comparison src/cs/layer1/audio_include/l1audio_msgty.h @ 0:4e78acac3d88

src/{condat,cs,gpf,nucleus}: import from Selenite
author Mychaela Falconia <falcon@freecalypso.org>
date Fri, 16 Oct 2020 06:23:26 +0000
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-1:000000000000 0:4e78acac3d88
1 /************* Revision Controle System Header *************
2 * GSM Layer 1 software
3 * L1AUDIO_MSGTY.H
4 *
5 * Filename l1audio_msgty.h
6 * Copyright 2003 (C) Texas Instruments
7 *
8 ************* Revision Controle System Header *************/
9
10 #if (AUDIO_TASK == 1)
11
12 #if (OP_RIV_AUDIO == 1)
13 #include "rv_general.h"
14 #endif
15
16 #if (KEYBEEP)
17 typedef struct
18 {
19 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
20 T_RV_HDR header;
21 #endif
22 UWORD16 d_k_x1_kt0;
23 UWORD16 d_k_x1_kt1;
24 UWORD16 d_dur_kb;
25 }
26 T_MMI_KEYBEEP_REQ;
27 #endif
28
29 #if (TONE)
30 typedef struct
31 {
32 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
33 T_RV_HDR header;
34 #endif
35 UWORD16 d_k_x1_t0;
36 UWORD16 d_k_x1_t1;
37 UWORD16 d_k_x1_t2;
38 UWORD16 d_pe_rep;
39 UWORD16 d_pe_off;
40 UWORD16 d_se_off;
41 UWORD16 d_bu_off;
42 UWORD16 d_t0_on;
43 UWORD16 d_t0_off;
44 UWORD16 d_t1_on;
45 UWORD16 d_t1_off;
46 UWORD16 d_t2_on;
47 UWORD16 d_t2_off;
48 }
49 T_MMI_TONE_REQ;
50 #endif
51
52 #if (MELODY_E1)
53 typedef struct
54 {
55 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
56 T_RV_HDR header;
57 #endif
58 UWORD8 session_id;
59 BOOL loopback;
60 UWORD16 oscillator_used_bitmap;
61 }
62 T_MMI_MELODY_REQ;
63 #endif
64 #if (VOICE_MEMO)
65 typedef struct
66 {
67 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
68 T_RV_HDR header;
69 #endif
70 UWORD8 session_id;
71 }
72 T_MMI_VM_PLAY_REQ;
73
74 typedef struct
75 {
76 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
77 T_RV_HDR header;
78 #endif
79 UWORD8 session_id;
80 UWORD32 maximum_size;
81 BOOL dtx_used;
82 UWORD16 record_coeff_dl;
83 UWORD16 record_coeff_ul;
84 UWORD16 d_k_x1_t0;
85 UWORD16 d_k_x1_t1;
86 UWORD16 d_k_x1_t2;
87 UWORD16 d_pe_rep;
88 UWORD16 d_pe_off;
89 UWORD16 d_se_off;
90 UWORD16 d_bu_off;
91 UWORD16 d_t0_on;
92 UWORD16 d_t0_off;
93 UWORD16 d_t1_on;
94 UWORD16 d_t1_off;
95 UWORD16 d_t2_on;
96 UWORD16 d_t2_off;
97 }
98 T_MMI_VM_RECORD_REQ;
99
100 typedef struct
101 {
102 UWORD32 recorded_size;
103 }
104 T_L1_VM_RECORD_CON;
105
106 #if (OP_RIV_AUDIO == 1)
107 typedef struct
108 {
109 T_RV_HDR header;
110 UWORD32 recorded_size;
111 }
112 T_MMI_VM_RECORD_CON;
113 #else
114 typedef T_L1_VM_RECORD_CON T_MMI_VM_RECORD_CON;
115 #endif
116 #endif
117
118 #if (L1_VOICE_MEMO_AMR)
119 typedef struct
120 {
121 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
122 T_RV_HDR header;
123 #endif
124 UWORD8 session_id;
125 }
126 T_MMI_VM_AMR_PLAY_REQ;
127
128 typedef struct
129 {
130 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
131 T_RV_HDR header;
132 #endif
133 UWORD8 session_id;
134 UWORD32 maximum_size;
135 BOOL dtx_used;
136 UWORD16 record_coeff_ul;
137 UWORD8 amr_vocoder;
138 }
139 T_MMI_VM_AMR_RECORD_REQ;
140
141 typedef struct
142 {
143 UWORD32 recorded_size;
144 }
145 T_L1_VM_AMR_RECORD_CON;
146
147 #if (OP_RIV_AUDIO == 1)
148 typedef struct
149 {
150 T_RV_HDR header;
151 UWORD32 recorded_size;
152 }
153 T_MMI_VM_AMR_RECORD_CON;
154 #else
155 typedef T_L1_VM_AMR_RECORD_CON T_MMI_VM_AMR_RECORD_CON;
156 #endif
157 #endif
158
159 #if (OP_RIV_AUDIO == 1)
160 #if (L1_AUDIO_DRIVER == 1)
161 typedef struct
162 {
163 UWORD8 channel_id;
164 UWORD16 *p_buffer;
165 }
166 T_L1_AUDIO_DRIVER_IND;
167 #endif
168 #endif
169
170 #if (SPEECH_RECO)
171 typedef struct
172 {
173 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
174 T_RV_HDR header;
175 #endif
176 UWORD8 database_id;
177 UWORD8 word_index;
178 BOOL speech;
179 UWORD16 *speech_address;
180 }
181 T_MMI_SR_ENROLL_REQ;
182
183 typedef struct
184 {
185 #if (OP_RIV_AUDIO == 1)
186 T_RV_HDR header;
187 #endif
188 UWORD8 error_id;
189 }
190 T_MMI_SR_ENROLL_STOP_CON;
191
192 #if (OP_RIV_AUDIO == 1)
193 typedef struct
194 {
195 UWORD8 error_id;
196 }
197 T_L1_SR_ENROLL_STOP_CON;
198 #else
199 typedef T_MMI_SR_ENROLL_STOP_CON T_L1_SR_ENROLL_STOP_CON;
200 #endif
201
202 typedef struct
203 {
204 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
205 T_RV_HDR header;
206 #endif
207 UWORD8 database_id;
208 UWORD8 word_index;
209 BOOL speech;
210 UWORD16 *speech_address;
211 }
212 T_MMI_SR_UPDATE_REQ;
213
214 typedef struct
215 {
216 #if (OP_RIV_AUDIO == 1)
217 T_RV_HDR header;
218 #endif
219 UWORD8 error_id;
220 }
221 T_MMI_SR_UPDATE_STOP_CON;
222
223 #if (OP_RIV_AUDIO == 1)
224 typedef struct
225 {
226 UWORD8 error_id;
227 }
228 T_L1_SR_UPDATE_STOP_CON;
229 #else
230 typedef T_MMI_SR_UPDATE_STOP_CON T_L1_SR_UPDATE_STOP_CON;
231 #endif
232
233 typedef struct
234 {
235 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
236 T_RV_HDR header;
237 #endif
238 UWORD8 database_id;
239 UWORD8 vocabulary_size;
240 }
241 T_MMI_SR_RECO_REQ;
242
243 typedef struct
244 {
245 #if (OP_RIV_AUDIO == 1)
246 T_RV_HDR header;
247 #endif
248 UWORD8 error_id;
249 UWORD16 best_word_index;
250 UWORD32 best_word_score;
251 UWORD16 second_best_word_index;
252 UWORD32 second_best_word_score;
253 UWORD16 third_best_word_index;
254 UWORD32 third_best_word_score;
255 UWORD16 fourth_best_word_index;
256 UWORD32 fourth_best_word_score;
257 UWORD16 d_sr_db_level;
258 UWORD16 d_sr_db_noise;
259 UWORD16 d_sr_model_size;
260 }
261 T_MMI_SR_RECO_STOP_CON;
262
263 typedef struct
264 {
265 UWORD8 error_id;
266 }
267 T_L1_SR_RECO_STOP_CON;
268
269 #if (OP_RIV_AUDIO == 1)
270 typedef struct
271 {
272 UWORD8 error_id;
273 UWORD16 best_word_index;
274 UWORD32 best_word_score;
275 UWORD16 second_best_word_index;
276 UWORD32 second_best_word_score;
277 UWORD16 third_best_word_index;
278 UWORD32 third_best_word_score;
279 UWORD16 fourth_best_word_index;
280 UWORD32 fourth_best_word_score;
281 UWORD16 d_sr_db_level;
282 UWORD16 d_sr_db_noise;
283 UWORD16 d_sr_model_size;
284 }
285 T_L1_SR_RECO_STOP_IND;
286 #else
287 typedef T_MMI_SR_RECO_STOP_CON T_L1_SR_RECO_STOP_IND;
288 #endif
289
290 typedef T_L1_SR_RECO_STOP_CON T_L1_SR_PROCESSING_STOP_CON;
291
292 typedef struct
293 {
294 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
295 T_RV_HDR header;
296 #endif
297 UWORD8 database_id;
298 UWORD8 word_index;
299 UWORD16 *model_address;
300 BOOL speech;
301 UWORD16 *speech_address;
302 UWORD8 vocabulary_size;
303 }
304 T_MMI_SR_UPDATE_CHECK_REQ;
305
306 typedef T_MMI_SR_RECO_STOP_CON T_MMI_SR_UPDATE_CHECK_STOP_CON;
307
308 // Background message type
309 typedef struct
310 {
311 #if (OP_RIV_AUDIO == 1)
312 T_RV_HDR header;
313 #endif
314 UWORD8 database_id;
315 UWORD8 model_index;
316 API *model_RAM_address;
317 BOOL speech;
318 UWORD16 *start_buffer;
319 UWORD16 *stop_buffer;
320 UWORD16 *start_address;
321 UWORD16 *stop_address;
322 }
323 T_L1_SRBACK_SAVE_DATA_REQ;
324
325 typedef struct
326 {
327 #if (OP_RIV_AUDIO == 1)
328 T_RV_HDR header;
329 #endif
330 UWORD8 database_id;
331 UWORD8 model_index;
332 API *model_RAM_address;
333 BOOL CTO_enable;
334 }
335 T_L1_SRBACK_LOAD_MODEL_REQ;
336
337 typedef struct
338 {
339 #if (OP_RIV_AUDIO == 1)
340 T_RV_HDR header;
341 #endif
342 API *model_RAM_address_input;
343 UWORD16 *model_RAM_address_output;
344 }
345 T_L1_SRBACK_TEMP_SAVE_DATA_REQ;
346 #endif
347
348 #if (AEC)
349 typedef struct
350 {
351 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
352 T_RV_HDR header;
353 #endif
354 UWORD16 aec_control;
355 #if (L1_NEW_AEC)
356 UWORD16 cont_filter;
357 UWORD16 granularity_att;
358 UWORD16 coef_smooth;
359 UWORD16 es_level_max;
360 UWORD16 fact_vad;
361 UWORD16 thrs_abs;
362 UWORD16 fact_asd_fil;
363 UWORD16 fact_asd_mut;
364 #endif
365 }
366 T_MMI_AEC_REQ;
367
368 #if (L1_NEW_AEC)
369 typedef struct
370 {
371 UWORD16 es_level;
372 UWORD32 far_end_pow;
373 UWORD32 far_end_noise;
374 }
375 T_L1_AEC_IND;
376 #endif
377 #endif
378
379 #if (FIR)
380 typedef struct
381 {
382 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
383 T_RV_HDR header;
384 #endif
385 BOOL fir_loop;
386 UWORD8 update_fir;
387 UWORD16 *fir_ul_coefficient;
388 UWORD16 *fir_dl_coefficient;
389 }
390 T_MMI_AUDIO_FIR_REQ;
391 #endif
392 #if (AUDIO_MODE)
393 typedef struct
394 {
395 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
396 T_RV_HDR header;
397 #endif
398 #if (OP_RIV_AUDIO == 1)
399 UWORD8 audio_mode;
400 #else
401 UWORD16 audio_mode;
402 #endif
403 }
404 T_MMI_AUDIO_MODE;
405 #endif
406 #if (MELODY_E2)
407 typedef struct
408 {
409 #if (OP_RIV_AUDIO == 1)
410 T_RV_HDR header;
411 #endif
412 UWORD8 melody_id;
413 UWORD8 number_of_instrument;
414 UWORD8 waves_table_id[SC_AUDIO_MELODY_E2_MAX_NUMBER_OF_INSTRUMENT];
415 }
416 T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ;
417
418 typedef struct
419 {
420 #if (OP_RIV_AUDIO == 1)
421 T_RV_HDR header;
422 #endif
423 UWORD8 melody_id;
424 }
425 T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON;
426
427 typedef struct
428 {
429 #if (OP_RIV_AUDIO == 1)
430 T_RV_HDR header;
431 #endif
432 UWORD8 melody_id;
433 UWORD8 number_of_instrument;
434 }
435 T_L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ;
436
437 typedef struct
438 {
439 #if (OP_RIV_AUDIO == 1)
440 T_RV_HDR header;
441 #endif
442 UWORD8 melody_id;
443 }
444 T_L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON;
445
446 typedef struct
447 {
448 #if (defined _WINDOWS && (OP_RIV_AUDIO == 1))
449 T_RV_HDR header;
450 #endif
451 UWORD8 session_id;
452 BOOL loopback;
453 }
454 T_MMI_MELODY_E2_REQ;
455 #endif
456
457 #if (L1_CPORT == 1)
458 typedef struct
459 {
460 UWORD16 configuration;
461 UWORD16 ctrl;
462 UWORD8 cpcfr1;
463 UWORD8 cpcfr2;
464 UWORD8 cpcfr3;
465 UWORD8 cpcfr4;
466 UWORD8 cptctl;
467 UWORD8 cpttaddr;
468 UWORD16 cptdat;
469 UWORD16 cptvs;
470 }
471 T_MMI_CPORT_CONFIGURE_REQ;
472
473 typedef struct
474 {
475 UWORD16 register_id;
476 UWORD16 register_value;
477 }
478 T_L1_CPORT_CONFIGURE_CON;
479
480 #if (OP_RIV_AUDIO == 1)
481 typedef struct
482 {
483 T_RV_HDR header;
484 UWORD8 register_id;
485 UWORD16 register_value;
486 }
487 T_MMI_CPORT_CONFIGURE_CON;
488 #else
489 typedef T_L1_CPORT_CONFIGURE_CON T_MMI_CPORT_CONFIGURE_CON;
490 #endif
491 #endif
492 #endif // AUDIO_TASK