INVALID_SMSC_ADDRESS = 58, // SMSC address specified is invalid
NO_SUCH_ENTRY = 59, // No such entry present to perform the request
NETWORK_NOT_READY = 60, // Network is not ready to perform the request
- NOT_PROVISIONED = 61, // Device doesnot have this value provisioned
- NO_SUBSCRIPTION = 62, // Device doesnot have subscription
+ NOT_PROVISIONED = 61, // Device does not have this value provisioned
+ NO_SUBSCRIPTION = 62, // Device does not have subscription
NO_NETWORK_FOUND = 63, // Network cannot be found
DEVICE_IN_USE = 64, // Operation cannot be performed because the device
// is currently in use
ABORTED = 65, // Operation aborted
INVALID_RESPONSE = 66, // Response from vendor had invalid data
- // TODO(May be moved to vendor HAL extension)
- // OEM specific error codes. To be used by OEM when they don't want to reveal
- // specific error codes which would be replaced by Generic failure.
OEM_ERROR_1 = 501,
OEM_ERROR_2 = 502,
OEM_ERROR_3 = 503,
RUIM_CORPORATE,
RUIM_SERVICE_PROVIDER,
RUIM_RUIM,
- RUIM_NETWORK1_PUK, // The corresponding perso lock is blocked
+ RUIM_NETWORK1_PUK, // The corresponding perso lock is blocked
RUIM_NETWORK2_PUK,
RUIM_HRPD_PUK,
RUIM_CORPORATE_PUK,
};
enum RadioState : int32_t {
- OFF = 0, // Radio explictly powered off (eg CFUN=0)
+ OFF = 0, // Radio explicitly powered off (eg CFUN=0)
UNAVAILABLE = 1, // Radio unavailable (eg, resetting or not booted)
ON = 10, // Radio is ON
};
CONNECT_FAILURE,
MSG_SIZE_TOO_LARGE,
MSG_SIZE_TOO_SMALL,
- CONNECT_OK_CALL_ONGOING
+ CONNECT_OK_CALL_ONGOING,
};
enum SapDisconnectType : int32_t {
GRACEFUL,
- IMMEDIATE
+ IMMEDIATE,
};
enum SapApduType : int32_t {
APDU,
- APDU7816
+ APDU7816,
};
enum SapResultCode : int32_t {
CARD_REMOVED,
CARD_ALREADY_POWERED_ON,
DATA_NOT_AVAILABLE,
- NOT_SUPPORTED
+ NOT_SUPPORTED,
};
enum SapStatus : int32_t {
CARD_NOT_ACCESSIBLE,
CARD_REMOVED,
CARD_INSERTED,
- RECOVERED
+ RECOVERED,
};
enum SapTransferProtocol : int32_t {
T0,
- T1
+ T1,
};
enum CallState : int32_t {
ACTIVE,
HOLDING,
- DIALING, // MO call only
- ALERTING, // MO call only
- INCOMING, // MT call only
- WAITING, // MT call only
+ DIALING, // MO call only
+ ALERTING, // MO call only
+ INCOMING, // MT call only
+ WAITING, // MT call only
};
/*
USP, // User specified protocol
OSIHLP, // OSI higher layer protocol
X244, // X.244
- RMCF, // Reserved for system mangement convergence function
+ RMCF, // Reserved for system management convergence function
IA5C, // IA5 characters
};
};
enum Clir : int32_t {
- DEFAULT, // "use subscription default value"
- INVOCATION, // restrict CLI presentation
- SUPPRESSION, // allow CLI presentation
+ DEFAULT, // "use subscription default value"
+ INVOCATION, // restrict CLI presentation
+ SUPPRESSION, // allow CLI presentation
};
enum LastCallFailCause : int32_t {
AUTH_FAILURE_ON_EMERGENCY_CALL = 0x7A,
OEM_DCFAILCAUSE_1 = 0x1001,
- // OEM specific error codes. To be used by OEMs when they don't want to
- // reveal error code which would be replaced by PDP_FAIL_ERROR_UNSPECIFIED
- // TODO(May be moved to vendor HAL extension)
OEM_DCFAILCAUSE_2 = 0x1002,
OEM_DCFAILCAUSE_3 = 0x1003,
OEM_DCFAILCAUSE_4 = 0x1004,
// emergency calls are enabled.
REG_DENIED_EM, // Same as REG_DENIED but indicates that
// emergency calls are enabled.
- UNKNOWN_EM // Same as UNKNOWN but indicates that
+ UNKNOWN_EM, // Same as UNKNOWN but indicates that
// emergency calls are enabled.
};
EVDO_B = 12,
EHRPD = 13,
LTE = 14,
- HSPAP = 15, // HSPA+
- GSM = 16, // Only supports voice
+ HSPAP = 15, // HSPA+
+ GSM = 16, // Only supports voice
TD_SCDMA = 17,
IWLAN = 18,
LTE_CA = 19,
};
enum SmsAcknowledgeFailCause : int32_t {
- MEMORY_CAPAPCITY_EXCEEDED = 0xD3,
+ MEMORY_CAPACITY_EXCEEDED = 0xD3,
UNSPECIFIED_ERROR = 0XFF,
};
enum ClipStatus : int32_t {
CLIP_PROVISIONED, // CLIP provisioned
CLIP_UNPROVISIONED, // CLIP not provisioned
- UNKOWN, // unknown, e.g. no network etc
+ UNKNOWN, // unknown, e.g. no network etc
};
enum SmsWriteArgsStatus : int32_t {
enum NvItem : int32_t {
// CDMA radio and account information (items 1-10)
- CDMA_MEID = 1, // CDMA MEID (hex)
- CDMA_MIN = 2, // CDMA MIN (MSID)
- CDMA_MDN = 3, // CDMA MDN
- CDMA_ACCOLC = 4, // CDMA access overload control
+ CDMA_MEID = 1, // CDMA MEID (hex)
+ CDMA_MIN = 2, // CDMA MIN (MSID)
+ CDMA_MDN = 3, // CDMA MDN
+ CDMA_ACCOLC = 4, // CDMA access overload control
// Carrier device provisioning (items 11-30)
- DEVICE_MSL = 11, // device MSL
- RTN_RECONDITIONED_STATUS = 12, // RTN reconditioned status
- RTN_ACTIVATION_DATE = 13, // RTN activation date
- RTN_LIFE_TIMER = 14, // RTN life timer
- RTN_LIFE_CALLS = 15, // RTN life calls
- RTN_LIFE_DATA_TX = 16, // RTN life data TX
- RTN_LIFE_DATA_RX = 17, // RTN life data RX
- OMADM_HFA_LEVEL = 18, // HFA in progress
+ DEVICE_MSL = 11, // device MSL
+ RTN_RECONDITIONED_STATUS = 12, // RTN reconditioned status
+ RTN_ACTIVATION_DATE = 13, // RTN activation date
+ RTN_LIFE_TIMER = 14, // RTN life timer
+ RTN_LIFE_CALLS = 15, // RTN life calls
+ RTN_LIFE_DATA_TX = 16, // RTN life data TX
+ RTN_LIFE_DATA_RX = 17, // RTN life data RX
+ OMADM_HFA_LEVEL = 18, // HFA in progress
// Mobile IP profile information (items 31-50)
- MIP_PROFILE_NAI = 31, // NAI realm
- MIP_PROFILE_HOME_ADDRESS = 32, // MIP home address
- MIP_PROFILE_AAA_AUTH = 33, // AAA auth
- MIP_PROFILE_HA_AUTH = 34, // HA auth
- MIP_PROFILE_PRI_HA_ADDR = 35, // primary HA address
- MIP_PROFILE_SEC_HA_ADDR = 36, // secondary HA address
- MIP_PROFILE_REV_TUN_PREF = 37, // reverse TUN preference
- MIP_PROFILE_HA_SPI = 38, // HA SPI
- MIP_PROFILE_AAA_SPI = 39, // AAA SPI
- MIP_PROFILE_MN_HA_SS = 40, // HA shared secret
- MIP_PROFILE_MN_AAA_SS = 41, // AAA shared secret
+ MIP_PROFILE_NAI = 31, // NAI realm
+ MIP_PROFILE_HOME_ADDRESS = 32, // MIP home address
+ MIP_PROFILE_AAA_AUTH = 33, // AAA auth
+ MIP_PROFILE_HA_AUTH = 34, // HA auth
+ MIP_PROFILE_PRI_HA_ADDR = 35, // primary HA address
+ MIP_PROFILE_SEC_HA_ADDR = 36, // secondary HA address
+ MIP_PROFILE_REV_TUN_PREF = 37, // reverse TUN preference
+ MIP_PROFILE_HA_SPI = 38, // HA SPI
+ MIP_PROFILE_AAA_SPI = 39, // AAA SPI
+ MIP_PROFILE_MN_HA_SS = 40, // HA shared secret
+ MIP_PROFILE_MN_AAA_SS = 41, // AAA shared secret
// CDMA network and band config (items 51-70)
- CDMA_PRL_VERSION = 51, // CDMA PRL version
- CDMA_BC10 = 52, // CDMA band class 10
- CDMA_BC14 = 53, // CDMA band class 14
- CDMA_SO68 = 54, // CDMA SO68
- CDMA_SO73_COP0 = 55, // CDMA SO73 COP0
- CDMA_SO73_COP1TO7 = 56, // CDMA SO73 COP1-7
- CDMA_1X_ADVANCED_ENABLED = 57, // CDMA 1X Advanced enabled
- CDMA_EHRPD_ENABLED = 58, // CDMA eHRPD enabled
- CDMA_EHRPD_FORCED = 59, // CDMA eHRPD forced
+ CDMA_PRL_VERSION = 51, // CDMA PRL version
+ CDMA_BC10 = 52, // CDMA band class 10
+ CDMA_BC14 = 53, // CDMA band class 14
+ CDMA_SO68 = 54, // CDMA SO68
+ CDMA_SO73_COP0 = 55, // CDMA SO73 COP0
+ CDMA_SO73_COP1TO7 = 56, // CDMA SO73 COP1-7
+ CDMA_1X_ADVANCED_ENABLED = 57, // CDMA 1X Advanced enabled
+ CDMA_EHRPD_ENABLED = 58, // CDMA eHRPD enabled
+ CDMA_EHRPD_FORCED = 59, // CDMA eHRPD forced
// LTE network and band config (items 71-90)
- LTE_BAND_ENABLE_25 = 71, // LTE band 25 enable
- LTE_BAND_ENABLE_26 = 72, // LTE band 26 enable
- LTE_BAND_ENABLE_41 = 73, // LTE band 41 enable
+ LTE_BAND_ENABLE_25 = 71, // LTE band 25 enable
+ LTE_BAND_ENABLE_26 = 72, // LTE band 26 enable
+ LTE_BAND_ENABLE_41 = 73, // LTE band 41 enable
- LTE_SCAN_PRIORITY_25 = 74, // LTE band 25 scan priority
- LTE_SCAN_PRIORITY_26 = 75, // LTE band 26 scan priority
- LTE_SCAN_PRIORITY_41 = 76, // LTE band 41 scan priority
+ LTE_SCAN_PRIORITY_25 = 74, // LTE band 25 scan priority
+ LTE_SCAN_PRIORITY_26 = 75, // LTE band 26 scan priority
+ LTE_SCAN_PRIORITY_41 = 76, // LTE band 41 scan priority
- LTE_HIDDEN_BAND_PRIORITY_25 = 77, // LTE hidden band 25 priority
- LTE_HIDDEN_BAND_PRIORITY_26 = 78, // LTE hidden band 26 priority
- LTE_HIDDEN_BAND_PRIORITY_41 = 79, // LTE hidden band 41 priority
+ LTE_HIDDEN_BAND_PRIORITY_25 = 77, // LTE hidden band 25 priority
+ LTE_HIDDEN_BAND_PRIORITY_26 = 78, // LTE hidden band 26 priority
+ LTE_HIDDEN_BAND_PRIORITY_41 = 79, // LTE hidden band 41 priority
};
enum ResetNvType : int32_t {
- RELOAD, // reload all NV items
- ERASE, // erase NV reset (SCRTN)
- FACORY_RESET, // factory reset (RTN)
+ RELOAD, // reload all NV items
+ ERASE, // erase NV reset (SCRTN)
+ FACTORY_RESET, // factory reset (RTN)
};
enum HardwareConfigType : int32_t {
};
enum CarrierMatchType : int32_t {
- ALL = 0, // Apply to all carriers with the same mcc/mnc
- SPN = 1, // Use SPN and mcc/mnc to identify the carrier
- IMSI_PREFIX = 2, // Use IMSI prefix and mcc/mnc to identify the carrier
- GID1 = 3, // Use GID1 and mcc/mnc to identify the carrier
- GID2 = 4, // Use GID2 and mcc/mnc to identify the carrier
+ ALL = 0, // Apply to all carriers with the same mcc/mnc
+ SPN = 1, // Use SPN and mcc/mnc to identify the carrier
+ IMSI_PREFIX = 2, // Use IMSI prefix and mcc/mnc to identify the carrier
+ GID1 = 3, // Use GID1 and mcc/mnc to identify the carrier
+ GID2 = 4, // Use GID2 and mcc/mnc to identify the carrier
};
struct NeighboringCell {
};
enum CdmaSmsSubaddressType : int32_t {
- NSAP, // CCITT X.213 or ISO 8348 AD2
- USER_SPECIFIED, // e.g. X.25
+ NSAP, // CCITT X.213 or ISO 8348 AD2
+ USER_SPECIFIED, // e.g. X.25
};
enum CdmaSmsErrorClass : int32_t {
};
enum CellInfoType : int32_t {
- GSM,
- CDMA,
- LTE,
- WCDMA,
- TD_SCDMA
+ GSM = 1,
+ CDMA = 2,
+ LTE = 3,
+ WCDMA = 4,
+ TD_SCDMA = 5
};
enum TimeStampType : int32_t {
};
enum RadioCapabilityPhase : int32_t {
- CONFIGURED = 0, // Logical Modem's (LM) initial value
- // and value after FINISH completes
- START = 1, // START is sent before APPLY and indicates that an
- // APPLY is forthcoming with these same parameters
- APPLY = 2, // APPLY is sent after all LM's receive START and returned
- // RadioCapability.status = 0. If any START's fail, hal
- // implementation must not send APPLY.
- UNSOL_RSP = 3, // UNSOL_RSP is sent with unsol radioCapability()
- FINISH = 4 // FINISH is sent after all commands have completed. If an
- // error occurs in any previous command, the
- // RadioAccessesFamily and logicalModemUuid fields must be
- // the prior configuration thus restoring the configuration
- // to the previous value. An error returned by FINISH
- // will generally be ignored or may cause that logical
- // modem to be removed from service.
+ CONFIGURED = 0, // Logical Modem's (LM) initial value
+ // and value after FINISH completes
+ START = 1, // START is sent before APPLY and indicates that an
+ // APPLY is forthcoming with these same parameters
+ APPLY = 2, // APPLY is sent after all LM's receive START and returned
+ // RadioCapability.status = 0. If any START's fail, hal
+ // implementation must not send APPLY.
+ UNSOL_RSP = 3, // UNSOL_RSP is sent with unsolicited radioCapability()
+ FINISH = 4 // FINISH is sent after all commands have completed. If an
+ // error occurs in any previous command, the
+ // RadioAccessesFamily and logicalModemUuid fields must be
+ // the prior configuration thus restoring the
+ // configuration to the previous value. An error returned
+ // by FINISH will generally be ignored or may cause that
+ // logical modem to be removed from service.
};
enum RadioCapabilityStatus : int32_t {
- NONE = 0, // This parameter has no meaning with
- // RadioCapabilityPhase:START, RadioCapabilityPhase:APPLY
- SUCCESS = 1, // Tell modem the action transaction of set radio
- // capability was success with RadioCapabilityPhase:FINISH
- FAIL = 2, // Tell modem the action transaction of set radio
- // capability is fail with RadioCapabilityPhase:FINISH.
+ NONE = 0, // This parameter has no meaning with
+ // RadioCapabilityPhase:START, RadioCapabilityPhase:APPLY
+ SUCCESS = 1, // Tell modem the action transaction of set radio
+ // capability was success with RadioCapabilityPhase:FINISH
+ FAIL = 2, // Tell modem the action transaction of set radio
+ // capability is fail with RadioCapabilityPhase:FINISH.
};
enum RadioAccessFamily : int32_t {
};
enum UssdModeType : int32_t {
- NOTIFY, // USSD-Notify
- REQUEST, // USSD-Request
- NW_RELEASE, // Session terminated by network
- LOCAL_CLIENT, // other local client (eg, SIM Toolkit) has responded
- NOT_SUPPORTED, // Operation not supported
- NW_TIMEOUT, // Network timeout
+ NOTIFY, // USSD-Notify
+ REQUEST, // USSD-Request
+ NW_RELEASE, // Session terminated by network
+ LOCAL_CLIENT, // other local client (eg, SIM Toolkit) has responded
+ NOT_SUPPORTED, // Operation not supported
+ NW_TIMEOUT, // Network timeout
};
enum SimRefreshType : int32_t {
- SIM_FILE_UPDATE = 0, // A file on SIM has been updated.
- SIM_INIT = 1, // SIM initialized. All files should be re-read.
- SIM_RESET = 2 // SIM reset. SIM power required, SIM may be locked a
- // nd all files must be re-read.
+ SIM_FILE_UPDATE = 0, // A file on SIM has been updated.
+ SIM_INIT = 1, // SIM initialized. All files should be re-read.
+ SIM_RESET = 2 // SIM reset. SIM power required, SIM may be locked a
+ // nd all files must be re-read.
};
enum SrvccState :int32_t {
};
enum PhoneRestrictedState : int32_t {
- NONE = 0x00, // No restriction at all including voice/SMS/USSD/SS/AV64
- // and packet data
- CS_EMERGENCY = 0x01, // Block emergency call due to restriction. But allow all
- // normal voice/SMS/USSD/SS/AV64.
- CS_NORMAL = 0x02, // Block all normal voice/SMS/USSD/SS/AV64 due to
- // restriction. Only Emergency call allowed.
- CS_ALL = 0x04, // Block all voice/SMS/USSD/SS/AV64 including emergency
- // call due to restriction.
- PS_ALL = 0x10 // Block packet data access due to restriction.
+ NONE = 0x00, // No restriction at all including voice/SMS/USSD/SS/AV64
+ // and packet data
+ CS_EMERGENCY = 0x01, // Block emergency call due to restriction. But allow all
+ // normal voice/SMS/USSD/SS/AV64.
+ CS_NORMAL = 0x02, // Block all normal voice/SMS/USSD/SS/AV64 due to
+ // restriction. Only Emergency call allowed.
+ CS_ALL = 0x04, // Block all voice/SMS/USSD/SS/AV64 including emergency
+ // call due to restriction.
+ PS_ALL = 0x10 // Block packet data access due to restriction.
};
enum CdmaCallWaitingNumberPresentation : int32_t {
};
struct TdScdmaSignalStrength {
- uint32_t rscp; // The Received Signal Code Power in dBm multipled by -1.
+ uint32_t rscp; // The Received Signal Code Power in dBm multiplied by -1.
// Range : 25 to 120
// INT_MAX: 0x7FFFFFFF denotes invalid value.
// Reference: 3GPP TS 25.123, section 9.1.1.1
int32_t suggestedRetryTime; // If status != 0, this fields indicates the suggested
// retry back-off timer value RIL wants to override the
// one pre-configured in FW.
- // The unit is miliseconds.
+ // The unit is milliseconds.
// The value < 0 means no value is suggested.
// The value 0 means retry must be done ASAP.
// The value of INT_MAX(0x7fffffff) means no retry.
int32_t command; // one of the commands listed for TS 27.007 +CRSM
int32_t fileId; // EF id
string path; // "pathid" from TS 27.007 +CRSM command.
- // Path is in hex asciii format eg "7f205f70"
+ // Path is in hex ascii format eg "7f205f70"
// Path must always be provided.
int32_t p1; // Values of p1, p2 and p3 defined as per 3GPP TS 51.011
int32_t p2;
int32_t reasonDataDenied; // if registration state is 3 (Registration
// denied) this is an enumerated reason why
// registration was denied. See 3GPP TS 24.008,
- // Annex G.6 "Additonal cause codes for GMM".
+ // Annex G.6 "Additional cause codes for GMM".
// 7 == GPRS services not allowed
// 8 == GPRS services and non-GPRS services not allowed
// 9 == MS identity cannot be derived by the network
int32_t serviceClass; // From 27.007 +CCFC/+CLCK "class"
// See table for Android mapping from
// MMI service code
- // 0 means user doesnt input class
+ // 0 means user doesn't input class
int32_t toa; // "type" from TS 27.007 7.11
string number; // "number" from TS 27.007 7.11.
int32_t timeSeconds;
};
struct CdmaSmsAddress {
- CdmaSmsDigitMode digitMode; // CdmaSmsDigitMode is of two types : 4 bit and 8 bit.
- // For 4-bit type, only "digits" field defined below in
- // this struct is used.
- CdmaSmsNumberMode numberMode; // Used only when digitMode is 8-bit
- CdmaSmsNumberType numberType; // Used only when digitMode is 8-bit.
- // To specify an international address, use the following:
- // digitMode = CdmaSmsDigitMode:EIGHT_BIT:
- // numberMode = CdmaSmsNumberMode:NOT_DATA_NETWORK
- // numberType = CdmaSmsNumberType:INTERNATIONAL_OR_DATA_IP
- // numberPlan = CdmaSmsNumberPlan:TELEPHONY
- // numberOfDigits = number of digits
- // digits = ASCII digits, e.g. '1', '2', '3', '4', and '5'
- CdmaSmsNumberPlan numberPlan; // Used only when digitMode is 8-bit
- vec<uint8_t> digits; // Each byte in this array represents a 4 bit or 8-bit digit
- // of address data
+ CdmaSmsDigitMode digitMode; // CdmaSmsDigitMode is of two types : 4 bit and 8 bit.
+ // For 4-bit type, only "digits" field defined below in
+ // this struct is used.
+ CdmaSmsNumberMode numberMode; // Used only when digitMode is 8-bit
+ CdmaSmsNumberType numberType; // Used only when digitMode is 8-bit.
+ // To specify an international address, use the following:
+ // digitMode = CdmaSmsDigitMode:EIGHT_BIT:
+ // numberMode = CdmaSmsNumberMode:NOT_DATA_NETWORK
+ // numberType = CdmaSmsNumberType:INTERNATIONAL_OR_DATA_IP
+ // numberPlan = CdmaSmsNumberPlan:TELEPHONY
+ // numberOfDigits = number of digits
+ // digits = ASCII digits, e.g. '1', '2', '3', '4', and '5'
+ CdmaSmsNumberPlan numberPlan; // Used only when digitMode is 8-bit
+ vec<uint8_t> digits; // Each byte in this array represents a 4 bit or 8-bit
+ // digit of address data
};
struct CdmaSmsSubaddress {
CdmaSmsSubaddressType subaddressType;
- bool odd; // true means the last byte's lower 4 bits must be ignored
- vec<uint8_t> digits; // Each byte respresents an 8-bit digit of subaddress data
+ bool odd; // true means the last byte's lower 4 bits must be ignored
+ vec<uint8_t> digits; // Each byte represents an 8-bit digit of subaddress data
};
struct CdmaSmsMessage {
int32_t serviceCategory;
CdmaSmsAddress address;
CdmaSmsSubaddress subAddress;
- vec<uint8_t> bearerData; // 3GPP2 C.S0015-B, v2.0,
+ vec<uint8_t> bearerData; // 3GPP2 C.S0015-B, v2.0,
};
struct CdmaSmsAck {
CdmaSmsErrorClass errorClass;
- int32_t smsCauseCode; // As defined in N.S00005, 6.5.2.125.
- // Currently, only 35 (resource shortage) and
- // 39 (other terminal problem) are reported.
+ int32_t smsCauseCode; // As defined in N.S00005, 6.5.2.125.
+ // Currently, only 35 (resource shortage) and
+ // 39 (other terminal problem) are reported.
};
struct CdmaBroadcastSmsConfigInfo {
- int32_t serviceCategory; // serviceCategory defines a Broadcast message identifier
- // whose value is 0x0000 - 0xFFFF as defined in
- // C.R1001G 9.3.1 and 9.3.2.
- int32_t language; // language code of Broadcast Message
- // whose value is 0x00 - 0x07 as defined in C.R1001G 9.2.
- bool selected; // selected false means message types specified in
- // serviceCategory are not accepted, while true means
- // accepted.
+ int32_t serviceCategory; // serviceCategory defines a Broadcast message identifier
+ // whose value is 0x0000 - 0xFFFF as defined in
+ // C.R1001G 9.3.1 and 9.3.2.
+ int32_t language; // language code of Broadcast Message
+ // whose value is 0x00 - 0x07 as defined in C.R1001G 9.2.
+ bool selected; // selected false means message types specified in
+ // serviceCategory are not accepted, while true means
+ // accepted.
};
struct CdmaSmsWriteArgs {
- CdmaSmsWriteArgsStatus status; // Status of message. See TS 27.005 3.1
+ CdmaSmsWriteArgsStatus status; // Status of message. See TS 27.005 3.1
CdmaSmsMessage message;
};
};
struct CellIdentityGsm {
- string mcc; // 3-digit Mobile Country Code, 0..999, INT_MAX if unknown
- string mnc; // 2 or 3-digit Mobile Network Code, 0..999, INT_MAX if
- // unknown
- int32_t lac; // 16-bit Location Area Code, 0..65535, INT_MAX if unknown
- int32_t cid; // 16-bit GSM Cell Identity described in
- // TS 27.007, 0..65535, INT_MAX if unknown
- int32_t arfcn; // 16-bit GSM Absolute RF channel number, INT_MAX if
- // unknown
- uint8_t bsic; // 6-bit Base Station Identity Code, 0xFF if unknown
+ string mcc; // 3-digit Mobile Country Code, 0..999, INT_MAX if unknown
+ string mnc; // 2 or 3-digit Mobile Network Code, 0..999, INT_MAX if
+ // unknown
+ int32_t lac; // 16-bit Location Area Code, 0..65535, INT_MAX if unknown
+ int32_t cid; // 16-bit GSM Cell Identity described in
+ // TS 27.007, 0..65535, INT_MAX if unknown
+ int32_t arfcn; // 16-bit GSM Absolute RF channel number, INT_MAX if
+ // unknown
+ uint8_t bsic; // 6-bit Base Station Identity Code, 0xFF if unknown
};
struct CellIdentityWcdma {
- string mcc; // 3-digit Mobile Country Code, 0..999, INT_MAX if unknown
- string mnc; // 2 or 3-digit Mobile Network Code, 0..999, INT_MAX
- // if unknown
- int32_t lac; // 16-bit Location Area Code, 0..65535, INT_MAX if unknown
- int32_t cid; // 28-bit UMTS Cell Identity described in
- // TS 25.331, 0..268435455, INT_MAX if unknown
- int32_t psc; // 9-bit UMTS Primary Scrambling Code described in
- // TS 25.331, 0..511, INT_MAX if unknown
- int32_t uarfcn; // 16-bit UMTS Absolute RF Channel Number, INT_MAX if
- // unknown
+ string mcc; // 3-digit Mobile Country Code, 0..999, INT_MAX if unknown
+ string mnc; // 2 or 3-digit Mobile Network Code, 0..999, INT_MAX
+ // if unknown
+ int32_t lac; // 16-bit Location Area Code, 0..65535, INT_MAX if unknown
+ int32_t cid; // 28-bit UMTS Cell Identity described in
+ // TS 25.331, 0..268435455, INT_MAX if unknown
+ int32_t psc; // 9-bit UMTS Primary Scrambling Code described in
+ // TS 25.331, 0..511, INT_MAX if unknown
+ int32_t uarfcn; // 16-bit UMTS Absolute RF Channel Number, INT_MAX if
+ // unknown
};
struct CellIdentityCdma {
- int32_t networkId; // Network Id 0..65535, INT_MAX if unknown
- int32_t systemId; // CDMA System Id 0..32767, INT_MAX if unknown
- int32_t basestationId; // Base Station Id 0..65535, INT_MAX if unknown
- int32_t longitude; // Longitude is a decimal number as specified in
- // 3GPP2 C.S0005-A v6.0. It is represented in units of
- // 0.25 seconds and ranges from -2592000 to 2592000,
- // both values inclusive (corresponding to a range of -180
- // to +180 degrees). INT_MAX if unknown
- int32_t latitude; // Latitude is a decimal number as specified in
- // 3GPP2 C.S0005-A v6.0. It is represented in units of
- // 0.25 seconds and ranges from -1296000 to 1296000,
- // both values inclusive (corresponding to a range of -90
- // to +90 degrees). INT_MAX if unknown
+ int32_t networkId; // Network Id 0..65535, INT_MAX if unknown
+ int32_t systemId; // CDMA System Id 0..32767, INT_MAX if unknown
+ int32_t baseStationId; // Base Station Id 0..65535, INT_MAX if unknown
+ int32_t longitude; // Longitude is a decimal number as specified in
+ // 3GPP2 C.S0005-A v6.0. It is represented in units of
+ // 0.25 seconds and ranges from -2592000 to 2592000,
+ // both values inclusive (corresponding to a range of -180
+ // to +180 degrees). INT_MAX if unknown
+ int32_t latitude; // Latitude is a decimal number as specified in
+ // 3GPP2 C.S0005-A v6.0. It is represented in units of
+ // 0.25 seconds and ranges from -1296000 to 1296000,
+ // both values inclusive (corresponding to a range of -90
+ // to +90 degrees). INT_MAX if unknown
};
struct CellIdentityLte {
- string mcc; // 3-digit Mobile Country Code, 0..999, INT_MAX if unknown
- string mnc; // 2 or 3-digit Mobile Network Code, 0..999, INT_MAX if
- // unknown
- int32_t ci; // 28-bit Cell Identity described in TS TS 27.007, INT_MAX
- // if unknown
- int32_t pci; // physical cell id 0..503, INT_MAX if unknown
- int32_t tac; // 16-bit tracking area code, INT_MAX if unknown
- int32_t earfcn; // 18-bit LTE Absolute RC Channel Number, INT_MAX if
- // unknown
+ string mcc; // 3-digit Mobile Country Code, 0..999, INT_MAX if unknown
+ string mnc; // 2 or 3-digit Mobile Network Code, 0..999, INT_MAX if
+ // unknown
+ int32_t ci; // 28-bit Cell Identity described in TS TS 27.007, INT_MAX
+ // if unknown
+ int32_t pci; // physical cell id 0..503, INT_MAX if unknown
+ int32_t tac; // 16-bit tracking area code, INT_MAX if unknown
+ int32_t earfcn; // 18-bit LTE Absolute RC Channel Number, INT_MAX if
+ // unknown
};
struct CellIdentityTdscdma {
- string mcc; // 3-digit Mobile Country Code, 0..999, INT_MAX if unknown
- string mnc; // 2 or 3-digit Mobile Network Code, 0..999, INT_MAX if
- // unknown
- int32_t lac; // 16-bit Location Area Code, 0..65535, INT_MAX if
- // unknown
- int32_t cid; // 28-bit UMTS Cell Identity described in
- // TS 25.331, 0..268435455, INT_MAX if unknown
- int32_t cpid; // 8-bit Cell Parameters ID described in
- // TS 25.331, 0..127, INT_MAX if unknown
+ string mcc; // 3-digit Mobile Country Code, 0..999, INT_MAX if unknown
+ string mnc; // 2 or 3-digit Mobile Network Code, 0..999, INT_MAX if
+ // unknown
+ int32_t lac; // 16-bit Location Area Code, 0..65535, INT_MAX if
+ // unknown
+ int32_t cid; // 28-bit UMTS Cell Identity described in
+ // TS 25.331, 0..268435455, INT_MAX if unknown
+ int32_t cpid; // 8-bit Cell Parameters ID described in
+ // TS 25.331, 0..127, INT_MAX if unknown
};
struct CellInfoGsm {
};
struct CellInfo {
- CellInfoType cellInfoType; // cell type for selecting from union CellInfo
- bool registered; // true if this cell is registered false if not registered
- TimeStampType timeStampType; // type of time stamp represented by timeStamp
- uint64_t timeStamp; // Time in nanos as returned by ril_nano_time
+ CellInfoType cellInfoType; // cell type for selecting from union CellInfo
+ bool registered; // true if this cell is registered false if not registered
+ TimeStampType timeStampType; // type of time stamp represented by timeStamp
+ uint64_t timeStamp; // Time in nanos as returned by ril_nano_time
// Only one of the below vectors must be of size 1 based on the CellInfoType and others must be
// of size 0
- vec<CellInfoGsm> gsm; // Valid only if type = gsm and size = 1 else must be empty
- vec<CellInfoCdma> cdma; // Valid only if type = cdma and size = 1 else must be
- // empty
- vec<CellInfoLte> lte; // Valid only if type = lte and size = 1 else must be
- // empty
- vec<CellInfoWcdma> wcdma; // Valid only if type = wcdma and size = 1 else must be
- // empty
- vec<CellInfoTdscdma> tdscdma; // Valid only if type = tdscdma and size = 1 else must be
- // empty
+ vec<CellInfoGsm> gsm; // Valid only if type = gsm and size = 1 else must be
+ // empty
+ vec<CellInfoCdma> cdma; // Valid only if type = cdma and size = 1 else must be
+ // empty
+ vec<CellInfoLte> lte; // Valid only if type = lte and size = 1 else must be
+ // empty
+ vec<CellInfoWcdma> wcdma; // Valid only if type = wcdma and size = 1 else must be
+ // empty
+ vec<CellInfoTdscdma> tdscdma; // Valid only if type = tdscdma and size = 1 else must be
+ // empty
};
struct GsmSmsMessage {
- string smscPdu; // SMSC address in GSM BCD format prefixed by a length
- // byte (as expected by TS 27.005) or empty string for
- // default SMSC
- string pdu; // SMS in PDU format as an ASCII hex string less the
- // SMSC address. TP-Layer-Length is be "strlen(pdu)/2
+ string smscPdu; // SMSC address in GSM BCD format prefixed by a length
+ // byte (as expected by TS 27.005) or empty string for
+ // default SMSC
+ string pdu; // SMS in PDU format as an ASCII hex string less the
+ // SMSC address. TP-Layer-Length is be "strlen(pdu)/2
};
struct ImsSmsMessage {
RadioTechnologyFamily tech;
- bool retry; // false == not retry, true == retry */
- int32_t messageRef; // Valid field if retry is set to true.
- // Contains messageRef from SendSmsResult stuct
- // corresponding to failed MO SMS.
+ bool retry; // false == not retry, true == retry */
+ int32_t messageRef; // Valid field if retry is set to true.
+ // Contains messageRef from SendSmsResult struct
+ // corresponding to failed MO SMS.
// Only one of the below vectors must be of size 1 based on the RadioTechnologyFamily and others
// must be of size 0
- vec<CdmaSmsMessage> cdmaMessage; // Valid field if tech is 3GPP2 and size = 1 else must be
- // empty
- vec<GsmSmsMessage> gsmMessage; // Valid field if tech is 3GPP and size = 1 else must be
- // empty
+ vec<CdmaSmsMessage> cdmaMessage; // Valid field if tech is 3GPP2 and size = 1 else must be
+ // empty
+ vec<GsmSmsMessage> gsmMessage; // Valid field if tech is 3GPP and size = 1 else must be
+ // empty
};
struct SimApdu {
- int32_t sessionId; // "sessionid" from TS 27.007 +CGLA command. Must be
- // ignored for +CSIM command.
+ int32_t sessionId; // "sessionid" from TS 27.007 +CGLA command. Must be
+ // ignored for +CSIM command.
// Following fields are used to derive the APDU ("command" and "length"
// values in TS 27.007 +CSIM and +CGLA commands).
int32_t cla;
int32_t instruction;
int32_t p1;
int32_t p2;
- int32_t p3; // A negative P3 implies a 4 byte APDU.
- string data; // In hex string format ([a-fA-F0-9]*).
+ int32_t p3; // A negative P3 implies a 4 byte APDU.
+ string data; // In hex string format ([a-fA-F0-9]*).
};
struct NvWriteItem {
struct SelectUiccSub {
int32_t slot;
- int32_t appIndex; // array subscriptor from
- // applications[RadioConst:CARD_MAX_APPS] in
- // getIccCardStatus()
+ int32_t appIndex; // array subscriptor from
+ // applications[RadioConst:CARD_MAX_APPS] in
+ // getIccCardStatus()
SubscriptionType subType;
UiccSubActStatus actStatus;
};
struct HardwareConfigModem {
int32_t rilModel;
- uint32_t rat; // bitset - ref. RadioTechnology.
+ uint32_t rat; // bitset - ref. RadioTechnology.
int32_t maxVoice;
int32_t maxData;
int32_t maxStandby;
};
struct HardwareConfigSim {
- string modemUuid; // RadioConst:MAX_UUID_LENGTH is max length of the
- // string
+ string modemUuid; // RadioConst:MAX_UUID_LENGTH is max length of the string
};
struct HardwareConfig {
HardwareConfigType type;
- string uuid; // RadioConst:MAX_UUID_LENGTH is max length of the
- // string
+ string uuid; // RadioConst:MAX_UUID_LENGTH is max length of the string
HardwareConfigState state;
+
// Only one of the below vectors must have size = 1 based on the HardwareConfigType and other
// must have size = 0.
- vec<HardwareConfigModem> modem; // Valid only if type is Modem and size = 1 else must be
- // empty
- vec<HardwareConfigSim> sim; // Valid only if type is SIM or else emptyand size = 1
- // else must be empty
+ vec<HardwareConfigModem> modem; // Valid only if type is Modem and size = 1 else must be
+ // empty
+ vec<HardwareConfigSim> sim; // Valid only if type is SIM or else empty and size = 1
+ // else must be empty
};
struct DataProfileInfo {
- int32_t profileId; // id of the data profile
- string apn; // The APN to connect to
- string protocol; // One of the PDP_type values in TS 27.007 section 10.1.1.
- // For example, "IP", "IPV6", "IPV4V6", or "PPP".
+ int32_t profileId; // id of the data profile
+ string apn; // The APN to connect to
+ string protocol; // One of the PDP_type values in TS 27.007 section 10.1.1.
+ // For example, "IP", "IPV6", "IPV4V6", or "PPP".
ApnAuthType authType;
- string user; // The username for APN, or empty string
- string password; // The password for APN, or empty string
+ string user; // The username for APN, or empty string
+ string password; // The password for APN, or empty string
DataProfileInfoType type;
- int32_t maxConnsTime; // The period in seconds to limit the maximum connections
- int32_t maxConns; // The maximum connections during maxConnsTime
- int32_t waitTime; // The required wait time in seconds after a successful UE
- // initiated disconnect of a given PDN connection before
- // the device can send a new PDN connection request for
- // that given PDN
- bool enabled; // True to enable the profile, false to disable
+ int32_t maxConnsTime; // The period in seconds to limit the maximum connections
+ int32_t maxConns; // The maximum connections during maxConnsTime
+ int32_t waitTime; // The required wait time in seconds after a successful UE
+ // initiated disconnect of a given PDN connection before
+ // the device can send a new PDN connection request for
+ // that given PDN
+ bool enabled; // True to enable the profile, false to disable
};
struct RadioCapability {
- int32_t session; // Unique session value defined by framework returned in
- // all "responses/unsol"
+ int32_t session; // Unique session value defined by framework returned in
+ // all "responses/unsol"
RadioCapabilityPhase phase;
- RadioAccessFamily raf;
- string logicalModemUuid; // A UUID typically "com.xxxx.lmX where X is the logical
- // modem. RadioConst:MAX_UUID_LENGTH is the max
- // length
+ bitfield<RadioAccessFamily> raf; // 32-bit bitmap of RadioAccessFamily
+ string logicalModemUuid; // A UUID typically "com.xxxx.lmX where X is the logical
+ // modem. RadioConst:MAX_UUID_LENGTH is the max
+ // length
RadioCapabilityStatus status;
};
struct LceStatusInfo {
LceStatus lceStatus;
- uint8_t actualIntervalMs; // actual LCE reporting interval,
- // meaningful only if LceStatus = ACTIVE.
+ uint8_t actualIntervalMs; // actual LCE reporting interval,
+ // meaningful only if LceStatus = ACTIVE.
};
struct LceDataInfo {
- uint32_t lastHopCapacityKbps; // last-hop cellular capacity: kilobits/second.
- uint8_t confidenceLevel; // capacity estimate confidence: 0-100
- bool lceSuspended; // LCE report going to be suspended? (e.g., radio
- // moves to inactive state or network type change)
- // true = suspended;
- // false = not suspended.
+ uint32_t lastHopCapacityKbps; // last-hop cellular capacity: kilobits/second.
+ uint8_t confidenceLevel; // capacity estimate confidence: 0-100
+ bool lceSuspended; // LCE report going to be suspended? (e.g., radio
+ // moves to inactive state or network type change)
+ // true = suspended;
+ // false = not suspended.
};
struct ActivityStatsInfo {
- uint32_t sleepModeTimeMs; // total time (in ms) when modem is in a low power or
- // sleep state
- uint32_t idleModeTimeMs; // total time (in ms) when modem is awake but neither
- // the transmitter nor receiver are active/awake
+ uint32_t sleepModeTimeMs; // total time (in ms) when modem is in a low power or
+ // sleep state
+ uint32_t idleModeTimeMs; // total time (in ms) when modem is awake but neither
+ // the transmitter nor receiver are active/awake
uint32_t[RadioConst:NUM_TX_POWER_LEVELS] txmModetimeMs;
- // Each index represent total time (in ms) during which
- // the transmitter is active/awake for a particular
- // power range as shown below.
- // index 0 = tx_power < 0dBm
- // index 1 = 0dBm < tx_power < 5dBm
- // index 2 = 5dBm < tx_power < 15dBm
- // index 3 = 15dBm < tx_power < 20dBm
- // index 4 = tx_power > 20dBm
- uint32_t rxModeTimeMs; // total time (in ms) for which receiver is
- // active/awake and the transmitter is inactive
+ // Each index represent total time (in ms) during which
+ // the transmitter is active/awake for a particular
+ // power range as shown below.
+ // index 0 = tx_power < 0dBm
+ // index 1 = 0dBm < tx_power < 5dBm
+ // index 2 = 5dBm < tx_power < 15dBm
+ // index 3 = 15dBm < tx_power < 20dBm
+ // index 4 = tx_power > 20dBm
+ uint32_t rxModeTimeMs; // total time (in ms) for which receiver is
+ // active/awake and the transmitter is inactive
};
struct Carrier {
string mcc;
string mnc;
- CarrierMatchType matchType; // Specify match type for the carrier.
- // If it’s ALL, matchData is empty string;
- // otherwise, matchData is the value for the match type.
+ CarrierMatchType matchType; // Specify match type for the carrier.
+ // If it’s ALL, matchData is empty string;
+ // otherwise, matchData is the value for the match type.
string matchData;
};
struct CarrierRestrictions {
- vec<Carrier> allowedCarriers; // whitelist for allowed carriers
- vec<Carrier> excludedCarriers; // blacklist for explicitly excluded carriers
- // which match allowed_carriers. Eg. allowedCarriers
- // match mcc/mnc, excludedCarriers has same mcc/mnc and
- // gid1 is ABCD. It means except the carrier whose gid1
- // is ABCD, all carriers with the same mcc/mnc are
- // allowed.
+ vec<Carrier> allowedCarriers; // whitelist for allowed carriers
+ vec<Carrier> excludedCarriers; // blacklist for explicitly excluded carriers
+ // which match allowed_carriers. Eg. allowedCarriers
+ // match mcc/mnc, excludedCarriers has same mcc/mnc and
+ // gid1 is ABCD. It means except the carrier whose gid1
+ // is ABCD, all carriers with the same mcc/mnc are
+ // allowed.
};
struct SuppSvcNotification {
- bool isMT; // notification type
- // false = MO intermediate result code
- // true = MT unsolicited result code
- int32_t code; // result code. See 27.007 7.17.
- int32_t index; // CUG index. See 27.007 7.17.
- int32_t type; // "type" from 27.007 7.17 (MT only).
- string number; // "number" from 27.007 7.17
- // (MT only, may be empty string).
+ bool isMT; // notification type
+ // false = MO intermediate result code
+ // true = MT unsolicited result code
+ int32_t code; // result code. See 27.007 7.17.
+ int32_t index; // CUG index. See 27.007 7.17.
+ int32_t type; // "type" from 27.007 7.17 (MT only).
+ string number; // "number" from 27.007 7.17
+ // (MT only, may be empty string).
};
struct SimRefreshResult {
SimRefreshType type;
- int32_t efId; // is the EFID of the updated file if the result is
- // SIM_FILE_UPDATE or 0 for any other result.
- string aid; // is AID(application ID) of the card application
- // See ETSI 102.221 8.1 and 101.220 4
- // For SIM_FILE_UPDATE result it must be set to AID of
- // application in which updated EF resides or it must be
- // empty string if EF is outside of an application.
- // For SIM_INIT result this field is set to AID of
- // application that caused REFRESH
- // For SIM_RESET result it is empty string.
+ int32_t efId; // is the EFID of the updated file if the result is
+ // SIM_FILE_UPDATE or 0 for any other result.
+ string aid; // is AID(application ID) of the card application
+ // See ETSI 102.221 8.1 and 101.220 4
+ // For SIM_FILE_UPDATE result it must be set to AID of
+ // application in which updated EF resides or it must be
+ // empty string if EF is outside of an application.
+ // For SIM_INIT result this field is set to AID of
+ // application that caused REFRESH
+ // For SIM_RESET result it is empty string.
};
/* CDMA Signal Information Record as defined in C.S0005 section 3.7.5.5 */
struct CdmaSignalInfoRecord {
- bool isPresent; // true if signal information record is present
- int8_t signalType; // as defined 3.7.5.5-1
- int8_t alertPitch; // as defined 3.7.5.5-2
- int8_t signal; // as defined 3.7.5.5-3, 3.7.5.5-4 or 3.7.5.5-5
+ bool isPresent; // true if signal information record is present
+ int8_t signalType; // as defined 3.7.5.5-1
+ int8_t alertPitch; // as defined 3.7.5.5-2
+ int8_t signal; // as defined 3.7.5.5-3, 3.7.5.5-4 or 3.7.5.5-5
};
struct CdmaCallWaiting {
- string number; // Remote party number
+ string number; // Remote party number
CdmaCallWaitingNumberPresentation numberPresentation;
- string name; // Remote party name
+ string name; // Remote party name
CdmaSignalInfoRecord signalInfoRecord;
// Number type/Number plan required to support International Call Waiting
- CdmaCallWaitingNumberType numbertype;
+ CdmaCallWaitingNumberType numberType;
CdmaCallWaitingNumberPlan numberPlan;
};
* The display_tag, display_len and chari fields are all 1 byte.
*/
struct CdmaDisplayInfoRecord {
- string alphaBuf; // Max length = RadioConst:CDMA_ALPHA_INFO_BUFFER_LENGTH
+ string alphaBuf; // Max length = RadioConst:CDMA_ALPHA_INFO_BUFFER_LENGTH
};
/*
* Connected Number Info Rec as defined in C.S0005 section 3.7.5.4
*/
struct CdmaNumberInfoRecord {
- string number; // Max length = RADIP_CDMA_NUMBER_INFO_BUFFER_LENGTH
+ string number; // Max length = RADIP_CDMA_NUMBER_INFO_BUFFER_LENGTH
uint8_t numberType;
uint8_t numberPlan;
uint8_t pi;
CdmaInfoRecName name;
// Only one of the below vectors must have size = 1 based on the
// CdmaInfoRecName. All other vectors must have size 0.
- vec<CdmaDisplayInfoRecord> display; // Display and Extended Display Info Rec
- vec<CdmaNumberInfoRecord> number; // Called Party Number, Calling Party Number, Connected
- // number Info Rec
- vec<CdmaSignalInfoRecord> signal; // Signal Info Rec
+ vec<CdmaDisplayInfoRecord> display; // Display and Extended Display Info Rec
+ vec<CdmaNumberInfoRecord> number; // Called Party Number, Calling Party Number, Connected
+ // number Info Rec
+ vec<CdmaSignalInfoRecord> signal; // Signal Info Rec
vec<CdmaRedirectingNumberInfoRecord> redir; // Redirecting Number Info Rec
vec<CdmaLineControlInfoRecord> lineCtrl; // Line Control Info Rec
- vec<CdmaT53ClirInfoRecord> clir; // T53 CLIR Info Rec
+ vec<CdmaT53ClirInfoRecord> clir; // T53 CLIR Info Rec
vec<CdmaT53AudioControlInfoRecord> audioCtrl; // T53 Audio Control Info Rec
};
struct CdmaInformationRecords {
- vec<CdmaInformationRecord> infoRec; // Max length = RadioConst:CDMA_MAX_NUMBER_OF_INFO_RECS
+ vec<CdmaInformationRecord> infoRec; // Max length = RadioConst:CDMA_MAX_NUMBER_OF_INFO_RECS
};
struct CfData {
- vec<CallForwardInfo> cfInfo; // This is the response data
- // for SS request to query call
- // forward status. see getCallForwardStatus()
- // Max size = RadioConst:NUM_SERVICE_CLASSES
+ vec<CallForwardInfo> cfInfo; // This is the response data
+ // for SS request to query call
+ // forward status. see getCallForwardStatus()
+ // Max size = RadioConst:NUM_SERVICE_CLASSES
};
struct SsInfoData {
- vec<int32_t> ssInfo; // This is the response data for all of the SS GET/SET
- // Radio requests. E.g. IRadio.getClir() returns
- // two ints, so first two values of ssInfo[] will be
- // used for response if serviceType is SS_CLIR and
- // requestType is SS_INTERROGATION
- // Max size = RadioConst:SS_INFO_MAX
+ vec<int32_t> ssInfo; // This is the response data for all of the SS GET/SET
+ // Radio requests. E.g. IRadio.getClir() returns
+ // two ints, so first two values of ssInfo[] will be
+ // used for response if serviceType is SS_CLIR and
+ // requestType is SS_INTERROGATION
+ // Max size = RadioConst:SS_INFO_MAX
};
struct StkCcUnsolSsResult {
SsServiceType serviceType;
SsRequestType requestType;
SsTeleserviceType teleserviceType;
- SuppServiceClass serviceClass;
+ bitfield<SuppServiceClass> serviceClass;
RadioError result;
// Only one of the below vectors may contain values and other must be empty
- vec<SsInfoData> ssInfo; // Valid only for all SsserviceType except
- // SsServiceType:CF_* else empty.
- vec<CfData> cfData; // Valid for SsServiceType:CF_* else empty
+ vec<SsInfoData> ssInfo; // Valid only for all SsServiceType except
+ // SsServiceType:CF_* else empty.
+ vec<CfData> cfData; // Valid for SsServiceType:CF_* else empty
};
struct PcoDataInfo {
- int32_t cid; // Context ID, uniquely identifies this call
- string bearerProto; // One of the PDP_type values in TS 27.007 section 10.1.1.
- // For example, "IP", "IPV6", "IPV4V6"
- int32_t pcoId; // The protocol ID for this box. Note that only IDs from
- // FF00H - FFFFH are accepted. If more than one is
- // included from the network, multiple calls must be made
- // to send all of them.
- vec<uint8_t> contents; // Carrier-defined content. It is binary, opaque and
- // loosely defined in LTE Layer 3 spec 24.008
+ int32_t cid; // Context ID, uniquely identifies this call
+ string bearerProto; // One of the PDP_type values in TS 27.007 section 10.1.1.
+ // For example, "IP", "IPV6", "IPV4V6"
+ int32_t pcoId; // The protocol ID for this box. Note that only IDs from
+ // FF00H - FFFFH are accepted. If more than one is
+ // included from the network, multiple calls must be made
+ // to send all of them.
+ vec<uint8_t> contents; // Carrier-defined content. It is binary, opaque and
+ // loosely defined in LTE Layer 3 spec 24.008
};
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