1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
|
/*
* Copyright (C) 2020 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.hardware.radio@1.6;
import @1.0::CdmaSmsMessage;
import @1.0::Dial;
import @1.0::GsmSmsMessage;
import @1.1::CardPowerState;
import @1.2::DataRequestReason;
import @1.4::EmergencyCallRouting;
import @1.4::EmergencyServiceCategory;
import @1.4::RadioAccessFamily;
import @1.5::IRadio;
import @1.5::AccessNetwork;
import @1.5::DataProfileInfo;
import @1.5::LinkAddress;
/**
* This interface is used by telephony and telecom to talk to cellular radio.
* All the functions have minimum one parameter:
* serial: which corresponds to serial no. of request. Serial numbers must only be memorized for the
* duration of a method call. If clients provide colliding serials (including passing the same
* serial to different methods), multiple responses (one for each method call) must still be served.
* setResponseFunctions must work with @1.6::IRadioResponse and @1.6::IRadioIndication.
*/
interface IRadio extends @1.5::IRadio {
/**
* Toggle radio on and off (for "airplane" mode)
* If the radio is turned off/on the radio modem subsystem
* is expected return to an initialized state. For instance,
* any voice and data calls must be terminated and all associated
* lists emptied.
*
* When setting radio power on to exit from airplane mode to place an emergency call on this
* logical modem, powerOn, forEmergencyCall and preferredForEmergencyCall must be true. In
* this case, this modem is optimized to scan only emergency call bands, until:
* 1) Emergency call is completed; or
* 2) Another setRadioPower_1_5 is issued with forEmergencyCall being false or
* preferredForEmergencyCall being false; or
* 3) Timeout after 30 seconds if dial or emergencyDial is not called.
* Once one of these conditions is reached, the modem should move into normal operation.
*
* @param serial Serial number of request.
* @param powerOn To turn on radio -> on = true, to turn off radio -> on = false.
* @param forEmergencyCall To indication to radio if this request is due to emergency call.
* No effect if powerOn is false.
* @param preferredForEmergencyCall indicate whether the following emergency call will be sent
* on this modem or not. No effect if forEmergencyCall is false, or powerOn is false.
*
* Response callback is IRadioConfigResponse. setRadioPowerResponse_1_6.
* Note this API is the same as the 1.5
*/
oneway setRadioPower_1_6(int32_t serial, bool powerOn, bool forEmergencyCall,
bool preferredForEmergencyCall);
/**
* Returns the data call list. An entry is added when a setupDataCall() is issued and removed
* on a deactivateDataCall(). The list is emptied when setRadioPower() off/on issued or when
* the vendor HAL or modem crashes.
*
* @param serial Serial number of request.
*
* Response function is IRadioResponse.getDataCallListResponse_1_6()
*/
oneway getDataCallList_1_6(int32_t serial);
/**
* Setup a packet data connection. If DataCallResponse.status returns DataCallFailCause:NONE,
* the data connection must be added to data calls and a unsolDataCallListChanged() must be
* sent. The call remains until removed by subsequent unsolDataCallIstChanged(). It may be
* lost due to many factors, including deactivateDataCall() being issued, the radio powered
* off, reception lost or even transient factors like congestion. This data call list is
* returned by getDataCallList() and dataCallListChanged().
*
* The Radio is expected to:
* - Create one data call context.
* - Create and configure a dedicated interface for the context.
* - The interface must be point to point.
* - The interface is configured with one or more addresses and is capable of sending and
* receiving packets. The format is IP address with optional "/" prefix length
* (The format is defined in RFC-4291 section 2.3). For example, "192.0.1.3",
* "192.0.1.11/16", or "2001:db8::1/64". Typically one IPv4 or one IPv6 or one of each. If
* the prefix length is absent, then the addresses are assumed to be point to point with
* IPv4 with prefix length 32 or IPv6 with prefix length 128.
* - Must not modify routing configuration related to this interface; routing management is
* exclusively within the purview of the Android OS.
* - Support simultaneous data call contexts up to DataRegStateResult.maxDataCalls specified
* in the response of getDataRegistrationState.
*
* The differences relative to the 1.5 version of the API are:
* - The addition of new parameters pduSessionId, sliceInfo, trafficDescriptor, and
* matchAllRuleAllowed.
* - If an existing data call should be used for the request, that must be indicated in the
* response by setting SetupDataCallResult::cid to the context id of that call.
*
* @param serial Serial number of request.
* @param accessNetwork The access network to setup the data call. If the data connection cannot
* be established on the specified access network then it should be responded with an error.
* @param dataProfileInfo Data profile info.
* @param roamingAllowed Indicates whether or not data roaming is allowed by the user.
* @param reason The request reason. Must be DataRequestReason:NORMAL or
* DataRequestReason:HANDOVER.
* @param addresses If the reason is DataRequestReason:HANDOVER, this indicates the list of link
* addresses of the existing data connection. This parameter must be ignored unless reason
* is DataRequestReason:HANDOVER.
* @param dnses If the reason is DataRequestReason:HANDOVER, this indicates the list of DNS
* addresses of the existing data connection. The format is defined in RFC-4291 section 2.2.
* For example, "192.0.1.3" or "2001:db8::1". This parameter must be ignored unless reason
* is DataRequestReason:HANDOVER.
* @param pduSessionId The pdu session id to be used for this data call. A value of 0 means
* no pdu session id was attached to this call.
* Reference: 3GPP TS 24.007 section 11.2.3.1b
* @param sliceInfo SliceInfo to be used for the data connection when a handover occurs from
* EPDG to 5G. It is valid only when accessNetwork is AccessNetwork:NGRAN. If the slice
* passed from EPDG is rejected, then the data failure cause must be
* DataCallFailCause:SLICE_REJECTED.
* @param trafficDescriptor TrafficDescriptor for which data connection needs to be
* established. It is used for URSP traffic matching as described in TS 24.526
* Section 4.2.2. It includes an optional DNN which, if present, must be used for traffic
* matching -- it does not specify the end point to be used for the data call. The end
* point is specified by DataProfileInfo.apn; DataProfileInfo.apn must be used as the end
* point if one is not specified through URSP rules.
* @param matchAllRuleAllowed bool to indicate if using default match-all URSP rule for this
* request is allowed. If false, this request must not use the match-all URSP rule and if
* a non-match-all rule is not found (or if URSP rules are not available) it should return
* failure with cause DataCallFailCause:MATCH_ALL_RULE_NOT_ALLOWED. This is needed as some
* requests need to have a hard failure if the intention cannot be met, for example, a
* zero-rating slice.
*
* Response function is IRadioResponse.setupDataCallResponse_1_6()
*
*/
oneway setupDataCall_1_6(int32_t serial, AccessNetwork accessNetwork,
DataProfileInfo dataProfileInfo, bool roamingAllowed,
DataRequestReason reason, vec<LinkAddress> addresses, vec<string> dnses,
int32_t pduSessionId, OptionalSliceInfo sliceInfo,
OptionalTrafficDescriptor trafficDescriptor, bool matchAllRuleAllowed);
/**
* Send an SMS message
*
* @param serial Serial number of request.
* @param message GsmSmsMessage as defined in types.hal
*
* Response function is IRadioResponse.sendSmsResponse_1_6()
*
* Note this API is the same as the 1.0
*
* Based on the return error, caller decides to resend if sending sms
* fails. RadioError:SMS_SEND_FAIL_RETRY means retry (i.e. error cause is 332)
* and RadioError:GENERIC_FAILURE means no retry (i.e. error cause is 500)
*/
oneway sendSms_1_6(int32_t serial, GsmSmsMessage message);
/**
* Send an SMS message. Identical to sendSms_1_6,
* except that more messages are expected to be sent soon. If possible,
* keep SMS relay protocol link open (eg TS 27.005 AT+CMMS command)
*
* @param serial Serial number of request.
* @param message GsmSmsMessage as defined in types.hal
*
* Response function is IRadioResponse.sendSmsExpectMoreResponse_1_6()
*
* Note this API is the same as the 1.0
*
* Based on the return error, caller decides to resend if sending sms
* fails. RadioError:SMS_SEND_FAIL_RETRY means retry (i.e. error cause is 332)
* and RadioError:GENERIC_FAILURE means no retry (i.e. error cause is 500)
*/
oneway sendSmsExpectMore_1_6(int32_t serial, GsmSmsMessage message);
/**
* Send a CDMA SMS message
*
* @param serial Serial number of request.
* @param sms Cdma Sms to be sent described by CdmaSmsMessage in types.hal
*
* Response callback is IRadioResponse.sendCdmaSmsResponse_1_6()
*
* Note this API is the same as the 1.0
*
*/
oneway sendCdmaSms_1_6(int32_t serial, CdmaSmsMessage sms);
/**
* Send an SMS message. Identical to sendCdmaSms_1_6,
* except that more messages are expected to be sent soon.
*
* @param serial Serial number of request.
* @param sms Cdma Sms to be sent described by CdmaSmsMessage in types.hal
*
* Response callback is IRadioResponse.sendCdmaSMSExpectMoreResponse_1_6()
*
* Note this API is the same as the 1.5
*
*/
oneway sendCdmaSmsExpectMore_1_6(int32_t serial, CdmaSmsMessage sms);
/**
* Set SIM card power state.
* Request is used to power off or power on the card. It should not generate
* a CardState.CARDSTATE_ABSENT indication, since the SIM is still physically
* inserted.
*
* @param serial Serial number of request
* @param powerUp POWER_DOWN if powering down the SIM card,
* POWER_UP if powering up the SIM card,
* POWER_UP_PASS_THROUGH if powering up the SIM card in
* pass through mode.
*
* When SIM card is in POWER_UP_PASS_THROUGH, the modem does not send
* any command to it (for example SELECT of MF, or TERMINAL
* CAPABILITY), and the SIM card is controlled completely by Telephony
* sending APDUs directly. The SIM card state must be
* RIL_CARDSTATE_PRESENT and the number of card apps will be 0.
* No new error code is generated. Emergency calls are supported in
* the same way as if the SIM card is absent.
* Pass-through mode is valid only for the specific card session where
* it is activated, and normal behavior occurs at the next SIM
* initialization, unless POWER_UP_PASS_THROUGH is requested again.
*
* The device is required to power down the SIM card before it can
* switch the mode between POWER_UP and POWER_UP_PASS_THROUGH.
* At device power up, the SIM interface is powered up automatically.
* Each subsequent request to this method is processed only after the
* completion of the previous one.
*
* When the SIM is in POWER_DOWN, the modem should send an empty vector of
* AppStatus in CardStatus.applications. If a SIM in the POWER_DOWN state
* is removed and a new SIM is inserted, the new SIM should be in POWER_UP
* mode by default. If the device is turned off or restarted while the SIM
* is in POWER_DOWN, then the SIM should turn on normally in POWER_UP mode
* when the device turns back on.
*
* Response callback is IRadioResponse.setSimCardPowerResponse_1_6().
* Note that this differs from setSimCardPower_1_1 in that the response
* callback should only be sent once the device has finished executing
* the request (the SIM has finished powering on or off).
*/
oneway setSimCardPower_1_6(int32_t serial, CardPowerState powerUp);
/**
* Enable or disable E-UTRA-NR dual connectivity. If disabled then UE will not connect
* to secondary carrier.
*
* @param serial Serial number of request.
* @param nrDualConnectivityState expected NR dual connectivity state.
* 1. Enable NR dual connectivity {NrDualConnectivityState:ENABLE}
* 2. Disable NR dual connectivity {NrDualConnectivityState:DISABLE}
* 3. Disable NR dual connectivity and force secondary cell to be released
* {NrDualConnectivityState:DISABLE_IMMEDIATE}
*
* Response callback is IRadioResponse.setNRDualConnectivityStateResponse()
*/
oneway setNrDualConnectivityState(int32_t serial,
NrDualConnectivityState nrDualConnectivityState);
/**
* Is E-UTRA-NR Dual Connectivity enabled
*
* @param serial Serial number of request.
* Response callback is IRadioResponse.isNRDualConnectivityEnabledResponse()
*/
oneway isNrDualConnectivityEnabled(int32_t serial);
/**
* Reserves an unallocated pdu session id from the pool of ids.
*
* The allocated id is returned in the response.
*
* When the id is no longer needed, call releasePduSessionId to
* return it to the pool.
*
* Reference: 3GPP TS 24.007 section 11.2.3.1b
*
* @param serial Serial number of request.
*
* Response function is IRadioResponse.allocatePduSessionIdResponse()
*/
oneway allocatePduSessionId(int32_t serial);
/**
* Releases a pdu session id that was previously allocated using
* allocatePduSessionId.
*
* Reference: 3GPP TS 24.007 section 11.2.3.1b
* @param serial Serial number of request.
* @param id Pdu session id to release.
*
* Response function is IRadioResponse.releasePduSessionIdResponse()
*/
oneway releasePduSessionId(int32_t serial, int32_t id);
/**
* Indicates that a handover to the IWLAN transport has begun.
*
* Any resources being transferred to the IWlan transport cannot be released while a
* handover is underway. For example, if a pdu session id needs to be
* transferred to IWlan, then, the modem should not release the id while
* the handover is in progress.
*
* If a handover was unsuccessful, then the framework calls IRadio::cancelHandover.
* The modem retains ownership over any of the resources being transferred to IWlan.
*
* If a handover was successful, the framework calls IRadio::deactivateDataCall with reason
* HANDOVER. The IWlan transport now owns the transferred resources and is responsible for
* releasing them.
*
* @param serial Serial number of request.
* @param id callId The identifier of the data call which is provided in SetupDataCallResult
*
* Response function is IRadioResponse.startHandoverResponse()
*/
oneway startHandover(int32_t serial, int32_t callId);
/**
* Indicates that a handover was cancelled after a call to IRadio::startHandover.
*
* Since the handover was unsuccessful, the modem retains ownership over any of the resources
* being transferred and is still responsible for releasing them.
*
* @param serial Serial number of request.
* @param id callId The identifier of the data call which is provided in SetupDataCallResult
*
* Response function is IRadioResponse.cancelHandoverResponse()
*/
oneway cancelHandover(int32_t serial, int32_t callId);
/**
* Requests to set the network type for searching and registering.
*
* Instruct the radio to *only* accept the types of network provided.
* setPreferredNetworkType, setPreferredNetworkTypesBitmap will not be called anymore
* except for IRadio v1.5 or older devices.
*
* In case of an emergency call, the modem is authorized to bypass this
* restriction.
*
* @param serial Serial number of request.
* @param networkTypeBitmap a 32-bit bearer bitmap of RadioAccessFamily
*
* Response callback is IRadioResponse.setAllowedNetworkTypesBitmapResponse()
*/
oneway setAllowedNetworkTypesBitmap(
uint32_t serial, bitfield<RadioAccessFamily> networkTypeBitmap);
/**
* Requests bitmap representing the currently allowed network types.
*
* getPreferredNetworkType, getPreferredNetworkTypesBitmap will not be called anymore
* except for IRadio v1.5 or older devices.
*
* @param serial Serial number of request.
*
* Response callback is IRadioResponse.getAllowedNetworkTypesBitmapResponse()
*/
oneway getAllowedNetworkTypesBitmap(int32_t serial);
/**
* Control data throttling at modem.
* - DataThrottlingAction:NO_DATA_THROTTLING should clear any existing
* data throttling within the requested completion window.
* - DataThrottlingAction:THROTTLE_SECONDARY_CARRIER: Remove any existing
* throttling on anchor carrier and achieve maximum data throttling on
* secondary carrier within the requested completion window.
* - DataThrottlingAction:THROTTLE_ANCHOR_CARRIER: disable secondary
* carrier and achieve maximum data throttling on anchor carrier by
* requested completion window.
* - DataThrottlingAction:HOLD: Immediately hold on to current level of
* throttling.
*
* @param serial Serial number of request.
* @param dataThrottlingAction DataThrottlingAction as defined in types.hal
* @param completionDurationMillis window, in milliseconds, in which the
* requested throttling action has to be achieved. This must be 0 when
* dataThrottlingAction is DataThrottlingAction:HOLD.
*
* Response function is IRadioResponse.setDataThrottlingResponse()
*/
oneway setDataThrottling(int32_t serial,
DataThrottlingAction dataThrottlingAction,
int64_t completionDurationMillis);
/**
* Initiate emergency voice call, with zero or more emergency service category(s), zero or
* more emergency Uniform Resource Names (URN), and routing information for handling the call.
* Android uses this request to make its emergency call instead of using @1.0::IRadio.dial
* if the 'address' in the 'dialInfo' field is identified as an emergency number by Android.
*
* In multi-sim scenario, if the emergency number is from a specific subscription, this radio
* request can still be sent out on the other subscription as long as routing is set to
* @1.4::EmergencyNumberRouting#EMERGENCY. This radio request will not be sent on an inactive
* (PIN/PUK locked) subscription unless both subscriptions are PIN/PUK locked. In this case,
* the request will be sent on the primary subscription.
*
* Some countries or carriers require some emergency numbers that must be handled with normal
* call routing if possible or emergency routing. 1) if the 'routing' field is specified as
* @1.4::EmergencyNumberRouting#NORMAL, the implementation must try the full radio service to
* use normal call routing to handle the call; if service cannot support normal routing, the
* implementation must use emergency routing to handle the call. 2) if 'routing' is specified
* as @1.4::EmergencyNumberRouting#EMERGENCY, the implementation must use emergency routing to
* handle the call. 3) if 'routing' is specified as @1.4::EmergencyNumberRouting#UNKNOWN,
* Android does not know how to handle the call.
*
* If the dialed emergency number does not have a specified emergency service category, the
* 'categories' field is set to @1.4::EmergencyServiceCategory#UNSPECIFIED; if the dialed
* emergency number does not have specified emergency Uniform Resource Names, the 'urns' field
* is set to an empty list. If the underlying technology used to request emergency services
* does not support the emergency service category or emergency uniform resource names, the
* field 'categories' or 'urns' may be ignored.
*
* In the scenarios that the 'address' in the 'dialInfo' field has other functions besides the
* emergency number function, if the 'hasKnownUserIntentEmergency' field is true, the user's
* intent for this dial request is emergency call, and the modem must treat this as an actual
* emergency dial; if the 'hasKnownUserIntentEmergency' field is false, Android does not know
* user's intent for this call.
*
* If 'isTesting' is true, this request is for testing purpose, and must not be sent to a real
* emergency service; otherwise it's for a real emergency call request.
*
* Reference: 3gpp 22.101, Section 10 - Emergency Calls;
* 3gpp 23.167, Section 6 - Functional description;
* 3gpp 24.503, Section 5.1.6.8.1 - General;
* RFC 5031
*
* @param serial Serial number of request.
* @param dialInfo the same @1.0::Dial information used by @1.0::IRadio.dial.
* @param categories bitfield<@1.4::EmergencyServiceCategory> the Emergency Service Category(s)
* of the call.
* @param urns the emergency Uniform Resource Names (URN)
* @param routing @1.4::EmergencyCallRouting the emergency call routing information.
* @param hasKnownUserIntentEmergency Flag indicating if user's intent for the emergency call
* is known.
* @param isTesting Flag indicating if this request is for testing purpose.
*
* Response function is IRadioResponse.emergencyDialResponse()
*/
oneway emergencyDial_1_6(int32_t serial, Dial dialInfo,
bitfield<EmergencyServiceCategory> categories, vec<string> urns,
EmergencyCallRouting routing, bool hasKnownUserIntentEmergency, bool isTesting);
/**
* Get which bands the modem's background scan is acting on.
*
* @param serial Serial number of request.
*
* Response callback is IRadioResponse.getSystemSelectionChannelsResponse()
*/
oneway getSystemSelectionChannels(int32_t serial);
/**
* Request all of the current cell information known to the radio. The radio
* must return list of all current cells, including the neighboring cells. If for a particular
* cell information isn't known then the appropriate unknown value will be returned.
* This does not cause or change the rate of unsolicited cellInfoList().
*
* This is identical to getCellInfoList in V1.0, but it requests updated version of CellInfo.
*
* @param serial Serial number of request.
*
* Response callback is IRadioResponse.getCellInfoListResponse()
*/
oneway getCellInfoList_1_6(int32_t serial);
/**
* Request current voice registration state.
*
* @param serial Serial number of request.
*
* Response function is IRadioResponse.getVoiceRegistrationStateResponse_1_6()
*/
oneway getVoiceRegistrationState_1_6(int32_t serial);
/**
* Requests current signal strength and associated information. Must succeed if radio is on.
*
* @param serial Serial number of request.
*
* Response function is IRadioResponse.getSignalStrengthResponse_1_6()
*/
oneway getSignalStrength_1_6(int32_t serial);
/**
* Request current data registration state.
*
* @param serial Serial number of request.
*
* Response function is IRadioResponse.getDataRegistrationStateResponse_1_6()
*/
oneway getDataRegistrationState_1_6(int32_t serial);
/**
* Requests current call list
*
* @param serial Serial number of request.
*
* Response function is IRadioResponse.getCurrentCallsResponse_1_6()
*/
oneway getCurrentCalls_1_6(int32_t serial);
/**
* Request to get the current slicing configuration including URSP rules and
* NSSAIs (configured, allowed and rejected).
* URSP stands for UE route selection policy and is defined in 3GPP TS 24.526
* Section 4.2.
* An NSSAI is a collection of network slices. Each network slice is identified by
* an S-NSSAI and is represented by the struct SliceInfo. NSSAI and S-NSSAI
* are defined in 3GPP TS 24.501.
*
* Response function is IRadioResponse.getSlicingConfigResponse()
*/
oneway getSlicingConfig(int32_t serial);
/**
* Provide Carrier specific information to the modem that must be used to
* encrypt the IMSI and IMPI. Sent by the framework during boot, carrier
* switch and everytime the framework receives a new certificate.
*
* @param serial Serial number of request.
* @param imsiEncryptionInfo ImsiEncryptionInfo as defined in types.hal.
*
* Response callback is
* IRadioResponse.setCarrierInfoForImsiEncryptionResponse()
*
* Note this API is the same as the 1.1 version except using the 1.6 ImsiEncryptionInfo
* as the input param.
*/
oneway setCarrierInfoForImsiEncryption_1_6(int32_t serial, @1.6::ImsiEncryptionInfo imsiEncryptionInfo);
/**
* Get the local and global phonebook records from the SIM card.
* This should be called again after a simPhonebookChanged notification is received.
*
* The phonebook records are received via IRadioIndication.simPhonebookRecordsReceived()
*
* @param serial Serial number of request.
*
* Response callback is IRadioResponse.getSimPhonebookRecordsResponse()
*/
oneway getSimPhonebookRecords(int32_t serial);
/**
* Get the phone book capacity
*
* @param serial Serial number of request.
*
* Response function is defined from IRadioResponse.getSimPhonebookCapacityResponse()
*/
oneway getSimPhonebookCapacity(int32_t serial);
/**
* Insert, delete or update a phonebook record on the SIM card.
* If the index of recordInfo is 0, the phonebook record will be added to global or
* local phonebook, and global phonebook has higher priority than local phonebook.
*
* If the fields in the recordInfo are all empty except for the index, the phonebook
* record specified by the index will be deleted.
*
* The indication simPhonebookChanged will be called after every successful call of
* updateSimPhonebookRecords.
*
* @param serial Serial number of request.
* @param recordInfo Details of the record to insert, delete or update.
*
* Response callback is IRadioResponse.updateSimPhonebookRecordsResponse()
*/
oneway updateSimPhonebookRecords(int32_t serial, PhonebookRecordInfo recordInfo);
};
|