audio_hw.c revision 8637747fab82a99325aae69755646e96fe2e62a5
1/* 2 * Copyright (C) 2013 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17#define LOG_TAG "audio_hw_primary" 18/*#define LOG_NDEBUG 0*/ 19 20#include <errno.h> 21#include <pthread.h> 22#include <stdint.h> 23#include <sys/time.h> 24#include <stdlib.h> 25#include <dlfcn.h> 26#include <math.h> 27 28#include <cutils/log.h> 29#include <cutils/str_parms.h> 30#include <cutils/properties.h> 31 32#include "audio_hw.h" 33 34#define LIB_ACDB_LOADER "/system/lib/libacdbloader.so" 35#define LIB_CSD_CLIENT "/system/lib/libcsd-client.so" 36#define MIXER_XML_PATH "/system/etc/mixer_paths.xml" 37#define MIXER_CARD 0 38 39#define STRING_TO_ENUM(string) { #string, string } 40 41/* Flags used to initialize acdb_settings variable that goes to ACDB library */ 42#define DMIC_FLAG 0x00000002 43#define TTY_MODE_OFF 0x00000010 44#define TTY_MODE_FULL 0x00000020 45#define TTY_MODE_VCO 0x00000040 46#define TTY_MODE_HCO 0x00000080 47#define TTY_MODE_CLEAR 0xFFFFFF0F 48 49struct string_to_enum { 50 const char *name; 51 uint32_t value; 52}; 53 54static const struct string_to_enum out_channels_name_to_enum_table[] = { 55 STRING_TO_ENUM(AUDIO_CHANNEL_OUT_STEREO), 56 STRING_TO_ENUM(AUDIO_CHANNEL_OUT_5POINT1), 57 STRING_TO_ENUM(AUDIO_CHANNEL_OUT_7POINT1), 58}; 59 60static const char * const use_case_table[AUDIO_USECASE_MAX] = { 61 [USECASE_AUDIO_PLAYBACK_DEEP_BUFFER] = "deep-buffer-playback", 62 [USECASE_AUDIO_PLAYBACK_LOW_LATENCY] = "low-latency-playback", 63 [USECASE_AUDIO_PLAYBACK_MULTI_CH] = "multi-channel-playback", 64 [USECASE_AUDIO_RECORD] = "audio-record", 65 [USECASE_AUDIO_RECORD_LOW_LATENCY] = "low-latency-record", 66 [USECASE_VOICE_CALL] = "voice-call", 67}; 68 69static const int pcm_device_table[AUDIO_USECASE_MAX][2] = { 70 [USECASE_AUDIO_PLAYBACK_DEEP_BUFFER] = {0, 0}, 71 [USECASE_AUDIO_PLAYBACK_LOW_LATENCY] = {14, 14}, 72 [USECASE_AUDIO_PLAYBACK_MULTI_CH] = {1, 1}, 73 [USECASE_AUDIO_RECORD] = {0, 0}, 74 [USECASE_AUDIO_RECORD_LOW_LATENCY] = {14, 14}, 75 [USECASE_VOICE_CALL] = {12, 12}, 76}; 77 78/* Array to store sound devices */ 79static const char * const device_table[SND_DEVICE_ALL] = { 80 /* Playback sound devices */ 81 [SND_DEVICE_OUT_HANDSET] = "handset", 82 [SND_DEVICE_OUT_SPEAKER] = "speaker", 83 [SND_DEVICE_OUT_HEADPHONES] = "headphones", 84 [SND_DEVICE_OUT_SPEAKER_AND_HEADPHONES] = "speaker-and-headphones", 85 [SND_DEVICE_OUT_VOICE_SPEAKER] = "voice-speaker", 86 [SND_DEVICE_OUT_VOICE_HEADPHONES] = "voice-headphones", 87 [SND_DEVICE_OUT_HDMI] = "hdmi", 88 [SND_DEVICE_OUT_SPEAKER_AND_HDMI] = "speaker-and-hdmi", 89 [SND_DEVICE_OUT_BT_SCO] = "bt-sco-headset", 90 [SND_DEVICE_OUT_VOICE_HANDSET_TMUS] = "voice-handset-tmus", 91 [SND_DEVICE_OUT_VOICE_TTY_FULL_HEADPHONES] = "voice-tty-full-headphones", 92 [SND_DEVICE_OUT_VOICE_TTY_VCO_HEADPHONES] = "voice-tty-vco-headphones", 93 [SND_DEVICE_OUT_VOICE_TTY_HCO_HANDSET] = "voice-tty-hco-handset", 94 95 /* Capture sound devices */ 96 [SND_DEVICE_IN_HANDSET_MIC] = "handset-mic", 97 [SND_DEVICE_IN_SPEAKER_MIC] = "speaker-mic", 98 [SND_DEVICE_IN_HEADSET_MIC] = "headset-mic", 99 [SND_DEVICE_IN_VOICE_SPEAKER_MIC] = "voice-speaker-mic", 100 [SND_DEVICE_IN_VOICE_HEADSET_MIC] = "voice-headset-mic", 101 [SND_DEVICE_IN_HDMI_MIC] = "hdmi-mic", 102 [SND_DEVICE_IN_BT_SCO_MIC] = "bt-sco-mic", 103 [SND_DEVICE_IN_CAMCORDER_MIC] = "camcorder-mic", 104 [SND_DEVICE_IN_VOICE_DMIC_EF] = "voice-dmic-ef", 105 [SND_DEVICE_IN_VOICE_DMIC_BS] = "voice-dmic-bs", 106 [SND_DEVICE_IN_VOICE_DMIC_EF_TMUS] = "voice-dmic-ef-tmus", 107 [SND_DEVICE_IN_VOICE_SPEAKER_DMIC_EF] = "voice-speaker-dmic-ef", 108 [SND_DEVICE_IN_VOICE_SPEAKER_DMIC_BS] = "voice-speaker-dmic-bs", 109 [SND_DEVICE_IN_VOICE_TTY_FULL_HEADSET_MIC] = "voice-tty-full-headset-mic", 110 [SND_DEVICE_IN_VOICE_TTY_VCO_HANDSET_MIC] = "voice-tty-vco-handset-mic", 111 [SND_DEVICE_IN_VOICE_TTY_HCO_HEADSET_MIC] = "voice-tty-hco-headset-mic", 112 [SND_DEVICE_IN_VOICE_REC_MIC] = "voice-rec-mic", 113 [SND_DEVICE_IN_VOICE_REC_DMIC_EF] = "voice-rec-dmic-ef", 114 [SND_DEVICE_IN_VOICE_REC_DMIC_BS] = "voice-rec-dmic-bs", 115 [SND_DEVICE_IN_VOICE_REC_DMIC_EF_FLUENCE] = "voice-rec-dmic-ef-fluence", 116 [SND_DEVICE_IN_VOICE_REC_DMIC_BS_FLUENCE] = "voice-rec-dmic-bs-fluence", 117}; 118 119/* ACDB IDs (audio DSP path configuration IDs) for each sound device */ 120static const int acdb_device_table[SND_DEVICE_ALL] = { 121 [SND_DEVICE_OUT_HANDSET] = 7, 122 [SND_DEVICE_OUT_SPEAKER] = 14, 123 [SND_DEVICE_OUT_HEADPHONES] = 10, 124 [SND_DEVICE_OUT_SPEAKER_AND_HEADPHONES] = 10, 125 [SND_DEVICE_OUT_VOICE_SPEAKER] = 14, 126 [SND_DEVICE_OUT_VOICE_HEADPHONES] = 10, 127 [SND_DEVICE_OUT_HDMI] = 18, 128 [SND_DEVICE_OUT_SPEAKER_AND_HDMI] = 14, 129 [SND_DEVICE_OUT_BT_SCO] = 22, 130 [SND_DEVICE_OUT_VOICE_HANDSET_TMUS] = 81, 131 [SND_DEVICE_OUT_VOICE_TTY_FULL_HEADPHONES] = 17, 132 [SND_DEVICE_OUT_VOICE_TTY_VCO_HEADPHONES] = 17, 133 [SND_DEVICE_OUT_VOICE_TTY_HCO_HANDSET] = 37, 134 135 [SND_DEVICE_IN_HANDSET_MIC] = 4, 136 [SND_DEVICE_IN_SPEAKER_MIC] = 4, 137 [SND_DEVICE_IN_HEADSET_MIC] = 8, 138 [SND_DEVICE_IN_VOICE_SPEAKER_MIC] = 11, 139 [SND_DEVICE_IN_VOICE_HEADSET_MIC] = 8, 140 [SND_DEVICE_IN_HDMI_MIC] = 4, 141 [SND_DEVICE_IN_BT_SCO_MIC] = 21, 142 [SND_DEVICE_IN_CAMCORDER_MIC] = 61, 143 [SND_DEVICE_IN_VOICE_DMIC_EF] = 6, 144 [SND_DEVICE_IN_VOICE_DMIC_BS] = 5, 145 [SND_DEVICE_IN_VOICE_DMIC_EF_TMUS] = 91, 146 [SND_DEVICE_IN_VOICE_SPEAKER_DMIC_EF] = 13, 147 [SND_DEVICE_IN_VOICE_SPEAKER_DMIC_BS] = 12, 148 [SND_DEVICE_IN_VOICE_TTY_FULL_HEADSET_MIC] = 16, 149 [SND_DEVICE_IN_VOICE_TTY_VCO_HANDSET_MIC] = 36, 150 [SND_DEVICE_IN_VOICE_TTY_HCO_HEADSET_MIC] = 16, 151 [SND_DEVICE_IN_VOICE_REC_MIC] = 62, 152 [SND_DEVICE_IN_VOICE_REC_DMIC_EF] = 62, 153 [SND_DEVICE_IN_VOICE_REC_DMIC_BS] = 62, 154 [SND_DEVICE_IN_VOICE_REC_DMIC_EF_FLUENCE] = 62, 155 [SND_DEVICE_IN_VOICE_REC_DMIC_BS_FLUENCE] = 62, 156}; 157 158int edid_get_max_channels(void); 159 160static int get_pcm_device_id(struct audio_route *ar, 161 audio_usecase_t usecase, 162 int device_type) 163{ 164 ALOGV("%s: enter: usecase(%d)", __func__, usecase); 165 int device_id; 166 if (device_type == PCM_PLAYBACK) 167 device_id = pcm_device_table[usecase][0]; 168 else 169 device_id = pcm_device_table[usecase][1]; 170 ALOGV("%s: exit: device_id(%d)", __func__, device_id); 171 return device_id; 172} 173 174static int get_acdb_device_id(snd_device_t snd_device) 175{ 176 ALOGV("%s: enter: snd_devie(%d)", __func__, snd_device); 177 int acdb_dev_id = acdb_device_table[snd_device]; 178 ALOGV("%s: exit: acdb_dev_id(%d)", __func__, acdb_dev_id); 179 return acdb_dev_id; 180} 181 182static void add_backend_name(char *mixer_path, 183 snd_device_t snd_device) 184{ 185 if (snd_device == SND_DEVICE_OUT_HDMI || 186 snd_device == SND_DEVICE_IN_HDMI_MIC) 187 strcat(mixer_path, " hdmi"); 188 else if(snd_device == SND_DEVICE_OUT_BT_SCO || 189 snd_device == SND_DEVICE_IN_BT_SCO_MIC) 190 strcat(mixer_path, " bt-sco"); 191 else if (snd_device == SND_DEVICE_OUT_SPEAKER_AND_HDMI) 192 strcat(mixer_path, " speaker-and-hdmi"); 193} 194 195static int enable_audio_route(struct audio_route *ar, 196 audio_usecase_t usecase, 197 snd_device_t snd_device) 198{ 199 ALOGV("%s: enter: usecase(%d) snd_device(%d)", 200 __func__, usecase, snd_device); 201 char mixer_path[50]; 202 strcpy(mixer_path, use_case_table[usecase]); 203 add_backend_name(mixer_path, snd_device); 204 audio_route_apply_path(ar, mixer_path); 205 ALOGV("%s: exit", __func__); 206 return 0; 207} 208 209static int disable_audio_route(struct audio_route *ar, 210 audio_usecase_t usecase, 211 snd_device_t snd_device) 212{ 213 ALOGV("%s: enter: usecase(%d) snd_device(%d)", 214 __func__, usecase, snd_device); 215 char mixer_path[50]; 216 strcpy(mixer_path, use_case_table[usecase]); 217 add_backend_name(mixer_path, snd_device); 218 audio_route_reset_path(ar, mixer_path); 219 ALOGV("%s: exit", __func__); 220 return 0; 221} 222 223static int enable_snd_device(struct audio_device *adev, 224 snd_device_t snd_device) 225{ 226 int acdb_dev_id, acdb_dev_type; 227 228 ALOGV("%s: enter: snd_device(%d)", __func__, snd_device); 229 acdb_dev_id = get_acdb_device_id(snd_device); 230 if (acdb_dev_id < 0) { 231 ALOGE("%s: Could not find acdb id for device(%d)", 232 __func__, snd_device); 233 return -EINVAL; 234 } 235 if (snd_device >= SND_DEVICE_OUT_BEGIN && 236 snd_device < SND_DEVICE_OUT_END) { 237 acdb_dev_type = ACDB_DEV_TYPE_OUT; 238 } else { 239 acdb_dev_type = ACDB_DEV_TYPE_IN; 240 } 241 if (adev->acdb_send_audio_cal) { 242 ALOGV("%s: sending audio calibration for snd_device(%d) acdb_id(%d)", 243 __func__, snd_device, acdb_dev_id); 244 adev->acdb_send_audio_cal(acdb_dev_id, acdb_dev_type); 245 } else { 246 ALOGW("%s: Could find the symbol acdb_send_audio_cal from %s", 247 __func__, LIB_ACDB_LOADER); 248 } 249 250 audio_route_apply_path(adev->audio_route, device_table[snd_device]); 251 ALOGV("%s: exit", __func__); 252 return 0; 253} 254 255static int disable_snd_device(struct audio_route *ar, 256 snd_device_t snd_device) 257{ 258 ALOGV("%s: enter: snd_device(%d)", __func__, snd_device); 259 audio_route_reset_path(ar, device_table[snd_device]); 260 ALOGV("%s: exit", __func__); 261 return 0; 262} 263 264static int set_hdmi_channels(struct mixer *mixer, 265 int channel_count) 266{ 267 struct mixer_ctl *ctl; 268 const char *channel_cnt_str = NULL; 269 const char *mixer_ctl_name = "HDMI_RX Channels"; 270 switch (channel_count) { 271 case 8: 272 channel_cnt_str = "Eight"; break; 273 case 7: 274 channel_cnt_str = "Seven"; break; 275 case 6: 276 channel_cnt_str = "Six"; break; 277 case 5: 278 channel_cnt_str = "Five"; break; 279 case 4: 280 channel_cnt_str = "Four"; break; 281 case 3: 282 channel_cnt_str = "Three"; break; 283 default: 284 channel_cnt_str = "Two"; break; 285 } 286 ctl = mixer_get_ctl_by_name(mixer, mixer_ctl_name); 287 if (!ctl) { 288 ALOGE("%s: Could not get ctl for mixer cmd - %s", 289 __func__, mixer_ctl_name); 290 return -EINVAL; 291 } 292 ALOGV("HDMI channel count: %s", channel_cnt_str); 293 mixer_ctl_set_enum_by_string(ctl, channel_cnt_str); 294 return 0; 295} 296 297/* must be called with hw device mutex locked */ 298static void read_hdmi_channel_masks(struct stream_out *out) 299{ 300 int channels = edid_get_max_channels(); 301 ALOGE("%s: enter", __func__); 302 303 switch (channels) { 304 /* 305 * Do not handle stereo output in Multi-channel cases 306 * Stereo case is handled in normal playback path 307 */ 308 case 6: 309 ALOGV("%s: HDMI supports 5.1", __func__); 310 out->supported_channel_masks[0] = AUDIO_CHANNEL_OUT_5POINT1; 311 break; 312 case 8: 313 ALOGV("%s: HDMI supports 5.1 and 7.1 channels", __func__); 314 out->supported_channel_masks[0] = AUDIO_CHANNEL_OUT_5POINT1; 315 out->supported_channel_masks[1] = AUDIO_CHANNEL_OUT_7POINT1; 316 break; 317 default: 318 ALOGE("Unsupported number of channels (%d)", channels); 319 break; 320 } 321 322 ALOGE("%s: exit", __func__); 323} 324 325static snd_device_t get_output_snd_device(struct audio_device *adev) 326{ 327 audio_source_t source = (adev->active_input == NULL) ? 328 AUDIO_SOURCE_DEFAULT : adev->active_input->source; 329 audio_mode_t mode = adev->mode; 330 audio_devices_t devices = adev->out_device; 331 snd_device_t snd_device = SND_DEVICE_INVALID; 332 333 ALOGV("%s: enter: output devices(0x%x)", __func__, devices); 334 if (devices == AUDIO_DEVICE_NONE || 335 devices & AUDIO_DEVICE_BIT_IN) { 336 ALOGV("%s: Invalid output devices (0x%x)", __func__, devices); 337 goto exit; 338 } 339 340 if (mode == AUDIO_MODE_IN_CALL) { 341 if (devices & AUDIO_DEVICE_OUT_WIRED_HEADPHONE || 342 devices & AUDIO_DEVICE_OUT_WIRED_HEADSET) { 343 if (adev->tty_mode == TTY_MODE_FULL) 344 snd_device = SND_DEVICE_OUT_VOICE_TTY_FULL_HEADPHONES; 345 else if (adev->tty_mode == TTY_MODE_VCO) 346 snd_device = SND_DEVICE_OUT_VOICE_TTY_VCO_HEADPHONES; 347 else if (adev->tty_mode == TTY_MODE_HCO) 348 snd_device = SND_DEVICE_OUT_VOICE_TTY_HCO_HANDSET; 349 else 350 snd_device = SND_DEVICE_OUT_VOICE_HEADPHONES; 351 } else if (devices & AUDIO_DEVICE_OUT_ALL_SCO) { 352 snd_device = SND_DEVICE_OUT_BT_SCO; 353 } else if (devices & AUDIO_DEVICE_OUT_SPEAKER) { 354 snd_device = SND_DEVICE_OUT_VOICE_SPEAKER; 355 } else if (devices & AUDIO_DEVICE_OUT_EARPIECE) { 356 if (adev->is_tmus) 357 snd_device = SND_DEVICE_OUT_VOICE_HANDSET_TMUS; 358 else 359 snd_device = SND_DEVICE_OUT_HANDSET; 360 } 361 if (snd_device != SND_DEVICE_INVALID) { 362 goto exit; 363 } 364 } 365 366 if (popcount(devices) == 2) { 367 if (devices == (AUDIO_DEVICE_OUT_WIRED_HEADPHONE | 368 AUDIO_DEVICE_OUT_SPEAKER)) { 369 snd_device = SND_DEVICE_OUT_SPEAKER_AND_HEADPHONES; 370 } else if (devices == (AUDIO_DEVICE_OUT_WIRED_HEADSET | 371 AUDIO_DEVICE_OUT_SPEAKER)) { 372 snd_device = SND_DEVICE_OUT_SPEAKER_AND_HEADPHONES; 373 } else if (devices == (AUDIO_DEVICE_OUT_WIRED_HEADSET | 374 AUDIO_DEVICE_OUT_WIRED_HEADPHONE)) { 375 snd_device = SND_DEVICE_OUT_HEADPHONES; 376 } else if (devices == (AUDIO_DEVICE_OUT_AUX_DIGITAL | 377 AUDIO_DEVICE_OUT_SPEAKER)) { 378 snd_device = SND_DEVICE_OUT_SPEAKER_AND_HDMI; 379 } else { 380 ALOGE("%s: Invalid combo device(0x%x)", __func__, devices); 381 goto exit; 382 } 383 if (snd_device != SND_DEVICE_INVALID) { 384 goto exit; 385 } 386 } 387 388 if (popcount(devices) == 3) { 389 if (devices == (AUDIO_DEVICE_OUT_WIRED_HEADPHONE | 390 AUDIO_DEVICE_OUT_WIRED_HEADSET | 391 AUDIO_DEVICE_OUT_SPEAKER)) { 392 snd_device = SND_DEVICE_OUT_SPEAKER_AND_HEADPHONES; 393 } else { 394 ALOGE("%s: Invalid combo device(0x%x)", __func__, devices); 395 } 396 goto exit; 397 } 398 399 if (popcount(devices) != 1) { 400 ALOGE("%s: Invalid output devices(0x%x)", __func__, devices); 401 goto exit; 402 } 403 404 if (devices & AUDIO_DEVICE_OUT_WIRED_HEADPHONE || 405 devices & AUDIO_DEVICE_OUT_WIRED_HEADSET) { 406 snd_device = SND_DEVICE_OUT_HEADPHONES; 407 } else if (devices & AUDIO_DEVICE_OUT_SPEAKER) { 408 snd_device = SND_DEVICE_OUT_SPEAKER; 409 } else if (devices & AUDIO_DEVICE_OUT_ALL_SCO) { 410 snd_device = SND_DEVICE_OUT_BT_SCO; 411 } else if (devices & AUDIO_DEVICE_OUT_AUX_DIGITAL) { 412 snd_device = SND_DEVICE_OUT_HDMI ; 413 } else if (devices & AUDIO_DEVICE_OUT_EARPIECE) { 414 snd_device = SND_DEVICE_OUT_HANDSET; 415 } else { 416 ALOGE("%s: Unknown device(s) 0x%x", __func__, devices); 417 } 418exit: 419 ALOGV("%s: exit: snd_device(%s)", __func__, 420 (snd_device == SND_DEVICE_INVALID) ? 421 "none" : device_table[snd_device]); 422 return snd_device; 423} 424 425static snd_device_t get_input_snd_device(struct audio_device *adev) 426{ 427 audio_source_t source = (adev->active_input == NULL) ? 428 AUDIO_SOURCE_DEFAULT : adev->active_input->source; 429 430 audio_mode_t mode = adev->mode; 431 audio_devices_t out_device = adev->out_device; 432 audio_devices_t in_device = ((adev->active_input == NULL) ? 433 AUDIO_DEVICE_NONE : adev->active_input->device) 434 & ~AUDIO_DEVICE_BIT_IN; 435 audio_channel_mask_t channel_mask = (adev->active_input == NULL) ? 436 AUDIO_CHANNEL_IN_MONO : adev->active_input->channel_mask; 437 snd_device_t snd_device = SND_DEVICE_INVALID; 438 439 ALOGV("%s: enter: out_device(0x%x) in_device(0x%x)", 440 __func__, out_device, in_device); 441 if (mode == AUDIO_MODE_IN_CALL) { 442 if (out_device == AUDIO_DEVICE_NONE) { 443 ALOGE("%s: No output device set for voice call", __func__); 444 goto exit; 445 } 446 if (adev->tty_mode != TTY_MODE_OFF) { 447 if (out_device & AUDIO_DEVICE_OUT_WIRED_HEADPHONE || 448 out_device & AUDIO_DEVICE_OUT_WIRED_HEADSET) { 449 switch (adev->tty_mode) { 450 case TTY_MODE_FULL: 451 snd_device = SND_DEVICE_IN_VOICE_TTY_FULL_HEADSET_MIC; 452 break; 453 case TTY_MODE_VCO: 454 snd_device = SND_DEVICE_IN_VOICE_TTY_VCO_HANDSET_MIC; 455 break; 456 case TTY_MODE_HCO: 457 snd_device = SND_DEVICE_IN_VOICE_TTY_HCO_HEADSET_MIC; 458 break; 459 default: 460 ALOGE("%s: Invalid TTY mode (0x%x)", __func__, adev->tty_mode); 461 } 462 goto exit; 463 } 464 } 465 if (out_device & AUDIO_DEVICE_OUT_EARPIECE || 466 out_device & AUDIO_DEVICE_OUT_WIRED_HEADPHONE) { 467 if (adev->mic_type_analog || adev->fluence_in_voice_call == false) { 468 snd_device = SND_DEVICE_IN_HANDSET_MIC; 469 } else { 470 if (adev->dualmic_config == DUALMIC_CONFIG_ENDFIRE) { 471 if (adev->is_tmus) 472 snd_device = SND_DEVICE_IN_VOICE_DMIC_EF_TMUS; 473 else 474 snd_device = SND_DEVICE_IN_VOICE_DMIC_EF; 475 } else if(adev->dualmic_config == DUALMIC_CONFIG_BROADSIDE) 476 snd_device = SND_DEVICE_IN_VOICE_DMIC_BS; 477 else 478 snd_device = SND_DEVICE_IN_HANDSET_MIC; 479 } 480 } else if (out_device & AUDIO_DEVICE_OUT_WIRED_HEADSET) { 481 snd_device = SND_DEVICE_IN_VOICE_HEADSET_MIC; 482 } else if (out_device & AUDIO_DEVICE_OUT_ALL_SCO) { 483 snd_device = SND_DEVICE_IN_BT_SCO_MIC ; 484 } else if (out_device & AUDIO_DEVICE_OUT_SPEAKER) { 485 if (adev->fluence_in_voice_call && 486 adev->dualmic_config == DUALMIC_CONFIG_ENDFIRE) { 487 snd_device = SND_DEVICE_IN_VOICE_SPEAKER_DMIC_EF; 488 } else if (adev->fluence_in_voice_call && 489 adev->dualmic_config == DUALMIC_CONFIG_BROADSIDE) { 490 snd_device = SND_DEVICE_IN_VOICE_SPEAKER_DMIC_BS; 491 } else { 492 snd_device = SND_DEVICE_IN_VOICE_SPEAKER_MIC; 493 } 494 } 495 } else if (source == AUDIO_SOURCE_CAMCORDER) { 496 if (in_device & AUDIO_DEVICE_IN_BUILTIN_MIC || 497 in_device & AUDIO_DEVICE_IN_BACK_MIC) { 498 snd_device = SND_DEVICE_IN_CAMCORDER_MIC; 499 } 500 } else if (source == AUDIO_SOURCE_VOICE_RECOGNITION) { 501 if (in_device & AUDIO_DEVICE_IN_BUILTIN_MIC) { 502 if (adev->dualmic_config == DUALMIC_CONFIG_ENDFIRE) { 503 if (channel_mask == AUDIO_CHANNEL_IN_FRONT_BACK) 504 snd_device = SND_DEVICE_IN_VOICE_REC_DMIC_EF; 505 else if (adev->fluence_in_voice_rec) 506 snd_device = SND_DEVICE_IN_VOICE_REC_DMIC_EF_FLUENCE; 507 else 508 snd_device = SND_DEVICE_IN_VOICE_REC_MIC; 509 } else if (adev->dualmic_config == DUALMIC_CONFIG_BROADSIDE) { 510 if (channel_mask == AUDIO_CHANNEL_IN_FRONT_BACK) 511 snd_device = SND_DEVICE_IN_VOICE_REC_DMIC_BS; 512 else if (adev->fluence_in_voice_rec) 513 snd_device = SND_DEVICE_IN_VOICE_REC_DMIC_BS_FLUENCE; 514 else 515 snd_device = SND_DEVICE_IN_VOICE_REC_MIC; 516 } else 517 snd_device = SND_DEVICE_IN_VOICE_REC_MIC; 518 } 519 } else if (source == AUDIO_SOURCE_VOICE_COMMUNICATION) { 520 if (out_device & AUDIO_DEVICE_OUT_SPEAKER) 521 in_device = AUDIO_DEVICE_IN_BACK_MIC; 522 } else if (source == AUDIO_SOURCE_DEFAULT) { 523 goto exit; 524 } 525 526 if (snd_device != SND_DEVICE_INVALID) { 527 goto exit; 528 } 529 530 if (in_device != AUDIO_DEVICE_NONE && 531 !(in_device & AUDIO_DEVICE_IN_VOICE_CALL) && 532 !(in_device & AUDIO_DEVICE_IN_COMMUNICATION)) { 533 if (in_device & AUDIO_DEVICE_IN_BUILTIN_MIC) { 534 snd_device = SND_DEVICE_IN_HANDSET_MIC; 535 } else if (in_device & AUDIO_DEVICE_IN_BACK_MIC) { 536 if (adev->mic_type_analog) 537 snd_device = SND_DEVICE_IN_HANDSET_MIC; 538 else 539 snd_device = SND_DEVICE_IN_SPEAKER_MIC; 540 } else if (in_device & AUDIO_DEVICE_IN_WIRED_HEADSET) { 541 snd_device = SND_DEVICE_IN_HEADSET_MIC; 542 } else if (in_device & AUDIO_DEVICE_IN_BLUETOOTH_SCO_HEADSET) { 543 snd_device = SND_DEVICE_IN_BT_SCO_MIC ; 544 } else if (in_device & AUDIO_DEVICE_IN_AUX_DIGITAL) { 545 snd_device = SND_DEVICE_IN_HDMI_MIC; 546 } else { 547 ALOGE("%s: Unknown input device(s) 0x%x", __func__, in_device); 548 ALOGW("%s: Using default handset-mic", __func__); 549 snd_device = SND_DEVICE_IN_HANDSET_MIC; 550 } 551 } else { 552 if (out_device & AUDIO_DEVICE_OUT_EARPIECE) { 553 snd_device = SND_DEVICE_IN_HANDSET_MIC; 554 } else if (out_device & AUDIO_DEVICE_OUT_WIRED_HEADSET) { 555 snd_device = SND_DEVICE_IN_HEADSET_MIC; 556 } else if (out_device & AUDIO_DEVICE_OUT_SPEAKER) { 557 snd_device = SND_DEVICE_IN_SPEAKER_MIC; 558 } else if (out_device & AUDIO_DEVICE_OUT_WIRED_HEADPHONE) { 559 snd_device = SND_DEVICE_IN_HANDSET_MIC; 560 } else if (out_device & AUDIO_DEVICE_OUT_BLUETOOTH_SCO_HEADSET) { 561 snd_device = SND_DEVICE_IN_BT_SCO_MIC; 562 } else if (out_device & AUDIO_DEVICE_OUT_AUX_DIGITAL) { 563 snd_device = SND_DEVICE_IN_HDMI_MIC; 564 } else { 565 ALOGE("%s: Unknown output device(s) 0x%x", __func__, out_device); 566 ALOGW("%s: Using default handset-mic", __func__); 567 snd_device = SND_DEVICE_IN_HANDSET_MIC; 568 } 569 } 570exit: 571 ALOGV("%s: exit: in_snd_device(%s)", __func__, 572 (snd_device == SND_DEVICE_INVALID) ? 573 "none" : device_table[snd_device]); 574 return snd_device; 575} 576 577static int select_devices(struct audio_device *adev) 578{ 579 snd_device_t out_snd_device = SND_DEVICE_INVALID; 580 snd_device_t in_snd_device = SND_DEVICE_INVALID; 581 struct audio_usecase *usecase; 582 int status = 0; 583 int acdb_rx_id, acdb_tx_id; 584 bool in_call_device_switch = false; 585 586 ALOGV("%s: enter", __func__); 587 out_snd_device = get_output_snd_device(adev); 588 in_snd_device = get_input_snd_device(adev); 589 590 if (out_snd_device == adev->cur_out_snd_device && adev->out_snd_device_active && 591 in_snd_device == adev->cur_in_snd_device && adev->in_snd_device_active) { 592 ALOGV("%s: exit: snd_devices (%d and %d) are already active", 593 __func__, out_snd_device, in_snd_device); 594 return 0; 595 } 596 597 /* 598 * Limitation: While in call, to do a device switch we need to disable 599 * and enable both RX and TX devices though one of them is same as current 600 * device. 601 */ 602 if (adev->mode == AUDIO_MODE_IN_CALL && 603 adev->csd_client != NULL && 604 out_snd_device != SND_DEVICE_INVALID && 605 in_snd_device != SND_DEVICE_INVALID && 606 adev->cur_out_snd_device != SND_DEVICE_INVALID && 607 adev->cur_in_snd_device != SND_DEVICE_INVALID) { 608 in_call_device_switch = true; 609 } 610 611 if (in_call_device_switch) { 612 /* This must be called before disabling the mixer controls on APQ side */ 613 if (adev->csd_disable_device == NULL) { 614 ALOGE("%s: dlsym error for csd_client_disable_device", 615 __func__); 616 } else { 617 status = adev->csd_disable_device(); 618 if (status < 0) { 619 ALOGE("%s: csd_client_disable_device, failed, error %d", 620 __func__, status); 621 } 622 } 623 } 624 625 if ((out_snd_device != adev->cur_out_snd_device || in_call_device_switch) 626 && adev->out_snd_device_active) { 627 usecase = &adev->usecase_list; 628 while (usecase->next != NULL) { 629 usecase = usecase->next; 630 if (usecase->type == PCM_PLAYBACK || usecase->type == VOICE_CALL) { 631 disable_audio_route(adev->audio_route, usecase->id, 632 adev->cur_out_snd_device); 633 } 634 } 635 audio_route_update_mixer(adev->audio_route); 636 /* Disable current rx device */ 637 disable_snd_device(adev->audio_route, adev->cur_out_snd_device); 638 adev->out_snd_device_active = false; 639 } 640 641 if ((in_snd_device != adev->cur_in_snd_device || in_call_device_switch) 642 && adev->in_snd_device_active) { 643 usecase = &adev->usecase_list; 644 while (usecase->next != NULL) { 645 usecase = usecase->next; 646 if (usecase->type == PCM_CAPTURE) { 647 disable_audio_route(adev->audio_route, usecase->id, 648 adev->cur_in_snd_device); 649 } 650 } 651 audio_route_update_mixer(adev->audio_route); 652 /* Disable current tx device */ 653 disable_snd_device(adev->audio_route, adev->cur_in_snd_device); 654 adev->in_snd_device_active = false; 655 } 656 657 if (out_snd_device != SND_DEVICE_INVALID && !adev->out_snd_device_active) { 658 /* Enable new rx device */ 659 status = enable_snd_device(adev, out_snd_device); 660 if (status != 0) { 661 ALOGE("%s: Failed to set mixer ctls for snd_device(%d)", 662 __func__, out_snd_device); 663 return status; 664 } 665 adev->out_snd_device_active = true; 666 adev->cur_out_snd_device = out_snd_device; 667 } 668 669 if (in_snd_device != SND_DEVICE_INVALID && !adev->in_snd_device_active) { 670 /* Enable new tx device */ 671 status = enable_snd_device(adev, in_snd_device); 672 if (status != 0) { 673 ALOGE("%s: Failed to set mixer ctls for snd_device(%d)", 674 __func__, out_snd_device); 675 return status; 676 } 677 adev->in_snd_device_active = true; 678 adev->cur_in_snd_device = in_snd_device; 679 } 680 audio_route_update_mixer(adev->audio_route); 681 682 usecase = &adev->usecase_list; 683 while (usecase->next != NULL) { 684 usecase = usecase->next; 685 if (usecase->type == PCM_PLAYBACK || usecase->type == VOICE_CALL) { 686 usecase->devices = adev->out_device; /* TODO: fix device logic */ 687 status = enable_audio_route(adev->audio_route, usecase->id, 688 adev->cur_out_snd_device); 689 } else { 690 status = enable_audio_route(adev->audio_route, usecase->id, 691 adev->cur_in_snd_device); 692 } 693 } 694 audio_route_update_mixer(adev->audio_route); 695 696 if (in_call_device_switch) { 697 if (adev->csd_enable_device == NULL) { 698 ALOGE("%s: dlsym error for csd_client_enable_device", 699 __func__); 700 } else { 701 acdb_rx_id = get_acdb_device_id(out_snd_device); 702 acdb_tx_id = get_acdb_device_id(in_snd_device); 703 704 /* ToDo: To make sure acdb_settings is updated properly based on TTY mode */ 705 status = adev->csd_enable_device(acdb_rx_id, acdb_tx_id, adev->acdb_settings); 706 if (status < 0) { 707 ALOGE("%s: csd_client_enable_device, failed, error %d", 708 __func__, status); 709 } 710 } 711 } 712 713 ALOGV("%s: exit: status(%d)", __func__, status); 714 return status; 715} 716 717static void add_usecase_to_list(struct audio_device *adev, 718 struct audio_usecase *uc_info) 719{ 720 struct audio_usecase *first_entry = adev->usecase_list.next; 721 ALOGV("%s: enter: usecase(%d)", __func__, uc_info->id); 722 /* Insert the new entry on the top of the list */ 723 adev->usecase_list.next = uc_info; 724 uc_info->next = first_entry; 725 ALOGV("%s: exit", __func__); 726} 727 728static void remove_usecase_from_list(struct audio_device *adev, 729 audio_usecase_t uc_id) 730{ 731 struct audio_usecase *uc_to_remove = NULL; 732 struct audio_usecase *list_head = &adev->usecase_list; 733 ALOGV("%s: enter: usecase(%d)", __func__, uc_id); 734 while (list_head->next != NULL) { 735 if (list_head->next->id == uc_id) { 736 uc_to_remove = list_head->next; 737 list_head->next = list_head->next->next; 738 free(uc_to_remove); 739 break; 740 } 741 list_head = list_head->next; 742 } 743 ALOGV("%s: exit", __func__); 744} 745 746static struct audio_usecase *get_usecase_from_list(struct audio_device *adev, 747 audio_usecase_t uc_id) 748{ 749 struct audio_usecase *uc_info = NULL; 750 struct audio_usecase *list_head = &adev->usecase_list; 751 ALOGV("%s: enter: uc_id(%d)", __func__, uc_id); 752 while (list_head->next != NULL) { 753 list_head = list_head->next; 754 if (list_head->id == uc_id) { 755 uc_info = list_head; 756 break; 757 } 758 } 759 ALOGV("%s: exit: uc_info(%p)", __func__, uc_info); 760 return uc_info; 761} 762 763static int get_num_active_usecases(struct audio_device *adev) 764{ 765 int num_uc = 0; 766 struct audio_usecase *list_head = &adev->usecase_list; 767 while (list_head->next != NULL) { 768 num_uc++; 769 list_head = list_head->next; 770 } 771 return num_uc; 772} 773 774static audio_devices_t get_active_out_devices(struct audio_device *adev, 775 audio_usecase_t usecase) 776{ 777 audio_devices_t devices = 0; 778 struct audio_usecase *list_head = &adev->usecase_list; 779 /* Return the output devices of usecases other than given usecase */ 780 while (list_head->next != NULL) { 781 list_head = list_head->next; 782 if (list_head->type == PCM_PLAYBACK && list_head->id != usecase) { 783 devices |= list_head->devices; 784 } 785 } 786 return devices; 787} 788 789static audio_devices_t get_voice_call_out_device(struct audio_device *adev) 790{ 791 audio_devices_t devices = 0; 792 struct audio_usecase *list_head = &adev->usecase_list; 793 /* Return the output devices of usecases other than given usecase */ 794 while (list_head->next != NULL) { 795 list_head = list_head->next; 796 if (list_head->id == USECASE_VOICE_CALL) { 797 devices = list_head->devices; 798 break; 799 } 800 } 801 return devices; 802} 803 804static int stop_input_stream(struct stream_in *in) 805{ 806 int i, ret = 0; 807 snd_device_t in_snd_device; 808 struct audio_usecase *uc_info; 809 struct audio_device *adev = in->dev; 810 811 adev->active_input = NULL; 812 813 ALOGV("%s: enter: usecase(%d)", __func__, in->usecase); 814 uc_info = get_usecase_from_list(adev, in->usecase); 815 if (uc_info == NULL) { 816 ALOGE("%s: Could not find the usecase (%d) in the list", 817 __func__, in->usecase); 818 return -EINVAL; 819 } 820 821 /* 1. Close the PCM device first */ 822 if (in->pcm) { 823 pcm_close(in->pcm); 824 in->pcm = NULL; 825 } 826 827 /* 2. Disable stream specific mixer controls */ 828 in_snd_device = adev->cur_in_snd_device; 829 disable_audio_route(adev->audio_route, in->usecase, in_snd_device); 830 audio_route_update_mixer(adev->audio_route); 831 832 remove_usecase_from_list(adev, in->usecase); 833 834 /* 3. Disable the tx device */ 835 select_devices(adev); 836 837 ALOGV("%s: exit: status(%d)", __func__, ret); 838 return ret; 839} 840 841int start_input_stream(struct stream_in *in) 842{ 843 /* 1. Enable output device and stream routing controls */ 844 int ret = 0; 845 snd_device_t in_snd_device; 846 struct audio_usecase *uc_info; 847 struct audio_device *adev = in->dev; 848 849 ALOGV("%s: enter: usecase(%d)", __func__, in->usecase); 850 adev->active_input = in; 851 in_snd_device = get_input_snd_device(adev); 852 if (in_snd_device == SND_DEVICE_INVALID) { 853 ALOGE("%s: Could not get valid input sound device", __func__); 854 ret = -EINVAL; 855 goto error_config; 856 } 857 858 in->pcm_device_id = get_pcm_device_id(adev->audio_route, 859 in->usecase, 860 PCM_CAPTURE); 861 if (in->pcm_device_id < 0) { 862 ALOGE("%s: Could not find PCM device id for the usecase(%d)", 863 __func__, in->usecase); 864 ret = -EINVAL; 865 goto error_config; 866 } 867 uc_info = (struct audio_usecase *)calloc(1, sizeof(struct audio_usecase)); 868 uc_info->id = in->usecase; 869 uc_info->type = PCM_CAPTURE; 870 uc_info->devices = in->device; 871 872 /* 1. Enable the TX device */ 873 ret = select_devices(adev); 874 if (ret) { 875 ALOGE("%s: Failed to enable device(0x%x)", 876 __func__, in->device); 877 free(uc_info); 878 goto error_config; 879 } 880 in_snd_device = adev->cur_in_snd_device; 881 882 /* 2. Enable the mixer controls for the audio route */ 883 enable_audio_route(adev->audio_route, in->usecase, in_snd_device); 884 audio_route_update_mixer(adev->audio_route); 885 886 /* 3. Add the usecase info to usecase list */ 887 add_usecase_to_list(adev, uc_info); 888 889 /* 2. Open the pcm device */ 890 ALOGV("%s: Opening PCM device card_id(%d) device_id(%d), channels %d", 891 __func__, SOUND_CARD, in->pcm_device_id, in->config.channels); 892 in->pcm = pcm_open(SOUND_CARD, in->pcm_device_id, 893 PCM_IN, &in->config); 894 if (in->pcm && !pcm_is_ready(in->pcm)) { 895 ALOGE("%s: %s", __func__, pcm_get_error(in->pcm)); 896 pcm_close(in->pcm); 897 in->pcm = NULL; 898 ret = -EIO; 899 goto error_open; 900 } 901 ALOGV("%s: exit", __func__); 902 return ret; 903 904error_open: 905 stop_input_stream(in); 906 907error_config: 908 adev->active_input = NULL; 909 ALOGV("%s: exit: status(%d)", __func__, ret); 910 911 return ret; 912} 913 914static int stop_output_stream(struct stream_out *out) 915{ 916 int i, ret = 0; 917 snd_device_t out_snd_device; 918 struct audio_usecase *uc_info; 919 struct audio_device *adev = out->dev; 920 921 ALOGV("%s: enter: usecase(%d)", __func__, out->usecase); 922 uc_info = get_usecase_from_list(adev, out->usecase); 923 if (uc_info == NULL) { 924 ALOGE("%s: Could not find the usecase (%d) in the list", 925 __func__, out->usecase); 926 return -EINVAL; 927 } 928 929 /* 1. Close the PCM device first */ 930 if (out->pcm) { 931 pcm_close(out->pcm); 932 out->pcm = NULL; 933 } 934 935 /* 2. Get and set stream specific mixer controls */ 936 out_snd_device = adev->cur_out_snd_device; 937 disable_audio_route(adev->audio_route, out->usecase, out_snd_device); 938 audio_route_update_mixer(adev->audio_route); 939 940 remove_usecase_from_list(adev, uc_info->id); 941 942 /* 3. Disable the rx device */ 943 adev->out_device = get_active_out_devices(adev, out->usecase); 944 adev->out_device |= get_voice_call_out_device(adev); 945 ret = select_devices(adev); 946 947 ALOGV("%s: exit: status(%d)", __func__, ret); 948 return ret; 949} 950 951int start_output_stream(struct stream_out *out) 952{ 953 int status; 954 int ret = 0; 955 snd_device_t out_snd_device; 956 struct audio_usecase *uc_info; 957 struct audio_device *adev = out->dev; 958 959 /* 1. Enable output device and stream routing controls */ 960 ALOGV("%s: enter: usecase(%d)", __func__, out->usecase); 961 adev->out_device |= out->devices; 962 out_snd_device = get_output_snd_device(adev); 963 if (out_snd_device == SND_DEVICE_INVALID) { 964 ALOGE("%s: Could not get valid output sound device", __func__); 965 /* 966 * TODO: use a single exit point to avoid duplicating code to 967 * reset output device 968 */ 969 adev->out_device = get_active_out_devices(adev, out->usecase); 970 adev->out_device |= get_voice_call_out_device(adev); 971 return -EINVAL; 972 } 973 974 out->pcm_device_id = get_pcm_device_id(adev->audio_route, 975 out->usecase, 976 PCM_PLAYBACK); 977 if (out->pcm_device_id < 0) { 978 ALOGE("%s: Invalid PCM device id(%d) for the usecase(%d)", 979 __func__, out->pcm_device_id, out->usecase); 980 adev->out_device = get_active_out_devices(adev, out->usecase); 981 adev->out_device |= get_voice_call_out_device(adev); 982 return -EINVAL; 983 } 984 985 uc_info = (struct audio_usecase *)calloc(1, sizeof(struct audio_usecase)); 986 uc_info->id = out->usecase; 987 uc_info->type = PCM_PLAYBACK; 988 uc_info->devices = out->devices; 989 990 ret = select_devices(adev); 991 if (ret) { 992 ALOGE("%s: Failed to enable device(0x%x)", 993 __func__, adev->out_device); 994 adev->out_device = get_active_out_devices(adev, out->usecase); 995 adev->out_device |= get_voice_call_out_device(adev); 996 free(uc_info); 997 return ret; 998 } 999 1000 out_snd_device = adev->cur_out_snd_device; 1001 enable_audio_route(adev->audio_route, out->usecase, out_snd_device); 1002 audio_route_update_mixer(adev->audio_route); 1003 1004 add_usecase_to_list(adev, uc_info); 1005 1006 ALOGV("%s: Opening PCM device card_id(%d) device_id(%d)", 1007 __func__, 0, out->pcm_device_id); 1008 out->pcm = pcm_open(SOUND_CARD, out->pcm_device_id, 1009 PCM_OUT, &out->config); 1010 if (out->pcm && !pcm_is_ready(out->pcm)) { 1011 ALOGE("%s: %s", __func__, pcm_get_error(out->pcm)); 1012 pcm_close(out->pcm); 1013 out->pcm = NULL; 1014 status = -EIO; 1015 goto error; 1016 } 1017 ALOGV("%s: exit", __func__); 1018 return 0; 1019error: 1020 stop_output_stream(out); 1021 ALOGE("%s: exit: status(%d)", __func__, status); 1022 return status; 1023} 1024 1025static int stop_voice_call(struct audio_device *adev) 1026{ 1027 int i, ret = 0; 1028 snd_device_t out_snd_device; 1029 struct audio_usecase *uc_info; 1030 1031 ALOGV("%s: enter: usecase(%d)", __func__, USECASE_VOICE_CALL); 1032 if (adev->csd_client) { 1033 if (adev->csd_stop_voice == NULL) { 1034 ALOGE("dlsym error for csd_client_disable_device"); 1035 } else { 1036 ret = adev->csd_stop_voice(); 1037 if (ret < 0) { 1038 ALOGE("%s: csd_client error %d\n", __func__, ret); 1039 } 1040 } 1041 } 1042 1043 /* 1. Close the PCM devices */ 1044 if (adev->voice_call_rx) { 1045 pcm_close(adev->voice_call_rx); 1046 adev->voice_call_rx = NULL; 1047 } 1048 if (adev->voice_call_tx) { 1049 pcm_close(adev->voice_call_tx); 1050 adev->voice_call_tx = NULL; 1051 } 1052 1053 uc_info = get_usecase_from_list(adev, USECASE_VOICE_CALL); 1054 if (uc_info == NULL) { 1055 ALOGE("%s: Could not find the usecase (%d) in the list", 1056 __func__, USECASE_VOICE_CALL); 1057 return -EINVAL; 1058 } 1059 out_snd_device = adev->cur_out_snd_device; 1060 1061 /* 2. Get and set stream specific mixer controls */ 1062 /* ToDo: Status check ?*/ 1063 disable_audio_route(adev->audio_route, USECASE_VOICE_CALL, out_snd_device); 1064 audio_route_update_mixer(adev->audio_route); 1065 1066 remove_usecase_from_list(adev, uc_info->id); 1067 1068 /* 3. Disable the rx and tx devices */ 1069 ret = select_devices(adev); 1070 adev->in_call = false; 1071 1072 ALOGV("%s: exit: status(%d)", __func__, ret); 1073 return ret; 1074} 1075 1076static int start_voice_call(struct audio_device *adev) 1077{ 1078 int i, ret = 0; 1079 snd_device_t out_snd_device; 1080 struct audio_usecase *uc_info; 1081 int pcm_dev_rx_id, pcm_dev_tx_id; 1082 1083 ALOGV("%s: enter", __func__); 1084 1085 uc_info = (struct audio_usecase *)calloc(1, sizeof(struct audio_usecase)); 1086 uc_info->id = USECASE_VOICE_CALL; 1087 uc_info->type = VOICE_CALL; 1088 uc_info->devices = adev->out_device; 1089 1090 ret = select_devices(adev); 1091 if (ret) { 1092 free(uc_info); 1093 return ret; 1094 } 1095 1096 /* 2. Get and set stream specific mixer controls */ 1097 out_snd_device = adev->cur_out_snd_device; 1098 /* ToDo: Status check ?*/ 1099 enable_audio_route(adev->audio_route, uc_info->id, out_snd_device); 1100 audio_route_update_mixer(adev->audio_route); 1101 1102 add_usecase_to_list(adev, uc_info); 1103 1104 pcm_dev_rx_id = get_pcm_device_id(adev->audio_route, uc_info->id, 1105 PCM_PLAYBACK); 1106 pcm_dev_tx_id = get_pcm_device_id(adev->audio_route, uc_info->id, 1107 PCM_CAPTURE); 1108 1109 /* 2. Open the pcm device */ 1110 if (pcm_dev_rx_id < 0 || pcm_dev_tx_id < 0) { 1111 ALOGE("%s: Invalid PCM devices (rx: %d tx: %d) for the usecase(%d)", 1112 __func__, pcm_dev_rx_id, pcm_dev_tx_id, uc_info->id); 1113 stop_voice_call(adev); 1114 goto error; 1115 } 1116 1117 ALOGV("%s: Opening PCM device card_id(%d) device_id(%d)", 1118 __func__, SOUND_CARD, pcm_dev_rx_id); 1119 adev->voice_call_rx = pcm_open(SOUND_CARD, 1120 pcm_dev_rx_id, 1121 PCM_OUT, &pcm_config_voice_call); 1122 if (adev->voice_call_rx && !pcm_is_ready(adev->voice_call_rx)) { 1123 ALOGE("%s: %s", __func__, pcm_get_error(adev->voice_call_rx)); 1124 /* ToDo: Check return status ??*/ 1125 stop_voice_call(adev); 1126 return -EIO; 1127 } 1128 1129 ALOGV("%s: Opening PCM device card_id(%d) device_id(%d)", 1130 __func__, SOUND_CARD, pcm_dev_tx_id); 1131 adev->voice_call_tx = pcm_open(SOUND_CARD, 1132 pcm_dev_tx_id, 1133 PCM_IN, &pcm_config_voice_call); 1134 if (adev->voice_call_tx && !pcm_is_ready(adev->voice_call_tx)) { 1135 ALOGE("%s: %s", __func__, pcm_get_error(adev->voice_call_tx)); 1136 /* ToDo: Check return status ??*/ 1137 stop_voice_call(adev); 1138 return -EIO; 1139 } 1140 pcm_start(adev->voice_call_rx); 1141 pcm_start(adev->voice_call_tx); 1142 1143 if (adev->csd_client) { 1144 if (adev->csd_start_voice == NULL) { 1145 ALOGE("dlsym error for csd_client_start_voice"); 1146 } else { 1147 ret = adev->csd_start_voice(); 1148 if (ret < 0) { 1149 ALOGE("%s: csd_client error %d\n", __func__, ret); 1150 } 1151 } 1152 } 1153 1154 adev->in_call = true; 1155error: 1156 ALOGV("%s: exit: status(%d)", __func__, ret); 1157 return ret; 1158} 1159 1160static int check_input_parameters(uint32_t sample_rate, 1161 audio_format_t format, 1162 int channel_count) 1163{ 1164 if (format != AUDIO_FORMAT_PCM_16_BIT) return -EINVAL; 1165 1166 if ((channel_count < 1) || (channel_count > 2)) return -EINVAL; 1167 1168 switch (sample_rate) { 1169 case 8000: 1170 case 11025: 1171 case 12000: 1172 case 16000: 1173 case 22050: 1174 case 24000: 1175 case 32000: 1176 case 44100: 1177 case 48000: 1178 break; 1179 default: 1180 return -EINVAL; 1181 } 1182 1183 return 0; 1184} 1185 1186static size_t get_input_buffer_size(uint32_t sample_rate, 1187 audio_format_t format, 1188 int channel_count) 1189{ 1190 size_t size = 0; 1191 1192 if (check_input_parameters(sample_rate, format, channel_count) != 0) return 0; 1193 1194 if (sample_rate == 8000 || sample_rate == 16000 || sample_rate == 32000) { 1195 size = (sample_rate * 20) / 1000; 1196 } else if (sample_rate == 11025 || sample_rate == 12000) { 1197 size = 256; 1198 } else if (sample_rate == 22050 || sample_rate == 24000) { 1199 size = 512; 1200 } else if (sample_rate == 44100 || sample_rate == 48000) { 1201 size = 1024; 1202 } 1203 1204 return size * sizeof(short) * channel_count; 1205} 1206 1207static uint32_t out_get_sample_rate(const struct audio_stream *stream) 1208{ 1209 struct stream_out *out = (struct stream_out *)stream; 1210 1211 return out->config.rate; 1212} 1213 1214static int out_set_sample_rate(struct audio_stream *stream, uint32_t rate) 1215{ 1216 return -ENOSYS; 1217} 1218 1219static size_t out_get_buffer_size(const struct audio_stream *stream) 1220{ 1221 struct stream_out *out = (struct stream_out *)stream; 1222 1223 return out->config.period_size * audio_stream_frame_size(stream); 1224} 1225 1226static uint32_t out_get_channels(const struct audio_stream *stream) 1227{ 1228 struct stream_out *out = (struct stream_out *)stream; 1229 1230 return out->channel_mask; 1231} 1232 1233static audio_format_t out_get_format(const struct audio_stream *stream) 1234{ 1235 return AUDIO_FORMAT_PCM_16_BIT; 1236} 1237 1238static int out_set_format(struct audio_stream *stream, audio_format_t format) 1239{ 1240 return -ENOSYS; 1241} 1242 1243static int out_standby(struct audio_stream *stream) 1244{ 1245 struct stream_out *out = (struct stream_out *)stream; 1246 struct audio_device *adev = out->dev; 1247 ALOGV("%s: enter: usecase(%d)", __func__, out->usecase); 1248 pthread_mutex_lock(&out->dev->lock); 1249 pthread_mutex_lock(&out->lock); 1250 1251 if (!out->standby) { 1252 out->standby = true; 1253 stop_output_stream(out); 1254 } 1255 pthread_mutex_unlock(&out->lock); 1256 pthread_mutex_unlock(&out->dev->lock); 1257 ALOGV("%s: exit", __func__); 1258 return 0; 1259} 1260 1261static int out_dump(const struct audio_stream *stream, int fd) 1262{ 1263 return 0; 1264} 1265 1266static int out_set_parameters(struct audio_stream *stream, const char *kvpairs) 1267{ 1268 struct stream_out *out = (struct stream_out *)stream; 1269 struct audio_device *adev = out->dev; 1270 struct str_parms *parms; 1271 char value[32]; 1272 int ret, val = 0; 1273 1274 ALOGV("%s: enter: usecase(%d) kvpairs: %s", 1275 __func__, out->usecase, kvpairs); 1276 parms = str_parms_create_str(kvpairs); 1277 ret = str_parms_get_str(parms, AUDIO_PARAMETER_STREAM_ROUTING, value, sizeof(value)); 1278 if (ret >= 0) { 1279 val = atoi(value); 1280 pthread_mutex_lock(&adev->lock); 1281 pthread_mutex_lock(&out->lock); 1282 1283 if (adev->mode == AUDIO_MODE_IN_CALL && !adev->in_call && (val != 0)) { 1284 adev->out_device = get_active_out_devices(adev, out->usecase) | val; 1285 out->devices = val; 1286 start_voice_call(adev); 1287 } else if (adev->mode != AUDIO_MODE_IN_CALL && adev->in_call) { 1288 if (val != 0) { 1289 adev->out_device = get_active_out_devices(adev, out->usecase) | val; 1290 out->devices = val; 1291 } 1292 stop_voice_call(adev); 1293 } else if ((adev->out_device != (audio_devices_t)val) && (val != 0)) { 1294 if (!out->standby || adev->in_call) { 1295 adev->out_device = get_active_out_devices(adev, out->usecase) | val; 1296 ret = select_devices(adev); 1297 out->devices = val; 1298 } 1299 } 1300 1301 pthread_mutex_unlock(&out->lock); 1302 pthread_mutex_unlock(&adev->lock); 1303 } 1304 str_parms_destroy(parms); 1305 ALOGV("%s: exit: code(%d)", __func__, ret); 1306 return ret; 1307} 1308 1309static char* out_get_parameters(const struct audio_stream *stream, const char *keys) 1310{ 1311 struct stream_out *out = (struct stream_out *)stream; 1312 struct str_parms *query = str_parms_create_str(keys); 1313 char *str; 1314 char value[256]; 1315 struct str_parms *reply = str_parms_create(); 1316 size_t i, j; 1317 int ret; 1318 bool first = true; 1319 ALOGV("%s: enter: keys - %s", __func__, keys); 1320 ret = str_parms_get_str(query, AUDIO_PARAMETER_STREAM_SUP_CHANNELS, value, sizeof(value)); 1321 if (ret >= 0) { 1322 value[0] = '\0'; 1323 i = 0; 1324 while (out->supported_channel_masks[i] != 0) { 1325 for (j = 0; j < ARRAY_SIZE(out_channels_name_to_enum_table); j++) { 1326 if (out_channels_name_to_enum_table[j].value == out->supported_channel_masks[i]) { 1327 if (!first) { 1328 strcat(value, "|"); 1329 } 1330 strcat(value, out_channels_name_to_enum_table[j].name); 1331 first = false; 1332 break; 1333 } 1334 } 1335 i++; 1336 } 1337 str_parms_add_str(reply, AUDIO_PARAMETER_STREAM_SUP_CHANNELS, value); 1338 str = str_parms_to_str(reply); 1339 } else { 1340 str = strdup(keys); 1341 } 1342 str_parms_destroy(query); 1343 str_parms_destroy(reply); 1344 ALOGV("%s: exit: returns - %s", __func__, str); 1345 return str; 1346} 1347 1348static uint32_t out_get_latency(const struct audio_stream_out *stream) 1349{ 1350 struct stream_out *out = (struct stream_out *)stream; 1351 1352 return (out->config.period_count * out->config.period_size * 1000) / (out->config.rate); 1353} 1354 1355static int out_set_volume(struct audio_stream_out *stream, float left, 1356 float right) 1357{ 1358 return -ENOSYS; 1359} 1360 1361static ssize_t out_write(struct audio_stream_out *stream, const void *buffer, 1362 size_t bytes) 1363{ 1364 struct stream_out *out = (struct stream_out *)stream; 1365 struct audio_device *adev = out->dev; 1366 int i, ret = -1; 1367 1368 /* acquiring hw device mutex systematically is useful if a low priority thread is waiting 1369 * on the output stream mutex - e.g. executing select_mode() while holding the hw device 1370 * mutex 1371 */ 1372 pthread_mutex_lock(&adev->lock); 1373 pthread_mutex_lock(&out->lock); 1374 if (out->standby) { 1375 ret = start_output_stream(out); 1376 if (ret != 0) { 1377 pthread_mutex_unlock(&adev->lock); 1378 goto exit; 1379 } 1380 out->standby = false; 1381 } 1382 pthread_mutex_unlock(&adev->lock); 1383 1384 if (out->pcm) { 1385 //ALOGV("%s: writing buffer (%d bytes) to pcm device", __func__, bytes); 1386 ret = pcm_write(out->pcm, (void *)buffer, bytes); 1387 } 1388 1389exit: 1390 pthread_mutex_unlock(&out->lock); 1391 1392 if (ret != 0) { 1393 out_standby(&out->stream.common); 1394 usleep(bytes * 1000000 / audio_stream_frame_size(&out->stream.common) / 1395 out_get_sample_rate(&out->stream.common)); 1396 } 1397 return bytes; 1398} 1399 1400static int out_get_render_position(const struct audio_stream_out *stream, 1401 uint32_t *dsp_frames) 1402{ 1403 return -EINVAL; 1404} 1405 1406static int out_add_audio_effect(const struct audio_stream *stream, effect_handle_t effect) 1407{ 1408 return 0; 1409} 1410 1411static int out_remove_audio_effect(const struct audio_stream *stream, effect_handle_t effect) 1412{ 1413 return 0; 1414} 1415 1416static int out_get_next_write_timestamp(const struct audio_stream_out *stream, 1417 int64_t *timestamp) 1418{ 1419 return -EINVAL; 1420} 1421 1422/** audio_stream_in implementation **/ 1423static uint32_t in_get_sample_rate(const struct audio_stream *stream) 1424{ 1425 struct stream_in *in = (struct stream_in *)stream; 1426 1427 return in->config.rate; 1428} 1429 1430static int in_set_sample_rate(struct audio_stream *stream, uint32_t rate) 1431{ 1432 return -ENOSYS; 1433} 1434 1435static size_t in_get_buffer_size(const struct audio_stream *stream) 1436{ 1437 struct stream_in *in = (struct stream_in *)stream; 1438 1439 return in->config.period_size * audio_stream_frame_size(stream); 1440} 1441 1442static uint32_t in_get_channels(const struct audio_stream *stream) 1443{ 1444 struct stream_in *in = (struct stream_in *)stream; 1445 1446 return in->channel_mask; 1447} 1448 1449static audio_format_t in_get_format(const struct audio_stream *stream) 1450{ 1451 return AUDIO_FORMAT_PCM_16_BIT; 1452} 1453 1454static int in_set_format(struct audio_stream *stream, audio_format_t format) 1455{ 1456 return -ENOSYS; 1457} 1458 1459static int in_standby(struct audio_stream *stream) 1460{ 1461 struct stream_in *in = (struct stream_in *)stream; 1462 struct audio_device *adev = in->dev; 1463 int status = 0; 1464 ALOGV("%s: enter", __func__); 1465 pthread_mutex_lock(&adev->lock); 1466 pthread_mutex_lock(&in->lock); 1467 if (!in->standby) { 1468 in->standby = true; 1469 status = stop_input_stream(in); 1470 } 1471 pthread_mutex_unlock(&in->lock); 1472 pthread_mutex_unlock(&adev->lock); 1473 ALOGV("%s: exit: status(%d)", __func__, status); 1474 return status; 1475} 1476 1477static int in_dump(const struct audio_stream *stream, int fd) 1478{ 1479 return 0; 1480} 1481 1482static int in_set_parameters(struct audio_stream *stream, const char *kvpairs) 1483{ 1484 struct stream_in *in = (struct stream_in *)stream; 1485 struct audio_device *adev = in->dev; 1486 struct str_parms *parms; 1487 char *str; 1488 char value[32]; 1489 int ret, val = 0; 1490 1491 ALOGV("%s: enter: kvpairs=%s", __func__, kvpairs); 1492 parms = str_parms_create_str(kvpairs); 1493 1494 ret = str_parms_get_str(parms, AUDIO_PARAMETER_STREAM_INPUT_SOURCE, value, sizeof(value)); 1495 1496 pthread_mutex_lock(&adev->lock); 1497 pthread_mutex_lock(&in->lock); 1498 if (ret >= 0) { 1499 val = atoi(value); 1500 /* no audio source uses val == 0 */ 1501 if ((in->source != val) && (val != 0)) { 1502 in->source = val; 1503 } 1504 } 1505 1506 ret = str_parms_get_str(parms, AUDIO_PARAMETER_STREAM_ROUTING, value, sizeof(value)); 1507 if (ret >= 0) { 1508 val = atoi(value); 1509 if ((in->device != val) && (val != 0)) { 1510 in->device = val; 1511 /* If recording is in progress, change the tx device to new device */ 1512 if (!in->standby) { 1513 ret = select_devices(adev); 1514 } 1515 } 1516 } 1517 1518 pthread_mutex_unlock(&in->lock); 1519 pthread_mutex_unlock(&adev->lock); 1520 1521 str_parms_destroy(parms); 1522 ALOGV("%s: exit: status(%d)", __func__, ret); 1523 return ret; 1524} 1525 1526static char* in_get_parameters(const struct audio_stream *stream, 1527 const char *keys) 1528{ 1529 return strdup(""); 1530} 1531 1532static int in_set_gain(struct audio_stream_in *stream, float gain) 1533{ 1534 return 0; 1535} 1536 1537static ssize_t in_read(struct audio_stream_in *stream, void *buffer, 1538 size_t bytes) 1539{ 1540 struct stream_in *in = (struct stream_in *)stream; 1541 struct audio_device *adev = in->dev; 1542 int i, ret = -1; 1543 1544 /* acquiring hw device mutex systematically is useful if a low priority thread is waiting 1545 * on the output stream mutex - e.g. executing select_mode() while holding the hw device 1546 * mutex 1547 */ 1548 //ALOGV("%s: buffer(%p) bytes(%d)", __func__, buffer, bytes); 1549 pthread_mutex_lock(&adev->lock); 1550 pthread_mutex_lock(&in->lock); 1551 if (in->standby) { 1552 ret = start_input_stream(in); 1553 if (ret != 0) { 1554 pthread_mutex_unlock(&adev->lock); 1555 goto exit; 1556 } 1557 in->standby = 0; 1558 } 1559 pthread_mutex_unlock(&adev->lock); 1560 1561 if (in->pcm) { 1562 ret = pcm_read(in->pcm, buffer, bytes); 1563 } 1564 1565 /* 1566 * Instead of writing zeroes here, we could trust the hardware 1567 * to always provide zeroes when muted. 1568 */ 1569 if (ret == 0 && adev->mic_mute) 1570 memset(buffer, 0, bytes); 1571 1572exit: 1573 pthread_mutex_unlock(&in->lock); 1574 1575 if (ret != 0) { 1576 in_standby(&in->stream.common); 1577 ALOGV("%s: read failed - sleeping for buffer duration", __func__); 1578 usleep(bytes * 1000000 / audio_stream_frame_size(&in->stream.common) / 1579 in_get_sample_rate(&in->stream.common)); 1580 } 1581 return bytes; 1582} 1583 1584static uint32_t in_get_input_frames_lost(struct audio_stream_in *stream) 1585{ 1586 return 0; 1587} 1588 1589static int in_add_audio_effect(const struct audio_stream *stream, effect_handle_t effect) 1590{ 1591 return 0; 1592} 1593 1594static int in_remove_audio_effect(const struct audio_stream *stream, effect_handle_t effect) 1595{ 1596 return 0; 1597} 1598 1599static int adev_open_output_stream(struct audio_hw_device *dev, 1600 audio_io_handle_t handle, 1601 audio_devices_t devices, 1602 audio_output_flags_t flags, 1603 struct audio_config *config, 1604 struct audio_stream_out **stream_out) 1605{ 1606 struct audio_device *adev = (struct audio_device *)dev; 1607 struct stream_out *out; 1608 int i, ret; 1609 1610 ALOGV("%s: enter: sample_rate(%d) channel_mask(0x%x) devices(0x%x) flags(0x%x)", 1611 __func__, config->sample_rate, config->channel_mask, devices, flags); 1612 *stream_out = NULL; 1613 out = (struct stream_out *)calloc(1, sizeof(struct stream_out)); 1614 1615 if (devices == AUDIO_DEVICE_NONE) 1616 devices = AUDIO_DEVICE_OUT_SPEAKER; 1617 1618 out->supported_channel_masks[0] = AUDIO_CHANNEL_OUT_STEREO; 1619 out->channel_mask = AUDIO_CHANNEL_OUT_STEREO; 1620 out->flags = flags; 1621 out->devices = devices; 1622 1623 /* Init use case and pcm_config */ 1624 if (out->flags & AUDIO_OUTPUT_FLAG_DIRECT && 1625 out->devices & AUDIO_DEVICE_OUT_AUX_DIGITAL) { 1626 out->usecase = USECASE_AUDIO_PLAYBACK_MULTI_CH; 1627 out->config = pcm_config_hdmi_multi; 1628 1629 pthread_mutex_lock(&adev->lock); 1630 read_hdmi_channel_masks(out); 1631 pthread_mutex_unlock(&adev->lock); 1632 1633 if (config->sample_rate == 0) config->sample_rate = DEFAULT_OUTPUT_SAMPLING_RATE; 1634 if (config->channel_mask == 0) config->channel_mask = AUDIO_CHANNEL_OUT_5POINT1; 1635 out->channel_mask = config->channel_mask; 1636 out->config.rate = config->sample_rate; 1637 out->config.channels = popcount(out->channel_mask); 1638 out->config.period_size = HDMI_MULTI_PERIOD_BYTES / (out->config.channels * 2); 1639 set_hdmi_channels(adev->mixer, out->config.channels); 1640 } else if (out->flags & AUDIO_OUTPUT_FLAG_DEEP_BUFFER) { 1641 out->usecase = USECASE_AUDIO_PLAYBACK_DEEP_BUFFER; 1642 out->config = pcm_config_deep_buffer; 1643 } else { 1644 out->usecase = USECASE_AUDIO_PLAYBACK_LOW_LATENCY; 1645 out->config = pcm_config_low_latency; 1646 } 1647 1648 /* Check if this usecase is already existing */ 1649 pthread_mutex_lock(&adev->lock); 1650 if (get_usecase_from_list(adev, out->usecase) != NULL) { 1651 ALOGE("%s: Usecase (%d) is already present", __func__, out->usecase); 1652 free(out); 1653 *stream_out = NULL; 1654 pthread_mutex_unlock(&adev->lock); 1655 return -EEXIST; 1656 } 1657 pthread_mutex_unlock(&adev->lock); 1658 1659 out->stream.common.get_sample_rate = out_get_sample_rate; 1660 out->stream.common.set_sample_rate = out_set_sample_rate; 1661 out->stream.common.get_buffer_size = out_get_buffer_size; 1662 out->stream.common.get_channels = out_get_channels; 1663 out->stream.common.get_format = out_get_format; 1664 out->stream.common.set_format = out_set_format; 1665 out->stream.common.standby = out_standby; 1666 out->stream.common.dump = out_dump; 1667 out->stream.common.set_parameters = out_set_parameters; 1668 out->stream.common.get_parameters = out_get_parameters; 1669 out->stream.common.add_audio_effect = out_add_audio_effect; 1670 out->stream.common.remove_audio_effect = out_remove_audio_effect; 1671 out->stream.get_latency = out_get_latency; 1672 out->stream.set_volume = out_set_volume; 1673 out->stream.write = out_write; 1674 out->stream.get_render_position = out_get_render_position; 1675 out->stream.get_next_write_timestamp = out_get_next_write_timestamp; 1676 1677 out->dev = adev; 1678 out->standby = 1; 1679 1680 config->format = out->stream.common.get_format(&out->stream.common); 1681 config->channel_mask = out->stream.common.get_channels(&out->stream.common); 1682 config->sample_rate = out->stream.common.get_sample_rate(&out->stream.common); 1683 1684 *stream_out = &out->stream; 1685 ALOGV("%s: exit", __func__); 1686 return 0; 1687} 1688 1689static void adev_close_output_stream(struct audio_hw_device *dev, 1690 struct audio_stream_out *stream) 1691{ 1692 ALOGV("%s: enter", __func__); 1693 out_standby(&stream->common); 1694 free(stream); 1695 ALOGV("%s: exit", __func__); 1696} 1697 1698static int adev_set_parameters(struct audio_hw_device *dev, const char *kvpairs) 1699{ 1700 struct audio_device *adev = (struct audio_device *)dev; 1701 struct str_parms *parms; 1702 char *str; 1703 char value[32]; 1704 int ret; 1705 1706 ALOGV("%s: enter: %s", __func__, kvpairs); 1707 1708 parms = str_parms_create_str(kvpairs); 1709 ret = str_parms_get_str(parms, AUDIO_PARAMETER_KEY_TTY_MODE, value, sizeof(value)); 1710 if (ret >= 0) { 1711 int tty_mode; 1712 1713 if (strcmp(value, AUDIO_PARAMETER_VALUE_TTY_OFF) == 0) 1714 tty_mode = TTY_MODE_OFF; 1715 else if (strcmp(value, AUDIO_PARAMETER_VALUE_TTY_VCO) == 0) 1716 tty_mode = TTY_MODE_VCO; 1717 else if (strcmp(value, AUDIO_PARAMETER_VALUE_TTY_HCO) == 0) 1718 tty_mode = TTY_MODE_HCO; 1719 else if (strcmp(value, AUDIO_PARAMETER_VALUE_TTY_FULL) == 0) 1720 tty_mode = TTY_MODE_FULL; 1721 else 1722 return -EINVAL; 1723 1724 pthread_mutex_lock(&adev->lock); 1725 if (tty_mode != adev->tty_mode) { 1726 adev->tty_mode = tty_mode; 1727 adev->acdb_settings = (adev->acdb_settings & TTY_MODE_CLEAR) | tty_mode; 1728 if (adev->in_call) 1729 select_devices(adev); 1730 } 1731 pthread_mutex_unlock(&adev->lock); 1732 } 1733 1734 ret = str_parms_get_str(parms, AUDIO_PARAMETER_KEY_BT_NREC, value, sizeof(value)); 1735 if (ret >= 0) { 1736 /* When set to false, HAL should disable EC and NS 1737 * But it is currently not supported. 1738 */ 1739 if (strcmp(value, AUDIO_PARAMETER_VALUE_ON) == 0) 1740 adev->bluetooth_nrec = true; 1741 else 1742 adev->bluetooth_nrec = false; 1743 } 1744 1745 ret = str_parms_get_str(parms, "screen_state", value, sizeof(value)); 1746 if (ret >= 0) { 1747 if (strcmp(value, AUDIO_PARAMETER_VALUE_ON) == 0) 1748 adev->screen_off = false; 1749 else 1750 adev->screen_off = true; 1751 } 1752 1753 str_parms_destroy(parms); 1754 ALOGV("%s: exit with code(%d)", __func__, ret); 1755 return ret; 1756} 1757 1758static char* adev_get_parameters(const struct audio_hw_device *dev, 1759 const char *keys) 1760{ 1761 /* ToDo: Return requested params */ 1762 return strdup(""); 1763} 1764 1765static int adev_init_check(const struct audio_hw_device *dev) 1766{ 1767 return 0; 1768} 1769 1770static int adev_set_voice_volume(struct audio_hw_device *dev, float volume) 1771{ 1772 struct audio_device *adev = (struct audio_device *)dev; 1773 int vol, err = 0; 1774 1775 pthread_mutex_lock(&adev->lock); 1776 adev->voice_volume = volume; 1777 if (adev->mode == AUDIO_MODE_IN_CALL) { 1778 if (volume < 0.0) { 1779 volume = 0.0; 1780 } else if (volume > 1.0) { 1781 volume = 1.0; 1782 } 1783 1784 vol = lrint(volume * 100.0); 1785 1786 // Voice volume levels from android are mapped to driver volume levels as follows. 1787 // 0 -> 5, 20 -> 4, 40 ->3, 60 -> 2, 80 -> 1, 100 -> 0 1788 // So adjust the volume to get the correct volume index in driver 1789 vol = 100 - vol; 1790 1791 if (adev->csd_client) { 1792 if (adev->csd_volume == NULL) { 1793 ALOGE("%s: dlsym error for csd_client_volume", __func__); 1794 } else { 1795 err = adev->csd_volume(vol); 1796 if (err < 0) { 1797 ALOGE("%s: csd_client error %d", __func__, err); 1798 } 1799 } 1800 } else { 1801 ALOGE("%s: No CSD Client present", __func__); 1802 } 1803 } 1804 pthread_mutex_unlock(&adev->lock); 1805 return err; 1806} 1807 1808static int adev_set_master_volume(struct audio_hw_device *dev, float volume) 1809{ 1810 return -ENOSYS; 1811} 1812 1813static int adev_get_master_volume(struct audio_hw_device *dev, 1814 float *volume) 1815{ 1816 return -ENOSYS; 1817} 1818 1819static int adev_set_master_mute(struct audio_hw_device *dev, bool muted) 1820{ 1821 return -ENOSYS; 1822} 1823 1824static int adev_get_master_mute(struct audio_hw_device *dev, bool *muted) 1825{ 1826 return -ENOSYS; 1827} 1828 1829static int adev_set_mode(struct audio_hw_device *dev, audio_mode_t mode) 1830{ 1831 struct audio_device *adev = (struct audio_device *)dev; 1832 1833 pthread_mutex_lock(&adev->lock); 1834 if (adev->mode != mode) { 1835 adev->mode = mode; 1836 } 1837 pthread_mutex_unlock(&adev->lock); 1838 return 0; 1839} 1840 1841static int adev_set_mic_mute(struct audio_hw_device *dev, bool state) 1842{ 1843 struct audio_device *adev = (struct audio_device *)dev; 1844 int err = 0; 1845 1846 adev->mic_mute = state; 1847 if (adev->mode == AUDIO_MODE_IN_CALL) { 1848 if (adev->csd_client) { 1849 if (adev->csd_mic_mute == NULL) { 1850 ALOGE("%s: dlsym error for csd_mic_mute", __func__); 1851 } else { 1852 err = adev->csd_mic_mute(state); 1853 if (err < 0) { 1854 ALOGE("%s: csd_client error %d", __func__, err); 1855 } 1856 } 1857 } else { 1858 ALOGE("%s: No CSD Client present", __func__); 1859 } 1860 } 1861 return err; 1862} 1863 1864static int adev_get_mic_mute(const struct audio_hw_device *dev, bool *state) 1865{ 1866 struct audio_device *adev = (struct audio_device *)dev; 1867 1868 *state = adev->mic_mute; 1869 1870 return 0; 1871} 1872 1873static size_t adev_get_input_buffer_size(const struct audio_hw_device *dev, 1874 const struct audio_config *config) 1875{ 1876 size_t size; 1877 int channel_count = popcount(config->channel_mask); 1878 1879 return get_input_buffer_size(config->sample_rate, config->format, channel_count); 1880} 1881 1882static int adev_open_input_stream(struct audio_hw_device *dev, 1883 audio_io_handle_t handle, 1884 audio_devices_t devices, 1885 struct audio_config *config, 1886 struct audio_stream_in **stream_in) 1887{ 1888 struct audio_device *adev = (struct audio_device *)dev; 1889 struct stream_in *in; 1890 int ret, buffer_size, frame_size; 1891 int channel_count = popcount(config->channel_mask); 1892 1893 ALOGV("%s: enter", __func__); 1894 *stream_in = NULL; 1895 if (check_input_parameters(config->sample_rate, config->format, channel_count) != 0) 1896 return -EINVAL; 1897 1898 in = (struct stream_in *)calloc(1, sizeof(struct stream_in)); 1899 1900 in->stream.common.get_sample_rate = in_get_sample_rate; 1901 in->stream.common.set_sample_rate = in_set_sample_rate; 1902 in->stream.common.get_buffer_size = in_get_buffer_size; 1903 in->stream.common.get_channels = in_get_channels; 1904 in->stream.common.get_format = in_get_format; 1905 in->stream.common.set_format = in_set_format; 1906 in->stream.common.standby = in_standby; 1907 in->stream.common.dump = in_dump; 1908 in->stream.common.set_parameters = in_set_parameters; 1909 in->stream.common.get_parameters = in_get_parameters; 1910 in->stream.common.add_audio_effect = in_add_audio_effect; 1911 in->stream.common.remove_audio_effect = in_remove_audio_effect; 1912 in->stream.set_gain = in_set_gain; 1913 in->stream.read = in_read; 1914 in->stream.get_input_frames_lost = in_get_input_frames_lost; 1915 1916 in->device = devices; 1917 in->source = AUDIO_SOURCE_DEFAULT; 1918 in->dev = adev; 1919 in->standby = 1; 1920 in->channel_mask = config->channel_mask; 1921 1922 /* Update config params with the requested sample rate and channels */ 1923 in->usecase = USECASE_AUDIO_RECORD; 1924 in->config = pcm_config_audio_capture; 1925 in->config.channels = channel_count; 1926 in->config.rate = config->sample_rate; 1927 1928 frame_size = audio_stream_frame_size((struct audio_stream *)in); 1929 buffer_size = get_input_buffer_size(config->sample_rate, 1930 config->format, 1931 channel_count); 1932 in->config.period_size = buffer_size / frame_size; 1933 1934 *stream_in = &in->stream; 1935 ALOGV("%s: exit", __func__); 1936 return 0; 1937 1938err_open: 1939 free(in); 1940 *stream_in = NULL; 1941 return ret; 1942} 1943 1944static void adev_close_input_stream(struct audio_hw_device *dev, 1945 struct audio_stream_in *stream) 1946{ 1947 in_standby(&stream->common); 1948 free(stream); 1949 1950 return; 1951} 1952 1953static int adev_dump(const audio_hw_device_t *device, int fd) 1954{ 1955 return 0; 1956} 1957 1958static int adev_close(hw_device_t *device) 1959{ 1960 struct audio_device *adev = (struct audio_device *)device; 1961 audio_route_free(adev->audio_route); 1962 free(device); 1963 return 0; 1964} 1965 1966static void init_platform_data(struct audio_device *adev) 1967{ 1968 char platform[PROPERTY_VALUE_MAX]; 1969 char baseband[PROPERTY_VALUE_MAX]; 1970 char value[PROPERTY_VALUE_MAX]; 1971 int mccmnc; 1972 1973 adev->dualmic_config = DUALMIC_CONFIG_NONE; 1974 adev->fluence_in_voice_call = false; 1975 adev->fluence_in_voice_rec = false; 1976 adev->mic_type_analog = false; 1977 1978 property_get("persist.audio.handset.mic.type",value,""); 1979 if (!strncmp("analog", value, 6)) 1980 adev->mic_type_analog = true; 1981 1982 property_get("persist.audio.dualmic.config",value,""); 1983 if (!strncmp("broadside", value, 9)) { 1984 adev->dualmic_config = DUALMIC_CONFIG_BROADSIDE; 1985 adev->acdb_settings |= DMIC_FLAG; 1986 } else if (!strncmp("endfire", value, 7)) { 1987 adev->dualmic_config = DUALMIC_CONFIG_ENDFIRE; 1988 adev->acdb_settings |= DMIC_FLAG; 1989 } 1990 1991 if (adev->dualmic_config != DUALMIC_CONFIG_NONE) { 1992 property_get("persist.audio.fluence.voicecall",value,""); 1993 if (!strncmp("true", value, 4)) { 1994 adev->fluence_in_voice_call = true; 1995 } 1996 1997 property_get("persist.audio.fluence.voicerec",value,""); 1998 if (!strncmp("true", value, 4)) { 1999 adev->fluence_in_voice_rec = true; 2000 } 2001 } 2002 2003 property_get("gsm.sim.operator.numeric",value,"0"); 2004 mccmnc = atoi(value); 2005 ALOGV("%s: tmus mccmnc %d", __func__, mccmnc); 2006 switch(mccmnc) { 2007 /* TMUS MCC(310), MNC(490, 260, 026) */ 2008 case 310490: 2009 case 310260: 2010 case 310026: 2011 adev->is_tmus = true; 2012 break; 2013 default: 2014 adev->is_tmus = false; 2015 break; 2016 } 2017 2018 adev->acdb_handle = dlopen(LIB_ACDB_LOADER, RTLD_NOW); 2019 if (adev->acdb_handle == NULL) { 2020 ALOGE("%s: DLOPEN failed for %s", __func__, LIB_ACDB_LOADER); 2021 } else { 2022 ALOGV("%s: DLOPEN successful for %s", __func__, LIB_ACDB_LOADER); 2023 adev->acdb_deallocate = (acdb_deallocate_t)dlsym(adev->acdb_handle, 2024 "acdb_loader_deallocate_ACDB"); 2025 adev->acdb_send_audio_cal = (acdb_send_audio_cal_t)dlsym(adev->acdb_handle, 2026 "acdb_loader_send_audio_cal"); 2027 adev->acdb_send_voice_cal = (acdb_send_voice_cal_t)dlsym(adev->acdb_handle, 2028 "acdb_loader_send_voice_cal"); 2029 adev->acdb_init = (acdb_init_t)dlsym(adev->acdb_handle, 2030 "acdb_loader_init_ACDB"); 2031 if (adev->acdb_init == NULL) 2032 ALOGE("%s: dlsym error %s for acdb_loader_init_ACDB", __func__, dlerror()); 2033 else 2034 adev->acdb_init(); 2035 } 2036 2037 /* If platform is Fusion3, load CSD Client specific symbols 2038 * Voice call is handled by MDM and apps processor talks to 2039 * MDM through CSD Client 2040 */ 2041 property_get("ro.board.platform", platform, ""); 2042 property_get("ro.baseband", baseband, ""); 2043 if (!strcmp("msm8960", platform) && !strcmp("mdm", baseband)) { 2044 adev->csd_client = dlopen(LIB_CSD_CLIENT, RTLD_NOW); 2045 if (adev->csd_client == NULL) 2046 ALOGE("%s: DLOPEN failed for %s", __func__, LIB_CSD_CLIENT); 2047 } 2048 2049 if (adev->csd_client) { 2050 ALOGV("%s: DLOPEN successful for %s", __func__, LIB_CSD_CLIENT); 2051 adev->csd_client_deinit = (csd_client_deinit_t)dlsym(adev->csd_client, 2052 "csd_client_deinit"); 2053 adev->csd_disable_device = (csd_disable_device_t)dlsym(adev->csd_client, 2054 "csd_client_disable_device"); 2055 adev->csd_enable_device = (csd_enable_device_t)dlsym(adev->csd_client, 2056 "csd_client_enable_device"); 2057 adev->csd_start_voice = (csd_start_voice_t)dlsym(adev->csd_client, 2058 "csd_client_start_voice"); 2059 adev->csd_stop_voice = (csd_stop_voice_t)dlsym(adev->csd_client, 2060 "csd_client_stop_voice"); 2061 adev->csd_volume = (csd_volume_t)dlsym(adev->csd_client, 2062 "csd_client_volume"); 2063 adev->csd_mic_mute = (csd_mic_mute_t)dlsym(adev->csd_client, 2064 "csd_client_mic_mute"); 2065 adev->csd_client_init = (csd_client_init_t)dlsym(adev->csd_client, 2066 "csd_client_init"); 2067 2068 if (adev->csd_client_init == NULL) { 2069 ALOGE("%s: dlsym error %s for csd_client_init", __func__, dlerror()); 2070 } else { 2071 adev->csd_client_init(); 2072 } 2073 } 2074} 2075 2076static int adev_open(const hw_module_t *module, const char *name, 2077 hw_device_t **device) 2078{ 2079 struct audio_device *adev; 2080 int ret; 2081 2082 ALOGV("%s: enter", __func__); 2083 if (strcmp(name, AUDIO_HARDWARE_INTERFACE) != 0) return -EINVAL; 2084 2085 adev = calloc(1, sizeof(struct audio_device)); 2086 2087 adev->mixer = mixer_open(MIXER_CARD); 2088 if (!adev->mixer) { 2089 ALOGE("Unable to open the mixer, aborting."); 2090 return -ENOSYS; 2091 } 2092 2093 adev->audio_route = audio_route_init(MIXER_CARD, MIXER_XML_PATH); 2094 if (!adev->audio_route) { 2095 free(adev); 2096 ALOGE("%s: Failed to init audio route controls, aborting.", __func__); 2097 *device = NULL; 2098 return -EINVAL; 2099 } 2100 2101 adev->device.common.tag = HARDWARE_DEVICE_TAG; 2102 adev->device.common.version = AUDIO_DEVICE_API_VERSION_2_0; 2103 adev->device.common.module = (struct hw_module_t *)module; 2104 adev->device.common.close = adev_close; 2105 2106 adev->device.init_check = adev_init_check; 2107 adev->device.set_voice_volume = adev_set_voice_volume; 2108 adev->device.set_master_volume = adev_set_master_volume; 2109 adev->device.get_master_volume = adev_get_master_volume; 2110 adev->device.set_master_mute = adev_set_master_mute; 2111 adev->device.get_master_mute = adev_get_master_mute; 2112 adev->device.set_mode = adev_set_mode; 2113 adev->device.set_mic_mute = adev_set_mic_mute; 2114 adev->device.get_mic_mute = adev_get_mic_mute; 2115 adev->device.set_parameters = adev_set_parameters; 2116 adev->device.get_parameters = adev_get_parameters; 2117 adev->device.get_input_buffer_size = adev_get_input_buffer_size; 2118 adev->device.open_output_stream = adev_open_output_stream; 2119 adev->device.close_output_stream = adev_close_output_stream; 2120 adev->device.open_input_stream = adev_open_input_stream; 2121 adev->device.close_input_stream = adev_close_input_stream; 2122 adev->device.dump = adev_dump; 2123 2124 /* Set the default route before the PCM stream is opened */ 2125 pthread_mutex_lock(&adev->lock); 2126 adev->mode = AUDIO_MODE_NORMAL; 2127 adev->active_input = NULL; 2128 adev->out_device = AUDIO_DEVICE_NONE; 2129 adev->voice_call_rx = NULL; 2130 adev->voice_call_tx = NULL; 2131 adev->voice_volume = 1.0f; 2132 adev->tty_mode = TTY_MODE_OFF; 2133 adev->bluetooth_nrec = true; 2134 adev->cur_out_snd_device = 0; 2135 adev->cur_in_snd_device = 0; 2136 adev->out_snd_device_active = false; 2137 adev->in_snd_device_active = false; 2138 adev->usecase_list.next = NULL; 2139 adev->usecase_list.id = USECASE_INVALID; 2140 adev->in_call = false; 2141 adev->acdb_settings = TTY_MODE_OFF; 2142 pthread_mutex_unlock(&adev->lock); 2143 2144 /* Loads platform specific libraries dynamically */ 2145 init_platform_data(adev); 2146 2147 *device = &adev->device.common; 2148 2149 ALOGV("%s: exit", __func__); 2150 return 0; 2151} 2152 2153static struct hw_module_methods_t hal_module_methods = { 2154 .open = adev_open, 2155}; 2156 2157struct audio_module HAL_MODULE_INFO_SYM = { 2158 .common = { 2159 .tag = HARDWARE_MODULE_TAG, 2160 .module_api_version = AUDIO_MODULE_API_VERSION_0_1, 2161 .hal_api_version = HARDWARE_HAL_API_VERSION, 2162 .id = AUDIO_HARDWARE_MODULE_ID, 2163 .name = "QCOM Audio HAL", 2164 .author = "Code Aurora Forum", 2165 .methods = &hal_module_methods, 2166 }, 2167}; 2168