_SYNC_FIRST_POWER_UP,
CALL_WAITING_SYNC_FIRST_CHANGE,
CALL_WAITING_SYNC_IMS_ONLY
})
public @interface CwSyncType {}
/**
* Do not synchronize the user's call waiting setting with the network. Call waiting is
* always enabled on the carrier network and the user setting for call waiting is applied
* on the terminal side. If the user disables call waiting, the call will be rejected on
* the terminal.
*/
public static final int CALL_WAITING_SYNC_NONE = 0;
/**
* The change of user’s setting is always passed to the carrier network
* and then synchronized to the terminal based call waiting solution over IMS.
* If changing the service over the carrier network is not successful,
* the setting over IMS shall not be changed.
*/
public static final int CALL_WAITING_SYNC_USER_CHANGE = 1;
/**
* Activate call waiting on the carrier network when the device boots or a subscription
* using this carrier is loaded. Call waiting is always considered enabled on the carrier
* network and the user setting for call waiting is applied on the terminal side only. If
* the user disables call waiting, the call will be rejected on the terminal.
* The mismatch between CS calls and IMS calls can happen when the network based call
* waiting service is in disabled state in the legacy 3G/2G networks while it's enabled
* in the terminal side.
*/
public static final int CALL_WAITING_SYNC_FIRST_POWER_UP = 2;
/**
* Activate call waiting on the carrier network when the user enables call waiting the
* first time. Call waiting is then always considered enabled on the carrier network. If
* the user disables call waiting, the setting will only be applied to the terminal based
* call waiting service and the call will be rejected on the terminal.
* The mismatch between CS calls and IMS calls can happen when the network based call
* waiting service is in disabled state in the legacy 3G/2G networks while it's enabled
* in the terminal side. However, if the user retrieves the setting again when the device
* is in the legacy 3G/2G networks, the correct state will be shown to the user.
*/
public static final int CALL_WAITING_SYNC_FIRST_CHANGE = 3;
/**
* Do not synchronize the call waiting service state between the carrier network and
* the terminal based IMS call waiting service. If the user changes the call waiting setting
* when IMS is registered, the change will only be applied to the terminal based call
* waiting service. If IMS is not registered when call waiting is changed, synchronize this
* setting with the carrier network.
*/
public static final int CALL_WAITING_SYNC_IMS_ONLY = 4;
/** @hide */
public static final int CALL_WAITING_SYNC_MAX = CALL_WAITING_SYNC_IMS_ONLY;
/**
* Flag indicating the way to synchronize the setting between CS and IMS.
*
* <p>Possible values are,
* {@link #CALL_WAITING_SYNC_NONE},
* {@link #CALL_WAITING_SYNC_USER_CHANGE},
* {@link #CALL_WAITING_SYNC_FIRST_POWER_UP},
* {@link #CALL_WAITING_SYNC_FIRST_CHANGE},
* {@link #CALL_WAITING_SYNC_IMS_ONLY}.
*
* This configuration is valid only when
* {@link #KEY_UT_TERMINAL_BASED_SERVICES_INT_ARRAY} includes
* {@link #SUPPLEMENTARY_SERVICE_CW}.
*
* <p>If key is invalid or not configured, the default value
* {@link #CALL_WAITING_SYNC_FIRST_CHANGE} will apply.
*/
public static final String KEY_TERMINAL_BASED_CALL_WAITING_SYNC_TYPE_INT =
KEY_PREFIX + "terminal_based_call_waiting_sync_type_int";
/**
* Flag indicating whether the user setting for terminal-based call waiting
* is enabled by default or not.
* This configuration is valid only when
* {@link #KEY_UT_TERMINAL_BASED_SERVICES_INT_ARRAY} includes
* {@link #SUPPLEMENTARY_SERVICE_CW}.
*
* The default value for this key is {@code true}.
*/
public static final String KEY_TERMINAL_BASED_CALL_WAITING_DEFAULT_ENABLED_BOOL =
KEY_PREFIX + "terminal_based_call_waiting_default_enabled_bool";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putBoolean(KEY_UT_REQUIRES_IMS_REGISTRATION_BOOL, false);
defaults.putBoolean(KEY_USE_CSFB_ON_XCAP_OVER_UT_FAILURE_BOOL, true);
defaults.putBoolean(KEY_UT_SUPPORTED_WHEN_PS_DATA_OFF_BOOL, true);
defaults.putBoolean(KEY_NETWORK_INITIATED_USSD_OVER_IMS_SUPPORTED_BOOL, true);
defaults.putBoolean(KEY_UT_SUPPORTED_WHEN_ROAMING_BOOL, true);
defaults.putInt(KEY_UT_IPTYPE_HOME_INT, ApnSetting.PROTOCOL_IPV4V6);
defaults.putInt(KEY_UT_IPTYPE_ROAMING_INT, ApnSetting.PROTOCOL_IPV4V6);
defaults.putInt(KEY_UT_AS_SERVER_PORT_INT, 80);
defaults.putInt(KEY_UT_TRANSPORT_TYPE_INT, Ims.PREFERRED_TRANSPORT_TCP);
defaults.putIntArray(
KEY_UT_SERVER_BASED_SERVICES_INT_ARRAY,
new int[] {
SUPPLEMENTARY_SERVICE_CW,
SUPPLEMENTARY_SERVICE_CF_ALL,
SUPPLEMENTARY_SERVICE_CF_CFU,
SUPPLEMENTARY_SERVICE_CF_CFNRC,
SUPPLEMENTARY_SERVICE_CF_ALL_CONDITONAL_FORWARDING,
SUPPLEMENTARY_SERVICE_CF_CFB,
SUPPLEMENTARY_SERVICE_CF_CFNRY,
SUPPLEMENTARY_SERVICE_CF_CFNL,
SUPPLEMENTARY_SERVICE_IDENTIFICATION_OIP,
SUPPLEMENTARY_SERVICE_IDENTIFICATION_TIP,
SUPPLEMENTARY_SERVICE_IDENTIFICATION_OIR,
SUPPLEMENTARY_SERVICE_IDENTIFICATION_TIR,
SUPPLEMENTARY_SERVICE_CB_ALL,
SUPPLEMENTARY_SERVICE_CB_OBS,
SUPPLEMENTARY_SERVICE_CB_IBS,
SUPPLEMENTARY_SERVICE_CB_BAOC,
SUPPLEMENTARY_SERVICE_CB_BOIC,
SUPPLEMENTARY_SERVICE_CB_BOIC_EXHC,
SUPPLEMENTARY_SERVICE_CB_BAIC,
SUPPLEMENTARY_SERVICE_CB_BIC_ROAM,
SUPPLEMENTARY_SERVICE_CB_ACR,
SUPPLEMENTARY_SERVICE_CB_BIL
});
defaults.putIntArray(KEY_UT_TERMINAL_BASED_SERVICES_INT_ARRAY, new int[0]);
defaults.putIntArray(
KEY_XCAP_OVER_UT_SUPPORTED_RATS_INT_ARRAY,
new int[] {
AccessNetworkType.EUTRAN,
AccessNetworkType.IWLAN,
AccessNetworkType.NGRAN
});
defaults.putString(KEY_UT_AS_SERVER_FQDN_STRING, "");
defaults.putBoolean(KEY_TERMINAL_BASED_CALL_WAITING_DEFAULT_ENABLED_BOOL, true);
defaults.putInt(KEY_TERMINAL_BASED_CALL_WAITING_SYNC_TYPE_INT,
CALL_WAITING_SYNC_FIRST_CHANGE);
return defaults;
}
}
/**
* This groups the BSF (BootStrapping Function) related configs.
* Reference: 3GPP TS 24.109.
*/
public static final class Bsf {
private Bsf() {}
/** Prefix of all bsf.KEY_* constants. */
public static final String KEY_PREFIX = "bsf.";
/** Specifies the fully qualified domain name (FQDN) of BSF Server
* as per 3GPP 24.109.
*/
public static final String KEY_BSF_SERVER_FQDN_STRING =
KEY_PREFIX + "bsf_server_fqdn_string";
/**
* Specifies the port number of the BSF server as per 3GPP 24.109.
* This is usually default port number of HTTP, i.e. 80.
*/
public static final String KEY_BSF_SERVER_PORT_INT =
KEY_PREFIX + "bsf_server_port_int";
/**
* Specifies the transport type used in communication with
* BSF server.
*
* <p>Possible values are,
* {@link Ims#PREFERRED_TRANSPORT_TCP},
* {@link Ims#PREFERRED_TRANSPORT_TLS}
*
* <p>If key is invalid or not configured, the default value
* {@link Ims#PREFERRED_TRANSPORT_TCP} will apply.
*/
public static final String KEY_BSF_TRANSPORT_TYPE_INT =
KEY_PREFIX + "bsf_transport_type_int";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putInt(KEY_BSF_SERVER_PORT_INT, 80);
defaults.putInt(KEY_BSF_TRANSPORT_TYPE_INT, Ims.PREFERRED_TRANSPORT_TCP);
defaults.putString(KEY_BSF_SERVER_FQDN_STRING, "");
return defaults;
}
}
/**
* Configs used for epdg tunnel bring up.
*
* @see <a href="https://tools.ietf.org/html/rfc7296">RFC 7296, Internet Key Exchange Protocol
* Version 2 (IKEv2)</a>
*/
public static final class Iwlan {
/** Prefix of all Epdg.KEY_* constants. */
public static final String KEY_PREFIX = "iwlan.";
/**
* Time in seconds after which the child security association session is terminated if rekey
* procedure is not successful. If not set or set to <= 0, the default value is 3600
* seconds.
*/
public static final String KEY_CHILD_SA_REKEY_HARD_TIMER_SEC_INT =
KEY_PREFIX + "child_sa_rekey_hard_timer_sec_int";
/**
* Time in seconds after which the child session rekey procedure is started. If not set or
* set to <= 0, default value is 3000 seconds.
*/
public static final String KEY_CHILD_SA_REKEY_SOFT_TIMER_SEC_INT =
KEY_PREFIX + "child_sa_rekey_soft_timer_sec_int";
/**
* Supported DH groups for IKE negotiation. Possible values are:
* {@link android.net.ipsec.ike.SaProposal#DH_GROUP_NONE},
* {@link android.net.ipsec.ike.SaProposal#DH_GROUP_1024_BIT_MODP},
* {@link android.net.ipsec.ike.SaProposal#DH_GROUP_1536_BIT_MODP},
* {@link android.net.ipsec.ike.SaProposal#DH_GROUP_2048_BIT_MODP},
* {@link android.net.ipsec.ike.SaProposal#DH_GROUP_3072_BIT_MODP},
* {@link android.net.ipsec.ike.SaProposal#DH_GROUP_4096_BIT_MODP}
*/
public static final String KEY_DIFFIE_HELLMAN_GROUPS_INT_ARRAY =
KEY_PREFIX + "diffie_hellman_groups_int_array";
/**
* Time in seconds after which a dead peer detection (DPD) request is sent. If not set or
* set to <= 0, default value is 120 seconds.
*/
public static final String KEY_DPD_TIMER_SEC_INT = KEY_PREFIX + "dpd_timer_sec_int";
/**
* Method used to authenticate epdg server. Possible values are {@link
* #AUTHENTICATION_METHOD_EAP_ONLY}, {@link #AUTHENTICATION_METHOD_CERT}
*/
public static final String KEY_EPDG_AUTHENTICATION_METHOD_INT =
KEY_PREFIX + "epdg_authentication_method_int";
/**
* A priority list of ePDG addresses to be used. Possible values are {@link
* #EPDG_ADDRESS_STATIC}, {@link #EPDG_ADDRESS_PLMN}, {@link #EPDG_ADDRESS_PCO}, {@link
* #EPDG_ADDRESS_CELLULAR_LOC}, {@link #EPDG_ADDRESS_VISITED_COUNTRY}
*/
public static final String KEY_EPDG_ADDRESS_PRIORITY_INT_ARRAY =
KEY_PREFIX + "epdg_address_priority_int_array";
/**
* A priority list of PLMN to be used in EPDG_ADDRESS_PLMN. Possible values are {@link
* #EPDG_PLMN_RPLMN}, {@link #EPDG_PLMN_HPLMN}, {@link #EPDG_PLMN_EHPLMN_ALL}, {@link
* #EPDG_PLMN_EHPLMN_FIRST}
*
* @hide
*/
public static final String KEY_EPDG_PLMN_PRIORITY_INT_ARRAY =
KEY_PREFIX + "epdg_plmn_priority_int_array";
/** Epdg static IP address or FQDN */
public static final String KEY_EPDG_STATIC_ADDRESS_STRING =
KEY_PREFIX + "epdg_static_address_string";
/** Epdg static IP address or FQDN for roaming */
public static final String KEY_EPDG_STATIC_ADDRESS_ROAMING_STRING =
KEY_PREFIX + "epdg_static_address_roaming_string";
/**
* Controls if the multiple SA proposals allowed for IKE session to include
* all the 3GPP TS 33.210 and RFC 8221 supported cipher suites in multiple
* IKE SA proposals as per RFC 7296.
*/
@FlaggedApi(Flags.FLAG_ENABLE_MULTIPLE_SA_PROPOSALS)
public static final String KEY_SUPPORTS_IKE_SESSION_MULTIPLE_SA_PROPOSALS_BOOL =
KEY_PREFIX + "supports_ike_session_multiple_sa_proposals_bool";
/**
* Controls if the multiple SA proposals allowed for Child session to include
* all the 3GPP TS 33.210 and RFC 8221 supported cipher suites in multiple
* Child SA proposals as per RFC 7296.
*/
@FlaggedApi(Flags.FLAG_ENABLE_MULTIPLE_SA_PROPOSALS)
public static final String KEY_SUPPORTS_CHILD_SESSION_MULTIPLE_SA_PROPOSALS_BOOL =
KEY_PREFIX + "supports_child_session_multiple_sa_proposals_bool";
/**
* List of supported key sizes for AES Cipher Block Chaining (CBC) encryption mode of child
* session. Possible values are:
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_UNUSED},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_128},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_192},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_256}
*/
public static final String KEY_CHILD_SESSION_AES_CBC_KEY_SIZE_INT_ARRAY =
KEY_PREFIX + "child_session_aes_cbc_key_size_int_array";
/**
* List of supported key sizes for AES Counter (CTR) encryption mode of child session.
* Possible values are:
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_UNUSED},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_128},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_192},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_256}
*/
public static final String KEY_CHILD_SESSION_AES_CTR_KEY_SIZE_INT_ARRAY =
KEY_PREFIX + "child_session_aes_ctr_key_size_int_array";
/**
* List of supported key sizes for AES Galois/Counter Mode (GCM) encryption mode
* of child session.
* Possible values are:
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_UNUSED},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_128},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_192},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_256}
*/
@FlaggedApi(Flags.FLAG_ENABLE_AEAD_ALGORITHMS)
public static final String KEY_CHILD_SESSION_AES_GCM_KEY_SIZE_INT_ARRAY =
KEY_PREFIX + "child_session_aes_gcm_key_size_int_array";
/**
* List of supported encryption algorithms for child session. Possible values are
* {@link android.net.ipsec.ike.SaProposal#ENCRYPTION_ALGORITHM_AES_CBC},
* {@link android.net.ipsec.ike.SaProposal#ENCRYPTION_ALGORITHM_AES_CTR}
*/
public static final String KEY_SUPPORTED_CHILD_SESSION_ENCRYPTION_ALGORITHMS_INT_ARRAY =
KEY_PREFIX + "supported_child_session_encryption_algorithms_int_array";
/**
* List of supported AEAD algorithms for child session. Possible values are
* {@link android.net.ipsec.ike.SaProposal#ENCRYPTION_ALGORITHM_AES_GCM_8},
* {@link android.net.ipsec.ike.SaProposal#ENCRYPTION_ALGORITHM_AES_GCM_12},
* {@link android.net.ipsec.ike.SaProposal#ENCRYPTION_ALGORITHM_AES_GCM_16}
*/
@FlaggedApi(Flags.FLAG_ENABLE_AEAD_ALGORITHMS)
public static final String KEY_SUPPORTED_CHILD_SESSION_AEAD_ALGORITHMS_INT_ARRAY =
KEY_PREFIX + "supported_child_session_aead_algorithms_int_array";
/**
* Time in seconds after which the IKE session is terminated if rekey procedure is not
* successful. If not set or set to <= 0, default value is 3600 seconds.
*/
public static final String KEY_IKE_REKEY_HARD_TIMER_SEC_INT =
KEY_PREFIX + "ike_rekey_hard_timer_in_sec";
/**
* Time in seconds after which the IKE session rekey procedure is started. If not set or set
* to <= 0, default value is 3000 seconds.
*/
public static final String KEY_IKE_REKEY_SOFT_TIMER_SEC_INT =
KEY_PREFIX + "ike_rekey_soft_timer_sec_int";
/**
* List of supported key sizes for AES Cipher Block Chaining (CBC) encryption mode of IKE
* session. Possible values:
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_UNUSED},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_128},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_192},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_256}
*/
public static final String KEY_IKE_SESSION_AES_CBC_KEY_SIZE_INT_ARRAY =
KEY_PREFIX + "ike_session_encryption_aes_cbc_key_size_int_array";
/**
* List of supported key sizes for AES Counter (CTR) encryption mode of IKE session.
* Possible values -
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_UNUSED},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_128},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_192},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_256}
*/
public static final String KEY_IKE_SESSION_AES_CTR_KEY_SIZE_INT_ARRAY =
KEY_PREFIX + "ike_session_encryption_aes_ctr_key_size_int_array";
/**
* List of supported key sizes for AES Galois/Counter Mode (GCM) encryption mode
* of IKE session.
* Possible values -
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_UNUSED},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_128},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_192},
* {@link android.net.ipsec.ike.SaProposal#KEY_LEN_AES_256}
*/
@FlaggedApi(Flags.FLAG_ENABLE_AEAD_ALGORITHMS)
public static final String KEY_IKE_SESSION_AES_GCM_KEY_SIZE_INT_ARRAY =
KEY_PREFIX + "ike_session_encryption_aes_gcm_key_size_int_array";
/**
* List of supported encryption algorithms for IKE session. Possible values are
* {@link android.net.ipsec.ike.SaProposal#ENCRYPTION_ALGORITHM_AES_CBC},
* {@link android.net.ipsec.ike.SaProposal#ENCRYPTION_ALGORITHM_AES_CTR}
*/
public static final String KEY_SUPPORTED_IKE_SESSION_ENCRYPTION_ALGORITHMS_INT_ARRAY =
KEY_PREFIX + "supported_ike_session_encryption_algorithms_int_array";
/**
* List of supported AEAD algorithms for IKE session. Possible values are
* {@link android.net.ipsec.ike.SaProposal#ENCRYPTION_ALGORITHM_AES_GCM_8},
* {@link android.net.ipsec.ike.SaProposal#ENCRYPTION_ALGORITHM_AES_GCM_12},
* {@link android.net.ipsec.ike.SaProposal#ENCRYPTION_ALGORITHM_AES_GCM_16}
*/
@FlaggedApi(Flags.FLAG_ENABLE_AEAD_ALGORITHMS)
public static final String KEY_SUPPORTED_IKE_SESSION_AEAD_ALGORITHMS_INT_ARRAY =
KEY_PREFIX + "supported_ike_session_aead_algorithms_int_array";
/**
* List of supported integrity algorithms for IKE session. Possible values are
* {@link android.net.ipsec.ike.SaProposal#INTEGRITY_ALGORITHM_NONE},
* {@link android.net.ipsec.ike.SaProposal#INTEGRITY_ALGORITHM_HMAC_SHA1_96},
* {@link android.net.ipsec.ike.SaProposal#INTEGRITY_ALGORITHM_AES_XCBC_96},
* {@link android.net.ipsec.ike.SaProposal#INTEGRITY_ALGORITHM_HMAC_SHA2_256_128},
* {@link android.net.ipsec.ike.SaProposal#INTEGRITY_ALGORITHM_HMAC_SHA2_384_192},
* {@link android.net.ipsec.ike.SaProposal#INTEGRITY_ALGORITHM_HMAC_SHA2_512_256}
*/
public static final String KEY_SUPPORTED_INTEGRITY_ALGORITHMS_INT_ARRAY =
KEY_PREFIX + "supported_integrity_algorithms_int_array";
/** Maximum number of retries for tunnel establishment. */
public static final String KEY_MAX_RETRIES_INT = KEY_PREFIX + "max_retries_int";
/**
* Time in seconds after which a NATT keep alive message is sent. If not set or set to <= 0,
* default value is 20 seconds.
*/
public static final String KEY_NATT_KEEP_ALIVE_TIMER_SEC_INT =
KEY_PREFIX + "natt_keep_alive_timer_sec_int";
/** List of '-' separated MCC/MNCs used to create ePDG FQDN as per 3GPP TS 23.003 */
public static final String KEY_MCC_MNCS_STRING_ARRAY = KEY_PREFIX + "mcc_mncs_string_array";
/**
* List of supported pseudo random function algorithms for IKE session. Possible values are
* {@link android.net.ipsec.ike.SaProposal#PSEUDORANDOM_FUNCTION_HMAC_SHA1},
* {@link android.net.ipsec.ike.SaProposal#PSEUDORANDOM_FUNCTION_AES128_XCBC},
* {@link android.net.ipsec.ike.SaProposal#PSEUDORANDOM_FUNCTION_SHA2_256},
* {@link android.net.ipsec.ike.SaProposal#PSEUDORANDOM_FUNCTION_SHA2_384},
* {@link android.net.ipsec.ike.SaProposal#PSEUDORANDOM_FUNCTION_SHA2_512}
*/
public static final String KEY_SUPPORTED_PRF_ALGORITHMS_INT_ARRAY =
KEY_PREFIX + "supported_prf_algorithms_int_array";
/**
* List of IKE message retransmission timeouts in milliseconds, where each timeout
* is the waiting time before next retry, except the last timeout which is the waiting time
* before terminating the IKE Session. Min list length = 1, Max
* list length = 10 Min timeout = 500 ms, Max timeout = 1800000 ms
*/
public static final String KEY_RETRANSMIT_TIMER_MSEC_INT_ARRAY =
KEY_PREFIX + "retransmit_timer_sec_int_array";
/**
* Specifies the local identity type for IKE negotiations. Possible values are {@link
* #ID_TYPE_FQDN}, {@link #ID_TYPE_RFC822_ADDR}, {@link #ID_TYPE_KEY_ID}
*/
public static final String KEY_IKE_LOCAL_ID_TYPE_INT = KEY_PREFIX + "ike_local_id_type_int";
/**
* Specifies the remote identity type for IKE negotiations. Possible values are {@link
* #ID_TYPE_FQDN}, {@link #ID_TYPE_RFC822_ADDR}, {@link #ID_TYPE_KEY_ID}
*/
public static final String KEY_IKE_REMOTE_ID_TYPE_INT =
KEY_PREFIX + "ike_remote_id_type_int";
/** Controls if KE payload should be added during child session local rekey procedure. */
public static final String KEY_ADD_KE_TO_CHILD_SESSION_REKEY_BOOL =
KEY_PREFIX + "add_ke_to_child_session_rekey_bool";
/** Specifies the PCO id for IPv6 Epdg server address */
public static final String KEY_EPDG_PCO_ID_IPV6_INT = KEY_PREFIX + "epdg_pco_id_ipv6_int";
/** Specifies the PCO id for IPv4 Epdg server address */
public static final String KEY_EPDG_PCO_ID_IPV4_INT = KEY_PREFIX + "epdg_pco_id_ipv4_int";
/** Controls if the IKE tunnel setup supports EAP-AKA fast reauth */
public static final String KEY_SUPPORTS_EAP_AKA_FAST_REAUTH_BOOL =
KEY_PREFIX + "supports_eap_aka_fast_reauth_bool";
/**
* Type of IP preference used to prioritize ePDG servers. Possible values are
* {@link #EPDG_ADDRESS_IPV4_PREFERRED}, {@link #EPDG_ADDRESS_IPV6_PREFERRED},
* {@link #EPDG_ADDRESS_IPV4_ONLY}
*/
public static final String KEY_EPDG_ADDRESS_IP_TYPE_PREFERENCE_INT =
KEY_PREFIX + "epdg_address_ip_type_preference_int";
/** @hide */
@IntDef({AUTHENTICATION_METHOD_EAP_ONLY, AUTHENTICATION_METHOD_CERT})
public @interface AuthenticationMethodType {}
/**
* Certificate sent from the server is ignored. Only Extensible Authentication Protocol
* (EAP) is used to authenticate the server. EAP_ONLY_AUTH payload is added to IKE_AUTH
* request if supported.
*
* @see <a href="https://tools.ietf.org/html/rfc5998">RFC 5998</a>
*/
public static final int AUTHENTICATION_METHOD_EAP_ONLY = 0;
/** Server is authenticated using its certificate. */
public static final int AUTHENTICATION_METHOD_CERT = 1;
/** @hide */
@IntDef({
EPDG_ADDRESS_STATIC,
EPDG_ADDRESS_PLMN,
EPDG_ADDRESS_PCO,
EPDG_ADDRESS_CELLULAR_LOC,
EPDG_ADDRESS_VISITED_COUNTRY
})
public @interface EpdgAddressType {}
/** Use static epdg address. */
public static final int EPDG_ADDRESS_STATIC = 0;
/** Construct the epdg address using plmn. */
public static final int EPDG_ADDRESS_PLMN = 1;
/**
* Use the epdg address received in protocol configuration options (PCO) from the network.
*/
public static final int EPDG_ADDRESS_PCO = 2;
/** Use cellular location to chose epdg server */
public static final int EPDG_ADDRESS_CELLULAR_LOC = 3;
/** Use Visited Country FQDN rule*/
public static final int EPDG_ADDRESS_VISITED_COUNTRY = 4;
/** @hide */
@IntDef({
EPDG_PLMN_RPLMN,
EPDG_PLMN_HPLMN,
EPDG_PLMN_EHPLMN_ALL,
EPDG_PLMN_EHPLMN_FIRST
})
public @interface EpdgAddressPlmnType {}
/**
* Use the Registered PLMN
* @hide
*/
public static final int EPDG_PLMN_RPLMN = 0;
/**
* Use the PLMN derived from IMSI
* @hide
*/
public static final int EPDG_PLMN_HPLMN = 1;
/**
* Use all EHPLMN from SIM EF files
* @hide
*/
public static final int EPDG_PLMN_EHPLMN_ALL = 2;
/**
* Use the first EHPLMN from SIM EF files
* @hide
*/
public static final int EPDG_PLMN_EHPLMN_FIRST = 3;
/** @hide */
@IntDef({ID_TYPE_FQDN, ID_TYPE_RFC822_ADDR, ID_TYPE_KEY_ID})
public @interface IkeIdType {}
/**
* Ike Identification Fully Qualified Domain Name
*
* @see <a href="https://tools.ietf.org/html/rfc7296#section-3.5">RFC 7296, Internet Key
* Exchange Protocol Version 2 (IKEv2)</a>
*/
public static final int ID_TYPE_FQDN = 2;
/**
* Ike Identification Fully Qualified RFC 822 email address.
*
* @see <a href="https://tools.ietf.org/html/rfc7296#section-3.5">RFC 7296, Internet Key
* Exchange Protocol Version 2 (IKEv2)</a>
*/
public static final int ID_TYPE_RFC822_ADDR = 3;
/**
* Ike Identification opaque octet stream for vendor specific information
*
* @see <a href="https://tools.ietf.org/html/rfc7296#section-3.5">RFC 7296, Internet Key
* Exchange Protocol Version 2 (IKEv2)</a>
*/
public static final int ID_TYPE_KEY_ID = 11;
/** @hide */
@IntDef({
EPDG_ADDRESS_IPV4_PREFERRED,
EPDG_ADDRESS_IPV6_PREFERRED,
EPDG_ADDRESS_IPV4_ONLY,
EPDG_ADDRESS_IPV6_ONLY,
EPDG_ADDRESS_SYSTEM_PREFERRED
})
public @interface EpdgAddressIpPreference {}
/** Prioritize IPv4 ePDG addresses. */
public static final int EPDG_ADDRESS_IPV4_PREFERRED = 0;
/** Prioritize IPv6 ePDG addresses */
public static final int EPDG_ADDRESS_IPV6_PREFERRED = 1;
/** Use IPv4 ePDG addresses only. */
public static final int EPDG_ADDRESS_IPV4_ONLY = 2;
/** Use IPv6 ePDG addresses only.
* @hide
*/
public static final int EPDG_ADDRESS_IPV6_ONLY = 3;
/** Follow the priority from DNS resolution results, which are sorted by using RFC6724
* algorithm.
*
* @see <a href="https://tools.ietf.org/html/rfc6724#section-6">RFC 6724, Default Address
* Selection for Internet Protocol Version 6 (IPv6)</a>
* @hide
*/
public static final int EPDG_ADDRESS_SYSTEM_PREFERRED = 4;
private Iwlan() {}
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putInt(KEY_IKE_REKEY_SOFT_TIMER_SEC_INT, 7200);
defaults.putInt(KEY_IKE_REKEY_HARD_TIMER_SEC_INT, 14400);
defaults.putInt(KEY_CHILD_SA_REKEY_SOFT_TIMER_SEC_INT, 3600);
defaults.putInt(KEY_CHILD_SA_REKEY_HARD_TIMER_SEC_INT, 7200);
defaults.putBoolean(KEY_SUPPORTS_IKE_SESSION_MULTIPLE_SA_PROPOSALS_BOOL, false);
defaults.putBoolean(KEY_SUPPORTS_CHILD_SESSION_MULTIPLE_SA_PROPOSALS_BOOL, false);
defaults.putIntArray(
KEY_RETRANSMIT_TIMER_MSEC_INT_ARRAY, new int[] {500, 1000, 2000, 4000, 8000});
defaults.putInt(KEY_DPD_TIMER_SEC_INT, 120);
defaults.putInt(KEY_MAX_RETRIES_INT, 3);
defaults.putIntArray(
KEY_DIFFIE_HELLMAN_GROUPS_INT_ARRAY,
new int[] {
SaProposal.DH_GROUP_1024_BIT_MODP,
SaProposal.DH_GROUP_1536_BIT_MODP,
SaProposal.DH_GROUP_2048_BIT_MODP
});
defaults.putIntArray(
KEY_SUPPORTED_IKE_SESSION_ENCRYPTION_ALGORITHMS_INT_ARRAY,
new int[] {SaProposal.ENCRYPTION_ALGORITHM_AES_CBC});
defaults.putIntArray(
KEY_SUPPORTED_IKE_SESSION_AEAD_ALGORITHMS_INT_ARRAY, new int[] {});
defaults.putIntArray(
KEY_SUPPORTED_CHILD_SESSION_ENCRYPTION_ALGORITHMS_INT_ARRAY,
new int[] {SaProposal.ENCRYPTION_ALGORITHM_AES_CBC});
defaults.putIntArray(
KEY_SUPPORTED_CHILD_SESSION_AEAD_ALGORITHMS_INT_ARRAY, new int[] {});
defaults.putIntArray(
KEY_SUPPORTED_INTEGRITY_ALGORITHMS_INT_ARRAY,
new int[] {
SaProposal.INTEGRITY_ALGORITHM_AES_XCBC_96,
SaProposal.INTEGRITY_ALGORITHM_HMAC_SHA1_96,
SaProposal.INTEGRITY_ALGORITHM_HMAC_SHA2_256_128,
SaProposal.INTEGRITY_ALGORITHM_HMAC_SHA2_384_192,
SaProposal.INTEGRITY_ALGORITHM_HMAC_SHA2_512_256,
});
defaults.putIntArray(
KEY_SUPPORTED_PRF_ALGORITHMS_INT_ARRAY,
new int[] {
SaProposal.PSEUDORANDOM_FUNCTION_HMAC_SHA1,
SaProposal.PSEUDORANDOM_FUNCTION_AES128_XCBC,
SaProposal.PSEUDORANDOM_FUNCTION_SHA2_256,
SaProposal.PSEUDORANDOM_FUNCTION_SHA2_384,
SaProposal.PSEUDORANDOM_FUNCTION_SHA2_512
});
defaults.putInt(KEY_EPDG_AUTHENTICATION_METHOD_INT, AUTHENTICATION_METHOD_EAP_ONLY);
defaults.putString(KEY_EPDG_STATIC_ADDRESS_STRING, "");
defaults.putString(KEY_EPDG_STATIC_ADDRESS_ROAMING_STRING, "");
// will be used after b/158036773 is fixed
defaults.putInt(KEY_NATT_KEEP_ALIVE_TIMER_SEC_INT, 20);
defaults.putIntArray(
KEY_IKE_SESSION_AES_CBC_KEY_SIZE_INT_ARRAY,
new int[] {
SaProposal.KEY_LEN_AES_128,
SaProposal.KEY_LEN_AES_192,
SaProposal.KEY_LEN_AES_256});
defaults.putIntArray(
KEY_CHILD_SESSION_AES_CBC_KEY_SIZE_INT_ARRAY,
new int[] {
SaProposal.KEY_LEN_AES_128,
SaProposal.KEY_LEN_AES_192,
SaProposal.KEY_LEN_AES_256});
defaults.putIntArray(
KEY_IKE_SESSION_AES_CTR_KEY_SIZE_INT_ARRAY,
new int[] {
SaProposal.KEY_LEN_AES_128,
SaProposal.KEY_LEN_AES_192,
SaProposal.KEY_LEN_AES_256});
defaults.putIntArray(
KEY_CHILD_SESSION_AES_CTR_KEY_SIZE_INT_ARRAY,
new int[] {
SaProposal.KEY_LEN_AES_128,
SaProposal.KEY_LEN_AES_192,
SaProposal.KEY_LEN_AES_256});
defaults.putIntArray(
KEY_IKE_SESSION_AES_GCM_KEY_SIZE_INT_ARRAY, new int[] {});
defaults.putIntArray(
KEY_CHILD_SESSION_AES_GCM_KEY_SIZE_INT_ARRAY, new int[] {});
defaults.putIntArray(
KEY_EPDG_ADDRESS_PRIORITY_INT_ARRAY,
new int[] {EPDG_ADDRESS_PLMN, EPDG_ADDRESS_STATIC});
defaults.putIntArray(
KEY_EPDG_PLMN_PRIORITY_INT_ARRAY,
new int[]{
EPDG_PLMN_RPLMN,
EPDG_PLMN_HPLMN,
EPDG_PLMN_EHPLMN_ALL});
defaults.putStringArray(KEY_MCC_MNCS_STRING_ARRAY, new String[0]);
defaults.putInt(KEY_IKE_LOCAL_ID_TYPE_INT, ID_TYPE_RFC822_ADDR);
defaults.putInt(KEY_IKE_REMOTE_ID_TYPE_INT, ID_TYPE_FQDN);
defaults.putBoolean(KEY_ADD_KE_TO_CHILD_SESSION_REKEY_BOOL, false);
defaults.putInt(KEY_EPDG_PCO_ID_IPV6_INT, 0);
defaults.putInt(KEY_EPDG_PCO_ID_IPV4_INT, 0);
defaults.putBoolean(KEY_SUPPORTS_EAP_AKA_FAST_REAUTH_BOOL, false);
defaults.putInt(KEY_EPDG_ADDRESS_IP_TYPE_PREFERENCE_INT, EPDG_ADDRESS_IPV4_PREFERRED);
return defaults;
}
}
/**
* A list of 4 GSM RSSI thresholds above which a signal level is considered POOR,
* MODERATE, GOOD, or EXCELLENT, to be used in SignalStrength reporting.
*
* Note that the min and max thresholds are fixed at -113 and -51, as set in 3GPP TS 27.007
* section 8.5.
* <p>
* See CellSignalStrengthGsm#GSM_RSSI_MAX and CellSignalStrengthGsm#GSM_RSSI_MIN. Any signal
* level outside these boundaries is considered invalid.
* @hide
*/
public static final String KEY_GSM_RSSI_THRESHOLDS_INT_ARRAY = "gsm_rssi_thresholds_int_array";
/**
* An interval in dB for {@link SignalThresholdInfo#SIGNAL_MEASUREMENT_TYPE_RSSI} measurement
* type defining the required magnitude change between reports.
*
* <p>The default value is 2 and the minimum allowed value is 0. If no value or negative value
* is set, the default value 2 is used.
* @hide
*/
public static final String KEY_GERAN_RSSI_HYSTERESIS_DB_INT = "geran_rssi_hysteresis_db_int";
/**
* Determines whether Wireless Priority Service call is supported over IMS.
*
* See Wireless Priority Service from https://www.fcc.gov/general/wireless-priority-service-wps
* @hide
*/
public static final String KEY_SUPPORT_WPS_OVER_IMS_BOOL = "support_wps_over_ims_bool";
/**
* The two digital number pattern of MMI code which is defined by carrier.
* If the dial number matches this pattern, it will be dialed out normally not USSD.
*
* @hide
*/
public static final String KEY_MMI_TWO_DIGIT_NUMBER_PATTERN_STRING_ARRAY =
"mmi_two_digit_number_pattern_string_array";
/**
* Holds the list of carrier certificate hashes, followed by optional package names.
* Format: "sha1/256" or "sha1/256:package1,package2,package3..."
* Note that each carrier has its own hashes.
*/
public static final String KEY_CARRIER_CERTIFICATE_STRING_ARRAY =
"carrier_certificate_string_array";
/**
* Flag specifying whether the incoming call number and the conference participant number
* should be formatted to national number for Japan.
* @return {@code true} convert to the national format, {@code false} otherwise.
* e.g. "+819012345678" -> "09012345678"
* @hide
*/
public static final String KEY_FORMAT_INCOMING_NUMBER_TO_NATIONAL_FOR_JP_BOOL =
"format_incoming_number_to_national_for_jp_bool";
/**
* DisconnectCause array to play busy tone. Value should be array of
* {@link android.telephony.DisconnectCause}.
*/
public static final String KEY_DISCONNECT_CAUSE_PLAY_BUSYTONE_INT_ARRAY =
"disconnect_cause_play_busytone_int_array";
/**
* Flag specifying whether to prevent sending CLIR activation("*31#") and deactivation("#31#")
* code only without dialing number.
* When {@code true}, these are prevented, {@code false} otherwise.
*/
public static final String KEY_PREVENT_CLIR_ACTIVATION_AND_DEACTIVATION_CODE_BOOL =
"prevent_clir_activation_and_deactivation_code_bool";
/**
* Flag specifying whether to show forwarded number on call-in-progress screen.
* When true, forwarded number is shown.
* When false, forwarded number is not shown.
*/
public static final String KEY_SHOW_FORWARDED_NUMBER_BOOL = "show_forwarded_number_bool";
/**
* The list of originating address of missed incoming call SMS. If the SMS has originator
* matched, the SMS will be treated as special SMS for notifying missed incoming call to the
* user.
*
* @hide
*/
public static final String KEY_MISSED_INCOMING_CALL_SMS_ORIGINATOR_STRING_ARRAY =
"missed_incoming_call_sms_originator_string_array";
/**
* String array of Apn Type configurations.
* The entries should be of form "APN_TYPE_NAME:priority".
* priority is an integer that is sorted from highest to lowest.
* example: cbs:5
*
* @hide
*/
public static final String KEY_APN_PRIORITY_STRING_ARRAY = "apn_priority_string_array";
/**
* Network capability priority for determine the satisfy order in telephony. The priority is
* from the lowest 0 to the highest 100. The long-lived network shall have the lowest priority.
* This allows other short-lived requests like MMS requests to be established. Emergency request
* always has the highest priority.
*
* @hide
*/
public static final String KEY_TELEPHONY_NETWORK_CAPABILITY_PRIORITIES_STRING_ARRAY =
"telephony_network_capability_priorities_string_array";
/**
* Defines the rules for data setup retry.
*
* The syntax of the retry rule:
* 1. Retry based on {@link NetworkCapabilities}. Note that only APN-type network capabilities
* are supported. If the capabilities are not specified, then the retry rule only applies
* to the current failed APN used in setup data call request.
* "capabilities=[netCaps1|netCaps2|...], [retry_interval=n1|n2|n3|n4...], [maximum_retries=n]"
*
* 2. Retry based on {@link DataFailCause}
* "fail_causes=[cause1|cause2|cause3|..], [retry_interval=n1|n2|n3|n4...], [maximum_retries=n]"
*
* 3. Retry based on {@link NetworkCapabilities} and {@link DataFailCause}. Note that only
* APN-type network capabilities are supported.
* "capabilities=[netCaps1|netCaps2|...], fail_causes=[cause1|cause2|cause3|...],
* [retry_interval=n1|n2|n3|n4...], [maximum_retries=n]"
*
* 4. Permanent fail causes (no timer-based retry) on the current failed APN. Retry interval
* is specified for retrying the next available APN.
* "permanent_fail_causes=8|27|28|29|30|32|33|35|50|51|111|-5|-6|65537|65538|-3|65543|65547|
* 2252|2253|2254, retry_interval=2500"
*
* For example,
* "capabilities=eims, retry_interval=1000, maximum_retries=20" means if the attached
* network request is emergency, then retry data network setup every 1 second for up to 20
* times.
*
* "capabilities=internet|enterprise|dun|ims|fota, retry_interval=2500|3000|"
* "5000|10000|15000|20000|40000|60000|120000|240000|600000|1200000|1800000"
* "1800000, maximum_retries=20" means for those capabilities, retry happens in 2.5s, 3s, 5s,
* 10s, 15s, 20s, 40s, 1m, 2m, 4m, 10m, 20m, 30m, 30m, 30m, until reaching 20 retries.
*
* @hide
*/
public static final String KEY_TELEPHONY_DATA_SETUP_RETRY_RULES_STRING_ARRAY =
"telephony_data_setup_retry_rules_string_array";
/**
* Defines the rules for data handover retry.
*
* The syntax of the retry rule:
* 1. Retry when handover fails.
* "retry_interval=[n1|n2|n3|...], [maximum_retries=n]"
*
* For example,
* "retry_interval=1000|3000|5000, maximum_retries=10" means handover retry will happen in 1s,
* 3s, 5s, 5s, 5s....up to 10 times.
*
* 2. Retry when handover fails with certain fail causes.
* "retry_interval=[n1|n2|n3|...], fail_causes=[cause1|cause2|cause3|...], [maximum_retries=n]
*
* For example,
* "retry_interval=1000, maximum_retries=3, fail_causes=5" means handover retry every 1 second
* for up to 3 times when handover fails with the cause 5.
*
* "maximum_retries=0, fail_causes=6|10|67" means handover retry should not happen for those
* causes.
*
* @hide
*/
public static final String KEY_TELEPHONY_DATA_HANDOVER_RETRY_RULES_STRING_ARRAY =
"telephony_data_handover_retry_rules_string_array";
/**
* Indicates whether delay tearing down IMS data network until voice call ends.
* @hide
*/
public static final String KEY_DELAY_IMS_TEAR_DOWN_UNTIL_CALL_END_BOOL =
"delay_ims_tear_down_until_call_end_bool";
/**
* The patterns of missed incoming call sms. This is the regular expression used for
* matching the missed incoming call's date, time, and caller id. The pattern should match
* fields for at least month, day, hour, and minute. Year is optional although it is encouraged.
*
* An usable pattern should look like this:
* ^(?<month>0[1-9]|1[012])\/(?<day>0[1-9]|1[0-9]|2[0-9]|3[0-1]) (?<hour>[0-1][0-9]|2[0-3]):
* (?<minute>[0-5][0-9])\s*(?<callerId>[0-9]+)\s*$
*
* @hide
*/
public static final String KEY_MISSED_INCOMING_CALL_SMS_PATTERN_STRING_ARRAY =
"missed_incoming_call_sms_pattern_string_array";
/**
* A PersistableBundle that contains a list of key-value pairs, where the values are integer
* arrays.
* <p>
* Keys are the PLMNs of satellite providers as strings and values are integer arrays of
* supported services with the following value:
* <ul>
* <li>1 = {@link android.telephony.NetworkRegistrationInfo#SERVICE_TYPE_VOICE}</li>
* <li>2 = {@link android.telephony.NetworkRegistrationInfo#SERVICE_TYPE_DATA}</li>
* <li>3 = {@link android.telephony.NetworkRegistrationInfo#SERVICE_TYPE_SMS}</li>
* <li>4 = {@link android.telephony.NetworkRegistrationInfo#SERVICE_TYPE_VIDEO}</li>
* <li>5 = {@link android.telephony.NetworkRegistrationInfo#SERVICE_TYPE_EMERGENCY}</li>
* <li>6 = {@link android.telephony.NetworkRegistrationInfo#SERVICE_TYPE_MMS}</li>
* </ul>
* <p>
* An example config for two PLMNs "123411" and "123412":
* <pre>{@code
* <carrier_config>
* <pbundle_as_map name="carrier_supported_satellite_services_per_provider_bundle">
* <int-array name = "123411" num = "2">
* <item value = "3"/>
* <item value = "5"/>
* </int-array>
* <int-array name = "123412" num = "1">
* <item value = "3"/>
* </int-array>
* </pbundle_as_map>
* </carrier_config>
* }</pre>
* <p>
* This config is empty by default.
*/
@FlaggedApi(Flags.FLAG_CARRIER_ENABLED_SATELLITE_FLAG)
public static final String KEY_CARRIER_SUPPORTED_SATELLITE_SERVICES_PER_PROVIDER_BUNDLE =
"carrier_supported_satellite_services_per_provider_bundle";
/**
* This config enables modem to scan satellite PLMNs specified as per
* {@link #KEY_CARRIER_SUPPORTED_SATELLITE_SERVICES_PER_PROVIDER_BUNDLE} and attach to same
* in case cellular networks are not enabled. This will need specific agreement between
* satellite provider and the carrier before enabling this flag.
*
* The default value is false.
*/
@FlaggedApi(Flags.FLAG_CARRIER_ENABLED_SATELLITE_FLAG)
public static final String KEY_SATELLITE_ATTACH_SUPPORTED_BOOL =
"satellite_attach_supported_bool";
/**
* The carrier-enabled satellite connection hysteresis time in seconds to determine whether to
* recommend Dialer to prompt users to use satellite emergency messaging.
* <p>
* A timer is started when there is an ongoing emergency call, and the IMS is not registered,
* and cellular service is not available, and the device was connected to a satellite network
* within this time in the past. When the timer expires, Telephony will send the event
* {@link TelephonyManager#EVENT_DISPLAY_EMERGENCY_MESSAGE} to Dialer, which will then prompt
* users to switch to using satellite emergency messaging.
* <p>
* The default value is 300 seconds.
*/
@FlaggedApi(Flags.FLAG_CARRIER_ENABLED_SATELLITE_FLAG)
public static final String KEY_SATELLITE_CONNECTION_HYSTERESIS_SEC_INT =
"satellite_connection_hysteresis_sec_int";
/**
* This threshold is used when connected to a non-terrestrial LTE network.
* A list of 4 NTN LTE RSRP thresholds above which a signal level is considered POOR,
* MODERATE, GOOD, or EXCELLENT, to be used in SignalStrength reporting.
*
* Note that the min and max thresholds are fixed at -140 and -44, as explained in
* TS 136.133 9.1.4 - RSRP Measurement Report Mapping.
* <p>
* See SignalStrength#MAX_LTE_RSRP and SignalStrength#MIN_LTE_RSRP. Any signal level outside
* these boundaries is considered invalid.
*/
@FlaggedApi(Flags.FLAG_CARRIER_ENABLED_SATELLITE_FLAG)
public static final String KEY_NTN_LTE_RSRP_THRESHOLDS_INT_ARRAY =
"ntn_lte_rsrp_thresholds_int_array";
/**
* This threshold is used when connected to a non-terrestrial LTE network.
* A list of 4 customized NTN LTE Reference Signal Received Quality (RSRQ) thresholds.
*
* Reference: TS 136.133 v12.6.0 section 9.1.7 - RSRQ Measurement Report Mapping.
*
* 4 threshold integers must be within the boundaries [-34 dB, 3 dB], and the levels are:
* "NONE: [-34, threshold1)"
* "POOR: [threshold1, threshold2)"
* "MODERATE: [threshold2, threshold3)"
* "GOOD: [threshold3, threshold4)"
* "EXCELLENT: [threshold4, 3]"
*
* This key is considered invalid if the format is violated. If the key is invalid or
* not configured, a default value set will apply.
*/
@FlaggedApi(Flags.FLAG_CARRIER_ENABLED_SATELLITE_FLAG)
public static final String KEY_NTN_LTE_RSRQ_THRESHOLDS_INT_ARRAY =
"ntn_lte_rsrq_thresholds_int_array";
/**
* This threshold is used when connected to a non-terrestrial LTE network.
* A list of 4 customized NTN LTE Reference Signal Signal to Noise Ratio (RSSNR) thresholds.
*
* 4 threshold integers must be within the boundaries [-20 dB, 30 dB], and the levels are:
* "NONE: [-20, threshold1)"
* "POOR: [threshold1, threshold2)"
* "MODERATE: [threshold2, threshold3)"
* "GOOD: [threshold3, threshold4)"
* "EXCELLENT: [threshold4, 30]"
*
* This key is considered invalid if the format is violated. If the key is invalid or
* not configured, a default value set will apply.
*/
@FlaggedApi(Flags.FLAG_CARRIER_ENABLED_SATELLITE_FLAG)
public static final String KEY_NTN_LTE_RSSNR_THRESHOLDS_INT_ARRAY =
"ntn_lte_rssnr_thresholds_int_array";
/**
* This threshold is used when connected to a non-terrestrial LTE network.
* Bit-field integer to determine whether to use Reference Signal Received Power (RSRP),
* Reference Signal Received Quality (RSRQ), or/and Reference Signal Signal to Noise Ratio
* (RSSNR) for the number of NTN LTE signal bars and signal criteria reporting enabling.
*
* <p> If a measure is not set, signal criteria reporting from modem will not be triggered and
* not be used for calculating signal level. If multiple measures are set bit, the parameter
* whose value is smallest is used to indicate the signal level.
* <UL>
* <LI>RSRP = 1 << 0</LI>
* <LI>RSRQ = 1 << 1</LI>
* <LI>RSSNR = 1 << 2</LI>
* </UL>
* <p> The value of this key must be bitwise OR of CellSignalStrengthLte#USE_RSRP,
* CellSignalStrengthLte#USE_RSRQ, CellSignalStrengthLte#USE_RSSNR.
*
* <p> For example, if both RSRP and RSRQ are used, the value of key is 3 (1 << 0 | 1 << 1).
* If the key is invalid or not configured, a default value (RSRP = 1 << 0) will apply.
*
*/
@FlaggedApi(Flags.FLAG_CARRIER_ENABLED_SATELLITE_FLAG)
public static final String KEY_PARAMETERS_USED_FOR_NTN_LTE_SIGNAL_BAR_INT =
"parameters_used_for_ntn_lte_signal_bar_int";
/**
* Indicating whether DUN APN should be disabled when the device is roaming. In that case,
* the default APN (i.e. internet) will be used for tethering.
*
* This config is only available when using Preset APN(not user edited) as Preferred APN.
*
* @hide
*/
public static final String KEY_DISABLE_DUN_APN_WHILE_ROAMING_WITH_PRESET_APN_BOOL =
"disable_dun_apn_while_roaming_with_preset_apn_bool";
/**
* Where there is no preferred APN, specifies the carrier's default preferred APN.
* Specifies the {@link android.provider.Telephony.Carriers.APN} of the default preferred apn.
*
* This config is only available with Preset APN(not user edited).
*
* @hide
*/
public static final String KEY_DEFAULT_PREFERRED_APN_NAME_STRING =
"default_preferred_apn_name_string";
/**
* Indicates if the carrier supports call composer.
*/
public static final String KEY_SUPPORTS_CALL_COMPOSER_BOOL = "supports_call_composer_bool";
/**
* Indicates the carrier server url that serves the call composer picture.
*/
public static final String KEY_CALL_COMPOSER_PICTURE_SERVER_URL_STRING =
"call_composer_picture_server_url_string";
/**
* Determines the default RTT mode.
*
* Upon first boot, when the user has not yet set a value for their preferred RTT mode,
* the value of this config will be sent to the IMS stack. Valid values are the same as for
* {@link Settings.Secure#RTT_CALLING_MODE}.
*
* @hide
*/
public static final String KEY_DEFAULT_RTT_MODE_INT = "default_rtt_mode_int";
/**
* Indicates whether RTT is supported while roaming.
*/
public static final String KEY_RTT_SUPPORTED_WHILE_ROAMING_BOOL =
"rtt_supported_while_roaming_bool";
/**
* Indicates if auto-configuration server is used for the RCS config
* Reference: GSMA RCC.14
*/
public static final String KEY_USE_ACS_FOR_RCS_BOOL = "use_acs_for_rcs_bool";
/**
* Indicates temporarily unmetered mobile data is supported by the carrier.
* @hide
*/
public static final String KEY_NETWORK_TEMP_NOT_METERED_SUPPORTED_BOOL =
"network_temp_not_metered_supported_bool";
/**
* Boolean indicating whether the SIM PIN can be stored and verified
* seamlessly after an unattended reboot.
*
* The device configuration value {@code config_allow_pin_storage_for_unattended_reboot}
* ultimately controls whether this carrier configuration option is used. Where
* {@code config_allow_pin_storage_for_unattended_reboot} is false, the value of this
* carrier configuration is ignored.
*
* @hide
*/
public static final String KEY_STORE_SIM_PIN_FOR_UNATTENDED_REBOOT_BOOL =
"store_sim_pin_for_unattended_reboot_bool";
/**
* Allow whether the user can use the "Allow 2G" toggle in Settings.
*
* If {@code true} then the toggle is disabled (i.e. grayed out).
*
* Used to trade privacy/security against potentially reduced carrier coverage for some
* carriers.
*
* @removed This config option is no longer supported as it was hiding a security feature
* from users. Setting this option will not change the behavior of the Settings menu starting
* in Android V.
*/
@Deprecated
public static final String KEY_HIDE_ENABLE_2G = "hide_enable_2g_bool";
/**
* Indicates the allowed APN types that can be used for LTE initial attach. The order of APN
* types in the configuration is the order of APN types that will be used for initial attach.
* Empty list indicates that no APN types are allowed for initial attach.
*
* @hide
*/
public static final String KEY_ALLOWED_INITIAL_ATTACH_APN_TYPES_STRING_ARRAY =
"allowed_initial_attach_apn_types_string_array";
/**
* Indicates whether or not the carrier will provision merged carrier Wi-Fi offload networks.
* Such networks are considered part of the core carrier network.
*
* This configuration will be use to gate whether such configurations are allowed to the carrier
* and correspondingly enable UI elements which are required for such configurations.
*/
public static final String KEY_CARRIER_PROVISIONS_WIFI_MERGED_NETWORKS_BOOL =
"carrier_provisions_wifi_merged_networks_bool";
/**
* Determines whether or not to use (IP) data connectivity as a supplemental condition to
* control the visibility of the no-calling indicator for this carrier in the System UI. Setting
* the configuration to true may make sense for carriers that provide OTT calling.
*
* Config = true: show no-calling indication only if telephony does not have voice registration
* and if no (IP) data connectivity is available.
* Config = false: show no-calling indication only if telephony does not have voice
* registration.
*/
public static final String KEY_USE_IP_FOR_CALLING_INDICATOR_BOOL =
"use_ip_for_calling_indicator_bool";
/**
* Determine whether or not to display a call strength indicator for this carrier in the System
* UI. Disabling the indication may be reasonable if the carrier's calling is not integrated
* into the Android telephony stack (e.g. it is OTT).
*
* true: Use telephony APIs to detect the current networking medium of calling and display a
* UI indication based on the current strength (e.g. signal level) of that medium.
* false: Do not display the call strength indicator.
*/
public static final String KEY_DISPLAY_CALL_STRENGTH_INDICATOR_BOOL =
"display_call_strength_indicator_bool";
/**
* Determine whether or not to display no data notification when data setup is permanently
* failed.
*
* @hide
*/
public static final String KEY_DISPLAY_NO_DATA_NOTIFICATION_ON_PERMANENT_FAILURE_BOOL =
"display_no_data_notification_on_permanent_failure_bool";
/**
* Boolean indicating if the VoNR setting is visible in the Call Settings menu.
* If this flag is set and VoNR is enabled for this carrier (see {@link #KEY_VONR_ENABLED_BOOL})
* the VoNR setting menu will be visible. If {@link #KEY_VONR_ENABLED_BOOL} or
* this setting is false, the menu will be gone.
*
* Enabled by default.
*
*/
public static final String KEY_VONR_SETTING_VISIBILITY_BOOL = "vonr_setting_visibility_bool";
/**
* Flag specifying whether VoNR should be enabled for carrier.
* If true, VoNr will be enabled. If false, hard disabled.
*
* Disabled by default.
*
*/
public static final String KEY_VONR_ENABLED_BOOL = "vonr_enabled_bool";
/**
* Boolean indicating the default VoNR user preference setting.
* If true, the VoNR setting will be enabled. If false, it will be disabled initially.
*
* Enabled by default.
*
*/
public static final String KEY_VONR_ON_BY_DEFAULT_BOOL = "vonr_on_by_default_bool";
/**
* Determine whether unthrottle data retry when tracking area code (TAC/LAC) from cell changes
*
* @hide
*/
public static final String KEY_UNTHROTTLE_DATA_RETRY_WHEN_TAC_CHANGES_BOOL =
"unthrottle_data_retry_when_tac_changes_bool";
/**
* A list of premium capabilities the carrier supports. Applications can prompt users to
* purchase these premium capabilities from their carrier for a performance boost.
* Valid values are any of {@link TelephonyManager}'s {@code PREMIUM_CAPABILITY_*} constants.
*
* This is empty by default, indicating that no premium capabilities are supported.
*
* @see TelephonyManager#isPremiumCapabilityAvailableForPurchase(int)
* @see TelephonyManager#purchasePremiumCapability(int, Executor, Consumer)
*/
public static final String KEY_SUPPORTED_PREMIUM_CAPABILITIES_INT_ARRAY =
"supported_premium_capabilities_int_array";
/**
* The amount of time in milliseconds the notification for a performance boost via
* premium capabilities will be visible to the user after
* {@link TelephonyManager#purchasePremiumCapability(int, Executor, Consumer)}
* requests user action to purchase the boost from the carrier. Once the timeout expires,
* the performance boost notification will be automatically dismissed and the request will fail
* with {@link TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_TIMEOUT}.
*
* The default value is 30 minutes.
*/
public static final String KEY_PREMIUM_CAPABILITY_NOTIFICATION_DISPLAY_TIMEOUT_MILLIS_LONG =
"premium_capability_notification_display_timeout_millis_long";
/**
* The amount of time in milliseconds that the notification for a performance boost via
* premium capabilities should be blocked when
* {@link TelephonyManager#purchasePremiumCapability(int, Executor, Consumer)}
* returns a failure due to user action or timeout.
* The maximum number of performance boost notifications to show the user are defined in
* {@link #KEY_PREMIUM_CAPABILITY_MAXIMUM_DAILY_NOTIFICATION_COUNT_INT} and
* {@link #KEY_PREMIUM_CAPABILITY_MAXIMUM_MONTHLY_NOTIFICATION_COUNT_INT}.
*
* The default value is 30 minutes.
*
* @see TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_USER_CANCELED
* @see TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_TIMEOUT
*/
public static final String
KEY_PREMIUM_CAPABILITY_NOTIFICATION_BACKOFF_HYSTERESIS_TIME_MILLIS_LONG =
"premium_capability_notification_backoff_hysteresis_time_millis_long";
/**
* The maximum number of times in a day that we display the notification for a performance boost
* via premium capabilities when
* {@link TelephonyManager#purchasePremiumCapability(int, Executor, Consumer)}
* returns a failure due to user action or timeout.
*
* The default value is 2 times.
*
* @see TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_USER_CANCELED
* @see TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_TIMEOUT
*/
public static final String KEY_PREMIUM_CAPABILITY_MAXIMUM_DAILY_NOTIFICATION_COUNT_INT =
"premium_capability_maximum_daily_notification_count_int";
/**
* The maximum number of times in a month that we display the notification for a performance
* boost via premium capabilities when
* {@link TelephonyManager#purchasePremiumCapability(int, Executor, Consumer)}
* returns a failure due to user action or timeout.
*
* The default value is 10 times.
*
* @see TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_USER_CANCELED
* @see TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_TIMEOUT
*/
public static final String KEY_PREMIUM_CAPABILITY_MAXIMUM_MONTHLY_NOTIFICATION_COUNT_INT =
"premium_capability_maximum_monthly_notification_count_int";
/**
* The amount of time in milliseconds that the purchase request should be throttled when
* {@link TelephonyManager#purchasePremiumCapability(int, Executor, Consumer)}
* returns a failure due to the carrier.
*
* The default value is 30 minutes.
*
* @see TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_CARRIER_ERROR
* @see TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_ENTITLEMENT_CHECK_FAILED
*/
public static final String
KEY_PREMIUM_CAPABILITY_PURCHASE_CONDITION_BACKOFF_HYSTERESIS_TIME_MILLIS_LONG =
"premium_capability_purchase_condition_backoff_hysteresis_time_millis_long";
/**
* The amount of time in milliseconds within which the network must set up a slicing
* configuration for the premium capability after
* {@link TelephonyManager#purchasePremiumCapability(int, Executor, Consumer)}
* returns {@link TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_SUCCESS}.
* During the setup time, calls to
* {@link TelephonyManager#purchasePremiumCapability(int, Executor, Consumer)} will return
* {@link TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_PENDING_NETWORK_SETUP}.
* If the network fails to set up a slicing configuration for the premium capability within the
* setup time, subsequent purchase requests will be allowed to go through again.
*
* The default value is 5 minutes.
*/
public static final String KEY_PREMIUM_CAPABILITY_NETWORK_SETUP_TIME_MILLIS_LONG =
"premium_capability_network_setup_time_millis_long";
/**
* The URL to redirect to when the user clicks on the notification for a performance boost via
* premium capabilities after applications call
* {@link TelephonyManager#purchasePremiumCapability(int, Executor, Consumer)}.
* If the URL is empty or invalid, the purchase request will return
* {@link TelephonyManager#PURCHASE_PREMIUM_CAPABILITY_RESULT_FEATURE_NOT_SUPPORTED}.
*
* This is empty by default.
*/
public static final String KEY_PREMIUM_CAPABILITY_PURCHASE_URL_STRING =
"premium_capability_purchase_url_string";
/**
* Whether to allow premium capabilities to be purchased when the device is connected to LTE.
* If this is {@code true}, applications can call
* {@link TelephonyManager#purchasePremiumCapability(int, Executor, Consumer)}
* when connected to {@link TelephonyManager#NETWORK_TYPE_LTE} to purchase and use
* premium capabilities.
* If this is {@code false}, applications can only purchase and use premium capabilities when
* connected to {@link TelephonyManager#NETWORK_TYPE_NR}.
*
* This is {@code false} by default.
*/
public static final String KEY_PREMIUM_CAPABILITY_SUPPORTED_ON_LTE_BOOL =
"premium_capability_supported_on_lte_bool";
/**
* IWLAN handover rules that determine whether handover is allowed or disallowed between
* cellular and IWLAN.
*
* Rule syntax: "source=[GERAN|UTRAN|EUTRAN|NGRAN|IWLAN|UNKNOWN], target=[GERAN|UTRAN|EUTRAN
* |NGRAN|IWLAN], type=[allowed|disallowed], roaming=[true|false], capabilities=[INTERNET|MMS
* |FOTA|IMS|CBS|SUPL|EIMS|XCAP|DUN]"
*
* Note that UNKNOWN can be only specified in the source access network and can be only used
* in the disallowed rule.
*
* The handover rules will be matched in the order. Here are some sample rules.
* <string-array name="iwlan_handover_rules" num="5">
* <!-- Handover from IWLAN to 2G/3G is not allowed -->
* <item value="source=IWLAN, target=GERAN|UTRAN, type=disallowed"/>
* <!-- Handover from 2G/3G to IWLAN is not allowed -->
* <item value="source=GERAN|UTRAN, target:IWLAN, type=disallowed"/>
* <!-- Handover from IWLAN to 3G/4G/5G is not allowed if the device is roaming. -->
* <item value="source=IWLAN, target=UTRAN|EUTRAN|NGRAN, roaming=true, type=disallowed"/>
* <!-- Handover from 4G to IWLAN is not allowed if the device has capability in either IMS
* or EIMS-->
* <item value="source=EUTRAN, target=IWLAN, type=disallowed, capabilities=IMS|EIMS"/>
* <!-- Handover is always allowed in any condition. -->
* <item value="source=GERAN|UTRAN|EUTRAN|NGRAN|IWLAN|UNKNOWN,
* target=GERAN|UTRAN|EUTRAN|NGRAN|IWLAN, type=allowed"/>
* </string-array>
*
* When handover is not allowed, frameworks will tear down the data network on source transport,
* and then setup a new one on the target transport when Qualified Network Service changes the
* preferred access networks for particular APN types.
*
* @hide
*/
public static final String KEY_IWLAN_HANDOVER_POLICY_STRING_ARRAY =
"iwlan_handover_policy_string_array";
/**
* Score table for {@link TelephonyManager#MOBILE_DATA_POLICY_AUTO_DATA_SWITCH}. The score is
* used in conjunction with a tolerance value defined in resource config
* {@code auto_data_switch_score_tolerance}, greater than which device will switch to the sub
* with higher score.
* Possible keys are network type name string(also see {@link #KEY_BANDWIDTH_STRING_ARRAY}).
* Value should be "score_level_0, score_level_1, score_level_2, score_level_3,score_level_4".
* Each network type must have 5 scores correspond to {@link CellSignalStrength}, where score is
* a non-negative integer. A score of 0 is treated the same as data out of service.
*
* For NR (5G), the following network names should be used:
* - NR_NSA: NR NSA, sub-6 frequencies
* - NR_NSA_MMWAVE: NR NSA, mmwave frequencies
* - NR_SA: NR SA, sub-6 frequencies
* - NR_SA_MMWAVE: NR SA, mmwave frequencies
*
* @hide
*/
public static final String KEY_AUTO_DATA_SWITCH_RAT_SIGNAL_SCORE_BUNDLE =
"auto_data_switch_rat_signal_score_string_bundle";
/** The default value for every variable. */
private static final PersistableBundle sDefaults;
static {
sDefaults = new PersistableBundle();
sDefaults.putString(KEY_CARRIER_CONFIG_VERSION_STRING, "");
sDefaults.putBoolean(KEY_ALLOW_HOLD_IN_IMS_CALL_BOOL, true);
sDefaults.putBoolean(KEY_CARRIER_ALLOW_DEFLECT_IMS_CALL_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_ALLOW_TRANSFER_IMS_CALL_BOOL, false);
sDefaults.putBoolean(KEY_ALWAYS_PLAY_REMOTE_HOLD_TONE_BOOL, false);
sDefaults.putBoolean(KEY_AUTO_RETRY_FAILED_WIFI_EMERGENCY_CALL, false);
sDefaults.putBoolean(KEY_ADDITIONAL_CALL_SETTING_BOOL, true);
sDefaults.putBoolean(KEY_ALLOW_EMERGENCY_NUMBERS_IN_CALL_LOG_BOOL, false);
sDefaults.putStringArray(KEY_UNLOGGABLE_NUMBERS_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_ALLOW_LOCAL_DTMF_TONES_BOOL, true);
sDefaults.putBoolean(KEY_PLAY_CALL_RECORDING_TONE_BOOL, false);
sDefaults.putBoolean(KEY_APN_EXPAND_BOOL, true);
sDefaults.putBoolean(KEY_AUTO_RETRY_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_SETTINGS_ENABLE_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_VOLTE_AVAILABLE_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_VT_AVAILABLE_BOOL, false);
sDefaults.putInt(KEY_CARRIER_USSD_METHOD_INT, USSD_OVER_CS_PREFERRED);
sDefaults.putBoolean(KEY_VOLTE_5G_LIMITED_ALERT_DIALOG_BOOL, false);
sDefaults.putBoolean(KEY_NOTIFY_HANDOVER_VIDEO_FROM_WIFI_TO_LTE_BOOL, false);
sDefaults.putBoolean(KEY_ALLOW_MERGING_RTT_CALLS_BOOL, false);
sDefaults.putBoolean(KEY_NOTIFY_HANDOVER_VIDEO_FROM_LTE_TO_WIFI_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORT_DOWNGRADE_VT_TO_AUDIO_BOOL, true);
sDefaults.putString(KEY_DEFAULT_VM_NUMBER_STRING, "");
sDefaults.putString(KEY_DEFAULT_VM_NUMBER_ROAMING_STRING, "");
sDefaults.putString(KEY_DEFAULT_VM_NUMBER_ROAMING_AND_IMS_UNREGISTERED_STRING, "");
sDefaults.putBoolean(KEY_CONFIG_TELEPHONY_USE_OWN_NUMBER_FOR_VOICEMAIL_BOOL, false);
sDefaults.putBoolean(KEY_IGNORE_DATA_ENABLED_CHANGED_FOR_VIDEO_CALLS, true);
sDefaults.putBoolean(KEY_VILTE_DATA_IS_METERED_BOOL, true);
sDefaults.putBoolean(KEY_CARRIER_WFC_IMS_AVAILABLE_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_CROSS_SIM_IMS_AVAILABLE_BOOL, false);
sDefaults.putBoolean(KEY_ENABLE_CROSS_SIM_CALLING_ON_OPPORTUNISTIC_DATA_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_WFC_SUPPORTS_WIFI_ONLY_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_DEFAULT_WFC_IMS_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_DEFAULT_WFC_IMS_ROAMING_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_PROMOTE_WFC_ON_CALL_FAIL_BOOL, false);
sDefaults.putInt(KEY_CARRIER_DEFAULT_WFC_IMS_MODE_INT, 2);
sDefaults.putInt(KEY_CARRIER_DEFAULT_WFC_IMS_ROAMING_MODE_INT, 2);
sDefaults.putBoolean(KEY_CARRIER_FORCE_DISABLE_ETWS_CMAS_TEST_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_RCS_PROVISIONING_REQUIRED_BOOL, true);
sDefaults.putBoolean(KEY_CARRIER_VOLTE_PROVISIONING_REQUIRED_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_UT_PROVISIONING_REQUIRED_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_SUPPORTS_SS_OVER_UT_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_VOLTE_OVERRIDE_WFC_PROVISIONING_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_VOLTE_TTY_SUPPORTED_BOOL, true);
sDefaults.putBoolean(KEY_CARRIER_VOWIFI_TTY_SUPPORTED_BOOL, true);
sDefaults.putBoolean(KEY_CARRIER_ALLOW_TURNOFF_IMS_BOOL, true);
sDefaults.putBoolean(KEY_CARRIER_IMS_GBA_REQUIRED_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_INSTANT_LETTERING_AVAILABLE_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_USE_IMS_FIRST_FOR_EMERGENCY_BOOL, true);
sDefaults.putBoolean(KEY_PREFER_IN_SERVICE_SIM_FOR_NORMAL_ROUTED_EMERGENCY_CALLS_BOOL,
false);
sDefaults.putBoolean(KEY_USE_ONLY_DIALED_SIM_ECC_LIST_BOOL, false);
sDefaults.putString(KEY_CARRIER_NETWORK_SERVICE_WWAN_PACKAGE_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_NETWORK_SERVICE_WLAN_PACKAGE_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_NETWORK_SERVICE_WLAN_CLASS_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_NETWORK_SERVICE_WWAN_CLASS_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_QUALIFIED_NETWORKS_SERVICE_PACKAGE_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_QUALIFIED_NETWORKS_SERVICE_CLASS_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_DATA_SERVICE_WWAN_PACKAGE_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_DATA_SERVICE_WLAN_PACKAGE_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_DATA_SERVICE_WWAN_CLASS_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_DATA_SERVICE_WLAN_CLASS_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CONFIG_PLANS_PACKAGE_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_INSTANT_LETTERING_INVALID_CHARS_STRING, "");
sDefaults.putString(KEY_CARRIER_INSTANT_LETTERING_ESCAPED_CHARS_STRING, "");
sDefaults.putString(KEY_CARRIER_INSTANT_LETTERING_ENCODING_STRING, "");
sDefaults.putInt(KEY_CARRIER_INSTANT_LETTERING_LENGTH_LIMIT_INT, 64);
sDefaults.putBoolean(KEY_DISABLE_CDMA_ACTIVATION_CODE_BOOL, false);
sDefaults.putBoolean(KEY_DTMF_TYPE_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_ENABLE_DIALER_KEY_VIBRATION_BOOL, true);
sDefaults.putBoolean(KEY_HAS_IN_CALL_NOISE_SUPPRESSION_BOOL, false);
sDefaults.putBoolean(KEY_HIDE_CARRIER_NETWORK_SETTINGS_BOOL, false);
sDefaults.putBoolean(KEY_ONLY_AUTO_SELECT_IN_HOME_NETWORK_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_SINGLE_OPERATOR_ROW_IN_CHOOSE_NETWORK_SETTING_BOOL, true);
sDefaults.putBoolean(KEY_SHOW_SPN_FOR_HOME_IN_CHOOSE_NETWORK_SETTING_BOOL, false);
sDefaults.putBoolean(KEY_SIMPLIFIED_NETWORK_SETTINGS_BOOL, false);
sDefaults.putBoolean(KEY_HIDE_SIM_LOCK_SETTINGS_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_VOLTE_PROVISIONED_BOOL, false);
sDefaults.putBoolean(KEY_CALL_BARRING_VISIBILITY_BOOL, false);
sDefaults.putBoolean(KEY_CALL_BARRING_SUPPORTS_PASSWORD_CHANGE_BOOL, true);
sDefaults.putBoolean(KEY_CALL_BARRING_SUPPORTS_DEACTIVATE_ALL_BOOL, true);
sDefaults.putInt(KEY_CALL_BARRING_DEFAULT_SERVICE_CLASS_INT, SERVICE_CLASS_VOICE);
sDefaults.putBoolean(KEY_SUPPORT_SS_OVER_CDMA_BOOL, false);
sDefaults.putBoolean(KEY_CALL_FORWARDING_VISIBILITY_BOOL, true);
sDefaults.putBoolean(KEY_CALL_FORWARDING_WHEN_UNREACHABLE_SUPPORTED_BOOL, true);
sDefaults.putBoolean(KEY_CALL_FORWARDING_WHEN_UNANSWERED_SUPPORTED_BOOL, true);
sDefaults.putBoolean(KEY_CALL_FORWARDING_WHEN_BUSY_SUPPORTED_BOOL, true);
sDefaults.putBoolean(KEY_ADDITIONAL_SETTINGS_CALLER_ID_VISIBILITY_BOOL, true);
sDefaults.putBoolean(KEY_ADDITIONAL_SETTINGS_CALL_WAITING_VISIBILITY_BOOL, true);
sDefaults.putBoolean(KEY_DISABLE_SUPPLEMENTARY_SERVICES_IN_AIRPLANE_MODE_BOOL, false);
sDefaults.putBoolean(KEY_IGNORE_SIM_NETWORK_LOCKED_EVENTS_BOOL, false);
sDefaults.putBoolean(KEY_MDN_IS_ADDITIONAL_VOICEMAIL_NUMBER_BOOL, false);
sDefaults.putBoolean(KEY_OPERATOR_SELECTION_EXPAND_BOOL, true);
sDefaults.putBoolean(KEY_PREFER_2G_BOOL, false);
sDefaults.putBoolean(KEY_4G_ONLY_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_APN_SETTING_CDMA_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_CDMA_CHOICES_BOOL, false);
sDefaults.putBoolean(KEY_SMS_REQUIRES_DESTINATION_NUMBER_CONVERSION_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORT_EMERGENCY_SMS_OVER_IMS_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_ONSCREEN_DIAL_BUTTON_BOOL, true);
sDefaults.putBoolean(KEY_SIM_NETWORK_UNLOCK_ALLOW_DISMISS_BOOL, true);
sDefaults.putBoolean(KEY_SUPPORT_PAUSE_IMS_VIDEO_CALLS_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORT_SWAP_AFTER_MERGE_BOOL, true);
sDefaults.putBoolean(KEY_USE_HFA_FOR_PROVISIONING_BOOL, false);
sDefaults.putBoolean(KEY_EDITABLE_VOICEMAIL_NUMBER_SETTING_BOOL, true);
sDefaults.putBoolean(KEY_EDITABLE_VOICEMAIL_NUMBER_BOOL, false);
sDefaults.putBoolean(KEY_HIDE_VOICEMAIL_NUMBER_SETTING_BOOL, false);
sDefaults.putBoolean(KEY_USE_OTASP_FOR_PROVISIONING_BOOL, false);
sDefaults.putBoolean(KEY_VOICEMAIL_NOTIFICATION_PERSISTENT_BOOL, false);
sDefaults.putBoolean(KEY_VOICE_PRIVACY_DISABLE_UI_BOOL, false);
sDefaults.putBoolean(KEY_WORLD_PHONE_BOOL, false);
sDefaults.putBoolean(KEY_REQUIRE_ENTITLEMENT_CHECKS_BOOL, true);
sDefaults.putBoolean(KEY_CARRIER_SUPPORTS_TETHERING_BOOL, true);
sDefaults.putBoolean(KEY_RESTART_RADIO_ON_PDP_FAIL_REGULAR_DEACTIVATION_BOOL, false);
sDefaults.putIntArray(KEY_RADIO_RESTART_FAILURE_CAUSES_INT_ARRAY, new int[0]);
sDefaults.putInt(KEY_VOLTE_REPLACEMENT_RAT_INT, 0);
sDefaults.putString(KEY_DEFAULT_SIM_CALL_MANAGER_STRING, "");
sDefaults.putString(KEY_VVM_DESTINATION_NUMBER_STRING, "");
sDefaults.putInt(KEY_VVM_PORT_NUMBER_INT, 0);
sDefaults.putString(KEY_VVM_TYPE_STRING, "");
sDefaults.putBoolean(KEY_VVM_CELLULAR_DATA_REQUIRED_BOOL, false);
sDefaults.putString(KEY_VVM_CLIENT_PREFIX_STRING, "//VVM");
sDefaults.putBoolean(KEY_VVM_SSL_ENABLED_BOOL, false);
sDefaults.putStringArray(KEY_VVM_DISABLED_CAPABILITIES_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_VVM_LEGACY_MODE_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_VVM_PREFETCH_BOOL, true);
sDefaults.putString(KEY_CARRIER_VVM_PACKAGE_NAME_STRING, "");
sDefaults.putStringArray(KEY_CARRIER_VVM_PACKAGE_NAME_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_SHOW_ICCID_IN_SIM_STATUS_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_SIGNAL_STRENGTH_IN_SIM_STATUS_BOOL, true);
sDefaults.putBoolean(KEY_INFLATE_SIGNAL_STRENGTH_BOOL, false);
sDefaults.putBoolean(KEY_CI_ACTION_ON_SYS_UPDATE_BOOL, false);
sDefaults.putString(KEY_CI_ACTION_ON_SYS_UPDATE_INTENT_STRING, "");
sDefaults.putString(KEY_CI_ACTION_ON_SYS_UPDATE_EXTRA_STRING, "");
sDefaults.putString(KEY_CI_ACTION_ON_SYS_UPDATE_EXTRA_VAL_STRING, "");
sDefaults.putBoolean(KEY_CSP_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_ALLOW_ADDING_APNS_BOOL, true);
sDefaults.putStringArray(KEY_READ_ONLY_APN_TYPES_STRING_ARRAY, new String[] {"dun"});
sDefaults.putStringArray(KEY_READ_ONLY_APN_FIELDS_STRING_ARRAY, null);
sDefaults.putStringArray(KEY_APN_SETTINGS_DEFAULT_APN_TYPES_STRING_ARRAY, null);
sDefaults.putAll(Apn.getDefaults());
sDefaults.putBoolean(KEY_BROADCAST_EMERGENCY_CALL_STATE_CHANGES_BOOL, false);
sDefaults.putBoolean(KEY_ALWAYS_SHOW_EMERGENCY_ALERT_ONOFF_BOOL, false);
sDefaults.putInt(KEY_DEFAULT_MTU_INT, 1500);
sDefaults.putLong(KEY_CARRIER_DATA_CALL_APN_RETRY_AFTER_DISCONNECT_LONG, 3000);
sDefaults.putString(KEY_CARRIER_ERI_FILE_NAME_STRING, "eri.xml");
sDefaults.putInt(KEY_DURATION_BLOCKING_DISABLED_AFTER_EMERGENCY_INT, 7200);
sDefaults.putStringArray(KEY_CARRIER_METERED_APN_TYPES_STRINGS,
new String[]{"default", "mms", "dun", "supl", "enterprise"});
sDefaults.putStringArray(KEY_CARRIER_METERED_ROAMING_APN_TYPES_STRINGS,
new String[]{"default", "mms", "dun", "supl", "enterprise"});
sDefaults.putIntArray(KEY_ONLY_SINGLE_DC_ALLOWED_INT_ARRAY,
new int[] {TelephonyManager.NETWORK_TYPE_CDMA, TelephonyManager.NETWORK_TYPE_1xRTT,
TelephonyManager.NETWORK_TYPE_EVDO_0, TelephonyManager.NETWORK_TYPE_EVDO_A,
TelephonyManager.NETWORK_TYPE_EVDO_B});
sDefaults.putIntArray(KEY_CAPABILITIES_EXEMPT_FROM_SINGLE_DC_CHECK_INT_ARRAY,
new int[] {NetworkCapabilities.NET_CAPABILITY_IMS});
sDefaults.putStringArray(KEY_GSM_ROAMING_NETWORKS_STRING_ARRAY, null);
sDefaults.putStringArray(KEY_GSM_NONROAMING_NETWORKS_STRING_ARRAY, null);
sDefaults.putString(KEY_CONFIG_IMS_PACKAGE_OVERRIDE_STRING, null);
sDefaults.putString(KEY_CONFIG_IMS_MMTEL_PACKAGE_OVERRIDE_STRING, null);
sDefaults.putString(KEY_CONFIG_IMS_RCS_PACKAGE_OVERRIDE_STRING, null);
sDefaults.putStringArray(KEY_CDMA_ROAMING_NETWORKS_STRING_ARRAY, null);
sDefaults.putStringArray(KEY_CDMA_NONROAMING_NETWORKS_STRING_ARRAY, null);
sDefaults.putStringArray(KEY_DIAL_STRING_REPLACE_STRING_ARRAY, null);
sDefaults.putStringArray(KEY_INTERNATIONAL_ROAMING_DIAL_STRING_REPLACE_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_FORCE_HOME_NETWORK_BOOL, false);
sDefaults.putInt(KEY_GSM_DTMF_TONE_DELAY_INT, 0);
sDefaults.putInt(KEY_IMS_DTMF_TONE_DELAY_INT, 0);
sDefaults.putInt(KEY_CDMA_DTMF_TONE_DELAY_INT, 100);
sDefaults.putBoolean(KEY_CALL_FORWARDING_MAP_NON_NUMBER_TO_VOICEMAIL_BOOL, false);
sDefaults.putBoolean(KEY_IGNORE_RTT_MODE_SETTING_BOOL, true);
sDefaults.putInt(KEY_CDMA_3WAYCALL_FLASH_DELAY_INT , 0);
sDefaults.putBoolean(KEY_SUPPORT_ADHOC_CONFERENCE_CALLS_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORT_ADD_CONFERENCE_PARTICIPANTS_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORT_CONFERENCE_CALL_BOOL, true);
sDefaults.putBoolean(KEY_SUPPORT_IMS_CONFERENCE_CALL_BOOL, true);
sDefaults.putBoolean(KEY_LOCAL_DISCONNECT_EMPTY_IMS_CONFERENCE_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORT_MANAGE_IMS_CONFERENCE_CALL_BOOL, true);
sDefaults.putBoolean(KEY_SUPPORT_IMS_CONFERENCE_EVENT_PACKAGE_BOOL, true);
sDefaults.putBoolean(KEY_SUPPORT_IMS_CONFERENCE_EVENT_PACKAGE_ON_PEER_BOOL, true);
sDefaults.putBoolean(KEY_SUPPORTS_DEVICE_TO_DEVICE_COMMUNICATION_USING_RTP_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORTS_SDP_NEGOTIATION_OF_D2D_RTP_HEADER_EXTENSIONS_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORTS_DEVICE_TO_DEVICE_COMMUNICATION_USING_DTMF_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORT_VIDEO_CONFERENCE_CALL_BOOL, false);
sDefaults.putBoolean(KEY_IS_IMS_CONFERENCE_SIZE_ENFORCED_BOOL, false);
sDefaults.putInt(KEY_IMS_CONFERENCE_SIZE_LIMIT_INT, 5);
sDefaults.putBoolean(KEY_DISPLAY_HD_AUDIO_PROPERTY_BOOL, true);
sDefaults.putBoolean(KEY_EDITABLE_ENHANCED_4G_LTE_BOOL, true);
sDefaults.putBoolean(KEY_HIDE_ENHANCED_4G_LTE_BOOL, false);
sDefaults.putBoolean(KEY_ENHANCED_4G_LTE_ON_BY_DEFAULT_BOOL, true);
sDefaults.putBoolean(KEY_HIDE_IMS_APN_BOOL, false);
sDefaults.putBoolean(KEY_HIDE_PREFERRED_NETWORK_TYPE_BOOL, false);
sDefaults.putBoolean(KEY_ALLOW_EMERGENCY_VIDEO_CALLS_BOOL, false);
sDefaults.putStringArray(KEY_ENABLE_APPS_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_EDITABLE_WFC_MODE_BOOL, true);
sDefaults.putStringArray(KEY_WFC_OPERATOR_ERROR_CODES_STRING_ARRAY, null);
sDefaults.putInt(KEY_WFC_SPN_FORMAT_IDX_INT, 0);
sDefaults.putInt(KEY_WFC_DATA_SPN_FORMAT_IDX_INT, 0);
sDefaults.putInt(KEY_WFC_FLIGHT_MODE_SPN_FORMAT_IDX_INT, -1);
sDefaults.putBoolean(KEY_WFC_SPN_USE_ROOT_LOCALE, false);
sDefaults.putString(KEY_WFC_EMERGENCY_ADDRESS_CARRIER_APP_STRING, "");
sDefaults.putBoolean(KEY_CONFIG_WIFI_DISABLE_IN_ECBM, false);
sDefaults.putBoolean(KEY_CARRIER_NAME_OVERRIDE_BOOL, false);
sDefaults.putString(KEY_CARRIER_NAME_STRING, "");
sDefaults.putBoolean(KEY_WFC_CARRIER_NAME_OVERRIDE_BY_PNN_BOOL, false);
sDefaults.putInt(KEY_CROSS_SIM_SPN_FORMAT_INT, 1);
sDefaults.putInt(KEY_SPN_DISPLAY_CONDITION_OVERRIDE_INT, -1);
sDefaults.putStringArray(KEY_SPDI_OVERRIDE_STRING_ARRAY, null);
sDefaults.putStringArray(KEY_PNN_OVERRIDE_STRING_ARRAY, null);
sDefaults.putStringArray(KEY_OPL_OVERRIDE_STRING_ARRAY, null);
sDefaults.putStringArray(KEY_EHPLMN_OVERRIDE_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_ALLOW_ERI_BOOL, false);
sDefaults.putBoolean(KEY_ENABLE_CARRIER_DISPLAY_NAME_RESOLVER_BOOL, false);
sDefaults.putString(KEY_SIM_COUNTRY_ISO_OVERRIDE_STRING, "");
sDefaults.putString(KEY_CARRIER_CALL_SCREENING_APP_STRING, "");
sDefaults.putString(KEY_CALL_REDIRECTION_SERVICE_COMPONENT_NAME_STRING, null);
sDefaults.putBoolean(KEY_CDMA_HOME_REGISTERED_PLMN_NAME_OVERRIDE_BOOL, false);
sDefaults.putString(KEY_CDMA_HOME_REGISTERED_PLMN_NAME_STRING, "");
sDefaults.putBoolean(KEY_SUPPORT_DIRECT_FDN_DIALING_BOOL, false);
sDefaults.putInt(KEY_FDN_NUMBER_LENGTH_LIMIT_INT, 20);
sDefaults.putBoolean(KEY_CARRIER_DEFAULT_DATA_ROAMING_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_SKIP_CF_FAIL_TO_DISABLE_DIALOG_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORT_ENHANCED_CALL_BLOCKING_BOOL, true);
// MMS defaults
sDefaults.putBoolean(KEY_MMS_ALIAS_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_MMS_ALLOW_ATTACH_AUDIO_BOOL, true);
sDefaults.putBoolean(KEY_MMS_APPEND_TRANSACTION_ID_BOOL, false);
sDefaults.putBoolean(KEY_MMS_GROUP_MMS_ENABLED_BOOL, true);
sDefaults.putBoolean(KEY_MMS_MMS_DELIVERY_REPORT_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_MMS_MMS_ENABLED_BOOL, true);
sDefaults.putBoolean(KEY_MMS_MMS_READ_REPORT_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_MMS_MULTIPART_SMS_ENABLED_BOOL, true);
sDefaults.putBoolean(KEY_MMS_NOTIFY_WAP_MMSC_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_MMS_SEND_MULTIPART_SMS_AS_SEPARATE_MESSAGES_BOOL, false);
sDefaults.putBoolean(KEY_MMS_SHOW_CELL_BROADCAST_APP_LINKS_BOOL, true);
sDefaults.putBoolean(KEY_MMS_SMS_DELIVERY_REPORT_ENABLED_BOOL, true);
sDefaults.putBoolean(KEY_MMS_SUPPORT_HTTP_CHARSET_HEADER_BOOL, false);
sDefaults.putBoolean(KEY_MMS_SUPPORT_MMS_CONTENT_DISPOSITION_BOOL, true);
sDefaults.putBoolean(KEY_MMS_CLOSE_CONNECTION_BOOL, false);
sDefaults.putInt(KEY_MMS_ALIAS_MAX_CHARS_INT, 48);
sDefaults.putInt(KEY_MMS_ALIAS_MIN_CHARS_INT, 2);
sDefaults.putInt(KEY_MMS_HTTP_SOCKET_TIMEOUT_INT, 60 * 1000);
sDefaults.putInt(KEY_MMS_MAX_IMAGE_HEIGHT_INT, 480);
sDefaults.putInt(KEY_MMS_MAX_IMAGE_WIDTH_INT, 640);
sDefaults.putInt(KEY_MMS_MAX_MESSAGE_SIZE_INT, 300 * 1024);
sDefaults.putInt(KEY_MMS_MESSAGE_TEXT_MAX_SIZE_INT, -1);
sDefaults.putInt(KEY_MMS_RECIPIENT_LIMIT_INT, Integer.MAX_VALUE);
sDefaults.putInt(KEY_MMS_SMS_TO_MMS_TEXT_LENGTH_THRESHOLD_INT, -1);
sDefaults.putInt(KEY_MMS_SMS_TO_MMS_TEXT_THRESHOLD_INT, -1);
sDefaults.putInt(KEY_MMS_SUBJECT_MAX_LENGTH_INT, 40);
sDefaults.putInt(KEY_MMS_NETWORK_RELEASE_TIMEOUT_MILLIS_INT, 5 * 1000);
sDefaults.putString(KEY_MMS_EMAIL_GATEWAY_NUMBER_STRING, "");
sDefaults.putString(KEY_MMS_HTTP_PARAMS_STRING, "");
sDefaults.putString(KEY_MMS_NAI_SUFFIX_STRING, "");
sDefaults.putString(KEY_MMS_UA_PROF_TAG_NAME_STRING, "x-wap-profile");
sDefaults.putString(KEY_MMS_UA_PROF_URL_STRING, "");
sDefaults.putString(KEY_MMS_USER_AGENT_STRING, "");
sDefaults.putBoolean(KEY_ALLOW_NON_EMERGENCY_CALLS_IN_ECM_BOOL, true);
sDefaults.putInt(KEY_EMERGENCY_SMS_MODE_TIMER_MS_INT, 0);
sDefaults.putBoolean(KEY_ALLOW_HOLD_CALL_DURING_EMERGENCY_BOOL, true);
sDefaults.putBoolean(KEY_USE_RCS_PRESENCE_BOOL, false);
sDefaults.putBoolean(KEY_USE_RCS_SIP_OPTIONS_BOOL, false);
sDefaults.putBoolean(KEY_FORCE_IMEI_BOOL, false);
sDefaults.putInt(
KEY_CDMA_ROAMING_MODE_INT, TelephonyManager.CDMA_ROAMING_MODE_RADIO_DEFAULT);
sDefaults.putBoolean(KEY_SUPPORT_CDMA_1X_VOICE_CALLS_BOOL, true);
sDefaults.putString(KEY_RCS_CONFIG_SERVER_URL_STRING, "");
// Carrier Signalling Receivers
sDefaults.putString(KEY_CARRIER_SETUP_APP_STRING, "");
sDefaults.putStringArray(KEY_CARRIER_APP_WAKE_SIGNAL_CONFIG_STRING_ARRAY,
new String[]{
"com.android.carrierdefaultapp/.CarrierDefaultBroadcastReceiver:"
+ "com.android.internal.telephony.CARRIER_SIGNAL_RESET"
});
sDefaults.putStringArray(KEY_CARRIER_APP_NO_WAKE_SIGNAL_CONFIG_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_CARRIER_APP_REQUIRED_DURING_SIM_SETUP_BOOL, false);
// Default carrier app configurations
sDefaults.putStringArray(KEY_CARRIER_DEFAULT_ACTIONS_ON_REDIRECTION_STRING_ARRAY,
new String[]{
"9, 4, 1"
//9: CARRIER_ACTION_REGISTER_NETWORK_AVAIL
//4: CARRIER_ACTION_DISABLE_METERED_APNS
//1: CARRIER_ACTION_SHOW_PORTAL_NOTIFICATION
});
sDefaults.putStringArray(KEY_CARRIER_DEFAULT_ACTIONS_ON_RESET, new String[]{
"6, 8"
//6: CARRIER_ACTION_CANCEL_ALL_NOTIFICATIONS
//8: CARRIER_ACTION_DISABLE_DEFAULT_URL_HANDLER
});
sDefaults.putStringArray(KEY_CARRIER_DEFAULT_ACTIONS_ON_DEFAULT_NETWORK_AVAILABLE,
new String[] {
false + ": 7", //7: CARRIER_ACTION_ENABLE_DEFAULT_URL_HANDLER
true + ": 8" //8: CARRIER_ACTION_DISABLE_DEFAULT_URL_HANDLER
});
sDefaults.putStringArray(KEY_CARRIER_DEFAULT_REDIRECTION_URL_STRING_ARRAY, null);
sDefaults.putInt(KEY_MONTHLY_DATA_CYCLE_DAY_INT, DATA_CYCLE_USE_PLATFORM_DEFAULT);
sDefaults.putLong(KEY_DATA_WARNING_THRESHOLD_BYTES_LONG, DATA_CYCLE_USE_PLATFORM_DEFAULT);
sDefaults.putBoolean(KEY_DATA_WARNING_NOTIFICATION_BOOL, true);
sDefaults.putBoolean(KEY_LIMITED_SIM_FUNCTION_NOTIFICATION_FOR_DSDS_BOOL, false);
sDefaults.putLong(KEY_DATA_LIMIT_THRESHOLD_BYTES_LONG, DATA_CYCLE_USE_PLATFORM_DEFAULT);
sDefaults.putBoolean(KEY_DATA_LIMIT_NOTIFICATION_BOOL, true);
sDefaults.putBoolean(KEY_DATA_RAPID_NOTIFICATION_BOOL, true);
// Rat families: {GPRS, EDGE}, {EVDO, EVDO_A, EVDO_B}, {UMTS, HSPA, HSDPA, HSUPA, HSPAP},
// {LTE, LTE_CA}
// Order is important - lowest precedence first
sDefaults.putStringArray(KEY_RATCHET_RAT_FAMILIES,
new String[]{"1,2", "7,8,12", "3,11,9,10,15", "14,19"});
sDefaults.putBoolean(KEY_TREAT_DOWNGRADED_VIDEO_CALLS_AS_VIDEO_CALLS_BOOL, false);
sDefaults.putBoolean(KEY_DROP_VIDEO_CALL_WHEN_ANSWERING_AUDIO_CALL_BOOL, false);
sDefaults.putBoolean(KEY_ALLOW_MERGE_WIFI_CALLS_WHEN_VOWIFI_OFF_BOOL, true);
sDefaults.putBoolean(KEY_ALLOW_ADD_CALL_DURING_VIDEO_CALL_BOOL, true);
sDefaults.putBoolean(KEY_ALLOW_HOLD_VIDEO_CALL_BOOL, true);
sDefaults.putBoolean(KEY_WIFI_CALLS_CAN_BE_HD_AUDIO, true);
sDefaults.putBoolean(KEY_VIDEO_CALLS_CAN_BE_HD_AUDIO, true);
sDefaults.putBoolean(KEY_GSM_CDMA_CALLS_CAN_BE_HD_AUDIO, false);
sDefaults.putBoolean(KEY_ALLOW_VIDEO_CALLING_FALLBACK_BOOL, true);
sDefaults.putStringArray(KEY_IMS_REASONINFO_MAPPING_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_ENHANCED_4G_LTE_TITLE_VARIANT_BOOL, false);
sDefaults.putInt(KEY_ENHANCED_4G_LTE_TITLE_VARIANT_INT, 0);
sDefaults.putBoolean(KEY_NOTIFY_VT_HANDOVER_TO_WIFI_FAILURE_BOOL, false);
sDefaults.putStringArray(KEY_FILTERED_CNAP_NAMES_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_EDITABLE_WFC_ROAMING_MODE_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_BLOCKING_PAY_PHONE_OPTION_BOOL, false);
sDefaults.putBoolean(KEY_USE_WFC_HOME_NETWORK_MODE_IN_ROAMING_NETWORK_BOOL, false);
sDefaults.putBoolean(KEY_STK_DISABLE_LAUNCH_BROWSER_BOOL, false);
sDefaults.putBoolean(KEY_ALLOW_METERED_NETWORK_FOR_CERT_DOWNLOAD_BOOL, false);
sDefaults.putBoolean(KEY_HIDE_DIGITS_HELPER_TEXT_ON_STK_INPUT_SCREEN_BOOL, true);
sDefaults.putInt(KEY_PREF_NETWORK_NOTIFICATION_DELAY_INT, -1);
sDefaults.putInt(KEY_EMERGENCY_NOTIFICATION_DELAY_INT, -1);
sDefaults.putBoolean(KEY_ALLOW_USSD_REQUESTS_VIA_TELEPHONY_MANAGER_BOOL, true);
sDefaults.putBoolean(KEY_SUPPORT_3GPP_CALL_FORWARDING_WHILE_ROAMING_BOOL, true);
sDefaults.putBoolean(KEY_DISPLAY_VOICEMAIL_NUMBER_AS_DEFAULT_CALL_FORWARDING_NUMBER_BOOL,
false);
sDefaults.putBoolean(KEY_NOTIFY_INTERNATIONAL_CALL_ON_WFC_BOOL, false);
sDefaults.putBoolean(KEY_HIDE_PRESET_APN_DETAILS_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_VIDEO_CALL_CHARGES_ALERT_DIALOG_BOOL, false);
sDefaults.putStringArray(KEY_CALL_FORWARDING_BLOCKS_WHILE_ROAMING_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_SUPPORT_IMS_CALL_FORWARDING_WHILE_ROAMING_BOOL, true);
sDefaults.putInt(KEY_LTE_EARFCNS_RSRP_BOOST_INT, 0);
sDefaults.putStringArray(KEY_BOOSTED_LTE_EARFCNS_STRING_ARRAY, null);
sDefaults.putIntArray(KEY_NRARFCNS_RSRP_BOOST_INT_ARRAY, null);
sDefaults.putStringArray(KEY_BOOSTED_NRARFCNS_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_USE_ONLY_RSRP_FOR_LTE_SIGNAL_BAR_BOOL, false);
sDefaults.putBoolean(KEY_DISABLE_VOICE_BARRING_NOTIFICATION_BOOL, false);
sDefaults.putInt(IMSI_KEY_AVAILABILITY_INT, 0);
sDefaults.putString(IMSI_KEY_DOWNLOAD_URL_STRING, null);
sDefaults.putString(IMSI_CARRIER_PUBLIC_KEY_EPDG_STRING, null);
sDefaults.putString(IMSI_CARRIER_PUBLIC_KEY_WLAN_STRING, null);
sDefaults.putBoolean(KEY_CONVERT_CDMA_CALLER_ID_MMI_CODES_WHILE_ROAMING_ON_3GPP_BOOL,
false);
sDefaults.putStringArray(KEY_NON_ROAMING_OPERATOR_STRING_ARRAY, null);
sDefaults.putStringArray(KEY_ROAMING_OPERATOR_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_SHOW_ROAMING_INDICATOR_BOOL, true);
sDefaults.putBoolean(KEY_SHOW_IMS_REGISTRATION_STATUS_BOOL, false);
sDefaults.putBoolean(KEY_RTT_SUPPORTED_BOOL, false);
sDefaults.putBoolean(KEY_TTY_SUPPORTED_BOOL, true);
sDefaults.putBoolean(KEY_RTT_AUTO_UPGRADE_BOOL, false);
sDefaults.putBoolean(KEY_RTT_SUPPORTED_FOR_VT_BOOL, false);
sDefaults.putBoolean(KEY_RTT_UPGRADE_SUPPORTED_BOOL, false);
sDefaults.putBoolean(KEY_RTT_DOWNGRADE_SUPPORTED_BOOL, false);
sDefaults.putBoolean(KEY_HIDE_TTY_HCO_VCO_WITH_RTT_BOOL, false);
sDefaults.putBoolean(KEY_RTT_SUPPORTED_WHILE_ROAMING_BOOL, false);
sDefaults.putBoolean(KEY_RTT_UPGRADE_SUPPORTED_FOR_DOWNGRADED_VT_CALL_BOOL, true);
sDefaults.putBoolean(KEY_VT_UPGRADE_SUPPORTED_FOR_DOWNGRADED_RTT_CALL_BOOL, true);
sDefaults.putBoolean(KEY_DISABLE_CHARGE_INDICATION_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORT_NO_REPLY_TIMER_FOR_CFNRY_BOOL, true);
sDefaults.putStringArray(KEY_FEATURE_ACCESS_CODES_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_IDENTIFY_HIGH_DEFINITION_CALLS_IN_CALL_LOG_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_PRECISE_FAILED_CAUSE_BOOL, false);
sDefaults.putBoolean(KEY_SPN_DISPLAY_RULE_USE_ROAMING_FROM_SERVICE_STATE_BOOL, false);
sDefaults.putBoolean(KEY_ALWAYS_SHOW_DATA_RAT_ICON_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_4G_FOR_LTE_DATA_ICON_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_4GLTE_FOR_LTE_DATA_ICON_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_4G_FOR_3G_DATA_ICON_BOOL, false);
sDefaults.putString(KEY_OPERATOR_NAME_FILTER_PATTERN_STRING, "");
sDefaults.putString(KEY_SHOW_CARRIER_DATA_ICON_PATTERN_STRING, "");
sDefaults.putBoolean(KEY_HIDE_LTE_PLUS_DATA_ICON_BOOL, true);
sDefaults.putBoolean(KEY_SHOW_5G_SLICE_ICON_BOOL, true);
sDefaults.putInt(KEY_LTE_PLUS_THRESHOLD_BANDWIDTH_KHZ_INT, 20000);
sDefaults.putInt(KEY_NR_ADVANCED_THRESHOLD_BANDWIDTH_KHZ_INT, 0);
sDefaults.putBoolean(KEY_INCLUDE_LTE_FOR_NR_ADVANCED_THRESHOLD_BANDWIDTH_BOOL, false);
sDefaults.putBoolean(KEY_RATCHET_NR_ADVANCED_BANDWIDTH_IF_RRC_IDLE_BOOL, false);
sDefaults.putIntArray(KEY_CARRIER_NR_AVAILABILITIES_INT_ARRAY,
new int[]{CARRIER_NR_AVAILABILITY_NSA, CARRIER_NR_AVAILABILITY_SA});
sDefaults.putBoolean(KEY_LTE_ENABLED_BOOL, true);
sDefaults.putBoolean(KEY_SUPPORT_TDSCDMA_BOOL, false);
sDefaults.putStringArray(KEY_SUPPORT_TDSCDMA_ROAMING_NETWORKS_STRING_ARRAY, null);
sDefaults.putBoolean(KEY_WORLD_MODE_ENABLED_BOOL, false);
sDefaults.putString(KEY_CARRIER_SETTINGS_ACTIVITY_COMPONENT_NAME_STRING, "");
sDefaults.putBoolean(KEY_SHOW_OPERATOR_NAME_IN_STATUSBAR_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_CONFIG_APPLIED_BOOL, false);
sDefaults.putBoolean(KEY_CHECK_PRICING_WITH_CARRIER_FOR_DATA_ROAMING_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_DATA_CONNECTED_ROAMING_NOTIFICATION_BOOL, false);
sDefaults.putStringArray(KEY_DATA_CONNECTED_ROAMING_NOTIFICATION_EXCLUDED_MCCS_STRING_ARRAY,
new String[0]);
sDefaults.putStringArray(
KEY_DATA_CONNECTED_ROAMING_NOTIFICATION_INCLUDED_MCC_MNCS_STRING_ARRAY,
new String[0]);
sDefaults.putIntArray(KEY_LTE_RSRP_THRESHOLDS_INT_ARRAY,
// Boundaries: [-140 dBm, -44 dBm]
new int[] {
-128, /* SIGNAL_STRENGTH_POOR */
-118, /* SIGNAL_STRENGTH_MODERATE */
-108, /* SIGNAL_STRENGTH_GOOD */
-98, /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putIntArray(KEY_LTE_RSRQ_THRESHOLDS_INT_ARRAY,
// Boundaries: [-34 dB, 3 dB]
new int[] {
-20, /* SIGNAL_STRENGTH_POOR */
-17, /* SIGNAL_STRENGTH_MODERATE */
-14, /* SIGNAL_STRENGTH_GOOD */
-11 /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putIntArray(KEY_LTE_RSSNR_THRESHOLDS_INT_ARRAY,
// Boundaries: [-20 dBm, 30 dBm]
new int[] {
-3, /* SIGNAL_STRENGTH_POOR */
1, /* SIGNAL_STRENGTH_MODERATE */
5, /* SIGNAL_STRENGTH_GOOD */
13 /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putIntArray(KEY_WCDMA_RSCP_THRESHOLDS_INT_ARRAY,
// Boundaries: [-120 dBm, -25 dBm]
new int[] {
-115, /* SIGNAL_STRENGTH_POOR */
-105, /* SIGNAL_STRENGTH_MODERATE */
-95, /* SIGNAL_STRENGTH_GOOD */
-85 /* SIGNAL_STRENGTH_GREAT */
});
// TODO(b/249896055): On enabling ECNO measurement part for Signal Bar level indication
// system functionality, below values to be rechecked.
sDefaults.putIntArray(KEY_WCDMA_ECNO_THRESHOLDS_INT_ARRAY,
// Boundaries: [-24 dBm, 1 dBm]
new int[] {
-24, /* SIGNAL_STRENGTH_POOR */
-14, /* SIGNAL_STRENGTH_MODERATE */
-6, /* SIGNAL_STRENGTH_GOOD */
1 /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putIntArray(KEY_5G_NR_SSRSRP_THRESHOLDS_INT_ARRAY,
// Boundaries: [-140 dB, -44 dB]
new int[] {
-110, /* SIGNAL_STRENGTH_POOR */
-90, /* SIGNAL_STRENGTH_MODERATE */
-80, /* SIGNAL_STRENGTH_GOOD */
-65, /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putIntArray(KEY_5G_NR_SSRSRQ_THRESHOLDS_INT_ARRAY,
// Boundaries: [-43 dB, 20 dB]
new int[] {
-31, /* SIGNAL_STRENGTH_POOR */
-19, /* SIGNAL_STRENGTH_MODERATE */
-7, /* SIGNAL_STRENGTH_GOOD */
6 /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putIntArray(KEY_5G_NR_SSSINR_THRESHOLDS_INT_ARRAY,
// Boundaries: [-23 dB, 40 dB]
new int[] {
-5, /* SIGNAL_STRENGTH_POOR */
5, /* SIGNAL_STRENGTH_MODERATE */
15, /* SIGNAL_STRENGTH_GOOD */
30 /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putInt(KEY_GERAN_RSSI_HYSTERESIS_DB_INT, 2);
sDefaults.putInt(KEY_UTRAN_RSCP_HYSTERESIS_DB_INT, 2);
sDefaults.putInt(KEY_EUTRAN_RSRP_HYSTERESIS_DB_INT, 2);
sDefaults.putInt(KEY_EUTRAN_RSRQ_HYSTERESIS_DB_INT, 2);
sDefaults.putInt(KEY_EUTRAN_RSSNR_HYSTERESIS_DB_INT, 2);
sDefaults.putInt(KEY_NGRAN_SSRSRP_HYSTERESIS_DB_INT, 2);
sDefaults.putInt(KEY_NGRAN_SSRSRQ_HYSTERESIS_DB_INT, 2);
sDefaults.putInt(KEY_NGRAN_SSSINR_HYSTERESIS_DB_INT, 2);
sDefaults.putInt(KEY_UTRAN_ECNO_HYSTERESIS_DB_INT, 2);
sDefaults.putInt(KEY_PARAMETERS_USE_FOR_5G_NR_SIGNAL_BAR_INT,
CellSignalStrengthNr.USE_SSRSRP);
sDefaults.putBoolean(KEY_SIGNAL_STRENGTH_NR_NSA_USE_LTE_AS_PRIMARY_BOOL, true);
sDefaults.putStringArray(KEY_BANDWIDTH_STRING_ARRAY, new String[]{
"GPRS:24,24", "EDGE:70,18", "UMTS:115,115", "CDMA:14,14",
"1xRTT:30,30", "EvDo_0:750,48", "EvDo_A:950,550", "HSDPA:4300,620",
"HSUPA:4300,1800", "HSPA:4300,1800", "EvDo_B:1500,550", "eHRPD:750,48",
"iDEN:14,14", "LTE:30000,15000", "HSPA+:13000,3400", "GSM:24,24",
"TD_SCDMA:115,115", "LTE_CA:30000,15000", "NR_NSA:47000,18000",
"NR_NSA_MMWAVE:145000,60000", "NR_SA:145000,60000", "NR_SA_MMWAVE:145000,60000"});
sDefaults.putBoolean(KEY_BANDWIDTH_NR_NSA_USE_LTE_VALUE_FOR_UPLINK_BOOL, false);
sDefaults.putString(KEY_WCDMA_DEFAULT_SIGNAL_STRENGTH_MEASUREMENT_STRING, "rssi");
sDefaults.putLong(
KEY_UNDELIVERED_SMS_MESSAGE_EXPIRATION_TIME, (long) (60 * 60 * 1000) * 24 * 7);
sDefaults.putBoolean(KEY_CONFIG_SHOW_ORIG_DIAL_STRING_FOR_CDMA_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_CALL_BLOCKING_DISABLED_NOTIFICATION_ALWAYS_BOOL, false);
sDefaults.putBoolean(KEY_CALL_FORWARDING_OVER_UT_WARNING_BOOL, false);
sDefaults.putBoolean(KEY_CALL_BARRING_OVER_UT_WARNING_BOOL, false);
sDefaults.putBoolean(KEY_CALLER_ID_OVER_UT_WARNING_BOOL, false);
sDefaults.putBoolean(KEY_CALL_WAITING_OVER_UT_WARNING_BOOL, false);
sDefaults.putBoolean(KEY_SUPPORT_CLIR_NETWORK_DEFAULT_BOOL, true);
sDefaults.putBoolean(KEY_SUPPORT_EMERGENCY_DIALER_SHORTCUT_BOOL, true);
sDefaults.putBoolean(KEY_USE_CALL_FORWARDING_USSD_BOOL, false);
sDefaults.putBoolean(KEY_USE_CALLER_ID_USSD_BOOL, false);
sDefaults.putBoolean(KEY_USE_CALL_WAITING_USSD_BOOL, false);
sDefaults.putInt(KEY_CALL_WAITING_SERVICE_CLASS_INT, 1 /* SERVICE_CLASS_VOICE */);
sDefaults.putString(KEY_5G_ICON_CONFIGURATION_STRING,
"connected_mmwave:5G,connected:5G,not_restricted_rrc_idle:5G,"
+ "not_restricted_rrc_con:5G");
sDefaults.putString(KEY_5G_ICON_DISPLAY_GRACE_PERIOD_STRING, "");
sDefaults.putString(KEY_5G_ICON_DISPLAY_SECONDARY_GRACE_PERIOD_STRING, "");
sDefaults.putBoolean(KEY_NR_TIMERS_RESET_IF_NON_ENDC_AND_RRC_IDLE_BOOL, false);
/* Default value is 1 hour. */
sDefaults.putLong(KEY_5G_WATCHDOG_TIME_MS_LONG, 3600000);
sDefaults.putIntArray(KEY_ADDITIONAL_NR_ADVANCED_BANDS_INT_ARRAY, new int[0]);
sDefaults.putInt(KEY_NR_ADVANCED_CAPABLE_PCO_ID_INT, 0);
sDefaults.putBoolean(KEY_ENABLE_NR_ADVANCED_WHILE_ROAMING_BOOL, true);
sDefaults.putBoolean(KEY_LTE_ENDC_USING_USER_DATA_FOR_RRC_DETECTION_BOOL, false);
sDefaults.putStringArray(KEY_UNMETERED_NETWORK_TYPES_STRING_ARRAY, new String[] {
"NR_NSA", "NR_NSA_MMWAVE", "NR_SA", "NR_SA_MMWAVE"});
sDefaults.putStringArray(KEY_ROAMING_UNMETERED_NETWORK_TYPES_STRING_ARRAY, new String[0]);
sDefaults.putBoolean(KEY_ASCII_7_BIT_SUPPORT_FOR_LONG_MESSAGE_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_WIFI_CALLING_ICON_IN_STATUS_BAR_BOOL, false);
sDefaults.putBoolean(KEY_CARRIER_SUPPORTS_OPP_DATA_AUTO_PROVISIONING_BOOL, false);
sDefaults.putString(KEY_SMDP_SERVER_ADDRESS_STRING, "");
sDefaults.putInt(KEY_ESIM_MAX_DOWNLOAD_RETRY_ATTEMPTS_INT, 5);
sDefaults.putInt(KEY_ESIM_DOWNLOAD_RETRY_BACKOFF_TIMER_SEC_INT, 60);
sDefaults.putIntArray(KEY_OPPORTUNISTIC_CARRIER_IDS_INT_ARRAY, new int[] {0});
sDefaults.putBoolean(KEY_OPPORTUNISTIC_ESIM_DOWNLOAD_VIA_WIFI_ONLY_BOOL, false);
/* Default value is minimum RSRP level needed for SIGNAL_STRENGTH_GOOD */
sDefaults.putInt(KEY_OPPORTUNISTIC_NETWORK_ENTRY_THRESHOLD_RSRP_INT, -108);
/* Default value is minimum RSRP level needed for SIGNAL_STRENGTH_MODERATE */
sDefaults.putInt(KEY_OPPORTUNISTIC_NETWORK_EXIT_THRESHOLD_RSRP_INT, -118);
/* Default value is minimum RSSNR level needed for SIGNAL_STRENGTH_GOOD */
sDefaults.putInt(KEY_OPPORTUNISTIC_NETWORK_ENTRY_THRESHOLD_RSSNR_INT, 5);
/* Default value is minimum RSSNR level needed for SIGNAL_STRENGTH_MODERATE */
sDefaults.putInt(KEY_OPPORTUNISTIC_NETWORK_EXIT_THRESHOLD_RSSNR_INT, 1);
/* Default value is 1024 kbps */
sDefaults.putInt(KEY_OPPORTUNISTIC_NETWORK_ENTRY_THRESHOLD_BANDWIDTH_INT, 1024);
/* Default value is 10 seconds */
sDefaults.putLong(KEY_OPPORTUNISTIC_NETWORK_ENTRY_OR_EXIT_HYSTERESIS_TIME_LONG, 10000);
/* Default value is 10 seconds. */
sDefaults.putLong(KEY_OPPORTUNISTIC_NETWORK_DATA_SWITCH_HYSTERESIS_TIME_LONG, 10000);
/* Default value is 3 seconds. */
sDefaults.putLong(KEY_OPPORTUNISTIC_NETWORK_DATA_SWITCH_EXIT_HYSTERESIS_TIME_LONG, 3000);
sDefaults.putAll(OpportunisticNetwork.getDefaults());
sDefaults.putBoolean(KEY_PING_TEST_BEFORE_DATA_SWITCH_BOOL, true);
sDefaults.putBoolean(KEY_SWITCH_DATA_TO_PRIMARY_IF_PRIMARY_IS_OOS_BOOL, true);
/* Default value is 60 seconds. */
sDefaults.putLong(KEY_OPPORTUNISTIC_NETWORK_PING_PONG_TIME_LONG, 60000);
/* Default value is 10 seconds. */
sDefaults.putLong(KEY_OPPORTUNISTIC_NETWORK_BACKOFF_TIME_LONG, 10000);
/* Default value is 60 seconds. */
sDefaults.putLong(KEY_OPPORTUNISTIC_NETWORK_MAX_BACKOFF_TIME_LONG, 60000);
sDefaults.putBoolean(KEY_ENABLE_4G_OPPORTUNISTIC_NETWORK_SCAN_BOOL, true);
sDefaults.putLong(KEY_TIME_TO_SWITCH_BACK_TO_PRIMARY_IF_OPPORTUNISTIC_OOS_LONG, 60000L);
sDefaults.putLong(KEY_OPPORTUNISTIC_TIME_TO_SCAN_AFTER_CAPABILITY_SWITCH_TO_PRIMARY_LONG,
120000L);
sDefaults.putAll(ImsServiceEntitlement.getDefaults());
sDefaults.putAll(Gps.getDefaults());
sDefaults.putIntArray(KEY_CDMA_ENHANCED_ROAMING_INDICATOR_FOR_HOME_NETWORK_INT_ARRAY,
new int[] {
1 /* Roaming Indicator Off */
});
sDefaults.putStringArray(KEY_EMERGENCY_NUMBER_PREFIX_STRING_ARRAY, new String[0]);
sDefaults.putBoolean(KEY_CARRIER_SUPPORTS_CALLER_ID_VERTICAL_SERVICE_CODES_BOOL, false);
sDefaults.putBoolean(KEY_USE_USIM_BOOL, false);
sDefaults.putBoolean(KEY_SHOW_WFC_LOCATION_PRIVACY_POLICY_BOOL, false);
sDefaults.putBoolean(KEY_AUTO_CANCEL_CS_REJECT_NOTIFICATION, true);
sDefaults.putString(KEY_SMART_FORWARDING_CONFIG_COMPONENT_NAME_STRING, "");
sDefaults.putBoolean(KEY_ALWAYS_SHOW_PRIMARY_SIGNAL_BAR_IN_OPPORTUNISTIC_NETWORK_BOOLEAN,
false);
sDefaults.putString(KEY_SUBSCRIPTION_GROUP_UUID_STRING, "");
sDefaults.putBoolean(KEY_IS_OPPORTUNISTIC_SUBSCRIPTION_BOOL, false);
sDefaults.putIntArray(KEY_GSM_RSSI_THRESHOLDS_INT_ARRAY,
new int[] {
-107, /* SIGNAL_STRENGTH_POOR */
-103, /* SIGNAL_STRENGTH_MODERATE */
-97, /* SIGNAL_STRENGTH_GOOD */
-89, /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putBoolean(KEY_SUPPORT_WPS_OVER_IMS_BOOL, true);
sDefaults.putAll(Ims.getDefaults());
sDefaults.putAll(ImsVoice.getDefaults());
sDefaults.putAll(ImsSms.getDefaults());
sDefaults.putAll(ImsRtt.getDefaults());
sDefaults.putAll(ImsEmergency.getDefaults());
sDefaults.putAll(ImsVt.getDefaults());
sDefaults.putAll(ImsWfc.getDefaults());
sDefaults.putAll(ImsSs.getDefaults());
sDefaults.putAll(Bsf.getDefaults());
sDefaults.putAll(Iwlan.getDefaults());
sDefaults.putStringArray(KEY_CARRIER_CERTIFICATE_STRING_ARRAY, new String[0]);
sDefaults.putBoolean(KEY_FORMAT_INCOMING_NUMBER_TO_NATIONAL_FOR_JP_BOOL, false);
if (Flags.doNotOverridePreciseLabel()) {
sDefaults.putIntArray(KEY_DISCONNECT_CAUSE_PLAY_BUSYTONE_INT_ARRAY, new int[]{});
} else {
sDefaults.putIntArray(KEY_DISCONNECT_CAUSE_PLAY_BUSYTONE_INT_ARRAY,
new int[]{4 /* BUSY */});
}
sDefaults.putBoolean(KEY_PREVENT_CLIR_ACTIVATION_AND_DEACTIVATION_CODE_BOOL, false);
sDefaults.putLong(KEY_DATA_SWITCH_VALIDATION_TIMEOUT_LONG, 5000);
sDefaults.putStringArray(KEY_MMI_TWO_DIGIT_NUMBER_PATTERN_STRING_ARRAY, new String[0]);
sDefaults.putInt(KEY_PARAMETERS_USED_FOR_LTE_SIGNAL_BAR_INT,
CellSignalStrengthLte.USE_RSRP);
sDefaults.putInt(KEY_MIN_UDP_PORT_4500_NAT_TIMEOUT_SEC_INT, 300);
sDefaults.putInt(KEY_PREFERRED_IKE_PROTOCOL_INT, -1);
// Default wifi configurations.
sDefaults.putAll(Wifi.getDefaults());
sDefaults.putBoolean(ENABLE_EAP_METHOD_PREFIX_BOOL, false);
sDefaults.putInt(KEY_GBA_MODE_INT, GBA_ME);
sDefaults.putInt(KEY_GBA_UA_SECURITY_ORGANIZATION_INT,
UaSecurityProtocolIdentifier.ORG_3GPP);
sDefaults.putInt(KEY_GBA_UA_SECURITY_PROTOCOL_INT,
UaSecurityProtocolIdentifier.UA_SECURITY_PROTOCOL_3GPP_TLS_DEFAULT);
sDefaults.putInt(KEY_GBA_UA_TLS_CIPHER_SUITE_INT, TlsParams.TLS_NULL_WITH_NULL_NULL);
sDefaults.putBoolean(KEY_SHOW_FORWARDED_NUMBER_BOOL, false);
sDefaults.putLong(KEY_DATA_SWITCH_VALIDATION_MIN_INTERVAL_MILLIS_LONG,
TimeUnit.DAYS.toMillis(1));
sDefaults.putStringArray(KEY_MISSED_INCOMING_CALL_SMS_ORIGINATOR_STRING_ARRAY,
new String[0]);
sDefaults.putStringArray(KEY_APN_PRIORITY_STRING_ARRAY, new String[] {
"enterprise:0", "default:1", "mms:2", "supl:2", "dun:2", "hipri:3", "fota:2",
"ims:2", "cbs:2", "ia:2", "emergency:2", "mcx:3", "xcap:3"
});
// Do not modify the priority unless you know what you are doing. This will have significant
// impacts on the order of data network setup.
sDefaults.putStringArray(
KEY_TELEPHONY_NETWORK_CAPABILITY_PRIORITIES_STRING_ARRAY, new String[] {
"eims:90", "supl:80", "mms:70", "xcap:70", "cbs:50", "mcx:50", "fota:50",
"ims:40", "dun:30", "enterprise:20", "internet:20"
});
sDefaults.putStringArray(
KEY_TELEPHONY_DATA_SETUP_RETRY_RULES_STRING_ARRAY, new String[] {
"capabilities=eims, retry_interval=1000, maximum_retries=20",
// Permanent fail causes. When setup data call fails with the following
// fail causes, telephony data frameworks will stop timer-based retry on
// the failed APN until power cycle, APM, or some special events. Note that
// even timer-based retry is not performed, condition-based (RAT changes,
// registration state changes) retry can still happen.
"permanent_fail_causes=8|27|28|29|30|32|33|35|50|51|111|-5|-6|65537|65538|"
+ "-3|65543|65547|2252|2253|2254, retry_interval=2500",
"capabilities=mms|supl|cbs, retry_interval=2000",
"capabilities=internet|enterprise|dun|ims|fota, retry_interval=2500|3000|"
+ "5000|10000|15000|20000|40000|60000|120000|240000|"
+ "600000|1200000|1800000, maximum_retries=20"
});
sDefaults.putStringArray(
KEY_TELEPHONY_DATA_HANDOVER_RETRY_RULES_STRING_ARRAY, new String[] {
"retry_interval=1000|2000|4000|8000|16000, maximum_retries=5"
});
sDefaults.putBoolean(KEY_DELAY_IMS_TEAR_DOWN_UNTIL_CALL_END_BOOL, false);
sDefaults.putStringArray(KEY_MISSED_INCOMING_CALL_SMS_PATTERN_STRING_ARRAY, new String[0]);
sDefaults.putPersistableBundle(
KEY_CARRIER_SUPPORTED_SATELLITE_SERVICES_PER_PROVIDER_BUNDLE,
PersistableBundle.EMPTY);
sDefaults.putBoolean(KEY_SATELLITE_ATTACH_SUPPORTED_BOOL, false);
sDefaults.putInt(KEY_SATELLITE_CONNECTION_HYSTERESIS_SEC_INT, 300);
sDefaults.putIntArray(KEY_NTN_LTE_RSRP_THRESHOLDS_INT_ARRAY,
// Boundaries: [-140 dBm, -44 dBm]
new int[]{
-128, /* SIGNAL_STRENGTH_POOR */
-118, /* SIGNAL_STRENGTH_MODERATE */
-108, /* SIGNAL_STRENGTH_GOOD */
-98 /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putIntArray(KEY_NTN_LTE_RSRQ_THRESHOLDS_INT_ARRAY,
// Boundaries: [-34 dB, 3 dB]
new int[]{
-20, /* SIGNAL_STRENGTH_POOR */
-17, /* SIGNAL_STRENGTH_MODERATE */
-14, /* SIGNAL_STRENGTH_GOOD */
-11 /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putIntArray(KEY_NTN_LTE_RSSNR_THRESHOLDS_INT_ARRAY,
// Boundaries: [-20 dBm, 30 dBm]
new int[] {
-3, /* SIGNAL_STRENGTH_POOR */
1, /* SIGNAL_STRENGTH_MODERATE */
5, /* SIGNAL_STRENGTH_GOOD */
13 /* SIGNAL_STRENGTH_GREAT */
});
sDefaults.putInt(KEY_PARAMETERS_USED_FOR_NTN_LTE_SIGNAL_BAR_INT,
CellSignalStrengthLte.USE_RSRP);
sDefaults.putBoolean(KEY_DISABLE_DUN_APN_WHILE_ROAMING_WITH_PRESET_APN_BOOL, false);
sDefaults.putString(KEY_DEFAULT_PREFERRED_APN_NAME_STRING, "");
sDefaults.putBoolean(KEY_SUPPORTS_CALL_COMPOSER_BOOL, false);
sDefaults.putString(KEY_CALL_COMPOSER_PICTURE_SERVER_URL_STRING, "");
sDefaults.putBoolean(KEY_USE_ACS_FOR_RCS_BOOL, false);
sDefaults.putBoolean(KEY_NETWORK_TEMP_NOT_METERED_SUPPORTED_BOOL, true);
sDefaults.putInt(KEY_DEFAULT_RTT_MODE_INT, 0);
sDefaults.putBoolean(KEY_STORE_SIM_PIN_FOR_UNATTENDED_REBOOT_BOOL, true);
sDefaults.putBoolean(KEY_HIDE_ENABLE_2G, false);
sDefaults.putStringArray(KEY_ALLOWED_INITIAL_ATTACH_APN_TYPES_STRING_ARRAY,
new String[]{"ia", "default"});
sDefaults.putBoolean(KEY_CARRIER_PROVISIONS_WIFI_MERGED_NETWORKS_BOOL, false);
sDefaults.putBoolean(KEY_USE_IP_FOR_CALLING_INDICATOR_BOOL, false);
sDefaults.putBoolean(KEY_DISPLAY_CALL_STRENGTH_INDICATOR_BOOL, true);
sDefaults.putString(KEY_CARRIER_PROVISIONING_APP_STRING, "");
sDefaults.putBoolean(KEY_DISPLAY_NO_DATA_NOTIFICATION_ON_PERMANENT_FAILURE_BOOL, false);
sDefaults.putBoolean(KEY_UNTHROTTLE_DATA_RETRY_WHEN_TAC_CHANGES_BOOL, false);
sDefaults.putBoolean(KEY_VONR_SETTING_VISIBILITY_BOOL, true);
sDefaults.putBoolean(KEY_VONR_ENABLED_BOOL, false);
sDefaults.putBoolean(KEY_VONR_ON_BY_DEFAULT_BOOL, true);
sDefaults.putIntArray(KEY_SUPPORTED_PREMIUM_CAPABILITIES_INT_ARRAY, new int[0]);
sDefaults.putLong(KEY_PREMIUM_CAPABILITY_NOTIFICATION_DISPLAY_TIMEOUT_MILLIS_LONG,
TimeUnit.MINUTES.toMillis(30));
sDefaults.putLong(KEY_PREMIUM_CAPABILITY_NOTIFICATION_BACKOFF_HYSTERESIS_TIME_MILLIS_LONG,
TimeUnit.MINUTES.toMillis(30));
sDefaults.putInt(KEY_PREMIUM_CAPABILITY_MAXIMUM_DAILY_NOTIFICATION_COUNT_INT, 2);
sDefaults.putInt(KEY_PREMIUM_CAPABILITY_MAXIMUM_MONTHLY_NOTIFICATION_COUNT_INT, 10);
sDefaults.putLong(
KEY_PREMIUM_CAPABILITY_PURCHASE_CONDITION_BACKOFF_HYSTERESIS_TIME_MILLIS_LONG,
TimeUnit.MINUTES.toMillis(30));
sDefaults.putLong(KEY_PREMIUM_CAPABILITY_NETWORK_SETUP_TIME_MILLIS_LONG,
TimeUnit.MINUTES.toMillis(5));
sDefaults.putString(KEY_PREMIUM_CAPABILITY_PURCHASE_URL_STRING, null);
sDefaults.putBoolean(KEY_PREMIUM_CAPABILITY_SUPPORTED_ON_LTE_BOOL, false);
sDefaults.putStringArray(KEY_IWLAN_HANDOVER_POLICY_STRING_ARRAY, new String[]{
"source=GERAN|UTRAN|EUTRAN|NGRAN|IWLAN, "
+ "target=GERAN|UTRAN|EUTRAN|NGRAN|IWLAN, type=allowed"});
PersistableBundle auto_data_switch_rat_signal_score_string_bundle = new PersistableBundle();
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"NR_SA_MMWAVE", new int[]{10000, 13227, 16000, 18488, 20017});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"NR_NSA_MMWAVE", new int[]{8000, 10227, 12488, 15017, 15278});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"LTE", new int[]{3731, 5965, 8618, 11179, 13384});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"LTE_CA", new int[]{3831, 6065, 8718, 11379, 13484});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"NR_SA", new int[]{5288, 6795, 6955, 7562, 9713});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"NR_NSA", new int[]{5463, 6827, 8029, 9007, 9428});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"UMTS", new int[]{100, 169, 183, 192, 300});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"eHRPD", new int[]{10, 400, 600, 800, 1000});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"TD_SCDMA", new int[]{1, 50, 100, 500, 1000});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"iDEN", new int[]{1, 2, 10, 50, 100});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"EvDo_B", new int[]{1000, 1495, 2186, 2532, 2600});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"HSPA+", new int[]{1619, 2500, 3393, 4129, 4212});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"HSPA", new int[]{1000, 1495, 2186, 2532, 2544});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"HSUPA", new int[]{1500, 1919, 2132, 2362, 2704});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"HSDPA", new int[]{1500, 1732, 4000, 7000, 8000});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"EvDo_A", new int[]{600, 840, 1200, 1300, 1400});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"EvDo_0", new int[]{300, 600, 1000, 1500, 2000});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"1xRTT", new int[]{50, 60, 70, 80, 90});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"EDGE", new int[]{154, 169, 183, 192, 267});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"GPRS", new int[]{15, 30, 40, 45, 50});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"CDMA", new int[]{1, 50, 100, 300, 2000});
auto_data_switch_rat_signal_score_string_bundle.putIntArray(
"GSM", new int[]{1, 2, 10, 50, 100});
sDefaults.putPersistableBundle(KEY_AUTO_DATA_SWITCH_RAT_SIGNAL_SCORE_BUNDLE,
auto_data_switch_rat_signal_score_string_bundle);
sDefaults.putInt(KEY_CELLULAR_USAGE_SETTING_INT,
SubscriptionManager.USAGE_SETTING_UNKNOWN);
// Default data stall recovery configurations.
sDefaults.putLongArray(KEY_DATA_STALL_RECOVERY_TIMERS_LONG_ARRAY,
new long[] {180000, 180000, 180000, 180000});
sDefaults.putBooleanArray(KEY_DATA_STALL_RECOVERY_SHOULD_SKIP_BOOL_ARRAY,
new boolean[] {false, false, true, false, false});
sDefaults.putStringArray(KEY_CARRIER_SERVICE_NAME_STRING_ARRAY, new String[0]);
sDefaults.putStringArray(KEY_CARRIER_SERVICE_NUMBER_STRING_ARRAY, new String[0]);
}
/**
* Wi-Fi configs used in WiFi Module.
*
* @hide
*/
@SystemApi
public static final class Wifi {
/** Prefix of all Wifi.KEY_* constants. */
public static final String KEY_PREFIX = "wifi.";
/**
* It contains the maximum client count definition that the carrier sets.
* The default is 0, which means that the carrier hasn't set a requirement.
*/
public static final String KEY_HOTSPOT_MAX_CLIENT_COUNT =
KEY_PREFIX + "hotspot_maximum_client_count";
/**
* This configuration is intended to be a narrow exception for provisioning
* {@link android.net.wifi.WifiNetworkSuggestion} of widely-known carrier networks that do
* not support using randomized MAC address.
* Carrier provisioned {@link android.net.wifi.WifiNetworkSuggestion} with SSIDs included
* in this list will have MAC randomization disabled.
*
* Note: the SSIDs in the list are expected to be interpreted as is - do not add double
* quotes to the SSIDs.
*/
public static final String KEY_SUGGESTION_SSID_LIST_WITH_MAC_RANDOMIZATION_DISABLED =
KEY_PREFIX + "suggestion_ssid_list_with_mac_randomization_disabled";
/**
* Avoid SoftAp in 5GHz if cellular is on unlicensed 5Ghz using License Assisted Access
* (LAA).
*/
public static final String KEY_AVOID_5GHZ_SOFTAP_FOR_LAA_BOOL =
KEY_PREFIX + "avoid_5ghz_softap_for_laa_bool";
/**
* Avoid Wifi Direct in 5GHz if cellular is on unlicensed 5Ghz using License Assisted
* Access (LAA).
*/
public static final String KEY_AVOID_5GHZ_WIFI_DIRECT_FOR_LAA_BOOL =
KEY_PREFIX + "avoid_5ghz_wifi_direct_for_laa_bool";
private static PersistableBundle getDefaults() {
PersistableBundle defaults = new PersistableBundle();
defaults.putInt(KEY_HOTSPOT_MAX_CLIENT_COUNT, 0);
defaults.putStringArray(KEY_SUGGESTION_SSID_LIST_WITH_MAC_RANDOMIZATION_DISABLED,
new String[0]);
defaults.putBoolean(KEY_AVOID_5GHZ_SOFTAP_FOR_LAA_BOOL, false);
defaults.putBoolean(KEY_AVOID_5GHZ_WIFI_DIRECT_FOR_LAA_BOOL, false);
return defaults;
}
private Wifi() {}
}
/**
* Gets the configuration values for a particular subscription, which is associated with a
* specific SIM card. If an invalid subId is used, the returned config will contain default
* values. After using this method to get the configuration bundle,
* {@link #isConfigForIdentifiedCarrier(PersistableBundle)} should be called to confirm whether
* any carrier specific configuration has been applied.
*
* <p>Requires Permission:
* {@link android.Manifest.permission#READ_PHONE_STATE READ_PHONE_STATE}, or the calling app
* has carrier privileges (see {@link TelephonyManager#hasCarrierPrivileges()}).
*
* @param subId the subscription ID, normally obtained from {@link SubscriptionManager}.
* @return A {@link PersistableBundle} containing the config for the given subId, or default
* values for an invalid subId.
*
* @deprecated Use {@link #getConfigForSubId(int, String...)} instead.
*/
@SuppressAutoDoc // Blocked by b/72967236 - no support for carrier privileges
@RequiresPermission(Manifest.permission.READ_PHONE_STATE)
@Nullable
@Deprecated
public PersistableBundle getConfigForSubId(int subId) {
try {
ICarrierConfigLoader loader = getICarrierConfigLoader();
if (loader == null) {
Rlog.w(TAG, "Error getting config for subId " + subId
+ " ICarrierConfigLoader is null");
return null;
}
return loader.getConfigForSubIdWithFeature(subId, mContext.getOpPackageName(),
mContext.getAttributionTag());
} catch (RemoteException ex) {
Rlog.e(TAG, "Error getting config for subId " + subId + ": " + ex);
}
return null;
}
/**
* Gets the configuration values of the specified keys for a particular subscription.
*
* <p>If an invalid subId is used, the returned configuration will contain default values for
* the specified keys. If the value for the key can't be found, the returned configuration will
* filter the key out.
*
* <p>After using this method to get the configuration bundle,
* {@link #isConfigForIdentifiedCarrier(PersistableBundle)} should be called to confirm whether
* any carrier specific configuration has been applied.
*
* <p>Note that on success, the key/value for {@link #KEY_CARRIER_CONFIG_VERSION_STRING} and
* {@link #KEY_CARRIER_CONFIG_APPLIED_BOOL} are always in the returned bundle, no matter if they
* were explicitly requested.
*
* <p>Requires Permission:
* {@link android.Manifest.permission#READ_PHONE_STATE READ_PHONE_STATE}, or the calling app
* has carrier privileges on the specified subscription (see
* {@link TelephonyManager#hasCarrierPrivileges()}).
*
* @param subId The subscription ID on which the carrier config should be retrieved.
* @param keys The carrier config keys to retrieve values.
* @return A {@link PersistableBundle} with key/value mapping for the specified configuration
* on success, or an empty (but never null) bundle on failure (for example, when the calling app
* has no permission).
*/
@RequiresPermission(anyOf = {
Manifest.permission.READ_PHONE_STATE,
"carrier privileges",
})
@NonNull
public PersistableBundle getConfigForSubId(int subId, @NonNull String... keys) {
Objects.requireNonNull(keys, "Config keys should be non-null");
for (String key : keys) {
Objects.requireNonNull(key, "Config key should be non-null");
}
try {
ICarrierConfigLoader loader = getICarrierConfigLoader();
if (loader == null) {
Rlog.w(TAG, "Error getting config for subId " + subId
+ " ICarrierConfigLoader is null");
throw new IllegalStateException("Carrier config loader is not available.");
}
return loader.getConfigSubsetForSubIdWithFeature(subId, mContext.getOpPackageName(),
mContext.getAttributionTag(), keys);
} catch (RemoteException ex) {
Rlog.e(TAG, "Error getting config for subId " + subId + ": " + ex);
ex.rethrowAsRuntimeException();
}
return new PersistableBundle();
}
/**
* Overrides the carrier config of the provided subscription ID with the provided values.
*
* Any further queries to carrier config from any process will return the overridden values
* after this method returns. The overrides are effective for the lifetime of the phone process
* until the user passes in {@code null} for {@code overrideValues}. This removes all previous
* overrides and sets the carrier config back to production values.
*
* May throw an {@link IllegalArgumentException} if {@code overrideValues} contains invalid
* values for the specified config keys.
*
* NOTE: This API is meant for testing purposes only.
*
* @param subscriptionId The subscription ID for which the override should be done.
* @param overrideValues Key-value pairs of the values that are to be overridden. If set to
* {@code null}, this will remove all previous overrides and set the
* carrier configuration back to production values.
* @hide
*/
@RequiresPermission(Manifest.permission.MODIFY_PHONE_STATE)
@SystemApi
public void overrideConfig(int subscriptionId, @Nullable PersistableBundle overrideValues) {
overrideConfig(subscriptionId, overrideValues, false);
}
/**
* Overrides the carrier config of the provided subscription ID with the provided values.
*
* Any further queries to carrier config from any process will return the overridden values
* after this method returns. The overrides are effective until the user passes in {@code null}
* for {@code overrideValues}. This removes all previous overrides and sets the carrier config
* back to production values.
*
* The overrides is stored persistently and will survive a reboot if {@code persistent} is true.
*
* May throw an {@link IllegalArgumentException} if {@code overrideValues} contains invalid
* values for the specified config keys.
*
* NOTE: This API is meant for testing purposes only.
*
* @param subscriptionId The subscription ID for which the override should be done.
* @param overrideValues Key-value pairs of the values that are to be overridden. If set to
* {@code null}, this will remove all previous overrides and set the
* carrier configuration back to production values.
* @param persistent Determines whether the override should be persistent.
* @hide
*/
@RequiresPermission(Manifest.permission.MODIFY_PHONE_STATE)
public void overrideConfig(int subscriptionId, @Nullable PersistableBundle overrideValues,
boolean persistent) {
try {
ICarrierConfigLoader loader = getICarrierConfigLoader();
if (loader == null) {
Rlog.w(TAG, "Error setting config for subId " + subscriptionId
+ " ICarrierConfigLoader is null");
return;
}
loader.overrideConfig(subscriptionId, overrideValues, persistent);
} catch (RemoteException ex) {
Rlog.e(TAG, "Error setting config for subId " + subscriptionId + ": " + ex);
}
}
/**
* Gets the configuration values for the default subscription. After using this method to get
* the configuration bundle, {@link #isConfigForIdentifiedCarrier(PersistableBundle)} should be
* called to confirm whether any carrier specific configuration has been applied.
*
* <p>Requires Permission:
* {@link android.Manifest.permission#READ_PHONE_STATE READ_PHONE_STATE}, or the calling app
* has carrier privileges (see {@link TelephonyManager#hasCarrierPrivileges()}).
*
* @see #getConfigForSubId
* @see #getConfig(String...)
* @deprecated use {@link #getConfig(String...)} instead.
*/
@SuppressAutoDoc // Blocked by b/72967236 - no support for carrier privileges
@RequiresPermission(Manifest.permission.READ_PHONE_STATE)
@Nullable
@Deprecated
public PersistableBundle getConfig() {
return getConfigForSubId(SubscriptionManager.getDefaultSubscriptionId());
}
/**
* Gets the configuration values of the specified config keys applied for the default
* subscription.
*
* <p>If the value for the key can't be found, the returned bundle will filter the key out.
*
* <p>After using this method to get the configuration bundle, {@link
* #isConfigForIdentifiedCarrier(PersistableBundle)} should be called to confirm whether any
* carrier specific configuration has been applied.
*
* <p>Note that on success, the key/value for {@link #KEY_CARRIER_CONFIG_VERSION_STRING} and
* {@link #KEY_CARRIER_CONFIG_APPLIED_BOOL} are always in the returned bundle, no matter if
* they were explicitly requested.
*
* <p>Requires Permission:
* {@link android.Manifest.permission#READ_PHONE_STATE READ_PHONE_STATE}, or the calling app
* has carrier privileges for the default subscription (see
* {@link TelephonyManager#hasCarrierPrivileges()}).
*
* @param keys The config keys to retrieve values
* @return A {@link PersistableBundle} with key/value mapping for the specified carrier
* configs on success, or an empty (but never null) bundle on failure.
* @see #getConfigForSubId(int, String...)
* @see SubscriptionManager#getDefaultSubscriptionId()
*/
@RequiresPermission(anyOf = {
Manifest.permission.READ_PHONE_STATE,
"carrier privileges",
})
@NonNull
public PersistableBundle getConfig(@NonNull String... keys) {
return getConfigForSubId(SubscriptionManager.getDefaultSubscriptionId(), keys);
}
/**
* Determines whether a configuration {@link PersistableBundle} obtained from
* {@link #getConfig()} or {@link #getConfigForSubId(int)} corresponds to an identified carrier.
*
* <p>When an app receives the {@link CarrierConfigManager#ACTION_CARRIER_CONFIG_CHANGED}
* broadcast which informs it that the carrier configuration has changed, it is possible
* that another reload of the carrier configuration has begun since the intent was sent.
* In this case, the carrier configuration the app fetches (e.g. via {@link #getConfig()})
* may not represent the configuration for the current carrier. It should be noted that it
* does not necessarily mean the configuration belongs to current carrier when this function
* return true because it may belong to another previous identified carrier. Users should
* always call {@link #getConfig()} or {@link #getConfigForSubId(int)} after receiving the
* broadcast {@link #ACTION_CARRIER_CONFIG_CHANGED}.
*
* <p>After using {@link #getConfig()} or {@link #getConfigForSubId(int)} an app should always
* use this method to confirm whether any carrier specific configuration has been applied.
* Especially when an app misses the broadcast {@link #ACTION_CARRIER_CONFIG_CHANGED} but it
* still needs to get the current configuration, it must use this method to verify whether the
* configuration is default or carrier overridden.
*
* @param bundle the configuration bundle to be checked.
* @return boolean true if any carrier specific configuration bundle has been applied, false
* otherwise or the bundle is null.
*/
public static boolean isConfigForIdentifiedCarrier(PersistableBundle bundle) {
return bundle != null && bundle.getBoolean(KEY_CARRIER_CONFIG_APPLIED_BOOL);
}
/**
* Calling this method triggers telephony services to fetch the current carrier configuration.
*
* <p>Normally this does not need to be called because the platform reloads config on its own.
* This should be called by a carrier service app if it wants to update config at an arbitrary
* moment.
*
* <p>Requires Permission:
* {@link android.Manifest.permission#MODIFY_PHONE_STATE MODIFY_PHONE_STATE}, or the calling app
* has carrier privileges (see {@link TelephonyManager#hasCarrierPrivileges()}).
*
* <p>This method returns before the reload has completed, and {@link
* android.service.carrier.CarrierService#onLoadConfig} will be called from an arbitrary thread.
*/
@SuppressAutoDoc // Blocked by b/72967236 - no support for carrier privileges
@RequiresPermission(android.Manifest.permission.MODIFY_PHONE_STATE)
public void notifyConfigChangedForSubId(int subId) {
try {
ICarrierConfigLoader loader = getICarrierConfigLoader();
if (loader == null) {
Rlog.w(TAG, "Error reloading config for subId=" + subId
+ " ICarrierConfigLoader is null");
return;
}
loader.notifyConfigChangedForSubId(subId);
} catch (RemoteException ex) {
Rlog.e(TAG, "Error reloading config for subId=" + subId + ": " + ex);
}
}
/**
* Request the carrier config loader to update the config for phoneId.
*
* <p>Depending on simState, the config may be cleared or loaded from config app. This is only
* used by SubscriptionInfoUpdater.
*
* @hide
*/
@SystemApi
@RequiresPermission(android.Manifest.permission.MODIFY_PHONE_STATE)
public void updateConfigForPhoneId(int phoneId, String simState) {
try {
ICarrierConfigLoader loader = getICarrierConfigLoader();
if (loader == null) {
Rlog.w(TAG, "Error updating config for phoneId=" + phoneId
+ " ICarrierConfigLoader is null");
return;
}
loader.updateConfigForPhoneId(phoneId, simState);
} catch (RemoteException ex) {
Rlog.e(TAG, "Error updating config for phoneId=" + phoneId + ": " + ex);
}
}
/**
* Gets the package name for a default carrier service.
* @return the package name for a default carrier service; empty string if not available.
*
* @hide
*/
@NonNull
@SystemApi
@RequiresPermission(android.Manifest.permission.READ_PRIVILEGED_PHONE_STATE)
public String getDefaultCarrierServicePackageName() {
try {
ICarrierConfigLoader loader = getICarrierConfigLoader();
if (loader == null) {
Rlog.w(TAG, "getDefaultCarrierServicePackageName ICarrierConfigLoader is null");
return "";
}
return loader.getDefaultCarrierServicePackageName();
} catch (RemoteException ex) {
Rlog.e(TAG, "getDefaultCarrierServicePackageName ICarrierConfigLoader is null" + ex);
ex.rethrowAsRuntimeException();
}
return "";
}
/**
* Returns a new bundle with the default value for every supported configuration variable.
*
* @hide
*/
@NonNull
@SystemApi
@SuppressLint("RequiresPermission")
public static PersistableBundle getDefaultConfig() {
return new PersistableBundle(sDefaults);
}
/** @hide */
@Nullable
private ICarrierConfigLoader getICarrierConfigLoader() {
return ICarrierConfigLoader.Stub.asInterface(
TelephonyFrameworkInitializer
.getTelephonyServiceManager()
.getCarrierConfigServiceRegisterer()
.get());
}
/**
* Gets the configuration values for a component using its prefix.
*
* <p>Requires Permission:
* {@link android.Manifest.permission#READ_PHONE_STATE READ_PHONE_STATE}, or the calling app
* has carrier privileges (see {@link TelephonyManager#hasCarrierPrivileges()}).
*
* @param prefix prefix of the component.
* @param subId the subscription ID, normally obtained from {@link SubscriptionManager}.
*
* @see #getConfigForSubId
*/
@SuppressAutoDoc // Blocked by b/72967236 - no support for carrier privileges
@RequiresPermission(Manifest.permission.READ_PHONE_STATE)
@Nullable
public PersistableBundle getConfigByComponentForSubId(@NonNull String prefix, int subId) {
PersistableBundle configs = getConfigForSubId(subId);
if (configs == null) {
return null;
}
PersistableBundle ret = new PersistableBundle();
for (String configKey : configs.keySet()) {
if (configKey.startsWith(prefix)) {
addConfig(configKey, configs.get(configKey), ret);
}
}
return ret;
}
private void addConfig(String key, Object value, PersistableBundle configs) {
if (value instanceof String) {
configs.putString(key, (String) value);
} else if (value instanceof String[]) {
configs.putStringArray(key, (String[]) value);
} else if (value instanceof Integer) {
configs.putInt(key, (Integer) value);
} else if (value instanceof Long) {
configs.putLong(key, (Long) value);
} else if (value instanceof Double) {
configs.putDouble(key, (Double) value);
} else if (value instanceof Boolean) {
configs.putBoolean(key, (Boolean) value);
} else if (value instanceof int[]) {
configs.putIntArray(key, (int[]) value);
} else if (value instanceof double[]) {
configs.putDoubleArray(key, (double[]) value);
} else if (value instanceof boolean[]) {
configs.putBooleanArray(key, (boolean[]) value);
} else if (value instanceof long[]) {
configs.putLongArray(key, (long[]) value);
} else if (value instanceof PersistableBundle) {
configs.putPersistableBundle(key, (PersistableBundle) value);
}
}
/**
* Listener interface to get a notification when the carrier configurations have changed.
*
* Use this listener to receive timely updates when the carrier configuration changes. System
* components should prefer this listener over {@link #ACTION_CARRIER_CONFIG_CHANGED}
* whenever possible.
*
* To register the listener, call
* {@link #registerCarrierConfigChangeListener(Executor, CarrierConfigChangeListener)}.
* To unregister, call
* {@link #unregisterCarrierConfigChangeListener(CarrierConfigChangeListener)}.
*
* Note that on registration, registrants will NOT receive a notification on last carrier config
* change. Only carrier configs change AFTER the registration will be sent to registrants. And
* unlike {@link #ACTION_CARRIER_CONFIG_CHANGED}, notification wouldn't send when the device is
* unlocked. Registrants only receive the notification when there has been real carrier config
* changes.
*
* @see #registerCarrierConfigChangeListener(Executor, CarrierConfigChangeListener)
* @see #unregisterCarrierConfigChangeListener(CarrierConfigChangeListener)
* @see #ACTION_CARRIER_CONFIG_CHANGED
* @see #getConfig(String...)
* @see #getConfigForSubId(int, String...)
*/
public interface CarrierConfigChangeListener {
/**
* Called when carrier configurations have changed.
*
* @param logicalSlotIndex The logical SIM slot index on which to monitor and get
* notification. It is guaranteed to be valid.
* @param subscriptionId The subscription on the SIM slot. May be
* {@link SubscriptionManager#INVALID_SUBSCRIPTION_ID}.
* @param carrierId The optional carrier Id, may be
* {@link TelephonyManager#UNKNOWN_CARRIER_ID}.
* See {@link TelephonyManager#getSimCarrierId()}.
* @param specificCarrierId The optional fine-grained carrierId, may be {@link
* TelephonyManager#UNKNOWN_CARRIER_ID}. A specific carrierId may
* be different from the carrierId above in a MVNO scenario. See
* detail in {@link TelephonyManager#getSimSpecificCarrierId()}.
*/
void onCarrierConfigChanged(int logicalSlotIndex, int subscriptionId, int carrierId,
int specificCarrierId);
}
/**
* Register a {@link CarrierConfigChangeListener} to get a notification when carrier
* configurations have changed.
*
* @param executor The executor on which the listener will be called.
* @param listener The CarrierConfigChangeListener called when carrier configs has changed.
*/
public void registerCarrierConfigChangeListener(@NonNull @CallbackExecutor Executor executor,
@NonNull CarrierConfigChangeListener listener) {
Objects.requireNonNull(executor, "Executor should be non-null.");
Objects.requireNonNull(listener, "Listener should be non-null.");
TelephonyRegistryManager trm = mContext.getSystemService(TelephonyRegistryManager.class);
if (trm == null) {
throw new IllegalStateException("Telephony registry service is null");
}
trm.addCarrierConfigChangedListener(executor, listener);
}
/**
* Unregister the {@link CarrierConfigChangeListener} to stop notification on carrier
* configurations change.
*
* @param listener The CarrierConfigChangeListener which was registered with method
* {@link #registerCarrierConfigChangeListener(Executor, CarrierConfigChangeListener)}.
*/
public void unregisterCarrierConfigChangeListener(
@NonNull CarrierConfigChangeListener listener) {
Objects.requireNonNull(listener, "Listener should be non-null.");
TelephonyRegistryManager trm = mContext.getSystemService(TelephonyRegistryManager.class);
if (trm == null) {
throw new IllegalStateException("Telephony registry service is null");
}
trm.removeCarrierConfigChangedListener(listener);
}
/**
* Get subset of specified carrier configuration if available or empty bundle, without throwing
* {@link RuntimeException} to caller.
*
* <p>This is a system internally used only utility to reduce the repetitive logic.
*
* <p>Requires Permission:
* {@link android.Manifest.permission#READ_PHONE_STATE READ_PHONE_STATE}, or the calling app
* has carrier privileges on the specified subscription (see
* {@link TelephonyManager#hasCarrierPrivileges()}).
*
* @param context Context used to get the CarrierConfigManager service.
* @param subId The subscription ID to get the config from.
* @param keys The config keys the client is interested in.
* @return Config bundle with key/value for the specified keys or empty bundle when failed
* @hide
*/
@RequiresPermission(anyOf = {
Manifest.permission.READ_PHONE_STATE,
"carrier privileges",
})
@NonNull
public static PersistableBundle getCarrierConfigSubset(
@NonNull Context context, int subId, @NonNull String... keys) {
PersistableBundle configs = null;
CarrierConfigManager ccm = context.getSystemService(CarrierConfigManager.class);
try {
configs = ccm.getConfigForSubId(subId, keys);
} catch (RuntimeException exception) {
Rlog.w(TAG, "CarrierConfigLoader is not available.");
}
return configs != null ? configs : new PersistableBundle();
}
}