// // Copyright (C) 2016 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. // syntax = "proto2"; package clearcut.connectivity; option java_package = "com.android.internal.telephony"; option java_outer_classname = "TelephonyProto"; // The information about Telephony events. message TelephonyLog { // Events logged by telephony services repeated TelephonyEvent events = 1; // Voice/Video call sessions repeated TelephonyCallSession call_sessions = 2; // Send/Receive SMS sessions repeated SmsSession sms_sessions = 3; // Telephony Histograms repeated TelephonyHistogram histograms = 4; // Indicating some telephony events are dropped optional bool events_dropped = 5; // The start time of this log optional Time start_time = 6; // The end time of this log optional Time end_time = 7; // Modem power stats optional ModemPowerStats modem_power_stats = 8; // Hardware revision (EVT, DVT, PVT etc.) optional string hardware_revision = 9; // The last active subscription info for each slot. repeated ActiveSubscriptionInfo last_active_subscription_info = 10; // Bandwidth estimator stats optional BandwidthEstimatorStats bandwidth_estimator_stats = 11; } // The time information message Time { // The system time in milli seconds. This represents the actual // time of the events. optional int64 system_timestamp_millis = 1; // The time since boot in milli seconds. // This is used for calculating the time interval between events. Different // from the system time, this won't be affected by time changed by the network or users. optional int64 elapsed_timestamp_millis = 2; } // Telephony Histogram message TelephonyHistogram { // Type of histogram optional int32 category = 1; // Unique Id identifying a sample within // particular category of the histogram. optional int32 id = 2; // Min time taken in millis. optional int32 min_time_millis = 3; // Max time taken in millis. optional int32 max_time_millis = 4; // Average time taken in millis. optional int32 avg_time_millis = 5; // Total count of histogram samples. optional int32 count = 6; // Total number of time ranges expected // (must be greater than 1). optional int32 bucket_count = 7; // Array storing endpoints of range buckets. repeated int32 bucket_end_points = 8; // Array storing counts for each time range // starting from smallest value range. repeated int32 bucket_counters = 9; } // Telephony related user settings message TelephonySettings { // NETWORK_MODE_* See ril.h PREF_NET_TYPE_XXXX enum RilNetworkMode { // Mode is unknown. NETWORK_MODE_UNKNOWN = 0; // GSM/WCDMA (WCDMA preferred). Note the following values are all off by 1. NETWORK_MODE_WCDMA_PREF = 1; // GSM only NETWORK_MODE_GSM_ONLY = 2; // WCDMA only NETWORK_MODE_WCDMA_ONLY = 3; // GSM/WCDMA (auto mode, according to PRL) NETWORK_MODE_GSM_UMTS = 4; // CDMA and EvDo (auto mode, according to PRL) NETWORK_MODE_CDMA = 5; // CDMA only NETWORK_MODE_CDMA_NO_EVDO = 6; // EvDo only NETWORK_MODE_EVDO_NO_CDMA = 7; // GSM/WCDMA, CDMA, and EvDo (auto mode, according to PRL) NETWORK_MODE_GLOBAL = 8; // LTE, CDMA and EvDo NETWORK_MODE_LTE_CDMA_EVDO = 9; // LTE, GSM/WCDMA NETWORK_MODE_LTE_GSM_WCDMA = 10; // LTE, CDMA, EvDo, GSM/WCDMA NETWORK_MODE_LTE_CDMA_EVDO_GSM_WCDMA = 11; // LTE Only mode NETWORK_MODE_LTE_ONLY = 12; // LTE/WCDMA NETWORK_MODE_LTE_WCDMA = 13; // TD-SCDMA only NETWORK_MODE_TDSCDMA_ONLY = 14; // TD-SCDMA and WCDMA NETWORK_MODE_TDSCDMA_WCDMA = 15; // TD-SCDMA and LTE NETWORK_MODE_LTE_TDSCDMA = 16; // TD-SCDMA and GSM NETWORK_MODE_TDSCDMA_GSM = 17; // TD-SCDMA,GSM and LTE NETWORK_MODE_LTE_TDSCDMA_GSM = 18; // TD-SCDMA, GSM/WCDMA NETWORK_MODE_TDSCDMA_GSM_WCDMA = 19; // TD-SCDMA, WCDMA and LTE NETWORK_MODE_LTE_TDSCDMA_WCDMA = 20; // TD-SCDMA, GSM/WCDMA and LTE NETWORK_MODE_LTE_TDSCDMA_GSM_WCDMA = 21; // TD-SCDMA,EvDo,CDMA,GSM/WCDMA NETWORK_MODE_TDSCDMA_CDMA_EVDO_GSM_WCDMA = 22; // TD-SCDMA/LTE/GSM/WCDMA, CDMA, and EvDo NETWORK_MODE_LTE_TDSCDMA_CDMA_EVDO_GSM_WCDMA = 23; } // Constants for WiFi Calling mode enum WiFiCallingMode { // Calling mode is unknown. WFC_MODE_UNKNOWN = 0; WFC_MODE_WIFI_ONLY = 1; WFC_MODE_CELLULAR_PREFERRED = 2; WFC_MODE_WIFI_PREFERRED = 3; } // If the device is in airplane mode. optional bool is_airplane_mode = 1; // If cell-data has been enabled. optional bool is_cellular_data_enabled = 2; // If cell-roaming has been enabled. optional bool is_data_roaming_enabled = 3; // Preferred network mode. optional RilNetworkMode preferred_network_mode = 4; // If enhanced mode enabled. optional bool is_enhanced_4g_lte_mode_enabled = 5; // If wifi has been enabled. optional bool is_wifi_enabled = 6; // If wifi-calling has been enabled. optional bool is_wifi_calling_enabled = 7; // Wifi-calling Mode. optional WiFiCallingMode wifi_calling_mode = 8; // If video over LTE enabled. optional bool is_vt_over_lte_enabled = 9; // If video over wifi enabled. optional bool is_vt_over_wifi_enabled = 10; } // Contains phone state and service related information. message TelephonyServiceState { // The information about cellular network operator message TelephonyOperator { // Name in long alphanumeric format optional string alpha_long = 1; // Name in short alphanumeric format optional string alpha_short = 2; // Numeric id. // In GSM/UMTS, numeric format is 3 digit country code plus 2 or 3 digit // network code. Same as MCC/MNC. optional string numeric = 3; } message NetworkRegistrationInfo { // Network domain optional Domain domain = 1; // Network transport optional Transport transport = 2; // Radio access technology optional RadioAccessTechnology rat = 3; } // Roaming type enum RoamingType { // Unknown. The default value. Different from ROAMING_TYPE_UNKNOWN. UNKNOWN = -1; // In home network ROAMING_TYPE_NOT_ROAMING = 0; // In a roaming network, but we can not tell // if it's domestic or international ROAMING_TYPE_UNKNOWN = 1; // In domestic roaming network ROAMING_TYPE_DOMESTIC = 2; // In international roaming network ROAMING_TYPE_INTERNATIONAL = 3; } // Frequency range enum FrequencyRange { // Unknown. The default value. FREQUENCY_RANGE_UNKNOWN = 0; // Frequency range is below 1GHz. FREQUENCY_RANGE_LOW = 1; // Frequency range is between 1GHz and 3GHz. FREQUENCY_RANGE_MID = 2; // Frequency range is between 3GHz and 6GHz. FREQUENCY_RANGE_HIGH = 3; // Frequency range is above 6GHz (millimeter wave frequency). FREQUENCY_RANGE_MMWAVE = 4; } // NR (5G) state enum NrState { // The device isn't camped on an LTE cell // or the LTE cell doesn't support EN-DC. NR_STATE_NONE = 0; // The device is camped on an LTE cell that supports EN-DC // but either DCNR is restricted // or NR is not supported by the selected PLMN. NR_STATE_RESTRICTED = 1; // The device is camped on an LTE cell that supports EN-DC // and both DCNR is not restricted and NR is supported // by the selected PLMN. NR_STATE_NOT_RESTRICTED = 2; // The device is camped on an LTE cell that supports EN-DC // and connected to at least one 5G cell // as a secondary serving cell. NR_STATE_CONNECTED = 3; } // Domain type enum Domain { // Unknown DOMAIN_UNKNOWN = 0; // Circuit switching domain DOMAIN_CS = 1; // Packet switching domain DOMAIN_PS = 2; } enum Transport { // Unknown TRANSPORT_UNKNOWN = 0; // Transport type for Wireless Wide Area Networks (i.e. Cellular) TRANSPORT_WWAN = 1; // Transport type for Wireless Local Area Networks (i.e. Wifi) TRANSPORT_WLAN = 2; } // Current registered operator optional TelephonyOperator voice_operator = 1; // Current registered data network operator optional TelephonyOperator data_operator = 2; // Current voice network roaming type optional RoamingType voice_roaming_type = 3 [default = UNKNOWN]; // Current data network roaming type optional RoamingType data_roaming_type = 4 [default = UNKNOWN]; // Current voice radio technology optional RadioAccessTechnology voice_rat = 5 [default = UNKNOWN]; // Current data radio technology optional RadioAccessTechnology data_rat = 6 [default = UNKNOWN]; // Current Channel Number optional int32 channel_number = 7; // Current NR frequency range optional FrequencyRange nr_frequency_range = 8; // Current NR state optional NrState nr_state = 9; // Network registration info repeated NetworkRegistrationInfo networkRegistrationInfo = 10; } // Radio access families enum RadioAccessTechnology { // This is the default value. Different from RAT_UNKNOWN. UNKNOWN = -1; // Airplane mode, out of service, or when the modem cannot determine // the RAT. RAT_UNKNOWN = 0; RAT_GPRS = 1; RAT_EDGE = 2; RAT_UMTS = 3; RAT_IS95A = 4; RAT_IS95B = 5; RAT_1XRTT = 6; RAT_EVDO_0 = 7; RAT_EVDO_A = 8; RAT_HSDPA = 9; RAT_HSUPA = 10; RAT_HSPA = 11; RAT_EVDO_B = 12; RAT_EHRPD = 13; RAT_LTE = 14; RAT_HSPAP = 15; RAT_GSM = 16; RAT_TD_SCDMA = 17; RAT_IWLAN = 18; RAT_LTE_CA = 19; RAT_NR = 20; } // NR (5G) operation mode enum NrMode { // The device is not in a NR network. NR_NONE = 1; // The device is in a NR non-standalone network at non-MMWAVE frequencies. NR_NSA = 2; // The device is in a NR non-standalone network at MMWAVE frequencies. NR_NSA_MMWAVE = 3; // The device is in a NR standalone network at non-MMWAVE frequencies. NR_SA = 4; // The device is in a NR standalone network at MMWAVE frequencies. NR_SA_MMWAVE = 5; } // The information about IMS errors // https://cs.corp.google.com/#android/frameworks/base/telephony/java/com/android/ims/ImsReasonInfo.java message ImsReasonInfo { // Main reason code. optional int32 reason_code = 1; // Extra code value; it depends on the code value. optional int32 extra_code = 2; // Additional message of the reason info. We get this from the modem. optional string extra_message = 3; } // The information about state connection between IMS service and IMS server message ImsConnectionState { // Current state optional State state = 1; // If DISCONNECTED then this field may have additional information about // connection problem. optional ImsReasonInfo reason_info = 2; // Posible states enum State { // State is unknown. STATE_UNKNOWN = 0; CONNECTED = 1; PROGRESSING = 2; DISCONNECTED = 3; RESUMED = 4; SUSPENDED = 5; } } // The information about current capabilities of IMS service message ImsCapabilities { optional bool voice_over_lte = 1; optional bool voice_over_wifi = 2; optional bool video_over_lte = 3; optional bool video_over_wifi = 4; optional bool ut_over_lte = 5; optional bool ut_over_wifi = 6; } // Errors returned by RIL enum RilErrno { // type is unknown. RIL_E_UNKNOWN = 0; // Note the following values are all off by 1. RIL_E_SUCCESS = 1; // If radio did not start or is resetting RIL_E_RADIO_NOT_AVAILABLE = 2; RIL_E_GENERIC_FAILURE = 3; // for PIN/PIN2 methods only! RIL_E_PASSWORD_INCORRECT = 4; // Operation requires SIM PIN2 to be entered RIL_E_SIM_PIN2 = 5; // Operation requires SIM PIN2 to be entered RIL_E_SIM_PUK2 = 6; RIL_E_REQUEST_NOT_SUPPORTED = 7; RIL_E_CANCELLED = 8; // data ops are not allowed during voice call on a Class C GPRS device RIL_E_OP_NOT_ALLOWED_DURING_VOICE_CALL = 9; // data ops are not allowed before device registers in network RIL_E_OP_NOT_ALLOWED_BEFORE_REG_TO_NW = 10; // fail to send sms and need retry RIL_E_SMS_SEND_FAIL_RETRY = 11; // fail to set the location where CDMA subscription shall be retrieved // because of SIM or RUIM card absent RIL_E_SIM_ABSENT = 12; // fail to find CDMA subscription from specified location RIL_E_SUBSCRIPTION_NOT_AVAILABLE = 13; // HW does not support preferred network type RIL_E_MODE_NOT_SUPPORTED = 14; // command failed because recipient is not on FDN list RIL_E_FDN_CHECK_FAILURE = 15; // network selection failed due to illegal SIM or ME RIL_E_ILLEGAL_SIM_OR_ME = 16; // no logical channel available RIL_E_MISSING_RESOURCE = 17; // application not found on SIM RIL_E_NO_SUCH_ELEMENT = 18; // DIAL request modified to USSD RIL_E_DIAL_MODIFIED_TO_USSD = 19; // DIAL request modified to SS RIL_E_DIAL_MODIFIED_TO_SS = 20; // DIAL request modified to DIAL with different data RIL_E_DIAL_MODIFIED_TO_DIAL = 21; // USSD request modified to DIAL RIL_E_USSD_MODIFIED_TO_DIAL = 22; // USSD request modified to SS RIL_E_USSD_MODIFIED_TO_SS = 23; // USSD request modified to different USSD request RIL_E_USSD_MODIFIED_TO_USSD = 24; // SS request modified to DIAL RIL_E_SS_MODIFIED_TO_DIAL = 25; // SS request modified to USSD RIL_E_SS_MODIFIED_TO_USSD = 26; // Subscription not supported by RIL RIL_E_SUBSCRIPTION_NOT_SUPPORTED = 27; // SS request modified to different SS request RIL_E_SS_MODIFIED_TO_SS = 28; // LCE service not supported(36 in RILConstants.java. This is a mistake. // The value should be off by 1 ideally.) RIL_E_LCE_NOT_SUPPORTED = 36 [deprecated=true]; // LCE service not supported RIL_E_LCE_NOT_SUPPORTED_NEW = 37; // Not sufficient memory to process the request RIL_E_NO_MEMORY = 38; // Modem hit unexpected error scenario while handling this request RIL_E_INTERNAL_ERR = 39; // Hit platform or system error RIL_E_SYSTEM_ERR = 40; // Vendor RIL got unexpected or incorrect response from modem for this request RIL_E_MODEM_ERR = 41; // Unexpected request for the current state RIL_E_INVALID_STATE = 42; // Not sufficient resource to process the request RIL_E_NO_RESOURCES = 43; // Received error from SIM card RIL_E_SIM_ERR = 44; // Received invalid arguments in request RIL_E_INVALID_ARGUMENTS = 45; // Cannot process the request in current SIM state RIL_E_INVALID_SIM_STATE = 46; // Cannot process the request in current Modem state RIL_E_INVALID_MODEM_STATE = 47; // Received invalid call id in request RIL_E_INVALID_CALL_ID = 48; // ACK received when there is no SMS to ack RIL_E_NO_SMS_TO_ACK = 49; // Received error from network RIL_E_NETWORK_ERR = 50; // Operation denied due to overly-frequent requests RIL_E_REQUEST_RATE_LIMITED = 51; // SIM is busy RIL_E_SIM_BUSY = 52; // The target EF is full RIL_E_SIM_FULL = 53; // Request is rejected by network RIL_E_NETWORK_REJECT = 54; // Not allowed the request now RIL_E_OPERATION_NOT_ALLOWED = 55; // The request record is empty RIL_E_EMPTY_RECORD = 56; // Invalid sms format RIL_E_INVALID_SMS_FORMAT = 57; // Message not encoded properly RIL_E_ENCODING_ERR = 58; // SMSC address specified is invalid RIL_E_INVALID_SMSC_ADDRESS = 59; // No such entry present to perform the request RIL_E_NO_SUCH_ENTRY = 60; // Network is not ready to perform the request RIL_E_NETWORK_NOT_READY = 61; // Device does not have this value provisioned RIL_E_NOT_PROVISIONED = 62; // Device does not have subscription RIL_E_NO_SUBSCRIPTION = 63; // Network cannot be found RIL_E_NO_NETWORK_FOUND = 64; // Operation cannot be performed because the device is currently in use RIL_E_DEVICE_IN_USE = 65; // Operation aborted RIL_E_ABORTED = 66; // Invalid response sent by vendor code RIL_E_INVALID_RESPONSE = 67; } // Errors returned by ImsService enum ImsServiceErrno { // The operation error is unknown IMS_E_UNKNOWN = 0; // The operation has succeeded IMS_E_SUCCESS = 1; // Sending SMS over IMS failed. Do not retry over IMS again or fallback to CS. IMS_E_SMS_SEND_STATUS_ERROR = 2; // Sending SMS over IMS failed. Retry over IMS again. IMS_E_SMS_SEND_STATUS_ERROR_RETRY = 3; // Sending SMS over IMS failed. Fallback to sending the SMS over CS. IMS_E_SMS_SEND_STATUS_ERROR_FALLBACK = 4; } // PDP_type values in TS 27.007 section 10.1.1. enum PdpType { // type is unknown. PDP_UNKNOWN = 0; PDP_TYPE_IP = 1; PDP_TYPE_IPV6 = 2; PDP_TYPE_IPV4V6 = 3; PDP_TYPE_PPP = 4; PDP_TYPE_NON_IP = 5; PDP_TYPE_UNSTRUCTURED = 6; } // The information about packet data connection message RilDataCall { // Context ID, uniquely identifies this call optional int32 cid = 1; // One of the PDP_type values in TS 27.007 section 10.1.1 optional PdpType type = 2; // The network interface name e.g. wlan0, rmnet_data0. optional string ifname = 3; // State of the Data Call connection optional State state = 4; // Bitmask of APN types optional int32 apn_type_bitmask = 5; enum State { // Unknown event UNKNOWN = 0; // Connected event CONNECTED = 1; // Disconnected event DISCONNECTED = 2; } } message EmergencyNumberInfo { // Dialing address optional string address = 1 /* [ (datapol.semantic_type) = ST_PHONE_NUMBER, (datapol.qualifier) = {is_public: true} ] */; // Country code string (lowercase character) in ISO 3166 format optional string country_iso = 2 /* [(datapol.semantic_type) = ST_LOCATION] */; // Mobile Network Code optional string mnc = 3 /* [(datapol.semantic_type) = ST_LOCATION] */; // Bitmask of emergency service categories optional int32 service_categories_bitmask = 4; // Emergency Uniform Resources Names (URN) // Reference: https://tools.ietf.org/html/rfc5031 repeated string urns = 5; // Bitmask of the sources optional int32 number_sources_bitmask = 6; // Emergency call routing information. // Emergency call routing is a flag to tell how modem handles the calling with // emergency numbers. For example, 110 in India, modem needs to handle/route // it like a normal call. There are only two possible options for emergency // call routing: emergency call routing vs normal call routing. It is usually // a country or carrier requirement. optional int32 routing = 7; } message TelephonyEvent { enum Type { // Unknown event UNKNOWN = 0; // Telephony related user settings changed SETTINGS_CHANGED = 1; // Phone state changed RIL_SERVICE_STATE_CHANGED = 2; // IMS connected/disconnected IMS_CONNECTION_STATE_CHANGED = 3; // IMS Voice, Video and Ut capabilities changed IMS_CAPABILITIES_CHANGED = 4; // Setup a packet data connection DATA_CALL_SETUP = 5; // RIL request result DATA_CALL_SETUP_RESPONSE = 6; // Notification that new data call has appeared in the list // or old data call has removed. DATA_CALL_LIST_CHANGED = 7; // Deactivate packet data connection DATA_CALL_DEACTIVATE = 8; // RIL request result DATA_CALL_DEACTIVATE_RESPONSE = 9; // Logging a data stall + its action DATA_STALL_ACTION = 10; // Modem Restarted. Logging a baseband version and reason for restart // along with the event if it is available MODEM_RESTART = 11; // A system time update suggestion was made from a received NITZ (Network time) signal NITZ_TIME = 12; // Carrier Identification Matching Event CARRIER_ID_MATCHING = 13; // Carrier Key Change event. CARRIER_KEY_CHANGED = 14; // Data switch event. DATA_SWITCH = 15; // Network validate event. NETWORK_VALIDATE = 16; // On deman data switch event. ON_DEMAND_DATA_SWITCH = 17; // SIM state change event. SIM_STATE_CHANGED = 18; // Active subscription info change event. ACTIVE_SUBSCRIPTION_INFO_CHANGED = 19; // Enabled modem change event. ENABLED_MODEM_CHANGED = 20; // Emergency Number update event (Device HAL >= 1.4). EMERGENCY_NUMBER_REPORT = 21; // Network capabilities change event. NETWORK_CAPABILITIES_CHANGED = 22; // Signal strength SIGNAL_STRENGTH = 23; // Radio state change event RADIO_STATE_CHANGED = 24; } enum ApnType { APN_TYPE_UNKNOWN = 0; APN_TYPE_DEFAULT = 1; APN_TYPE_MMS = 2; APN_TYPE_SUPL = 3; APN_TYPE_DUN = 4; APN_TYPE_HIPRI = 5; APN_TYPE_FOTA = 6; APN_TYPE_IMS = 7; APN_TYPE_CBS = 8; APN_TYPE_IA = 9; APN_TYPE_EMERGENCY = 10; } enum EventState { EVENT_STATE_UNKNOWN = 0; EVENT_STATE_START = 1; EVENT_STATE_END = 2; } enum NetworkValidationState { /** The network validation state is unknown. */ NETWORK_VALIDATION_STATE_UNKNOWN = 0; /** The network under validation is initial established. */ NETWORK_VALIDATION_STATE_AVAILABLE = 1; /** The validation is failed. */ NETWORK_VALIDATION_STATE_FAILED = 2; /** The validation is passed. */ NETWORK_VALIDATION_STATE_PASSED = 3; } enum RadioState { /** Radio state is unknown or invalid. */ RADIO_STATE_UNKNOWN = 0; /** Radio is explicitly off (e.g. airplane mode). */ RADIO_STATE_OFF = 1; /** Radio is on. */ RADIO_STATE_ON = 2; /** Radio power unavailable (eg, modem resetting or not booted). */ RADIO_STATE_UNAVAILABLE = 3; } message DataSwitch { enum Reason { /** Data switch caused by unknown reason. */ DATA_SWITCH_REASON_UNKNOWN = 0; /** Data switch caused by user's manual switch. */ DATA_SWITCH_REASON_MANUAL = 1; /** Data switch caused by incoming/outgoing call. */ DATA_SWITCH_REASON_IN_CALL = 2; /** Data switch caused by CBRS switch. */ DATA_SWITCH_REASON_CBRS = 3; } /** The reason for data switch. */ optional Reason reason = 1; /** Current state of the data switch event. */ optional EventState state = 2; } message OnDemandDataSwitch { /** The apn associated with this event. */ optional ApnType apn = 1; /** Current state of the on demand data switch event. */ optional EventState state = 2; } // Setup a packet data connection message RilSetupDataCall { // See ril.h RIL_REQUEST_SETUP_DATA_CALL enum RilDataProfile { // type is unknown. RIL_DATA_UNKNOWN = 0; RIL_DATA_PROFILE_DEFAULT = 1; RIL_DATA_PROFILE_TETHERED = 2; RIL_DATA_PROFILE_IMS = 3; RIL_DATA_PROFILE_FOTA = 4; RIL_DATA_PROFILE_CBS = 5; RIL_DATA_PROFILE_OEM_BASE = 6; RIL_DATA_PROFILE_INVALID = 7; } // Radio technology to use optional RadioAccessTechnology rat = 1 [default = UNKNOWN]; // optional RIL_DataProfile optional RilDataProfile data_profile = 2; // APN to connect to if radio technology is GSM/UMTS optional string apn = 3; // the connection type to request optional PdpType type = 4; } // RIL response to RilSetupDataCall message RilSetupDataCallResponse { // Copy of enum RIL_DataCallFailCause defined at ril.h enum RilDataCallFailCause { // Failure reason is unknown. PDP_FAIL_UNKNOWN = 0; // No error, connection ok PDP_FAIL_NONE = 1; PDP_FAIL_OPERATOR_BARRED = 8; PDP_FAIL_NAS_SIGNALLING = 14; PDP_FAIL_LLC_SNDCP = 25; PDP_FAIL_INSUFFICIENT_RESOURCES = 26; PDP_FAIL_MISSING_UKNOWN_APN = 27; PDP_FAIL_UNKNOWN_PDP_ADDRESS_TYPE = 28; PDP_FAIL_USER_AUTHENTICATION = 29; PDP_FAIL_ACTIVATION_REJECT_GGSN = 30; PDP_FAIL_ACTIVATION_REJECT_UNSPECIFIED = 31; PDP_FAIL_SERVICE_OPTION_NOT_SUPPORTED = 32; PDP_FAIL_SERVICE_OPTION_NOT_SUBSCRIBED = 33; PDP_FAIL_SERVICE_OPTION_OUT_OF_ORDER = 34; PDP_FAIL_NSAPI_IN_USE = 35; // Possibly restart radio, based on framework config PDP_FAIL_REGULAR_DEACTIVATION = 36; PDP_FAIL_QOS_NOT_ACCEPTED = 37; PDP_FAIL_NETWORK_FAILURE = 38; PDP_FAIL_UMTS_REACTIVATION_REQ = 39; PDP_FAIL_FEATURE_NOT_SUPP = 40; PDP_FAIL_TFT_SEMANTIC_ERROR = 41; PDP_FAIL_TFT_SYTAX_ERROR = 42; PDP_FAIL_UNKNOWN_PDP_CONTEXT = 43; PDP_FAIL_FILTER_SEMANTIC_ERROR = 44; PDP_FAIL_FILTER_SYTAX_ERROR = 45; PDP_FAIL_PDP_WITHOUT_ACTIVE_TFT = 46; PDP_FAIL_ACTIVATION_REJECTED_BCM_VIOLATION = 48; PDP_FAIL_ONLY_IPV4_ALLOWED = 50; PDP_FAIL_ONLY_IPV6_ALLOWED = 51; PDP_FAIL_ONLY_SINGLE_BEARER_ALLOWED = 52; PDP_FAIL_ESM_INFO_NOT_RECEIVED = 53; PDP_FAIL_PDN_CONN_DOES_NOT_EXIST = 54; PDP_FAIL_MULTI_CONN_TO_SAME_PDN_NOT_ALLOWED = 55; PDP_FAIL_COLLISION_WITH_NETWORK_INITIATED_REQUEST = 56; PDP_FAIL_ONLY_IPV4V6_ALLOWED = 57; PDP_FAIL_ONLY_NON_IP_ALLOWED = 58; PDP_FAIL_UNSUPPORTED_QCI_VALUE = 59; PDP_FAIL_BEARER_HANDLING_NOT_SUPPORTED = 60; PDP_FAIL_MAX_ACTIVE_PDP_CONTEXT_REACHED = 65; PDP_FAIL_UNSUPPORTED_APN_IN_CURRENT_PLMN = 66; PDP_FAIL_INVALID_TRANSACTION_ID = 81; PDP_FAIL_MESSAGE_INCORRECT_SEMANTIC = 95; PDP_FAIL_INVALID_MANDATORY_INFO = 96; PDP_FAIL_MESSAGE_TYPE_UNSUPPORTED = 97; PDP_FAIL_MSG_TYPE_NONCOMPATIBLE_STATE = 98; PDP_FAIL_UNKNOWN_INFO_ELEMENT = 99; PDP_FAIL_CONDITIONAL_IE_ERROR = 100; PDP_FAIL_MSG_AND_PROTOCOL_STATE_UNCOMPATIBLE = 101; PDP_FAIL_PROTOCOL_ERRORS = 111; PDP_FAIL_APN_TYPE_CONFLICT = 112; PDP_FAIL_INVALID_PCSCF_ADDR = 113; PDP_FAIL_INTERNAL_CALL_PREEMPT_BY_HIGH_PRIO_APN = 114; PDP_FAIL_EMM_ACCESS_BARRED = 115; PDP_FAIL_EMERGENCY_IFACE_ONLY = 116; PDP_FAIL_IFACE_MISMATCH = 117; PDP_FAIL_COMPANION_IFACE_IN_USE = 118; PDP_FAIL_IP_ADDRESS_MISMATCH = 119; PDP_FAIL_IFACE_AND_POL_FAMILY_MISMATCH = 120; PDP_FAIL_EMM_ACCESS_BARRED_INFINITE_RETRY = 121; PDP_FAIL_AUTH_FAILURE_ON_EMERGENCY_CALL = 122; PDP_FAIL_INVALID_DNS_ADDR = 123; PDP_FAIL_INVALID_PCSCF_OR_DNS_ADDRESS = 124; PDP_FAIL_CALL_PREEMPT_BY_EMERGENCY_APN = 127; PDP_FAIL_UE_INITIATED_DETACH_OR_DISCONNECT = 128; PDP_FAIL_MIP_FA_REASON_UNSPECIFIED = 2000; PDP_FAIL_MIP_FA_ADMIN_PROHIBITED = 2001; PDP_FAIL_MIP_FA_INSUFFICIENT_RESOURCES = 2002; PDP_FAIL_MIP_FA_MOBILE_NODE_AUTHENTICATION_FAILURE = 2003; PDP_FAIL_MIP_FA_HOME_AGENT_AUTHENTICATION_FAILURE = 2004; PDP_FAIL_MIP_FA_REQUESTED_LIFETIME_TOO_LONG = 2005; PDP_FAIL_MIP_FA_MALFORMED_REQUEST = 2006; PDP_FAIL_MIP_FA_MALFORMED_REPLY = 2007; PDP_FAIL_MIP_FA_ENCAPSULATION_UNAVAILABLE = 2008; PDP_FAIL_MIP_FA_VJ_HEADER_COMPRESSION_UNAVAILABLE = 2009; PDP_FAIL_MIP_FA_REVERSE_TUNNEL_UNAVAILABLE = 2010; PDP_FAIL_MIP_FA_REVERSE_TUNNEL_IS_MANDATORY = 2011; PDP_FAIL_MIP_FA_DELIVERY_STYLE_NOT_SUPPORTED = 2012; PDP_FAIL_MIP_FA_MISSING_NAI = 2013; PDP_FAIL_MIP_FA_MISSING_HOME_AGENT = 2014; PDP_FAIL_MIP_FA_MISSING_HOME_ADDRESS = 2015; PDP_FAIL_MIP_FA_UNKNOWN_CHALLENGE = 2016; PDP_FAIL_MIP_FA_MISSING_CHALLENGE = 2017; PDP_FAIL_MIP_FA_STALE_CHALLENGE = 2018; PDP_FAIL_MIP_HA_REASON_UNSPECIFIED = 2019; PDP_FAIL_MIP_HA_ADMIN_PROHIBITED = 2020; PDP_FAIL_MIP_HA_INSUFFICIENT_RESOURCES = 2021; PDP_FAIL_MIP_HA_MOBILE_NODE_AUTHENTICATION_FAILURE = 2022; PDP_FAIL_MIP_HA_FOREIGN_AGENT_AUTHENTICATION_FAILURE = 2023; PDP_FAIL_MIP_HA_REGISTRATION_ID_MISMATCH = 2024; PDP_FAIL_MIP_HA_MALFORMED_REQUEST = 2025; PDP_FAIL_MIP_HA_UNKNOWN_HOME_AGENT_ADDRESS = 2026; PDP_FAIL_MIP_HA_REVERSE_TUNNEL_UNAVAILABLE = 2027; PDP_FAIL_MIP_HA_REVERSE_TUNNEL_IS_MANDATORY = 2028; PDP_FAIL_MIP_HA_ENCAPSULATION_UNAVAILABLE = 2029; PDP_FAIL_CLOSE_IN_PROGRESS = 2030; PDP_FAIL_NETWORK_INITIATED_TERMINATION = 2031; PDP_FAIL_MODEM_APP_PREEMPTED = 2032; PDP_FAIL_PDN_IPV4_CALL_DISALLOWED = 2033; PDP_FAIL_PDN_IPV4_CALL_THROTTLED = 2034; PDP_FAIL_PDN_IPV6_CALL_DISALLOWED = 2035; PDP_FAIL_PDN_IPV6_CALL_THROTTLED = 2036; PDP_FAIL_MODEM_RESTART = 2037; PDP_FAIL_PDP_PPP_NOT_SUPPORTED = 2038; PDP_FAIL_UNPREFERRED_RAT = 2039; PDP_FAIL_PHYSICAL_LINK_CLOSE_IN_PROGRESS = 2040; PDP_FAIL_APN_PENDING_HANDOVER = 2041; PDP_FAIL_PROFILE_BEARER_INCOMPATIBLE = 2042; PDP_FAIL_SIM_CARD_CHANGED = 2043; PDP_FAIL_LOW_POWER_MODE_OR_POWERING_DOWN = 2044; PDP_FAIL_APN_DISABLED = 2045; PDP_FAIL_MAX_PPP_INACTIVITY_TIMER_EXPIRED = 2046; PDP_FAIL_IPV6_ADDRESS_TRANSFER_FAILED = 2047; PDP_FAIL_TRAT_SWAP_FAILED = 2048; PDP_FAIL_EHRPD_TO_HRPD_FALLBACK = 2049; PDP_FAIL_MIP_CONFIG_FAILURE = 2050; PDP_FAIL_PDN_INACTIVITY_TIMER_EXPIRED = 2051; PDP_FAIL_MAX_IPV4_CONNECTIONS = 2052; PDP_FAIL_MAX_IPV6_CONNECTIONS = 2053; PDP_FAIL_APN_MISMATCH = 2054; PDP_FAIL_IP_VERSION_MISMATCH = 2055; PDP_FAIL_DUN_CALL_DISALLOWED = 2056; PDP_FAIL_INTERNAL_EPC_NONEPC_TRANSITION = 2057; PDP_FAIL_INTERFACE_IN_USE = 2058; PDP_FAIL_APN_DISALLOWED_ON_ROAMING = 2059; PDP_FAIL_APN_PARAMETERS_CHANGED = 2060; PDP_FAIL_NULL_APN_DISALLOWED = 2061; PDP_FAIL_THERMAL_MITIGATION = 2062; PDP_FAIL_DATA_SETTINGS_DISABLED = 2063; PDP_FAIL_DATA_ROAMING_SETTINGS_DISABLED = 2064; PDP_FAIL_DDS_SWITCHED = 2065; PDP_FAIL_FORBIDDEN_APN_NAME = 2066; PDP_FAIL_DDS_SWITCH_IN_PROGRESS = 2067; PDP_FAIL_CALL_DISALLOWED_IN_ROAMING = 2068; PDP_FAIL_NON_IP_NOT_SUPPORTED = 2069; PDP_FAIL_PDN_NON_IP_CALL_THROTTLED = 2070; PDP_FAIL_PDN_NON_IP_CALL_DISALLOWED = 2071; PDP_FAIL_CDMA_LOCK = 2072; PDP_FAIL_CDMA_INTERCEPT = 2073; PDP_FAIL_CDMA_REORDER = 2074; PDP_FAIL_CDMA_RELEASE_DUE_TO_SO_REJECTION = 2075; PDP_FAIL_CDMA_INCOMING_CALL = 2076; PDP_FAIL_CDMA_ALERT_STOP = 2077; PDP_FAIL_CHANNEL_ACQUISITION_FAILURE = 2078; PDP_FAIL_MAX_ACCESS_PROBE = 2079; PDP_FAIL_CONCURRENT_SERVICE_NOT_SUPPORTED_BY_BASE_STATION = 2080; PDP_FAIL_NO_RESPONSE_FROM_BASE_STATION = 2081; PDP_FAIL_REJECTED_BY_BASE_STATION = 2082; PDP_FAIL_CONCURRENT_SERVICES_INCOMPATIBLE = 2083; PDP_FAIL_NO_CDMA_SERVICE = 2084; PDP_FAIL_RUIM_NOT_PRESENT = 2085; PDP_FAIL_CDMA_RETRY_ORDER = 2086; PDP_FAIL_ACCESS_BLOCK = 2087; PDP_FAIL_ACCESS_BLOCK_ALL = 2088; PDP_FAIL_IS707B_MAX_ACCESS_PROBES = 2089; PDP_FAIL_THERMAL_EMERGENCY = 2090; PDP_FAIL_CONCURRENT_SERVICES_NOT_ALLOWED = 2091; PDP_FAIL_INCOMING_CALL_REJECTED = 2092; PDP_FAIL_NO_SERVICE_ON_GATEWAY = 2093; PDP_FAIL_NO_GPRS_CONTEXT = 2094; PDP_FAIL_ILLEGAL_MS = 2095; PDP_FAIL_ILLEGAL_ME = 2096; PDP_FAIL_GPRS_SERVICES_AND_NON_GPRS_SERVICES_NOT_ALLOWED = 2097; PDP_FAIL_GPRS_SERVICES_NOT_ALLOWED = 2098; PDP_FAIL_MS_IDENTITY_CANNOT_BE_DERIVED_BY_THE_NETWORK = 2099; PDP_FAIL_IMPLICITLY_DETACHED = 2100; PDP_FAIL_PLMN_NOT_ALLOWED = 2101; PDP_FAIL_LOCATION_AREA_NOT_ALLOWED = 2102; PDP_FAIL_GPRS_SERVICES_NOT_ALLOWED_IN_THIS_PLMN = 2103; PDP_FAIL_PDP_DUPLICATE = 2104; PDP_FAIL_UE_RAT_CHANGE = 2105; PDP_FAIL_CONGESTION = 2106; PDP_FAIL_NO_PDP_CONTEXT_ACTIVATED = 2107; PDP_FAIL_ACCESS_CLASS_DSAC_REJECTION = 2108; PDP_FAIL_PDP_ACTIVATE_MAX_RETRY_FAILED = 2109; PDP_FAIL_RADIO_ACCESS_BEARER_FAILURE = 2110; PDP_FAIL_ESM_UNKNOWN_EPS_BEARER_CONTEXT = 2111; PDP_FAIL_DRB_RELEASED_BY_RRC = 2112; PDP_FAIL_CONNECTION_RELEASED = 2113; PDP_FAIL_EMM_DETACHED = 2114; PDP_FAIL_EMM_ATTACH_FAILED = 2115; PDP_FAIL_EMM_ATTACH_STARTED = 2116; PDP_FAIL_LTE_NAS_SERVICE_REQUEST_FAILED = 2117; PDP_FAIL_DUPLICATE_BEARER_ID = 2118; PDP_FAIL_ESM_COLLISION_SCENARIOS = 2119; PDP_FAIL_ESM_BEARER_DEACTIVATED_TO_SYNC_WITH_NETWORK = 2120; PDP_FAIL_ESM_NW_ACTIVATED_DED_BEARER_WITH_ID_OF_DEF_BEARER = 2121; PDP_FAIL_ESM_BAD_OTA_MESSAGE = 2122; PDP_FAIL_ESM_DOWNLOAD_SERVER_REJECTED_THE_CALL = 2123; PDP_FAIL_ESM_CONTEXT_TRANSFERRED_DUE_TO_IRAT = 2124; PDP_FAIL_DS_EXPLICIT_DEACTIVATION = 2125; PDP_FAIL_ESM_LOCAL_CAUSE_NONE = 2126; PDP_FAIL_LTE_THROTTLING_NOT_REQUIRED = 2127; PDP_FAIL_ACCESS_CONTROL_LIST_CHECK_FAILURE = 2128; PDP_FAIL_SERVICE_NOT_ALLOWED_ON_PLMN = 2129; PDP_FAIL_EMM_T3417_EXPIRED = 2130; PDP_FAIL_EMM_T3417_EXT_EXPIRED = 2131; PDP_FAIL_RRC_UPLINK_DATA_TRANSMISSION_FAILURE = 2132; PDP_FAIL_RRC_UPLINK_DELIVERY_FAILED_DUE_TO_HANDOVER = 2133; PDP_FAIL_RRC_UPLINK_CONNECTION_RELEASE = 2134; PDP_FAIL_RRC_UPLINK_RADIO_LINK_FAILURE = 2135; PDP_FAIL_RRC_UPLINK_ERROR_REQUEST_FROM_NAS = 2136; PDP_FAIL_RRC_CONNECTION_ACCESS_STRATUM_FAILURE = 2137; PDP_FAIL_RRC_CONNECTION_ANOTHER_PROCEDURE_IN_PROGRESS = 2138; PDP_FAIL_RRC_CONNECTION_ACCESS_BARRED = 2139; PDP_FAIL_RRC_CONNECTION_CELL_RESELECTION = 2140; PDP_FAIL_RRC_CONNECTION_CONFIG_FAILURE = 2141; PDP_FAIL_RRC_CONNECTION_TIMER_EXPIRED = 2142; PDP_FAIL_RRC_CONNECTION_LINK_FAILURE = 2143; PDP_FAIL_RRC_CONNECTION_CELL_NOT_CAMPED = 2144; PDP_FAIL_RRC_CONNECTION_SYSTEM_INTERVAL_FAILURE = 2145; PDP_FAIL_RRC_CONNECTION_REJECT_BY_NETWORK = 2146; PDP_FAIL_RRC_CONNECTION_NORMAL_RELEASE = 2147; PDP_FAIL_RRC_CONNECTION_RADIO_LINK_FAILURE = 2148; PDP_FAIL_RRC_CONNECTION_REESTABLISHMENT_FAILURE = 2149; PDP_FAIL_RRC_CONNECTION_OUT_OF_SERVICE_DURING_CELL_REGISTER = 2150; PDP_FAIL_RRC_CONNECTION_ABORT_REQUEST = 2151; PDP_FAIL_RRC_CONNECTION_SYSTEM_INFORMATION_BLOCK_READ_ERROR = 2152; PDP_FAIL_NETWORK_INITIATED_DETACH_WITH_AUTO_REATTACH = 2153; PDP_FAIL_NETWORK_INITIATED_DETACH_NO_AUTO_REATTACH = 2154; PDP_FAIL_ESM_PROCEDURE_TIME_OUT = 2155; PDP_FAIL_INVALID_CONNECTION_ID = 2156; PDP_FAIL_MAXIMIUM_NSAPIS_EXCEEDED = 2157; PDP_FAIL_INVALID_PRIMARY_NSAPI = 2158; PDP_FAIL_CANNOT_ENCODE_OTA_MESSAGE = 2159; PDP_FAIL_RADIO_ACCESS_BEARER_SETUP_FAILURE = 2160; PDP_FAIL_PDP_ESTABLISH_TIMEOUT_EXPIRED = 2161; PDP_FAIL_PDP_MODIFY_TIMEOUT_EXPIRED = 2162; PDP_FAIL_PDP_INACTIVE_TIMEOUT_EXPIRED = 2163; PDP_FAIL_PDP_LOWERLAYER_ERROR = 2164; PDP_FAIL_PDP_MODIFY_COLLISION = 2165; PDP_FAIL_MAXINUM_SIZE_OF_L2_MESSAGE_EXCEEDED = 2166; PDP_FAIL_NAS_REQUEST_REJECTED_BY_NETWORK = 2167; PDP_FAIL_RRC_CONNECTION_INVALID_REQUEST = 2168; PDP_FAIL_RRC_CONNECTION_TRACKING_AREA_ID_CHANGED = 2169; PDP_FAIL_RRC_CONNECTION_RF_UNAVAILABLE = 2170; PDP_FAIL_RRC_CONNECTION_ABORTED_DUE_TO_IRAT_CHANGE = 2171; PDP_FAIL_RRC_CONNECTION_RELEASED_SECURITY_NOT_ACTIVE = 2172; PDP_FAIL_RRC_CONNECTION_ABORTED_AFTER_HANDOVER = 2173; PDP_FAIL_RRC_CONNECTION_ABORTED_AFTER_IRAT_CELL_CHANGE = 2174; PDP_FAIL_RRC_CONNECTION_ABORTED_DURING_IRAT_CELL_CHANGE = 2175; PDP_FAIL_IMSI_UNKNOWN_IN_HOME_SUBSCRIBER_SERVER = 2176; PDP_FAIL_IMEI_NOT_ACCEPTED = 2177; PDP_FAIL_EPS_SERVICES_AND_NON_EPS_SERVICES_NOT_ALLOWED = 2178; PDP_FAIL_EPS_SERVICES_NOT_ALLOWED_IN_PLMN = 2179; PDP_FAIL_MSC_TEMPORARILY_NOT_REACHABLE = 2180; PDP_FAIL_CS_DOMAIN_NOT_AVAILABLE = 2181; PDP_FAIL_ESM_FAILURE = 2182; PDP_FAIL_MAC_FAILURE = 2183; PDP_FAIL_SYNCHRONIZATION_FAILURE = 2184; PDP_FAIL_UE_SECURITY_CAPABILITIES_MISMATCH = 2185; PDP_FAIL_SECURITY_MODE_REJECTED = 2186; PDP_FAIL_UNACCEPTABLE_NON_EPS_AUTHENTICATION = 2187; PDP_FAIL_CS_FALLBACK_CALL_ESTABLISHMENT_NOT_ALLOWED = 2188; PDP_FAIL_NO_EPS_BEARER_CONTEXT_ACTIVATED = 2189; PDP_FAIL_INVALID_EMM_STATE = 2190; PDP_FAIL_NAS_LAYER_FAILURE = 2191; PDP_FAIL_MULTIPLE_PDP_CALL_NOT_ALLOWED = 2192; PDP_FAIL_EMBMS_NOT_ENABLED = 2193; PDP_FAIL_IRAT_HANDOVER_FAILED = 2194; PDP_FAIL_EMBMS_REGULAR_DEACTIVATION = 2195; PDP_FAIL_TEST_LOOPBACK_REGULAR_DEACTIVATION = 2196; PDP_FAIL_LOWER_LAYER_REGISTRATION_FAILURE = 2197; PDP_FAIL_DATA_PLAN_EXPIRED = 2198; PDP_FAIL_UMTS_HANDOVER_TO_IWLAN = 2199; PDP_FAIL_EVDO_CONNECTION_DENY_BY_GENERAL_OR_NETWORK_BUSY = 2200; PDP_FAIL_EVDO_CONNECTION_DENY_BY_BILLING_OR_AUTHENTICATION_FAILURE = 2201; PDP_FAIL_EVDO_HDR_CHANGED = 2202; PDP_FAIL_EVDO_HDR_EXITED = 2203; PDP_FAIL_EVDO_HDR_NO_SESSION = 2204; PDP_FAIL_EVDO_USING_GPS_FIX_INSTEAD_OF_HDR_CALL = 2205; PDP_FAIL_EVDO_HDR_CONNECTION_SETUP_TIMEOUT = 2206; PDP_FAIL_FAILED_TO_ACQUIRE_COLOCATED_HDR = 2207; PDP_FAIL_OTASP_COMMIT_IN_PROGRESS = 2208; PDP_FAIL_NO_HYBRID_HDR_SERVICE = 2209; PDP_FAIL_HDR_NO_LOCK_GRANTED = 2210; PDP_FAIL_DBM_OR_SMS_IN_PROGRESS = 2211; PDP_FAIL_HDR_FADE = 2212; PDP_FAIL_HDR_ACCESS_FAILURE = 2213; PDP_FAIL_UNSUPPORTED_1X_PREV = 2214; PDP_FAIL_LOCAL_END = 2215; PDP_FAIL_NO_SERVICE = 2216; PDP_FAIL_FADE = 2217; PDP_FAIL_NORMAL_RELEASE = 2218; PDP_FAIL_ACCESS_ATTEMPT_ALREADY_IN_PROGRESS = 2219; PDP_FAIL_REDIRECTION_OR_HANDOFF_IN_PROGRESS = 2220; PDP_FAIL_EMERGENCY_MODE = 2221; PDP_FAIL_PHONE_IN_USE = 2222; PDP_FAIL_INVALID_MODE = 2223; PDP_FAIL_INVALID_SIM_STATE = 2224; PDP_FAIL_NO_COLLOCATED_HDR = 2225; PDP_FAIL_UE_IS_ENTERING_POWERSAVE_MODE = 2226; PDP_FAIL_DUAL_SWITCH = 2227; PDP_FAIL_PPP_TIMEOUT = 2228; PDP_FAIL_PPP_AUTH_FAILURE = 2229; PDP_FAIL_PPP_OPTION_MISMATCH = 2230; PDP_FAIL_PPP_PAP_FAILURE = 2231; PDP_FAIL_PPP_CHAP_FAILURE = 2232; PDP_FAIL_PPP_CLOSE_IN_PROGRESS = 2233; PDP_FAIL_LIMITED_TO_IPV4 = 2234; PDP_FAIL_LIMITED_TO_IPV6 = 2235; PDP_FAIL_VSNCP_TIMEOUT = 2236; PDP_FAIL_VSNCP_GEN_ERROR = 2237; PDP_FAIL_VSNCP_APN_UNATHORIZED = 2238; PDP_FAIL_VSNCP_PDN_LIMIT_EXCEEDED = 2239; PDP_FAIL_VSNCP_NO_PDN_GATEWAY_ADDRESS = 2240; PDP_FAIL_VSNCP_PDN_GATEWAY_UNREACHABLE = 2241; PDP_FAIL_VSNCP_PDN_GATEWAY_REJECT = 2242; PDP_FAIL_VSNCP_INSUFFICIENT_PARAMETERS = 2243; PDP_FAIL_VSNCP_RESOURCE_UNAVAILABLE = 2244; PDP_FAIL_VSNCP_ADMINISTRATIVELY_PROHIBITED = 2245; PDP_FAIL_VSNCP_PDN_ID_IN_USE = 2246; PDP_FAIL_VSNCP_SUBSCRIBER_LIMITATION = 2247; PDP_FAIL_VSNCP_PDN_EXISTS_FOR_THIS_APN = 2248; PDP_FAIL_VSNCP_RECONNECT_NOT_ALLOWED = 2249; PDP_FAIL_IPV6_PREFIX_UNAVAILABLE = 2250; PDP_FAIL_HANDOFF_PREFERENCE_CHANGED = 2251; // Not mentioned in the specification PDP_FAIL_VOICE_REGISTRATION_FAIL = -1; PDP_FAIL_DATA_REGISTRATION_FAIL = -2; // Reasons for data call drop - network/modem disconnect PDP_FAIL_SIGNAL_LOST = -3; // Preferred technology has changed, should retry with parameters // appropriate for new technology PDP_FAIL_PREF_RADIO_TECH_CHANGED = -4; // Data call was disconnected because radio was resetting, // powered off - no retry PDP_FAIL_RADIO_POWER_OFF = -5; // Data call was disconnected by modem because tethered mode was up // on same APN/data profile - no retry until tethered call is off PDP_FAIL_TETHERED_CALL_ACTIVE = -6; // retry silently PDP_FAIL_ERROR_UNSPECIFIED = 65535; } // A RIL_DataCallFailCause, 0 which is PDP_FAIL_NONE if no error optional RilDataCallFailCause status = 1; // If status != 0, this fields indicates the suggested retry back-off timer // value RIL wants to override the one pre-configured in FW optional int32 suggested_retry_time_millis = 2; optional RilDataCall call = 3; } // Carrier Key Change Event. message CarrierKeyChange { enum KeyType { // Key Type Unknown. UNKNOWN = 0; // Key Type for WLAN. WLAN = 1; // Key Type for EPDG. EPDG = 2; } // Key type of the Encryption key. optional KeyType key_type = 1; // Whether the download was successful or not. optional bool isDownloadSuccessful = 2; } // Deactivate packet data connection message RilDeactivateDataCall { // Context ID optional int32 cid = 1; // Reason for deactivating data call optional DeactivateReason reason = 2; // Deactivate data call reasons enum DeactivateReason { // Reason is unknown. DEACTIVATE_REASON_UNKNOWN = 0; DEACTIVATE_REASON_NONE = 1; DEACTIVATE_REASON_RADIO_OFF = 2; DEACTIVATE_REASON_PDP_RESET = 3; DEACTIVATE_REASON_HANDOVER = 4; } } message ModemRestart { // The baseband_version is used to identify the particular software version // where the modem restarts happened optional string baseband_version = 1; // Indicates the modem restart reason. The restart reason can be used to // categorize any modem crashes and group similar crashes together. This // information will be useful to identify the cause of modem crashes, // reproduce the issue and confirm that the fix works. optional string reason = 2; } message CarrierIdMatching { // Carrier id table version number optional int32 cid_table_version = 1; // Carrier id matching result object optional CarrierIdMatchingResult result = 2; } message CarrierIdMatchingResult { // A unique carrier id optional int32 carrier_id = 1; // Group id level 1. Logged only if gid1 is configured from subscription // but its matching rule is unknown optional string unknown_gid1 = 2; // MCC and MNC that map to this carrier. Logged only if mccmnc is configured // from subscription but its matching rule is unknown optional string unknown_mccmnc = 3; // MCC and MNC from the subscription that map to this carrier. optional string mccmnc = 4; // Group id level 1 from the subscription that map to this carrier. optional string gid1 = 5; // Group id level 2 from the subscription that map to this carrier. optional string gid2 = 6; // spn from the subscription that map to this carrier. optional string spn = 7; // pnn from the subscription that map to this carrier. optional string pnn = 8; // iccid prefix from the subscription that map to this carrier. // only log first 7 outof 20 bit of full iccid optional string iccid_prefix = 9; // imsi prefix from the subscription that map to this carrier. // only log additional 2 bits other than MCC MNC. optional string imsi_prefix = 10; // Carrier Privilege Access Rule in hex string from the subscription. // Sample values: 61ed377e85d386a8dfee6b864bd85b0bfaa5af88 repeated string privilege_access_rule = 11; // The Access Point Name, corresponding to "apn" field returned by // "content://telephony/carriers/preferapn" on device. // Sample values: fast.t-mobile.com, internet. Note only log if this apn is not user edited. optional string preferApn = 12; } message NetworkCapabilitiesInfo { // Is network unmetered optional bool is_network_unmetered = 1; } // Time when event happened on device, in milliseconds since boot optional int64 timestamp_millis = 1; // In Multi-SIM devices this indicates SIM slot optional int32 phone_id = 2; // Event type optional Type type = 3; // User settings optional TelephonySettings settings = 4; // RIL Service State optional TelephonyServiceState service_state = 5; // IMS state optional ImsConnectionState ims_connection_state = 6; // IMS capabilities optional ImsCapabilities ims_capabilities = 7; // List of data calls when changed repeated RilDataCall data_calls = 8; // RIL error code optional RilErrno error = 9; // Setup data call request optional RilSetupDataCall setup_data_call = 10; // Setup data call response optional RilSetupDataCallResponse setup_data_call_response = 11; // Deactivate data call request optional RilDeactivateDataCall deactivate_data_call = 12; // Data call stall recovery action optional int32 data_stall_action = 13; // Modem restart event optional ModemRestart modem_restart = 14; // NITZ time in milliseconds (see TelephonyEvent.Type.NITZ_TIME) optional int64 nitz_timestamp_millis = 15; // Carrier id matching event optional CarrierIdMatching carrier_id_matching = 16; // Carrier key change optional CarrierKeyChange carrier_key_change = 17; // Data switch event optional DataSwitch data_switch = 19; // For network validate event optional NetworkValidationState network_validation_state = 20; // On demand data switch event optional OnDemandDataSwitch on_demand_data_switch = 21; // Sim state for each slot. repeated SimState sim_state = 22; // The active subscription info for a specific slot. optional ActiveSubscriptionInfo active_subscription_info = 23; // The modem state represent by a bitmap, the i-th bit(LSB) indicates the i-th modem // state (0 - disabled, 1 - enabled). optional int32 enabled_modem_bitmap = 24; // Updated Emergency Call info. optional EmergencyNumberInfo updated_emergency_number = 25; // NetworkCapabilities changed info. optional NetworkCapabilitiesInfo network_capabilities = 26; // Signal strength optional int32 signal_strength = 27; // Indicate the version of emergency number database in Android platform optional int32 emergency_number_database_version = 28; // [ // (datapol.semantic_type) = ST_SOFTWARE_ID, // (datapol.qualifier) = { is_public: true } //] // Radio state for the given phone_id optional RadioState radio_state = 29; } message ActiveSubscriptionInfo { /** The slot index which this subscription is associated with. */ optional int32 slot_index = 1; /** The Carrier id of this subscription. -1 indicates unknown value. */ optional int32 carrier_id = 2; /** whether subscription is opportunistic (0 - false, 1 - true, -1 - unknown). */ optional int32 is_opportunistic = 3; /** The mccmnc associated with the subscription. Useful for differentiating * between subscriptions with different mccmnc but same carrier_id (eg. Fi * Sprint vs. Fi T-Mobile).*/ optional string sim_mccmnc = 4 /*[ (datapol.semantic_type) = ST_LOCATION, (datapol.location_qualifier) = { precise_location: false } ]*/; }; enum SimState { /** * SIM card is inserted, but the state is unknown. Typically happened when the SIM is inserted * but not loaded. */ SIM_STATE_UNKNOWN = 0; /** No SIM card is inserted in the slot. */ SIM_STATE_ABSENT = 1; /** SIM card applications have been loaded. */ SIM_STATE_LOADED = 2; }; enum TimeInterval { TI_UNKNOWN = 0; TI_10_MILLIS = 1; TI_20_MILLIS = 2; TI_50_MILLIS = 3; TI_100_MILLIS = 4; TI_200_MILLIS = 5; TI_500_MILLIS = 6; TI_1_SEC = 7; TI_2_SEC = 8; TI_5_SEC = 9; TI_10_SEC = 10; TI_30_SEC = 11; TI_1_MINUTE = 12; TI_3_MINUTES = 13; TI_10_MINUTES = 14; TI_30_MINUTES = 15; TI_1_HOUR = 16; TI_2_HOURS = 17; TI_4_HOURS = 18; TI_MANY_HOURS = 19; } // Information about CS and/or PS call session. // Session starts when call is placed or accepted and // ends when there are no more active calls. message TelephonyCallSession { message Event { enum Type { // Unknown event EVENT_UNKNOWN = 0; // Telephony related user settings changed SETTINGS_CHANGED = 1; // Phone state changed RIL_SERVICE_STATE_CHANGED = 2; // IMS connected/disconnected IMS_CONNECTION_STATE_CHANGED = 3; // IMS Voice, Video and Ut capabilities changed IMS_CAPABILITIES_CHANGED = 4; // Notification that new data call has appeared in the list // or old data call has removed. DATA_CALL_LIST_CHANGED = 5; // Send request to RIL RIL_REQUEST = 6; // Result of the RIL request RIL_RESPONSE = 7; // Ring indication for an incoming call RIL_CALL_RING = 8; // Notification that Single Radio Voice Call Continuity(SRVCC) // progress state has changed. RIL_CALL_SRVCC = 9; // Notification that list of calls has changed. RIL_CALL_LIST_CHANGED = 10; // Command sent to IMS Service. See ImsCommand. IMS_COMMAND = 11; // Command sent to IMS Service. See ImsCommand. IMS_COMMAND_RECEIVED = 12; // Command sent to IMS Service. See ImsCommand. IMS_COMMAND_FAILED = 13; // Command sent to IMS Service. See ImsCommand. IMS_COMMAND_COMPLETE = 14; // Notification about incoming voice call IMS_CALL_RECEIVE = 15; // Notification that state of the call has changed IMS_CALL_STATE_CHANGED = 16; // Notification about IMS call termination IMS_CALL_TERMINATED = 17; // Notification that session access technology has changed IMS_CALL_HANDOVER = 18; // Notification that session access technology has changed IMS_CALL_HANDOVER_FAILED = 19; // Notification about phone state changed. PHONE_STATE_CHANGED = 20; // System time overwritten by NITZ (Network time) NITZ_TIME = 21; // Change of audio codec AUDIO_CODEC = 22; // Notification that the call quality has changed CALL_QUALITY_CHANGED = 23; } enum RilRequest { RIL_REQUEST_UNKNOWN = 0; // Initiate voice call RIL_REQUEST_DIAL = 1; // Answer incoming call RIL_REQUEST_ANSWER = 2; // Hang up a specific line RIL_REQUEST_HANGUP = 3; // Configure current call waiting state RIL_REQUEST_SET_CALL_WAITING = 4; RIL_REQUEST_SWITCH_HOLDING_AND_ACTIVE = 5; // Send FLASH RIL_REQUEST_CDMA_FLASH = 6; // Conference holding and active RIL_REQUEST_CONFERENCE = 7; } enum ImsCommand { // Command is unknown. IMS_CMD_UNKNOWN = 0; IMS_CMD_START = 1; IMS_CMD_ACCEPT = 2; IMS_CMD_REJECT = 3; IMS_CMD_TERMINATE = 4; IMS_CMD_HOLD = 5; IMS_CMD_RESUME = 6; IMS_CMD_MERGE = 7; IMS_CMD_UPDATE = 8; IMS_CMD_CONFERENCE_EXTEND = 9; IMS_CMD_INVITE_PARTICIPANT = 10; IMS_CMD_REMOVE_PARTICIPANT = 11; } enum PhoneState { // State is unknown. STATE_UNKNOWN = 0; STATE_IDLE = 1; STATE_RINGING = 2; STATE_OFFHOOK = 3; } // Telephony call states enum CallState { // State is unknown. CALL_UNKNOWN = 0; CALL_IDLE = 1; CALL_ACTIVE = 2; CALL_HOLDING = 3; CALL_DIALING = 4; CALL_ALERTING = 5; CALL_INCOMING = 6; CALL_WAITING = 7; CALL_DISCONNECTED = 8; CALL_DISCONNECTING = 9; } // Audio codecs enum AudioCodec { // Unknown codec AUDIO_CODEC_UNKNOWN = 0; AUDIO_CODEC_AMR = 1; AUDIO_CODEC_AMR_WB = 2; AUDIO_CODEC_QCELP13K = 3; AUDIO_CODEC_EVRC = 4; AUDIO_CODEC_EVRC_B = 5; AUDIO_CODEC_EVRC_WB = 6; AUDIO_CODEC_EVRC_NW = 7; AUDIO_CODEC_GSM_EFR = 8; AUDIO_CODEC_GSM_FR = 9; AUDIO_CODEC_GSM_HR = 10; AUDIO_CODEC_G711U = 11; AUDIO_CODEC_G723 = 12; AUDIO_CODEC_G711A = 13; AUDIO_CODEC_G722 = 14; AUDIO_CODEC_G711AB = 15; AUDIO_CODEC_G729 = 16; AUDIO_CODEC_EVS_NB = 17; AUDIO_CODEC_EVS_WB = 18; AUDIO_CODEC_EVS_SWB = 19; AUDIO_CODEC_EVS_FB = 20; } // The information about a voice call message RilCall { enum Type { // Scan Type is unknown. UNKNOWN = 0; // Mobile originated MO = 1; // Mobile terminated MT = 2; } // Connection Index optional int32 index = 1; optional CallState state = 2; optional Type type = 3; // For possible values for a call end reason check // frameworks/base/telephony/java/android/telephony/DisconnectCause.java optional int32 call_end_reason = 4; // This field is true for Conference Calls optional bool is_multiparty = 5; // Detailed cause code for CS Call failures // frameworks/base/telephony/java/android/telephony/PreciseDisconnectCause.java optional int32 precise_disconnect_cause = 6; // Indicate if the call is an emergency call optional bool is_emergency_call = 7; // Indicate the emergency call information dialed from the CS call optional EmergencyNumberInfo emergency_number_info = 8; // Indicate the version of emergency number database in Android platform optional int32 emergency_number_database_version = 9; // [ // (datapol.semantic_type) = ST_SOFTWARE_ID, // (datapol.qualifier) = { is_public: true } //] } // Single Radio Voice Call Continuity(SRVCC) progress state enum RilSrvccState { // State is unknown. HANDOVER_UNKNOWN = 0; HANDOVER_STARTED = 1; HANDOVER_COMPLETED = 2; HANDOVER_FAILED = 3; HANDOVER_CANCELED = 4; } message SignalStrength { // signal to noise ratio for LTE signal strength optional int32 lte_snr = 1; // in the future we may include more measures of signal strength, or // measurements for other RATs } // CallQuality information. (This proto class corresponds to // android.telephony.CallQuality) message CallQuality { enum CallQualityLevel { // leaving the first value explicitly as unspecified avoids breaking // clients if the desired default behavior changes UNDEFINED = 0; EXCELLENT = 1; GOOD = 2; FAIR = 3; POOR = 4; BAD = 5; // this typically indicates a failure in the modem NOT_AVAILABLE = 6; } // the downlink CallQualityLevel for a given ongoing call optional CallQualityLevel downlink_level = 1; // the uplink CallQualityLevel for a given ongoing call optional CallQualityLevel uplink_level = 2; // the duration of the call, in seconds optional int32 duration_in_seconds = 3; // the total number of RTP packets transmitted by this device for an // ongoing call optional int32 rtp_packets_transmitted = 4; // the total number of RTP packets received by this device for an ongoing // call optional int32 rtp_packets_received = 5; // the number of RTP packets which were sent by this device but were lost // in the network before reaching the other party optional int32 rtp_packets_transmitted_lost = 6; // the number of RTP packets which were sent by the other party but were // lost in the network before reaching this device optional int32 rtp_packets_not_received = 7; // the average relative jitter in milliseconds. Jitter represents the // amount of variance in interarrival time of packets, for example, if two // packets are sent 2 milliseconds apart but received 3 milliseconds // apart, the relative jitter between those packets is 1 millisecond. // // See RFC 3550 for more information on jitter calculations optional int32 average_relative_jitter_millis = 8; // the maximum relative jitter for a given ongoing call. Jitter represents // the amount of variance in interarrival time of packets, for example, if // two packets are sent 2 milliseconds apart but received 3 milliseconds // apart, the relative jitter between those packets is 1 millisecond. // // See RFC 3550 for more information on jitter calculations. optional int32 max_relative_jitter_millis = 9; // the average round trip time of RTP packets in an ongoing call, in milliseconds optional int32 average_round_trip_time = 10; // the codec type of an ongoing call optional AudioCodec codec_type = 11; // true if no incoming RTP is received for a continuous duration of 4 seconds optional bool rtp_inactivity_detected = 12; // true if only silence RTP packets are received for 20 seconds immediately // after call is connected optional bool rx_silence_detected = 13; // true if only silence RTP packets are sent for 20 seconds immediately // after call is connected optional bool tx_silence_detected = 14; // the number of Voice frames sent by jitter buffer to audio optional int32 voice_frames = 15; // the number of NO_DATA frames sent by jitter buffer to audio optional int32 no_data_frames = 16; // the number of RTP voice packets dropped by jitter buffer optional int32 rtp_dropped_packets = 17; // the minimum playout delay in the reporting interval, in milliseconds optional int64 min_playout_delay_millis = 18; // the maximum playout delay in the reporting interval, in milliseconds optional int64 max_playout_delay_millis = 19; // the total number of RTP SID packets received by this device // for an ongoing call optional int32 rx_rtp_sid_packets = 20; // the total number of RTP duplicate packets received by this device // for an ongoing call optional int32 rtp_duplicate_packets = 21; } message CallQualitySummary { // Total duration of good call quality reported at the end of a call optional int32 total_good_quality_duration_in_seconds = 1; // Total duration of bad call quality reported at the end of a call optional int32 total_bad_quality_duration_in_seconds = 2; // Total duration of the call for which we have call quality // information, reported at the end of a call. For example, if an IMS call // is converted to a CS call, which doesn't report call quality information, // this value is the duration of the IMS component. optional int32 total_duration_with_quality_information_in_seconds = 3; // Snapshot of the CallQuality when signal strength is worst within good // quality section optional CallQuality snapshot_of_worst_ss_with_good_quality = 4; // Snapshot of the CallQuality when signal strength is best within good // quality section optional CallQuality snapshot_of_best_ss_with_good_quality = 5; // Snapshot of the CallQuality when signal strength is worst within bad // quality section optional CallQuality snapshot_of_worst_ss_with_bad_quality = 6; // Snapshot of the CallQuality when signal strength is best within bad // quality section optional CallQuality snapshot_of_best_ss_with_bad_quality = 7; // The worst SignalStrength in any good quality section optional SignalStrength worst_ss_with_good_quality = 8; // The best SignalStrength in any good quality section optional SignalStrength best_ss_with_good_quality = 9; // The worst SignalStrength in any bad quality section optional SignalStrength worst_ss_with_bad_quality = 10; // The best SignalStrength in any bad quality section optional SignalStrength best_ss_with_bad_quality = 11; // Snapshot of the CallQuality at the end of a call. This includes // cumulative statistics like total duration and total RTP packets. optional CallQuality snapshot_of_end = 12; } // Event type optional Type type = 1; // Time since previous event optional TimeInterval delay = 2; // Settings at the beginning of the session or when changed optional TelephonySettings settings = 3; // State at the beginning of the session or when changed optional TelephonyServiceState service_state = 4; // State at the beginning of the session or when changed optional ImsConnectionState ims_connection_state = 5; // Capabilities at the beginning of the session or when changed optional ImsCapabilities ims_capabilities = 6; // List of data calls at the beginning of the session or when changed repeated RilDataCall data_calls = 7; // New state optional PhoneState phone_state = 8; // New state optional CallState call_state = 9; // CS or IMS Voice call index optional int32 call_index = 10; // New merged call optional int32 merged_call_index = 11; // Active CS Voice calls repeated RilCall calls = 12; // RIL error code optional RilErrno error = 13; // RIL request optional RilRequest ril_request = 14; // Numeric ID optional int32 ril_request_id = 15; // New SRVCC state optional RilSrvccState srvcc_state = 16; // IMS command optional ImsCommand ims_command = 17; // IMS Failure reason optional ImsReasonInfo reason_info = 18; // Original access technology optional RadioAccessTechnology src_access_tech = 19 [default = UNKNOWN]; // New access technology optional RadioAccessTechnology target_access_tech = 20 [default = UNKNOWN]; // NITZ time in milliseconds optional int64 nitz_timestamp_millis = 21; // Audio codec at the beginning of the session or when changed optional AudioCodec audio_codec = 22; // Call quality when changed optional CallQuality call_quality = 23; // Downlink call quality summary at the end of a call optional CallQualitySummary call_quality_summary_dl = 24; // Uplink call quality summary at the end of a call optional CallQualitySummary call_quality_summary_ul = 25; // Indicate if it is IMS emergency call optional bool is_ims_emergency_call = 26; // Emergency call info optional EmergencyNumberInfo ims_emergency_number_info = 27; // Indicate the version of emergency number database in Android platform optional int32 emergency_number_database_version = 28; // [ // (datapol.semantic_type) = ST_SOFTWARE_ID, // (datapol.qualifier) = { is_public: true } //] } // Time when call has started, in minutes since epoch, // with 5 minutes precision optional int32 start_time_minutes = 1; // In Multi-SIM devices this indicates SIM slot optional int32 phone_id = 2; // List of events happened during the call repeated Event events = 3; // Indicating some call events are dropped optional bool events_dropped = 4; } message SmsSession { message Event { enum Type { // Unknown event EVENT_UNKNOWN = 0; // Telephony related user settings changed SETTINGS_CHANGED = 1; // Phone state changed RIL_SERVICE_STATE_CHANGED = 2; // IMS connected/disconnected IMS_CONNECTION_STATE_CHANGED = 3; // IMS Voice, Video and Ut capabilities changed IMS_CAPABILITIES_CHANGED = 4; // Notification that new data call has appeared in the list // or old data call has removed. DATA_CALL_LIST_CHANGED = 5; // Send a SMS message over RIL SMS_SEND = 6; // Message has been sent to network using RIL SMS_SEND_RESULT = 7; // Notification about received SMS using RIL SMS_RECEIVED = 8; // CB message received CB_SMS_RECEIVED = 9; // Incomplete multipart message received INCOMPLETE_SMS_RECEIVED = 10; } // Formats used to encode SMS messages enum Format { // Format is unknown. SMS_FORMAT_UNKNOWN = 0; // GSM, WCDMA SMS_FORMAT_3GPP = 1; // CDMA SMS_FORMAT_3GPP2 = 2; } enum Tech { SMS_UNKNOWN = 0; SMS_GSM = 1; SMS_CDMA = 2; SMS_IMS = 3; } message CBMessage { // CB message format optional Format msg_format = 1; // CB message priority optional CBPriority msg_priority = 2; // Type of CB msg optional CBMessageType msg_type = 3; // Service category of CB message optional int32 service_category = 4; // Message's serial number optional int32 serial_number = 5; // The delivered time (UTC) of the message optional int64 delivered_timestamp_millis = 6; } enum CBMessageType { // Unknown type TYPE_UNKNOWN = 0; // ETWS CB msg ETWS = 1; // CMAS CB msg CMAS = 2; // CB msg other than ETWS and CMAS OTHER = 3; } enum CBPriority { // Unknown priority PRIORITY_UNKNOWN = 0; // NORMAL priority NORMAL = 1; // Interactive priority INTERACTIVE = 2; // Urgent priority URGENT = 3; // Emergency priority EMERGENCY = 4; } // Types of SMS messages enum SmsType { // Normal type SMS_TYPE_NORMAL = 0; // SMS-PP. SMS_TYPE_SMS_PP = 1; // Voicemail indication SMS_TYPE_VOICEMAIL_INDICATION = 2; // Type 0 message (3GPP TS 23.040 9.2.3.9) SMS_TYPE_ZERO = 3; // WAP-PUSH message SMS_TYPE_WAP_PUSH = 4; } message IncompleteSms { // Number of received parts optional int32 received_parts = 1; // Number of expected parts optional int32 total_parts = 2; } // Event type optional Type type = 1; // Time since previous event optional TimeInterval delay = 2; // Settings at the beginning of the session or when changed optional TelephonySettings settings = 3; // State at the beginning of the session or when changed optional TelephonyServiceState service_state = 4; // State at the beginning of the session or when changed optional ImsConnectionState ims_connection_state = 5; // Capabilities at the beginning of the session or when changed optional ImsCapabilities ims_capabilities = 6; // List of data calls at the beginning of the session or when changed repeated RilDataCall data_calls = 7; // Format of the message optional Format format = 8; // Technology used to send/receive SMS optional Tech tech = 9; // For outgoing SMS: // - See 3GPP 27.005, 3.2.5 for GSM/UMTS, // - 3GPP2 N.S0005 (IS-41C) Table 171 for CDMA, // For incoming SMS of any type: // - it is mapped to a SmsManager.RESULT_* code // SmsManager can be accessed from // frameworks/base/telephony/java/android/telephony/SmsManager.java optional int32 error_code = 10; // RIL error code - Not used. optional RilErrno error = 11; // Numeric ID - Used only for outgoing SMS optional int32 ril_request_id = 12; // Cellbroadcast message content optional CBMessage cell_broadcast_message = 13; // ImsService error code. Used only for outgoing SMS optional ImsServiceErrno ims_error = 14; // Details of incoming incomplete multipart SMS optional IncompleteSms incomplete_sms = 15; // Indicate the type of incoming SMS optional SmsType sms_type = 16; // Indicates if the incoming SMS was blocked optional bool blocked = 17; // Optional xMS message unique id optional int64 message_id = 18; } // Time when session has started, in minutes since epoch, // with 5 minutes precision optional int32 start_time_minutes = 1; // In Multi-SIM devices this indicates SIM slot optional int32 phone_id = 2; // List of events happened during the call repeated Event events = 3; // Indicating some sms session events are dropped optional bool events_dropped = 4; } // Power stats for modem message ModemPowerStats { // Duration of log (ms). This is the duration of time device is // on battery and modem power stats are collected. optional int64 logging_duration_ms = 1; // Energy consumed by modem (mAh) optional double energy_consumed_mah = 2; // Number of packets sent (tx) optional int64 num_packets_tx = 3; // Amount of time kernel is active because of cellular data (ms) optional int64 cellular_kernel_active_time_ms = 4; // Amount of time spent in very poor rx signal level (ms) optional int64 time_in_very_poor_rx_signal_level_ms = 5; // Amount of time modem is in sleep (ms) optional int64 sleep_time_ms = 6; // Amount of time modem is in idle (ms) optional int64 idle_time_ms = 7; // Amount of time modem is in rx (ms) optional int64 rx_time_ms = 8; // Amount of time modem is in tx (ms) repeated int64 tx_time_ms = 9; // Number of bytes sent (tx) optional int64 num_bytes_tx = 10; // Number of packets received (rx) optional int64 num_packets_rx = 11; // Number of bytes received (rx) optional int64 num_bytes_rx = 12; // Amount of time phone spends in various Radio Access Technologies (ms) repeated int64 time_in_rat_ms = 13; // Amount of time phone spends in various cellular // rx signal strength levels (ms) repeated int64 time_in_rx_signal_strength_level_ms = 14; // Actual monitored rail energy consumed by modem (mAh) optional double monitored_rail_energy_consumed_mah = 15; } // Bandwidth estimator stats message BandwidthEstimatorStats { // Bandwidth stats of each level message PerLevel { optional uint32 signal_level = 1; // Accumulated bandwidth sample count optional uint32 count = 2; // Average end-to-end bandwidth in kbps optional uint32 avg_bw_kbps = 3; // Normalized error of static BW values in percent optional uint32 static_bw_error_percent = 4; // Normalized error of end-to-end BW estimation in percent optional uint32 bw_est_error_percent = 5; } // Bandwidth stats of each RAT message PerRat { // radio access technology optional RadioAccessTechnology rat = 1; // NR (5g) operation mode optional NrMode nr_mode = 2; // bandwidth stats of signal levels repeated PerLevel per_level = 3; } // Tx Stats of visited RATs repeated PerRat per_rat_tx = 1; // Rx Stats of visited RATs repeated PerRat per_rat_rx = 2; }