comparison src/cs/services/audio/audio_structs_i.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
parents
children
comparison
equal deleted inserted replaced
-1:000000000000 0:4e78acac3d88
1 /********************************************************************************/
2 /* */
3 /* File Name: audio_structs_i.h */
4 /* */
5 /* Purpose: This file contains constants, data type, and data */
6 /* structures that are used by the AUDIO's task. */
7 /* */
8 /* Note: */
9 /* None. */
10 /* */
11 /* Revision History: */
12 /* 11 May 01 Francois Mazard - Stephanie Gerthoux Create */
13 /* */
14 /* (C) Copyright 2001 by Texas Instruments Incorporated, All Rights Reserved. */
15 /* */
16 /********************************************************************************/
17 #include "rv/rv_defined_swe.h"
18 #ifdef RVM_AUDIO_MAIN_SWE
19 #ifndef _AUDIO_STRUCTS_I_
20 #define _AUDIO_STRUCTS_I_
21
22 #ifndef _WINDOWS
23 #include "config/sys.cfg"
24 #include "config/chipset.cfg"
25 #endif
26 #include "l1_confg.h"
27 #include "rvm/rvm_gen.h"
28 #include "audio/audio_features_i.h"
29 #include "audio/audio_ffs_i.h"
30 #include "audio/audio_const_i.h"
31
32 #include "ffs/ffs_api.h"
33
34 #ifdef __cplusplus
35 extern "C"
36 {
37 #endif
38
39 /****************************** AUDIO'S ENVIRONMENT *****************************/
40 /* Define a structure used to store all information related to the AUDIO's task */
41 /* & memory bank identifiers. */
42
43 #if (KEYBEEP)
44 typedef struct
45 {
46 UINT8 state; /* keybeep state */
47 T_RVF_ADDR_ID task_id; /* keybeep task_id */
48 T_RV_RETURN return_path; /* return path of the function that previously start the keybeep */
49 } T_AUDIO_KEYBEEP_VAR;
50 #endif /* #if (KEYBEEP) */
51
52 #if (TONE)
53 typedef struct
54 {
55 UINT8 state; /* tones state */
56 T_RVF_ADDR_ID task_id; /* tones task_id */
57 T_RV_RETURN return_path; /* return path of the function that previously start the tones */
58 } T_AUDIO_TONES_VAR;
59 #endif
60
61 #if (MELODY_E1)
62 typedef struct
63 {
64 UINT8 state; /* melody state */
65 T_RVF_ADDR_ID task_id; /* melody task_id */
66 char melody_name[AUDIO_PATH_NAME_MAX_SIZE]; /* name and path of the word to enroll */
67 BOOLEAN loopback;
68 T_RV_RETURN return_path; /* return path of the function that previously start the melody */
69 } T_AUDIO_MELODY_E1_VAR;
70 #endif
71
72 #if (MELODY_E2)
73 typedef struct
74 {
75 UINT8 state; /* melody state */
76 T_RVF_ADDR_ID task_id; /* melody task_id */
77 char melody_name[AUDIO_PATH_NAME_MAX_SIZE]; /* name of the melody E2 */
78 BOOLEAN loopback;
79 T_RV_RETURN return_path; /* return path of the function that previously start the melody */
80 } T_AUDIO_MELODY_E2_VAR;
81
82 typedef struct
83 {
84 BOOLEAN file_downloaded;
85 UINT8 nb_of_instruments;
86 char instrument_file_name[AUDIO_PATH_NAME_MAX_SIZE];
87 } T_AUDIO_MELODY_E2_LOAD_FILE_VAR;
88
89 typedef struct
90 {
91 INT8 id; /* id of the melody in the .lsi file*/
92 char melody_name[AUDIO_PATH_NAME_MAX_SIZE]; /* name of the melody E2 */
93
94 } T_AUDIO_MELODY_E2_ID_NAME;
95
96
97 #endif
98
99
100 #if (VOICE_MEMO)
101 typedef struct
102 {
103 UINT8 state; /* voice memo state */
104 T_RVF_ADDR_ID task_id; /* voice memo task_id */
105 UINT32 recorded_size; /* voice memo recorded size */
106 T_RV_RETURN return_path; /* return path of the function that previously start the voice memo */
107 void *p_l1_send_message; /* address to the message to send to the L1 */
108 } T_AUDIO_VOICE_MEMO_RECORD_VAR;
109
110 typedef struct
111 {
112 UINT8 state; /* voice memo state */
113 T_RVF_ADDR_ID task_id; /* voice memo task_id */
114 T_RV_RETURN return_path; /* return path of the function that previously start the voice memo */
115 } T_AUDIO_VOICE_MEMO_PLAY_VAR;
116
117 #endif
118
119 #if (L1_VOICE_MEMO_AMR)
120 typedef struct
121 {
122 UINT8 state; /* voice memo state */
123 T_RV_RETURN return_path; /* return path of the function that previously start the voice memo */
124 UINT8 channel_id;
125 #if (AUDIO_NEW_FFS_MANAGER)
126 T_FFS_FD ffs_fd;
127 #endif
128 #if (AUDIO_RAM_MANAGER)
129 UINT8 *audio_ram_fd;
130 #endif
131 } T_AUDIO_VOICE_MEMO_AMR_RECORD_TO_MEM_VAR;
132
133 typedef struct
134 {
135 UINT8 state; /* voice memo state */
136 T_RV_RETURN return_path; /* return path of the function that previously start the voice memo */
137 UINT8 channel_id;
138 #if (AUDIO_NEW_FFS_MANAGER)
139 T_FFS_FD ffs_fd;
140 #endif
141 #if (AUDIO_RAM_MANAGER)
142 UINT8 *audio_ram_fd;
143 UINT16 audio_ram_size;
144 #endif
145 } T_AUDIO_VOICE_MEMO_AMR_PLAY_FROM_MEM_VAR;
146 #endif
147
148 #if (MELODY_E1) || (MELODY_E2) || (VOICE_MEMO)
149
150 typedef struct
151 {
152 UINT8 *p_start_pointer;
153 UINT8 *p_stop_pointer;
154 UINT16 size;
155 } T_AUDIO_FFS_BUFFER_INFO;
156
157 typedef struct
158 {
159 /* validity of the session: */
160 /* 0: this session isn't started */
161 /* 1: this session is running */
162 BOOLEAN valid_channel;
163 /* file descriptor */
164 T_FFS_FD audio_ffs_fd;
165 /*initial size requested before to start the L1 */
166 UINT16 size;
167 /* loop mode is used or not during this session */
168 BOOLEAN loop_mode;
169 /* mode of the session: */
170 /* 0: FLASH to RAM download */
171 /* 1: RAM to FLASH download */
172 BOOLEAN session_mode;
173 UINT8 session_id;
174 } T_AUDIO_FFS_SESSION_REQ;
175
176 typedef struct
177 {
178 /* index of the next buffer will be used by the L1 */
179 UINT8 index_l1;
180 /* index of the current buffer used by the FFS */
181 UINT8 index_ffs;
182 T_AUDIO_FFS_BUFFER_INFO buffer[AUDIO_MAX_FFS_BUFFER_PER_SESSION];
183 /* state of the cust_get_pointer function */
184 UINT8 cust_get_pointer_state;
185 } T_AUDIO_FFS_SESSION_INFO;
186
187 typedef struct
188 {
189 /* Request of the current session */
190 T_AUDIO_FFS_SESSION_REQ session_req;
191 /* information of the current session */
192 T_AUDIO_FFS_SESSION_INFO session_info;
193 } T_AUDIO_FFS_SESSION;
194 #endif
195
196 #if (AUDIO_MEM_MANAGER)
197 typedef struct
198 {
199 // file or RAM buffer descriptor
200 #if (AUDIO_NEW_FFS_MANAGER)
201 T_FFS_FD audio_ffs_fd;
202 #endif
203 #if (AUDIO_RAM_MANAGER)
204 UINT8 *audio_ram_fd;
205 UINT16 audio_ram_size;
206 #endif
207
208 // size of temporary RAM buffers (8-bit unit)
209 UINT16 size;
210
211 // session_id and channel_id to identify feature
212 UINT8 session_id;
213 UINT8 channel_id;
214 } T_AUDIO_MEM_SESSION_REQ;
215
216 typedef struct
217 {
218 UINT8 state; // state machine
219 UINT8 size_left; // sample split between 2 RAM buffers
220 UINT8 previous_type; // last sample type processed
221 UINT32 recorded_size; /* voice memo recorded size */
222 BOOL stop_req_allowed;// TRUE first then FALSE
223 } T_AUDIO_MEM_SESSION_INFO;
224
225 typedef struct
226 {
227 /* Request of the current session */
228 T_AUDIO_MEM_SESSION_REQ session_req;
229 /* information of the current session */
230 T_AUDIO_MEM_SESSION_INFO session_info;
231 } T_AUDIO_MEM_SESSION;
232 #endif
233
234 #if (MELODY_E1) || (MELODY_E2) || (VOICE_MEMO)
235
236 typedef struct
237 {
238 UINT8 *p_start_pointer;
239 UINT16 size;
240 } T_AUDIO_DRIVER_BUFFER_INFO;
241
242 typedef struct
243 {
244 UINT16 size; // initial size requested before to start the L1
245 UINT8 nb_buffer; // nb buffer
246 UINT8 session_id;
247 void *p_l1_send_message; /* address to the message to send to the L1 */
248 T_RV_RETURN return_path;
249 } T_AUDIO_DRIVER_SESSION_REQ;
250
251 typedef struct
252 {
253 UINT8 index_l1; // index of the next buffer will be used by the L1
254 UINT8 index_appli; // index of the current buffer used by the FFS
255
256 T_AUDIO_DRIVER_BUFFER_INFO *buffer; // pointers on temporary RAM buffers
257
258 UINT8 state;
259 UINT8 play_api_state;// only play
260 UINT8 stop_request;// 0 first then 1 when stop request
261 } T_AUDIO_DRIVER_SESSION_INFO;
262
263 typedef struct
264 {
265 /* Request of the current session */
266 T_AUDIO_DRIVER_SESSION_REQ session_req;
267 /* information of the current session */
268 T_AUDIO_DRIVER_SESSION_INFO session_info;
269 } T_AUDIO_DRIVER_SESSION;
270 #endif
271
272 #if (SPEECH_RECO)
273 typedef struct
274 {
275 /* enroll speech reco state */
276 UINT8 state;
277 /* voice sample file descriptor */
278 T_FFS_FD voice_ffs_fd;
279 /* speech reco sample file descriptor */
280 T_FFS_FD sr_ffs_fd;
281 /* task_id */
282 UINT16 task_id;
283 /* Speech buffer address */
284 void *p_speech_address;
285 /* return path of the function that previously start the sppeech reco */
286 T_RV_RETURN return_path;
287 } T_AUDIO_SR_ENROLL_VAR;
288
289 typedef struct
290 {
291 /* update speech reco state */
292 UINT8 state;
293 /* task_id */
294 UINT16 task_id;
295 /* Speech buffer address */
296 void *p_speech_address;
297 /* Temporary model buffer address */
298 void *p_model_address;
299 /* vocabulary size */
300 UINT8 vocabulary_size;
301 /* model index to update */
302 UINT8 model_index;
303 /* flag to mention if the speech must be recorded */
304 BOOL record_speech;
305 /* return path of the function that previously start the sppeech reco */
306 T_RV_RETURN return_path;
307 /* pointer to the vocabulary database */
308 void *p_database;
309 } T_AUDIO_SR_UPDATE_VAR;
310
311 typedef struct
312 {
313 /* update speech reco state */
314 UINT8 state;
315 /* task_id */
316 UINT16 task_id;
317 /* vocabulary size */
318 UINT8 vocabulary_size;
319 /* return path of the function that previously start the sppeech reco */
320 T_RV_RETURN return_path;
321 /* pointer to the vocabulary database */
322 void *p_database;
323 } T_AUDIO_SR_RECO_VAR;
324
325 typedef struct
326 {
327 /* speech reco enroll variables */
328 T_AUDIO_SR_ENROLL_VAR sr_enroll;
329 T_AUDIO_SR_UPDATE_VAR sr_update;
330 T_AUDIO_SR_RECO_VAR sr_reco;
331 } T_AUDIO_SPEECH_RECO_VAR;
332 #endif
333
334 #if (L1_MIDI==1)
335 typedef struct
336 {
337 UINT8 state; // midi state
338 T_RV_RETURN return_path; // return path of the function that previously started midi
339 UINT8 channel_id;
340 UINT16 size;
341 T_FFS_FD ffs_fd;
342 BOOL stop_req_allowed;
343 #ifdef _WINDOWS
344 UINT8 l1_state;
345 INT16 counter;
346 #endif
347 } T_AUDIO_MIDI_VAR;
348 #endif
349
350
351 /* audio configuration variable */
352 typedef struct
353 {
354 /* full access write state */
355 UINT8 state;
356 /* Number of message to receive */
357 UINT8 number_of_message;
358 /* address to the data buffer */
359 void *buffer;
360 /* flag to know if the data buffer need to be deallocate or not */
361 BOOLEAN deallocate_buffer;
362 /* return path of the function that previously start the full access write */
363 T_RV_RETURN return_path;
364 }
365 T_AUDIO_FULL_ACCESS_WRITE_VAR;
366
367 typedef struct
368 {
369 /* state of the audio mode load state machine */
370 UINT8 state;
371 /* Number of message to receive */
372 UINT8 number_of_message;
373 /* pointer to the RAM buffer */
374 T_AUDIO_MODE *p_audio_mode;
375 /* return path */
376 T_RV_RETURN return_path;
377 }
378 T_AUDIO_MODE_LOAD_VAR;
379
380 typedef struct
381 {
382 char audio_volume_path_name[AUDIO_PATH_NAME_MAX_SIZE];
383 }
384 T_AUDIO_VOLUME_VAR;
385
386 typedef struct
387 {
388 T_AUDIO_FULL_ACCESS_WRITE_VAR full_access_write_var;
389 T_AUDIO_MODE_LOAD_VAR audio_mode_load_var;
390 T_AUDIO_VOLUME_VAR audio_volume_var;
391 } T_AUDIO_MODE_VAR;
392
393 typedef struct
394 {
395 T_RVF_ADDR_ID addrId; /* AUDIO address ID. */
396 T_RVF_ADDR_ID audio_ffs_addrId; /* AUDIO FFS manager address ID. */
397
398 T_RVF_MB_ID mb_internal; /* AUDIO internal memory bank. */
399 T_RVF_MB_ID mb_external; /* AUDIO external memory bank. */
400 T_RVF_MB_ID mb_audio_ffs; /* AUDIO FFS memory bank */
401 T_RVM_RETURN (*callBackFct) (T_RVM_NAME SWEntName,
402 T_RVM_RETURN errorCause,
403 T_RVM_ERROR_TYPE errorType,
404 T_RVM_STRING errorMsg);
405
406 BOOLEAN message_processed;
407
408 #if (KEYBEEP)
409 /* Keybeep global variable */
410 T_AUDIO_KEYBEEP_VAR keybeep;
411 #endif
412 #if (TONE)
413 /* Tones global variable */
414 T_AUDIO_TONES_VAR tones;
415 #endif
416 #if (MELODY_E1)
417 /* Melody_E1 global variable */
418 BOOLEAN melody_E1_mode;
419 T_AUDIO_MELODY_E1_VAR melody_E1_0;
420 T_AUDIO_MELODY_E1_VAR melody_E1_1;
421 #endif
422 #if (MELODY_E2)
423 /* Melody_E2 global variable */
424 BOOLEAN melody_E2_mode;
425 T_AUDIO_MELODY_E2_VAR melody_E2_0;
426 T_AUDIO_MELODY_E2_VAR melody_E2_1;
427 T_AUDIO_MELODY_E2_LOAD_FILE_VAR melody_E2_load_file_instruments;
428 #endif
429 #if (VOICE_MEMO)
430 /* Voice Memo global variable */
431 T_AUDIO_VOICE_MEMO_PLAY_VAR vm_play;
432 T_AUDIO_VOICE_MEMO_RECORD_VAR vm_record;
433 #endif
434 #if (L1_VOICE_MEMO_AMR)
435 /* Voice Memo global variable */
436 T_AUDIO_VOICE_MEMO_AMR_RECORD_TO_MEM_VAR audio_vm_amr_record;
437 T_AUDIO_VOICE_MEMO_AMR_PLAY_FROM_MEM_VAR audio_vm_amr_play;
438 #endif
439 #if (SPEECH_RECO)
440 /* Speech reco global variable */
441 T_AUDIO_SPEECH_RECO_VAR speech_reco;
442 #endif
443
444 #if (L1_MIDI==1)
445 // Midi global variable
446 T_AUDIO_MIDI_VAR midi;
447 #endif
448
449 /* audio mode variable */
450 T_AUDIO_MODE_VAR audio_mode_var;
451
452 #if (MELODY_E1) ||(MELODY_E2) || (VOICE_MEMO)
453 /* Audio FFS global variable */
454 T_AUDIO_FFS_SESSION audio_ffs_session[AUDIO_FFS_MAX_CHANNEL];
455 #endif
456 #if (AUDIO_MEM_MANAGER)
457 T_AUDIO_MEM_SESSION audio_mem_session[AUDIO_MEM_MAX_CHANNEL];
458 #endif
459 #if (MELODY_E1) ||(MELODY_E2) || (VOICE_MEMO) || (L1_VOICE_MEMO_AMR)
460 /* Audio FFS global variable */
461 T_AUDIO_DRIVER_SESSION audio_driver_session[AUDIO_DRIVER_MAX_CHANNEL];
462 #endif
463 }
464 T_AUDIO_ENV_CTRL_BLK;
465
466 #ifdef __cplusplus
467 }
468 #endif
469 #endif /* _AUDIO_STRUCTS_I_ */
470 #endif /* #ifdef RVM_AUDIO_MAIN_SWE */