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1 /*
2  * Copyright (C) 2013-2018 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 "a2dp_offload"
18 /*#define LOG_NDEBUG 0*/
19 #define LOG_NDDEBUG 0
20 
21 #include <dlfcn.h>
22 #include <errno.h>
23 #include <pthread.h>
24 #include <stdlib.h>
25 
26 #include <cutils/log.h>
27 #include <cutils/str_parms.h>
28 #include <cutils/properties.h>
29 #include <hardware/audio.h>
30 
31 #include "audio_hw.h"
32 #include "audio_extn.h"
33 #include "platform_api.h"
34 
35 #ifdef A2DP_OFFLOAD_ENABLED
36 #define BT_IPC_LIB_NAME  "libbthost_if.so"
37 #define BTAUDIO_OFFLOAD_LIB_NAME  "btaudio_offload_if.so"
38 
39 // Media format definitions
40 #define ENC_MEDIA_FMT_AAC                                  0x00010DA6
41 #define ENC_MEDIA_FMT_APTX                                 0x000131ff
42 #define ENC_MEDIA_FMT_APTX_HD                              0x00013200
43 #define ENC_MEDIA_FMT_LDAC                                 0x00013224
44 #define ENC_MEDIA_FMT_SBC                                  0x00010BF2
45 #define ENC_MEDIA_FMT_NONE                                 0
46 #define MEDIA_FMT_SBC_ALLOCATION_METHOD_LOUDNESS           0
47 #define MEDIA_FMT_SBC_ALLOCATION_METHOD_SNR                1
48 #define MEDIA_FMT_AAC_AOT_LC                               2
49 #define MEDIA_FMT_AAC_AOT_SBR                              5
50 #define MEDIA_FMT_AAC_AOT_PS                               29
51 #define MEDIA_FMT_SBC_CHANNEL_MODE_MONO                    1
52 #define MEDIA_FMT_SBC_CHANNEL_MODE_STEREO                  2
53 #define MEDIA_FMT_SBC_CHANNEL_MODE_DUAL_MONO               8
54 #define MEDIA_FMT_SBC_CHANNEL_MODE_JOINT_STEREO            9
55 
56 // PCM channels
57 #define PCM_CHANNEL_L                                      1
58 #define PCM_CHANNEL_R                                      2
59 #define PCM_CHANNEL_C                                      3
60 
61 // Mixer controls sent to ALSA
62 #define MIXER_ENC_CONFIG_BLOCK     "SLIM_7_RX Encoder Config"
63 #define MIXER_DEC_CONFIG_BLOCK     "SLIM_7_TX Decoder Config"
64 #define MIXER_ENC_BIT_FORMAT       "AFE Input Bit Format"
65 #define MIXER_SCRAMBLER_MODE       "AFE Scrambler Mode"
66 #define MIXER_SAMPLE_RATE_RX       "BT SampleRate RX"
67 #define MIXER_SAMPLE_RATE_TX       "BT SampleRate TX"
68 #define MIXER_AFE_IN_CHANNELS      "AFE Input Channels"
69 #define MIXER_ABR_TX_FEEDBACK_PATH "A2DP_SLIM7_UL_HL Switch"
70 #define MIXER_SET_FEEDBACK_CHANNEL "BT set feedback channel"
71 
72 // Encoder format strings
73 #define ENC_FMT_AAC                "aac"
74 #define ENC_FMT_APTX               "aptx"
75 #define ENC_FMT_APTXHD             "aptxhd"
76 #define ENC_FMT_LDAC               "ldac"
77 #define ENC_FMT_SBC                "sbc"
78 
79 // System properties used for A2DP Offload
80 #define SYSPROP_A2DP_OFFLOAD_SUPPORTED "ro.bluetooth.a2dp_offload.supported"
81 #define SYSPROP_A2DP_OFFLOAD_DISABLED  "persist.bluetooth.a2dp_offload.disabled"
82 #define SYSPROP_BLUETOOTH_AUDIO_HAL_DISABLED  "persist.bluetooth.bluetooth_audio_hal.disabled"
83 #define SYSPROP_A2DP_CODEC_LATENCIES   "vendor.audio.a2dp.codec.latency"
84 
85 // Default encoder bit width
86 #define DEFAULT_ENCODER_BIT_FORMAT 16
87 
88 // Default encoder latency
89 #define DEFAULT_ENCODER_LATENCY    200
90 
91 // Encoder latency offset for codecs supported
92 #define ENCODER_LATENCY_AAC        70
93 #define ENCODER_LATENCY_APTX       40
94 #define ENCODER_LATENCY_APTX_HD    20
95 #define ENCODER_LATENCY_LDAC       40
96 #define ENCODER_LATENCY_SBC        10
97 #define ENCODER_LATENCY_PCM        50
98 
99 // Default A2DP sink latency offset
100 #define DEFAULT_SINK_LATENCY_AAC       180
101 #define DEFAULT_SINK_LATENCY_APTX      160
102 #define DEFAULT_SINK_LATENCY_APTX_HD   180
103 #define DEFAULT_SINK_LATENCY_LDAC      180
104 #define DEFAULT_SINK_LATENCY_SBC       140
105 #define DEFAULT_SINK_LATENCY_PCM       140
106 
107 // Slimbus Tx sample rate for ABR feedback channel
108 #define ABR_TX_SAMPLE_RATE             "KHZ_8"
109 
110 // Purpose ID for Inter Module Communication (IMC) in AFE
111 #define IMC_PURPOSE_ID_BT_INFO         0x000132E2
112 
113 // Maximum quality levels for ABR
114 #define MAX_ABR_QUALITY_LEVELS             5
115 
116 // Instance identifier for A2DP
117 #define MAX_INSTANCE_ID                (UINT32_MAX / 2)
118 
119 /*
120  * Below enum values are extended from audio-base.h to
121  * keep encoder codec type local to bthost_ipc
122  * and audio_hal as these are intended only for handshake
123  * between IPC lib and Audio HAL.
124  */
125 typedef enum {
126     ENC_CODEC_TYPE_INVALID = AUDIO_FORMAT_INVALID, // 0xFFFFFFFFUL
127     ENC_CODEC_TYPE_AAC = AUDIO_FORMAT_AAC, // 0x04000000UL
128     ENC_CODEC_TYPE_SBC = AUDIO_FORMAT_SBC, // 0x1F000000UL
129     ENC_CODEC_TYPE_APTX = AUDIO_FORMAT_APTX, // 0x20000000UL
130     ENC_CODEC_TYPE_APTX_HD = AUDIO_FORMAT_APTX_HD, // 0x21000000UL
131     ENC_CODEC_TYPE_LDAC = AUDIO_FORMAT_LDAC, // 0x23000000UL
132     ENC_CODEC_TYPE_PCM = AUDIO_FORMAT_PCM_16_BIT, // 0x1u
133 } enc_codec_t;
134 
135 typedef int (*audio_stream_open_t)(void);
136 typedef int (*audio_stream_close_t)(void);
137 typedef int (*audio_stream_start_t)(void);
138 typedef int (*audio_stream_stop_t)(void);
139 typedef int (*audio_stream_suspend_t)(void);
140 typedef void (*audio_handoff_triggered_t)(void);
141 typedef void (*clear_a2dp_suspend_flag_t)(void);
142 typedef void * (*audio_get_codec_config_t)(uint8_t *multicast_status, uint8_t *num_dev,
143                                enc_codec_t *codec_type);
144 typedef int (*audio_check_a2dp_ready_t)(void);
145 typedef int (*audio_is_scrambling_enabled_t)(void);
146 typedef uint16_t (*audio_get_a2dp_sink_latency_t)(void);
147 
148 enum A2DP_STATE {
149     A2DP_STATE_CONNECTED,
150     A2DP_STATE_STARTED,
151     A2DP_STATE_STOPPED,
152     A2DP_STATE_DISCONNECTED,
153 };
154 
155 typedef enum {
156     IMC_TRANSMIT,
157     IMC_RECEIVE,
158 } imc_direction_t;
159 
160 typedef enum {
161     IMC_DISABLE,
162     IMC_ENABLE,
163 } imc_status_t;
164 
165 typedef enum {
166     MTU_SIZE,
167     PEAK_BIT_RATE,
168 } frame_control_type_t;
169 
170 /* PCM config for ABR Feedback hostless front end */
171 static struct pcm_config pcm_config_abr = {
172     .channels = 1,
173     .rate = 8000,
174     .period_size = 240,
175     .period_count = 2,
176     .format = PCM_FORMAT_S16_LE,
177     .start_threshold = 0,
178     .stop_threshold = INT_MAX,
179     .avail_min = 0,
180 };
181 
182 /* Adaptive bitrate config for A2DP codecs */
183 struct a2dp_abr_config {
184     /* Flag to denote whether Adaptive bitrate is enabled for codec */
185     bool is_abr_enabled;
186     /* Flag to denote whether front end has been opened for ABR */
187     bool abr_started;
188     /* ABR Tx path pcm handle */
189     struct pcm *abr_tx_handle;
190     /* ABR Inter Module Communication (IMC) instance ID */
191     uint32_t imc_instance;
192 };
193 
194 static uint32_t instance_id = MAX_INSTANCE_ID;
195 
196 /* Data structure used to:
197  * - Update the A2DP state machine
198  * - Communicate with the libbthost_if.so IPC library
199  * - Store DSP encoder configuration information
200  */
201 struct a2dp_data {
202     /* Audio device handle */
203     struct audio_device *adev;
204     /* Bluetooth IPC library handle */
205     void *bt_lib_handle;
206     /* Open A2DP audio stream. Initialize audio datapath */
207     audio_stream_open_t audio_stream_open;
208     /* Close A2DP audio stream */
209     audio_stream_close_t audio_stream_close;
210     /* Start A2DP audio stream. Start audio datapath */
211     audio_stream_start_t audio_stream_start;
212     /* Stop A2DP audio stream */
213     audio_stream_stop_t audio_stream_stop;
214     /* Suspend A2DP audio stream */
215     audio_stream_suspend_t audio_stream_suspend;
216     /* Notify Bluetooth IPC library of handoff being triggered */
217     audio_handoff_triggered_t audio_handoff_triggered;
218     /* Clear A2DP suspend flag in Bluetooth IPC library */
219     clear_a2dp_suspend_flag_t clear_a2dp_suspend_flag;
220     /* Get codec configuration from Bluetooth stack via
221      * Bluetooth IPC library */
222     audio_get_codec_config_t audio_get_codec_config;
223     /* Check if A2DP is ready */
224     audio_check_a2dp_ready_t audio_check_a2dp_ready;
225     /* Check if scrambling is enabled on BTSoC */
226     audio_is_scrambling_enabled_t audio_is_scrambling_enabled;
227     /* Get sink latency from Bluetooth stack */
228     audio_get_a2dp_sink_latency_t audio_get_a2dp_sink_latency;
229     /* Internal A2DP state identifier */
230     enum A2DP_STATE bt_state;
231     /* A2DP codec type configured */
232     enc_codec_t bt_encoder_format;
233     /* Sampling rate configured with A2DP encoder on DSP */
234     uint32_t enc_sampling_rate;
235     /* Channel configuration of A2DP on DSP */
236     uint32_t enc_channels;
237     /* Flag to denote whether A2DP audio datapath has started */
238     bool a2dp_started;
239     /* Flag to denote whether A2DP audio datapath is suspended */
240     bool a2dp_suspended;
241     /* Number of active sessions on A2DP output */
242     int  a2dp_total_active_session_request;
243     /* Flag to denote whether A2DP offload is enabled */
244     bool is_a2dp_offload_enabled;
245     /* Flag to denote whether codec reconfiguration/soft handoff is in progress */
246     bool is_handoff_in_progress;
247     /* Flag to denote whether APTX Dual Mono encoder is supported */
248     bool is_aptx_dual_mono_supported;
249     /* Adaptive bitrate config for A2DP codecs */
250     struct a2dp_abr_config abr_config;
251 };
252 
253 struct a2dp_data a2dp;
254 
255 /* Adaptive bitrate (ABR) is supported by certain Bluetooth codecs.
256  * Structures sent to configure DSP for ABR are defined below.
257  * This data helps DSP configure feedback path (BTSoC to LPASS)
258  * for link quality levels and mapping quality levels to codec
259  * specific bitrate.
260  */
261 
262 /* Key value pair for link quality level to bitrate mapping. */
263 struct bit_rate_level_map_t {
264     uint32_t link_quality_level;
265     uint32_t bitrate;
266 };
267 
268 /* Link quality level to bitrate mapping info sent to DSP. */
269 struct quality_level_to_bitrate_info {
270     /* Number of quality levels being mapped.
271      * This will be equal to the size of mapping table.
272      */
273     uint32_t num_levels;
274     /* Quality level to bitrate mapping table */
275     struct bit_rate_level_map_t bit_rate_level_map[MAX_ABR_QUALITY_LEVELS];
276 };
277 
278 /* Structure to set up Inter Module Communication (IMC) between
279  * AFE Decoder and Encoder.
280  */
281 struct imc_dec_enc_info {
282     /* Decoder to encoder communication direction.
283      * Transmit = 0 / Receive = 1
284      */
285     uint32_t direction;
286     /* Enable / disable IMC between decoder and encoder */
287     uint32_t enable;
288     /* Purpose of IMC being set up between decoder and encoder.
289      * IMC_PURPOSE_ID_BT_INFO defined for link quality feedback
290      * is the default value to be sent as purpose.
291      */
292     uint32_t purpose;
293     /* Unique communication instance ID.
294      * purpose and comm_instance together form the actual key
295      * used in IMC registration, which must be the same for
296      * encoder and decoder for which IMC is being set up.
297      */
298     uint32_t comm_instance;
299 };
300 
301 /* Structure to control frame size of AAC encoded frames. */
302 struct aac_frame_size_control_t {
303     /* Type of frame size control: MTU_SIZE / PEAK_BIT_RATE*/
304     uint32_t ctl_type;
305     /* Control value
306      * MTU_SIZE: MTU size in bytes
307      * PEAK_BIT_RATE: Peak bitrate in bits per second.
308      */
309     uint32_t ctl_value;
310 };
311 
312 /* Structure used for ABR config of AFE encoder and decoder. */
313 struct abr_enc_cfg_t {
314     /* Link quality level to bitrate mapping info sent to DSP. */
315     struct quality_level_to_bitrate_info mapping_info;
316     /* Information to set up IMC between decoder and encoder */
317     struct imc_dec_enc_info imc_info;
318     /* Flag to indicate whether ABR is enabled */
319     bool is_abr_enabled;
320 }  __attribute__ ((packed));
321 
322 /* Structure to send configuration for decoder introduced
323  * on AFE Tx path for ABR link quality feedback to BT encoder.
324  */
325 struct abr_dec_cfg_t {
326     /* Decoder media format */
327     uint32_t dec_format;
328     /* Information to set up IMC between decoder and encoder */
329     struct imc_dec_enc_info imc_info;
330 } __attribute__ ((packed));
331 
332 /* START of DSP configurable structures
333  * These values should match with DSP interface defintion
334  */
335 
336 struct aac_cfg_blk_t {
337     /* Encoder media format for AAC */
338     uint32_t      enc_format;
339 
340     /* Encoding rate in bits per second */
341     uint32_t      bit_rate;
342 
343    /* supported enc_mode are AAC_LC, AAC_SBR, AAC_PS */
344     uint32_t      enc_mode;
345 
346     /* supported aac_fmt_flag are ADTS/RAW */
347     uint16_t      aac_fmt_flag;
348 
349     /* supported channel_cfg are Native mode, Mono , Stereo */
350     uint16_t      channel_cfg;
351 
352     /* Number of samples per second */
353     uint32_t      sample_rate;
354 } __attribute__ ((packed));
355 
356 /* AAC encoder configuration structure. */
357 typedef struct aac_enc_cfg_t aac_enc_cfg_t;
358 
359 struct aac_enc_cfg_t {
360     struct aac_cfg_blk_t aac_cfg;
361     struct aac_frame_size_control_t frame_ctl;
362 } __attribute__ ((packed));
363 
364 /* SBC encoder configuration structure. */
365 typedef struct sbc_enc_cfg_t sbc_enc_cfg_t;
366 
367 struct sbc_enc_cfg_t {
368     /* Encoder media format for SBC */
369     uint32_t      enc_format;
370 
371     /* supported num_subbands are 4/8 */
372     uint32_t      num_subbands;
373 
374     /* supported blk_len are 4, 8, 12, 16 */
375     uint32_t      blk_len;
376 
377     /* supported channel_mode are MONO, STEREO, DUAL_MONO, JOINT_STEREO */
378     uint32_t      channel_mode;
379 
380     /* supported alloc_method are LOUNDNESS/SNR */
381     uint32_t      alloc_method;
382 
383     /* supported bit_rate for mono channel is max 320kbps
384      * supported bit rate for stereo channel is max 512 kbps */
385     uint32_t      bit_rate;
386 
387     /* Number of samples per second */
388     uint32_t      sample_rate;
389 } __attribute__ ((packed));
390 
391 struct custom_enc_cfg_t {
392     /* Custom encoder media format */
393     uint32_t      enc_format;
394 
395     /* Number of samples per second */
396     uint32_t      sample_rate;
397 
398     /* supported num_channels are Mono/Stereo */
399     uint16_t      num_channels;
400 
401     /* Reserved for future enhancement */
402     uint16_t      reserved;
403 
404     /* supported channel_mapping for mono is CHANNEL_C
405      * supported channel mapping for stereo is CHANNEL_L and CHANNEL_R */
406     uint8_t       channel_mapping[8];
407 
408     /* Reserved for future enhancement */
409     uint32_t      custom_size;
410 } __attribute__ ((packed));
411 
412 struct aptx_v2_enc_cfg_ext_t {
413 /* sync_mode introduced with APTX V2 libraries
414  * sync mode: 0x0 = stereo sync mode
415  *            0x01 = dual mono sync mode
416  *            0x02 = dual mono with no sync on either L or R codewords
417  */
418     uint32_t       sync_mode;
419 } __attribute__ ((packed));
420 
421 /* APTX struct for combining custom enc and V2 members */
422 struct aptx_enc_cfg_t {
423     struct custom_enc_cfg_t  custom_cfg;
424     struct aptx_v2_enc_cfg_ext_t aptx_v2_cfg;
425 } __attribute__ ((packed));
426 
427 struct ldac_specific_enc_cfg_t {
428    /*
429     * This is used to calculate the encoder output
430     * bytes per frame (i.e. bytes per packet).
431     * Bit rate also configures the EQMID.
432     * The min bit rate 303000 bps is calculated for
433     * 44.1 kHz and 88.2 KHz sampling frequencies with
434     * Mobile use Quality.
435     * The max bit rate of 990000 bps is calculated for
436     * 96kHz and 48 KHz with High Quality
437     * @Range(in bits per second)
438     * 303000 for Mobile use Quality
439     * 606000 for standard Quality
440     * 909000 for High Quality
441     */
442     uint32_t      bit_rate;
443 
444    /*
445     * The channel setting information for LDAC specification
446     * of Bluetooth A2DP which is determined by SRC and SNK
447     * devices in Bluetooth transmission.
448     * @Range:
449     * 0 for native mode
450     * 4 for mono
451     * 2 for dual channel
452     * 1 for stereo
453     */
454     uint16_t      channel_mode;
455 
456    /*
457     * Maximum Transmission Unit (MTU).
458     * The minimum MTU that a L2CAP implementation for LDAC shall
459     * support is 679 bytes, because LDAC is optimized with 2-DH5
460     * packet as its target.
461     * @Range : 679
462     * @Default: 679 for LDACBT_MTU_2DH5
463     */
464     uint16_t      mtu;
465 } __attribute__ ((packed));
466 
467 /* LDAC struct for combining custom enc and standard members */
468 struct ldac_enc_cfg_t {
469     struct custom_enc_cfg_t  custom_cfg;
470     struct ldac_specific_enc_cfg_t ldac_cfg;
471     struct abr_enc_cfg_t abr_cfg;
472 } __attribute__ ((packed));
473 
474 /* Information about Bluetooth SBC encoder configuration
475  * This data is used between audio HAL module and
476  * Bluetooth IPC library to configure DSP encoder
477  */
478 typedef struct {
479     uint32_t subband;          /* 4, 8 */
480     uint32_t blk_len;          /* 4, 8, 12, 16 */
481     uint16_t sampling_rate;    /* 44.1khz, 48khz */
482     uint8_t  channels;         /* 0(Mono), 1(Dual_mono), 2(Stereo), 3(JS) */
483     uint8_t  alloc;            /* 0(Loudness), 1(SNR) */
484     uint8_t  min_bitpool;      /* 2 */
485     uint8_t  max_bitpool;      /* 53(44.1khz), 51 (48khz) */
486     uint32_t bitrate;          /* 320kbps to 512kbps */
487     uint32_t bits_per_sample;  /* 16 bit */
488 } audio_sbc_encoder_config;
489 
490 /* Information about Bluetooth APTX encoder configuration
491  * This data is used between audio HAL module and
492  * Bluetooth IPC library to configure DSP encoder
493  */
494 typedef struct {
495     uint16_t sampling_rate;
496     uint8_t  channels;
497     uint32_t bitrate;
498     uint32_t bits_per_sample;
499 } audio_aptx_default_config;
500 
501 typedef struct {
502     uint16_t sampling_rate;
503     uint8_t  channels;
504     uint32_t bitrate;
505     uint32_t sync_mode;
506 } audio_aptx_dual_mono_config;
507 
508 typedef union {
509     audio_aptx_default_config *default_cfg;
510     audio_aptx_dual_mono_config *dual_mono_cfg;
511 } audio_aptx_encoder_config;
512 
513 /* Information about Bluetooth AAC encoder configuration
514  * This data is used between audio HAL module and
515  * Bluetooth IPC library to configure DSP encoder
516  */
517 typedef struct {
518     uint32_t enc_mode; /* LC, SBR, PS */
519     uint16_t format_flag; /* RAW, ADTS */
520     uint16_t channels; /* 1-Mono, 2-Stereo */
521     uint32_t sampling_rate;
522     uint32_t bitrate;
523     uint32_t bits_per_sample;
524     struct aac_frame_size_control_t frame_ctl;
525 } audio_aac_encoder_config;
526 
527 /* Information about Bluetooth LDAC encoder configuration
528  * This data is used between audio HAL module and
529  * Bluetooth IPC library to configure DSP encoder
530  */
531 typedef struct {
532     uint32_t sampling_rate; /* 44100, 48000, 88200, 96000 */
533     uint32_t bit_rate; /* 303000, 606000, 909000 (in bits per second) */
534     uint16_t channel_mode; /* 0, 4, 2, 1 */
535     uint16_t mtu;
536     uint32_t bits_per_sample; /* 16, 24, 32 (bits) */
537     bool is_abr_enabled;
538     struct quality_level_to_bitrate_info level_to_bitrate_map;
539 } audio_ldac_encoder_config;
540 
541 /*********** END of DSP configurable structures ********************/
542 
a2dp_common_init()543 static void a2dp_common_init()
544 {
545     a2dp.a2dp_started = false;
546     a2dp.a2dp_total_active_session_request = 0;
547     a2dp.a2dp_suspended = false;
548     a2dp.bt_encoder_format = ENC_CODEC_TYPE_INVALID;
549     a2dp.bt_state = A2DP_STATE_DISCONNECTED;
550     a2dp.abr_config.is_abr_enabled = false;
551     a2dp.abr_config.abr_started = false;
552     a2dp.abr_config.imc_instance = 0;
553     a2dp.abr_config.abr_tx_handle = NULL;
554 }
555 
update_offload_codec_support()556 static void update_offload_codec_support()
557 {
558     a2dp.is_a2dp_offload_enabled =
559             property_get_bool(SYSPROP_A2DP_OFFLOAD_SUPPORTED, false) &&
560             !property_get_bool(SYSPROP_A2DP_OFFLOAD_DISABLED, false);
561 
562     ALOGD("%s: A2DP offload enabled = %d", __func__,
563           a2dp.is_a2dp_offload_enabled);
564 }
565 
stop_abr()566 static int stop_abr()
567 {
568     struct mixer_ctl *ctl_abr_tx_path = NULL;
569     struct mixer_ctl *ctl_set_bt_feedback_channel = NULL;
570 
571     /* This function can be used if !abr_started for clean up */
572     ALOGV("%s: enter", __func__);
573 
574     // Close hostless front end
575     if (a2dp.abr_config.abr_tx_handle != NULL) {
576         pcm_close(a2dp.abr_config.abr_tx_handle);
577         a2dp.abr_config.abr_tx_handle = NULL;
578     }
579     a2dp.abr_config.abr_started = false;
580     a2dp.abr_config.imc_instance = 0;
581 
582     // Reset BT driver mixer control for ABR usecase
583     ctl_set_bt_feedback_channel = mixer_get_ctl_by_name(a2dp.adev->mixer,
584                                         MIXER_SET_FEEDBACK_CHANNEL);
585     if (!ctl_set_bt_feedback_channel) {
586         ALOGE("%s: ERROR Set usecase mixer control not identifed", __func__);
587         return -ENOSYS;
588     }
589     if (mixer_ctl_set_value(ctl_set_bt_feedback_channel, 0, 0) != 0) {
590         ALOGE("%s: Failed to set BT usecase", __func__);
591         return -ENOSYS;
592     }
593 
594     // Reset ABR Tx feedback path
595     ALOGV("%s: Disable ABR Tx feedback path", __func__);
596     ctl_abr_tx_path = mixer_get_ctl_by_name(a2dp.adev->mixer,
597                                         MIXER_ABR_TX_FEEDBACK_PATH);
598     if (!ctl_abr_tx_path) {
599         ALOGE("%s: ERROR ABR Tx feedback path mixer control not identifed", __func__);
600         return -ENOSYS;
601     }
602     if (mixer_ctl_set_value(ctl_abr_tx_path, 0, 0) != 0) {
603         ALOGE("%s: Failed to set ABR Tx feedback path", __func__);
604         return -ENOSYS;
605     }
606 
607    return 0;
608 }
609 
start_abr()610 static int start_abr()
611 {
612     struct mixer_ctl *ctl_abr_tx_path = NULL;
613     struct mixer_ctl *ctl_set_bt_feedback_channel = NULL;
614     int abr_device_id;
615     int ret = 0;
616 
617     if (!a2dp.abr_config.is_abr_enabled) {
618         ALOGE("%s: Cannot start if ABR is not enabled", __func__);
619         return -ENOSYS;
620     }
621 
622     if (a2dp.abr_config.abr_started) {
623         ALOGI("%s: ABR has already started", __func__);
624         return ret;
625     }
626 
627     // Enable Slimbus 7 Tx feedback path
628     ALOGV("%s: Enable ABR Tx feedback path", __func__);
629     ctl_abr_tx_path = mixer_get_ctl_by_name(a2dp.adev->mixer,
630                                         MIXER_ABR_TX_FEEDBACK_PATH);
631     if (!ctl_abr_tx_path) {
632         ALOGE("%s: ERROR ABR Tx feedback path mixer control not identifed", __func__);
633         return -ENOSYS;
634     }
635     if (mixer_ctl_set_value(ctl_abr_tx_path, 0, 1) != 0) {
636         ALOGE("%s: Failed to set ABR Tx feedback path", __func__);
637         return -ENOSYS;
638     }
639 
640     // Notify ABR usecase information to BT driver to distinguish
641     // between SCO and feedback usecase
642     ctl_set_bt_feedback_channel = mixer_get_ctl_by_name(a2dp.adev->mixer,
643                                         MIXER_SET_FEEDBACK_CHANNEL);
644     if (!ctl_set_bt_feedback_channel) {
645         ALOGE("%s: ERROR Set usecase mixer control not identifed", __func__);
646         return -ENOSYS;
647     }
648     if (mixer_ctl_set_value(ctl_set_bt_feedback_channel, 0, 1) != 0) {
649         ALOGE("%s: Failed to set BT usecase", __func__);
650         return -ENOSYS;
651     }
652 
653     // Open hostless front end and prepare ABR Tx path
654     abr_device_id = platform_get_pcm_device_id(USECASE_AUDIO_A2DP_ABR_FEEDBACK,
655                                                PCM_CAPTURE);
656     if (!a2dp.abr_config.abr_tx_handle) {
657         a2dp.abr_config.abr_tx_handle = pcm_open(a2dp.adev->snd_card,
658                                                  abr_device_id, PCM_IN,
659                                                  &pcm_config_abr);
660         if (a2dp.abr_config.abr_tx_handle == NULL ||
661             !pcm_is_ready(a2dp.abr_config.abr_tx_handle))
662             goto fail;
663     }
664     ret = pcm_start(a2dp.abr_config.abr_tx_handle);
665     if (ret < 0)
666         goto fail;
667     a2dp.abr_config.abr_started = true;
668 
669     return ret;
670 
671 fail:
672     ALOGE("%s: %s", __func__, pcm_get_error(a2dp.abr_config.abr_tx_handle));
673     stop_abr();
674     return -ENOSYS;
675 }
676 
677 /* API to open Bluetooth IPC library to start IPC communication */
open_a2dp_output()678 static int open_a2dp_output()
679 {
680     int ret = 0;
681     ALOGD("%s: Open A2DP output start", __func__);
682     bool hal_v2_enabled =
683               !property_get_bool(SYSPROP_BLUETOOTH_AUDIO_HAL_DISABLED, false);
684 
685     if (a2dp.bt_state != A2DP_STATE_DISCONNECTED) {
686         ALOGD("%s: Called A2DP open with improper state, Ignoring request state %d",
687                    __func__, a2dp.bt_state);
688         return -ENOSYS;
689     }
690 
691     if (a2dp.bt_lib_handle == NULL) {
692         ALOGD("%s: Requesting for Bluetooth IPC lib handle [%s]", __func__,
693               hal_v2_enabled ? BTAUDIO_OFFLOAD_LIB_NAME : BT_IPC_LIB_NAME);
694         if (hal_v2_enabled) {
695            a2dp.bt_lib_handle = dlopen(BTAUDIO_OFFLOAD_LIB_NAME, RTLD_NOW);
696         } else {
697            a2dp.bt_lib_handle = dlopen(BT_IPC_LIB_NAME, RTLD_NOW);
698         }
699         if (a2dp.bt_lib_handle == NULL) {
700             ret = -errno;
701             ALOGE("%s: DLOPEN failed for %s errno %d strerror %s", __func__,
702                       BT_IPC_LIB_NAME, errno, strerror(errno));
703             a2dp.bt_state = A2DP_STATE_DISCONNECTED;
704             return ret;
705         } else {
706             a2dp.audio_stream_open = (audio_stream_open_t)
707                           dlsym(a2dp.bt_lib_handle, "audio_stream_open");
708             a2dp.audio_stream_start = (audio_stream_start_t)
709                           dlsym(a2dp.bt_lib_handle, "audio_stream_start");
710             a2dp.audio_get_codec_config = (audio_get_codec_config_t)
711                           dlsym(a2dp.bt_lib_handle, "audio_get_codec_config");
712             a2dp.audio_stream_suspend = (audio_stream_suspend_t)
713                           dlsym(a2dp.bt_lib_handle, "audio_stream_suspend");
714             a2dp.audio_handoff_triggered = (audio_handoff_triggered_t)
715                           dlsym(a2dp.bt_lib_handle, "audio_handoff_triggered");
716             a2dp.clear_a2dp_suspend_flag = (clear_a2dp_suspend_flag_t)
717                           dlsym(a2dp.bt_lib_handle, "clear_a2dp_suspend_flag");
718             a2dp.audio_stream_stop = (audio_stream_stop_t)
719                           dlsym(a2dp.bt_lib_handle, "audio_stream_stop");
720             a2dp.audio_stream_close = (audio_stream_close_t)
721                           dlsym(a2dp.bt_lib_handle, "audio_stream_close");
722             a2dp.audio_check_a2dp_ready = (audio_check_a2dp_ready_t)
723                         dlsym(a2dp.bt_lib_handle,"audio_check_a2dp_ready");
724             a2dp.audio_is_scrambling_enabled = (audio_is_scrambling_enabled_t)
725                         dlsym(a2dp.bt_lib_handle,"audio_is_scrambling_enabled");
726             a2dp.audio_get_a2dp_sink_latency = (audio_get_a2dp_sink_latency_t)
727                         dlsym(a2dp.bt_lib_handle,"audio_get_a2dp_sink_latency");
728         }
729     }
730 
731     if (a2dp.bt_lib_handle && a2dp.audio_stream_open) {
732         ALOGD("%s: calling Bluetooth stream open", __func__);
733         ret = a2dp.audio_stream_open();
734         if (ret != 0) {
735             ALOGE("%s: Failed to open output stream for A2DP: status %d", __func__, ret);
736             dlclose(a2dp.bt_lib_handle);
737             a2dp.bt_lib_handle = NULL;
738             a2dp.bt_state = A2DP_STATE_DISCONNECTED;
739             return ret;
740         }
741         a2dp.bt_state = A2DP_STATE_CONNECTED;
742     } else {
743         ALOGE("%s: A2DP handle is not identified, Ignoring open request", __func__);
744         a2dp.bt_state = A2DP_STATE_DISCONNECTED;
745         return -ENOSYS;
746     }
747 
748     return ret;
749 }
750 
close_a2dp_output()751 static int close_a2dp_output()
752 {
753     ALOGV("%s\n",__func__);
754     if (!(a2dp.bt_lib_handle && a2dp.audio_stream_close)) {
755         ALOGE("%s: A2DP handle is not identified, Ignoring close request", __func__);
756         return -ENOSYS;
757     }
758     if (a2dp.bt_state != A2DP_STATE_DISCONNECTED) {
759         ALOGD("%s: calling Bluetooth stream close", __func__);
760         if (a2dp.audio_stream_close() == false)
761             ALOGE("%s: failed close A2DP control path from Bluetooth IPC library", __func__);
762     }
763     a2dp_common_init();
764     a2dp.enc_sampling_rate = 0;
765     a2dp.enc_channels = 0;
766 
767     return 0;
768 }
769 
a2dp_check_and_set_scrambler()770 static int a2dp_check_and_set_scrambler()
771 {
772     bool scrambler_mode = false;
773     struct mixer_ctl *ctrl_scrambler_mode = NULL;
774     int ret = 0;
775     if (a2dp.audio_is_scrambling_enabled && (a2dp.bt_state != A2DP_STATE_DISCONNECTED))
776         scrambler_mode = a2dp.audio_is_scrambling_enabled();
777 
778     // Scrambling needs to be enabled in DSP if scrambler mode is set
779     // disable scrambling not required
780     if (scrambler_mode) {
781         // enable scrambler in dsp
782         ctrl_scrambler_mode = mixer_get_ctl_by_name(a2dp.adev->mixer,
783                                             MIXER_SCRAMBLER_MODE);
784         if (!ctrl_scrambler_mode) {
785             ALOGE("%s: ERROR scrambler mode mixer control not identifed", __func__);
786             return -ENOSYS;
787         } else {
788             ret = mixer_ctl_set_value(ctrl_scrambler_mode, 0, true);
789             if (ret != 0) {
790                 ALOGE("%s: Could not set scrambler mode", __func__);
791                 return ret;
792             }
793         }
794     }
795     return 0;
796 }
797 
a2dp_set_backend_cfg()798 static int a2dp_set_backend_cfg()
799 {
800     const char *rate_str = NULL, *in_channels = NULL;
801     uint32_t sampling_rate_rx = a2dp.enc_sampling_rate;
802     struct mixer_ctl *ctl_sample_rate = NULL, *ctrl_in_channels = NULL;
803 
804     // For LDAC encoder open slimbus port at 96Khz for 48Khz input
805     // and 88.2Khz for 44.1Khz input.
806     if ((a2dp.bt_encoder_format == ENC_CODEC_TYPE_LDAC) &&
807         (sampling_rate_rx == 48000 || sampling_rate_rx == 44100 )) {
808         sampling_rate_rx *= 2;
809     }
810     // No need to configure backend for PCM format.
811     if (a2dp.bt_encoder_format == ENC_CODEC_TYPE_PCM) {
812         return 0;
813     }
814     // Set Rx backend sample rate
815     switch (sampling_rate_rx) {
816     case 44100:
817         rate_str = "KHZ_44P1";
818         break;
819     case 88200:
820         rate_str = "KHZ_88P2";
821         break;
822     case 96000:
823         rate_str = "KHZ_96";
824         break;
825     case 48000:
826     default:
827         rate_str = "KHZ_48";
828         break;
829     }
830 
831     ALOGV("%s: set backend rx sample rate = %s", __func__, rate_str);
832     ctl_sample_rate = mixer_get_ctl_by_name(a2dp.adev->mixer,
833                                         MIXER_SAMPLE_RATE_RX);
834     if (!ctl_sample_rate) {
835         ALOGE("%s: ERROR backend sample rate mixer control not identifed", __func__);
836         return -ENOSYS;
837     }
838     if (mixer_ctl_set_enum_by_string(ctl_sample_rate, rate_str) != 0) {
839         ALOGE("%s: Failed to set backend sample rate = %s", __func__, rate_str);
840         return -ENOSYS;
841     }
842 
843     // Set Tx backend sample rate
844     if (a2dp.abr_config.is_abr_enabled) {
845         rate_str = ABR_TX_SAMPLE_RATE;
846 
847         ALOGV("%s: set backend tx sample rate = %s", __func__, rate_str);
848         ctl_sample_rate = mixer_get_ctl_by_name(a2dp.adev->mixer,
849                                             MIXER_SAMPLE_RATE_TX);
850         if (!ctl_sample_rate) {
851             ALOGE("%s: ERROR backend sample rate mixer control not identifed", __func__);
852             return -ENOSYS;
853         }
854         if (mixer_ctl_set_enum_by_string(ctl_sample_rate, rate_str) != 0) {
855             ALOGE("%s: Failed to set backend sample rate = %s",
856                                         __func__, rate_str);
857             return -ENOSYS;
858         }
859     }
860 
861     // Configure AFE input channels
862     switch (a2dp.enc_channels) {
863     case 1:
864         in_channels = "One";
865         break;
866     case 2:
867     default:
868         in_channels = "Two";
869         break;
870     }
871 
872     ALOGV("%s: set AFE input channels = %d", __func__, a2dp.enc_channels);
873     ctrl_in_channels = mixer_get_ctl_by_name(a2dp.adev->mixer,
874                                         MIXER_AFE_IN_CHANNELS);
875     if (!ctrl_in_channels) {
876         ALOGE("%s: ERROR AFE input channels mixer control not identifed", __func__);
877         return -ENOSYS;
878     }
879     if (mixer_ctl_set_enum_by_string(ctrl_in_channels, in_channels) != 0) {
880         ALOGE("%s: Failed to set AFE in channels = %d", __func__, a2dp.enc_channels);
881         return -ENOSYS;
882     }
883 
884     return 0;
885 }
886 
a2dp_set_bit_format(uint32_t enc_bit_format)887 static int a2dp_set_bit_format(uint32_t enc_bit_format)
888 {
889     const char *bit_format = NULL;
890     struct mixer_ctl *ctrl_bit_format = NULL;
891 
892     // Configure AFE Input Bit Format
893     switch (enc_bit_format) {
894     case 32:
895         bit_format = "S32_LE";
896         break;
897     case 24:
898         bit_format = "S24_LE";
899         break;
900     case 16:
901     default:
902         bit_format = "S16_LE";
903         break;
904     }
905 
906     ALOGD("%s: set AFE input bit format = %d", __func__, enc_bit_format);
907     ctrl_bit_format = mixer_get_ctl_by_name(a2dp.adev->mixer,
908                                         MIXER_ENC_BIT_FORMAT);
909     if (!ctrl_bit_format) {
910         ALOGE("%s: ERROR AFE input bit format mixer control not identifed", __func__);
911         return -ENOSYS;
912     }
913     if (mixer_ctl_set_enum_by_string(ctrl_bit_format, bit_format) != 0) {
914         ALOGE("%s: Failed to set AFE input bit format = %d", __func__, enc_bit_format);
915         return -ENOSYS;
916     }
917     return 0;
918 }
919 
a2dp_reset_backend_cfg()920 static int a2dp_reset_backend_cfg()
921 {
922     const char *rate_str = "KHZ_8", *in_channels = "Zero";
923     struct mixer_ctl *ctl_sample_rate_rx = NULL, *ctl_sample_rate_tx = NULL;
924     struct mixer_ctl *ctrl_in_channels = NULL;
925 
926     // Reset backend sampling rate
927     ALOGV("%s: reset backend sample rate = %s", __func__, rate_str);
928     ctl_sample_rate_rx = mixer_get_ctl_by_name(a2dp.adev->mixer,
929                                         MIXER_SAMPLE_RATE_RX);
930     if (!ctl_sample_rate_rx) {
931         ALOGE("%s: ERROR Rx backend sample rate mixer control not identifed", __func__);
932         return -ENOSYS;
933     }
934     if (mixer_ctl_set_enum_by_string(ctl_sample_rate_rx, rate_str) != 0) {
935         ALOGE("%s: Failed to reset Rx backend sample rate = %s", __func__, rate_str);
936         return -ENOSYS;
937     }
938 
939     if (a2dp.abr_config.is_abr_enabled) {
940         ctl_sample_rate_tx = mixer_get_ctl_by_name(a2dp.adev->mixer,
941                                             MIXER_SAMPLE_RATE_TX);
942         if (!ctl_sample_rate_tx) {
943             ALOGE("%s: ERROR Tx backend sample rate mixer control not identifed", __func__);
944             return -ENOSYS;
945         }
946         if (mixer_ctl_set_enum_by_string(ctl_sample_rate_tx, rate_str) != 0) {
947             ALOGE("%s: Failed to reset Tx backend sample rate = %s", __func__, rate_str);
948             return -ENOSYS;
949         }
950     }
951 
952     // Reset AFE input channels
953     ALOGV("%s: reset AFE input channels = %s", __func__, in_channels);
954     ctrl_in_channels = mixer_get_ctl_by_name(a2dp.adev->mixer,
955                                         MIXER_AFE_IN_CHANNELS);
956     if (!ctrl_in_channels) {
957         ALOGE("%s: ERROR AFE input channels mixer control not identifed", __func__);
958         return -ENOSYS;
959     }
960     if (mixer_ctl_set_enum_by_string(ctrl_in_channels, in_channels) != 0) {
961         ALOGE("%s: Failed to reset AFE in channels = %d", __func__, a2dp.enc_channels);
962         return -ENOSYS;
963     }
964 
965     return 0;
966 }
967 
968 /* API to configure AFE decoder in DSP */
configure_a2dp_decoder_format(int dec_format)969 static bool configure_a2dp_decoder_format(int dec_format)
970 {
971     struct mixer_ctl *ctl_dec_data = NULL;
972     struct abr_dec_cfg_t dec_cfg;
973     int ret = 0;
974 
975     if (a2dp.abr_config.is_abr_enabled) {
976         ctl_dec_data = mixer_get_ctl_by_name(a2dp.adev->mixer, MIXER_DEC_CONFIG_BLOCK);
977         if (!ctl_dec_data) {
978             ALOGE("%s: ERROR A2DP codec config data mixer control not identifed", __func__);
979             return false;
980         }
981         memset(&dec_cfg, 0x0, sizeof(dec_cfg));
982         dec_cfg.dec_format = dec_format;
983         dec_cfg.imc_info.direction = IMC_TRANSMIT;
984         dec_cfg.imc_info.enable = IMC_ENABLE;
985         dec_cfg.imc_info.purpose = IMC_PURPOSE_ID_BT_INFO;
986         dec_cfg.imc_info.comm_instance = a2dp.abr_config.imc_instance;
987 
988         ret = mixer_ctl_set_array(ctl_dec_data, (void *)&dec_cfg,
989                                   sizeof(dec_cfg));
990         if (ret != 0) {
991             ALOGE("%s: Failed to set decoder config", __func__);
992             return false;
993         }
994     }
995 
996     return true;
997 }
998 
999 /* API to configure SBC DSP encoder */
configure_sbc_enc_format(audio_sbc_encoder_config * sbc_bt_cfg)1000 static bool configure_sbc_enc_format(audio_sbc_encoder_config *sbc_bt_cfg)
1001 {
1002     struct mixer_ctl *ctl_enc_data = NULL, *ctrl_bit_format = NULL;
1003     struct sbc_enc_cfg_t sbc_dsp_cfg;
1004     bool is_configured = false;
1005     int ret = 0;
1006 
1007     if (sbc_bt_cfg == NULL) {
1008         ALOGE("%s: Failed to get SBC encoder config from BT", __func__);
1009         return false;
1010     }
1011 
1012     ctl_enc_data = mixer_get_ctl_by_name(a2dp.adev->mixer, MIXER_ENC_CONFIG_BLOCK);
1013     if (!ctl_enc_data) {
1014         ALOGE("%s: ERROR A2DP encoder config data mixer control not identifed", __func__);
1015         is_configured = false;
1016         goto exit;
1017     }
1018     memset(&sbc_dsp_cfg, 0x0, sizeof(sbc_dsp_cfg));
1019     sbc_dsp_cfg.enc_format = ENC_MEDIA_FMT_SBC;
1020     sbc_dsp_cfg.num_subbands = sbc_bt_cfg->subband;
1021     sbc_dsp_cfg.blk_len = sbc_bt_cfg->blk_len;
1022     switch (sbc_bt_cfg->channels) {
1023         case 0:
1024             sbc_dsp_cfg.channel_mode = MEDIA_FMT_SBC_CHANNEL_MODE_MONO;
1025             break;
1026         case 1:
1027             sbc_dsp_cfg.channel_mode = MEDIA_FMT_SBC_CHANNEL_MODE_DUAL_MONO;
1028             break;
1029         case 3:
1030             sbc_dsp_cfg.channel_mode = MEDIA_FMT_SBC_CHANNEL_MODE_JOINT_STEREO;
1031             break;
1032         case 2:
1033         default:
1034             sbc_dsp_cfg.channel_mode = MEDIA_FMT_SBC_CHANNEL_MODE_STEREO;
1035             break;
1036     }
1037     if (sbc_bt_cfg->alloc)
1038         sbc_dsp_cfg.alloc_method = MEDIA_FMT_SBC_ALLOCATION_METHOD_LOUDNESS;
1039     else
1040         sbc_dsp_cfg.alloc_method = MEDIA_FMT_SBC_ALLOCATION_METHOD_SNR;
1041     sbc_dsp_cfg.bit_rate = sbc_bt_cfg->bitrate;
1042     sbc_dsp_cfg.sample_rate = sbc_bt_cfg->sampling_rate;
1043     ret = mixer_ctl_set_array(ctl_enc_data, (void *)&sbc_dsp_cfg,
1044                                     sizeof(sbc_dsp_cfg));
1045     if (ret != 0) {
1046         ALOGE("%s: failed to set SBC encoder config", __func__);
1047         is_configured = false;
1048         goto exit;
1049     }
1050     ret = a2dp_set_bit_format(sbc_bt_cfg->bits_per_sample);
1051     if (ret != 0) {
1052         is_configured = false;
1053         goto exit;
1054     }
1055     is_configured = true;
1056     a2dp.bt_encoder_format = ENC_CODEC_TYPE_SBC;
1057     a2dp.enc_sampling_rate = sbc_bt_cfg->sampling_rate;
1058 
1059     if (sbc_dsp_cfg.channel_mode == MEDIA_FMT_SBC_CHANNEL_MODE_MONO)
1060         a2dp.enc_channels = 1;
1061     else
1062         a2dp.enc_channels = 2;
1063 
1064     ALOGV("%s: Successfully updated SBC enc format with sampling rate: %d channel mode:%d",
1065            __func__, sbc_dsp_cfg.sample_rate, sbc_dsp_cfg.channel_mode);
1066 exit:
1067     return is_configured;
1068 }
1069 
1070 /* API to configure APTX DSP encoder */
configure_aptx_enc_format(audio_aptx_encoder_config * aptx_bt_cfg)1071 static bool configure_aptx_enc_format(audio_aptx_encoder_config *aptx_bt_cfg)
1072 {
1073     struct mixer_ctl *ctl_enc_data = NULL, *ctrl_bit_format = NULL;
1074     int mixer_size;
1075     bool is_configured = false;
1076     int ret = 0;
1077     struct aptx_enc_cfg_t aptx_dsp_cfg;
1078     mixer_size = sizeof(aptx_dsp_cfg);
1079 
1080     if (aptx_bt_cfg == NULL) {
1081         ALOGE("%s: Failed to get APTX encoder config from BT", __func__);
1082         return false;
1083     }
1084 
1085     ctl_enc_data = mixer_get_ctl_by_name(a2dp.adev->mixer, MIXER_ENC_CONFIG_BLOCK);
1086     if (!ctl_enc_data) {
1087         ALOGE("%s: ERROR A2DP encoder config data mixer control not identifed", __func__);
1088         is_configured = false;
1089         goto exit;
1090     }
1091 
1092     memset(&aptx_dsp_cfg, 0x0, sizeof(aptx_dsp_cfg));
1093     aptx_dsp_cfg.custom_cfg.enc_format = ENC_MEDIA_FMT_APTX;
1094 
1095     if (!a2dp.is_aptx_dual_mono_supported) {
1096         aptx_dsp_cfg.custom_cfg.sample_rate = aptx_bt_cfg->default_cfg->sampling_rate;
1097         aptx_dsp_cfg.custom_cfg.num_channels = aptx_bt_cfg->default_cfg->channels;
1098     } else {
1099         aptx_dsp_cfg.custom_cfg.sample_rate = aptx_bt_cfg->dual_mono_cfg->sampling_rate;
1100         aptx_dsp_cfg.custom_cfg.num_channels = aptx_bt_cfg->dual_mono_cfg->channels;
1101         aptx_dsp_cfg.aptx_v2_cfg.sync_mode = aptx_bt_cfg->dual_mono_cfg->sync_mode;
1102     }
1103 
1104     switch (aptx_dsp_cfg.custom_cfg.num_channels) {
1105         case 1:
1106             aptx_dsp_cfg.custom_cfg.channel_mapping[0] = PCM_CHANNEL_C;
1107             break;
1108         case 2:
1109         default:
1110             aptx_dsp_cfg.custom_cfg.channel_mapping[0] = PCM_CHANNEL_L;
1111             aptx_dsp_cfg.custom_cfg.channel_mapping[1] = PCM_CHANNEL_R;
1112             break;
1113     }
1114     ret = mixer_ctl_set_array(ctl_enc_data, (void *)&aptx_dsp_cfg,
1115                               mixer_size);
1116     if (ret != 0) {
1117         ALOGE("%s: Failed to set APTX encoder config", __func__);
1118         is_configured = false;
1119         goto exit;
1120     }
1121     ret = a2dp_set_bit_format(aptx_bt_cfg->default_cfg->bits_per_sample);
1122     if (ret != 0) {
1123         is_configured = false;
1124         goto exit;
1125     }
1126     is_configured = true;
1127     a2dp.bt_encoder_format = ENC_CODEC_TYPE_APTX;
1128     a2dp.enc_channels = aptx_dsp_cfg.custom_cfg.num_channels;
1129     if (!a2dp.is_aptx_dual_mono_supported) {
1130         a2dp.enc_sampling_rate = aptx_bt_cfg->default_cfg->sampling_rate;
1131         ALOGV("%s: Successfully updated APTX enc format with sampling rate: %d \
1132                channels:%d", __func__, aptx_dsp_cfg.custom_cfg.sample_rate,
1133                aptx_dsp_cfg.custom_cfg.num_channels);
1134     } else {
1135         a2dp.enc_sampling_rate = aptx_bt_cfg->dual_mono_cfg->sampling_rate;
1136         ALOGV("%s: Successfully updated APTX dual mono enc format with \
1137                sampling rate: %d channels:%d sync mode %d", __func__,
1138                aptx_dsp_cfg.custom_cfg.sample_rate,
1139                aptx_dsp_cfg.custom_cfg.num_channels,
1140                aptx_dsp_cfg.aptx_v2_cfg.sync_mode);
1141     }
1142 
1143 exit:
1144     return is_configured;
1145 }
1146 
1147 /* API to configure APTX HD DSP encoder
1148  */
configure_aptx_hd_enc_format(audio_aptx_default_config * aptx_bt_cfg)1149 static bool configure_aptx_hd_enc_format(audio_aptx_default_config *aptx_bt_cfg)
1150 {
1151     struct mixer_ctl *ctl_enc_data = NULL, *ctrl_bit_format = NULL;
1152     struct custom_enc_cfg_t aptx_dsp_cfg;
1153     bool is_configured = false;
1154     int ret = 0;
1155 
1156     if (aptx_bt_cfg == NULL) {
1157         ALOGE("%s: Failed to get APTX HD encoder config from BT", __func__);
1158         return false;
1159     }
1160 
1161     ctl_enc_data = mixer_get_ctl_by_name(a2dp.adev->mixer, MIXER_ENC_CONFIG_BLOCK);
1162     if (!ctl_enc_data) {
1163         ALOGE("%s: ERROR A2DP encoder config data mixer control not identifed", __func__);
1164         is_configured = false;
1165         goto exit;
1166     }
1167 
1168     memset(&aptx_dsp_cfg, 0x0, sizeof(aptx_dsp_cfg));
1169     aptx_dsp_cfg.enc_format = ENC_MEDIA_FMT_APTX_HD;
1170     aptx_dsp_cfg.sample_rate = aptx_bt_cfg->sampling_rate;
1171     aptx_dsp_cfg.num_channels = aptx_bt_cfg->channels;
1172     switch (aptx_dsp_cfg.num_channels) {
1173         case 1:
1174             aptx_dsp_cfg.channel_mapping[0] = PCM_CHANNEL_C;
1175             break;
1176         case 2:
1177         default:
1178             aptx_dsp_cfg.channel_mapping[0] = PCM_CHANNEL_L;
1179             aptx_dsp_cfg.channel_mapping[1] = PCM_CHANNEL_R;
1180             break;
1181     }
1182     ret = mixer_ctl_set_array(ctl_enc_data, (void *)&aptx_dsp_cfg,
1183                               sizeof(aptx_dsp_cfg));
1184     if (ret != 0) {
1185         ALOGE("%s: Failed to set APTX HD encoder config", __func__);
1186         is_configured = false;
1187         goto exit;
1188     }
1189     ret = a2dp_set_bit_format(aptx_bt_cfg->bits_per_sample);
1190     if (ret != 0) {
1191         is_configured = false;
1192         goto exit;
1193     }
1194     is_configured = true;
1195     a2dp.bt_encoder_format = ENC_CODEC_TYPE_APTX_HD;
1196     a2dp.enc_sampling_rate = aptx_bt_cfg->sampling_rate;
1197     a2dp.enc_channels = aptx_bt_cfg->channels;
1198     ALOGV("%s: Successfully updated APTX HD encformat with sampling rate: %d channels:%d",
1199            __func__, aptx_dsp_cfg.sample_rate, aptx_dsp_cfg.num_channels);
1200 exit:
1201     return is_configured;
1202 }
1203 
1204 /* API to configure AAC DSP encoder */
configure_aac_enc_format(audio_aac_encoder_config * aac_bt_cfg)1205 static bool configure_aac_enc_format(audio_aac_encoder_config *aac_bt_cfg)
1206 {
1207     struct mixer_ctl *ctl_enc_data = NULL, *ctrl_bit_format = NULL;
1208     struct aac_enc_cfg_t aac_dsp_cfg;
1209     bool is_configured = false;
1210     int ret = 0;
1211 
1212     if (aac_bt_cfg == NULL) {
1213         ALOGE("%s: Failed to get AAC encoder config from BT", __func__);
1214         return false;
1215     }
1216 
1217     ctl_enc_data = mixer_get_ctl_by_name(a2dp.adev->mixer, MIXER_ENC_CONFIG_BLOCK);
1218     if (!ctl_enc_data) {
1219         ALOGE("%s: ERROR A2DP encoder config data mixer control not identifed", __func__);
1220         is_configured = false;
1221         goto exit;
1222     }
1223     memset(&aac_dsp_cfg, 0x0, sizeof(aac_dsp_cfg));
1224     aac_dsp_cfg.aac_cfg.enc_format = ENC_MEDIA_FMT_AAC;
1225     aac_dsp_cfg.aac_cfg.bit_rate = aac_bt_cfg->bitrate;
1226     aac_dsp_cfg.aac_cfg.sample_rate = aac_bt_cfg->sampling_rate;
1227     switch (aac_bt_cfg->enc_mode) {
1228         case 0:
1229             aac_dsp_cfg.aac_cfg.enc_mode = MEDIA_FMT_AAC_AOT_LC;
1230             break;
1231         case 2:
1232             aac_dsp_cfg.aac_cfg.enc_mode = MEDIA_FMT_AAC_AOT_PS;
1233             break;
1234         case 1:
1235         default:
1236             aac_dsp_cfg.aac_cfg.enc_mode = MEDIA_FMT_AAC_AOT_SBR;
1237             break;
1238     }
1239     aac_dsp_cfg.aac_cfg.aac_fmt_flag = aac_bt_cfg->format_flag;
1240     aac_dsp_cfg.aac_cfg.channel_cfg = aac_bt_cfg->channels;
1241     aac_dsp_cfg.frame_ctl.ctl_type = aac_bt_cfg->frame_ctl.ctl_type;
1242     aac_dsp_cfg.frame_ctl.ctl_value = aac_bt_cfg->frame_ctl.ctl_value;
1243     ret = mixer_ctl_set_array(ctl_enc_data, (void *)&aac_dsp_cfg,
1244                               sizeof(aac_dsp_cfg));
1245     if (ret != 0) {
1246         ALOGE("%s: failed to set AAC encoder config", __func__);
1247         is_configured = false;
1248         goto exit;
1249     }
1250     ret = a2dp_set_bit_format(aac_bt_cfg->bits_per_sample);
1251     if (ret != 0) {
1252         is_configured = false;
1253         goto exit;
1254     }
1255     is_configured = true;
1256     a2dp.bt_encoder_format = ENC_CODEC_TYPE_AAC;
1257     a2dp.enc_sampling_rate = aac_bt_cfg->sampling_rate;
1258     a2dp.enc_channels = aac_bt_cfg->channels;
1259     ALOGV("%s: Successfully updated AAC enc format with sampling rate: %d channels:%d",
1260            __func__, aac_dsp_cfg.aac_cfg.sample_rate, aac_dsp_cfg.aac_cfg.channel_cfg);
1261 exit:
1262     return is_configured;
1263 }
1264 
configure_ldac_enc_format(audio_ldac_encoder_config * ldac_bt_cfg)1265 static bool configure_ldac_enc_format(audio_ldac_encoder_config *ldac_bt_cfg)
1266 {
1267     struct mixer_ctl *ldac_enc_data = NULL, *ctrl_bit_format = NULL;
1268     struct ldac_enc_cfg_t ldac_dsp_cfg;
1269     bool is_configured = false;
1270     int ret = 0;
1271 
1272     if (ldac_bt_cfg == NULL) {
1273         ALOGE("%s: Failed to get LDAC encoder config from BT", __func__);
1274         return false;
1275     }
1276 
1277     ldac_enc_data = mixer_get_ctl_by_name(a2dp.adev->mixer, MIXER_ENC_CONFIG_BLOCK);
1278     if (!ldac_enc_data) {
1279         ALOGE("%s: ERROR A2DP encoder config data mixer control not identifed", __func__);
1280         is_configured = false;
1281         goto exit;
1282     }
1283     memset(&ldac_dsp_cfg, 0x0, sizeof(ldac_dsp_cfg));
1284 
1285     ldac_dsp_cfg.custom_cfg.enc_format = ENC_MEDIA_FMT_LDAC;
1286     ldac_dsp_cfg.custom_cfg.sample_rate = ldac_bt_cfg->sampling_rate;
1287     ldac_dsp_cfg.ldac_cfg.channel_mode = ldac_bt_cfg->channel_mode;
1288     switch (ldac_dsp_cfg.ldac_cfg.channel_mode) {
1289         case 4:
1290             ldac_dsp_cfg.custom_cfg.channel_mapping[0] = PCM_CHANNEL_C;
1291             ldac_dsp_cfg.custom_cfg.num_channels = 1;
1292             break;
1293         case 2:
1294         case 1:
1295         default:
1296             ldac_dsp_cfg.custom_cfg.channel_mapping[0] = PCM_CHANNEL_L;
1297             ldac_dsp_cfg.custom_cfg.channel_mapping[1] = PCM_CHANNEL_R;
1298             ldac_dsp_cfg.custom_cfg.num_channels = 2;
1299             break;
1300     }
1301 
1302     ldac_dsp_cfg.custom_cfg.custom_size = sizeof(ldac_dsp_cfg);
1303     ldac_dsp_cfg.ldac_cfg.mtu = ldac_bt_cfg->mtu;
1304     ldac_dsp_cfg.ldac_cfg.bit_rate = ldac_bt_cfg->bit_rate;
1305     if (ldac_bt_cfg->is_abr_enabled) {
1306         ldac_dsp_cfg.abr_cfg.mapping_info = ldac_bt_cfg->level_to_bitrate_map;
1307         ldac_dsp_cfg.abr_cfg.imc_info.direction = IMC_RECEIVE;
1308         ldac_dsp_cfg.abr_cfg.imc_info.enable = IMC_ENABLE;
1309         ldac_dsp_cfg.abr_cfg.imc_info.purpose = IMC_PURPOSE_ID_BT_INFO;
1310         ldac_dsp_cfg.abr_cfg.imc_info.comm_instance = a2dp.abr_config.imc_instance;
1311         ldac_dsp_cfg.abr_cfg.is_abr_enabled = ldac_bt_cfg->is_abr_enabled;
1312     }
1313 
1314     ret = mixer_ctl_set_array(ldac_enc_data, (void *)&ldac_dsp_cfg,
1315                               sizeof(ldac_dsp_cfg));
1316     if (ret != 0) {
1317         ALOGE("%s: Failed to set LDAC encoder config", __func__);
1318         is_configured = false;
1319         goto exit;
1320     }
1321     ret = a2dp_set_bit_format(ldac_bt_cfg->bits_per_sample);
1322     if (ret != 0) {
1323         is_configured = false;
1324         goto exit;
1325     }
1326     is_configured = true;
1327     a2dp.bt_encoder_format = ENC_CODEC_TYPE_LDAC;
1328     a2dp.enc_sampling_rate = ldac_bt_cfg->sampling_rate;
1329     a2dp.enc_channels = ldac_dsp_cfg.custom_cfg.num_channels;
1330     a2dp.abr_config.is_abr_enabled = ldac_bt_cfg->is_abr_enabled;
1331     ALOGV("%s: Successfully updated LDAC encformat with sampling rate: %d channels:%d",
1332            __func__, ldac_dsp_cfg.custom_cfg.sample_rate,
1333            ldac_dsp_cfg.custom_cfg.num_channels);
1334 exit:
1335     return is_configured;
1336 }
1337 
configure_a2dp_encoder_format()1338 bool configure_a2dp_encoder_format()
1339 {
1340     void *codec_info = NULL;
1341     uint8_t multi_cast = 0, num_dev = 1;
1342     enc_codec_t codec_type = ENC_CODEC_TYPE_INVALID;
1343     bool is_configured = false;
1344     audio_aptx_encoder_config aptx_encoder_cfg;
1345 
1346     if (!a2dp.audio_get_codec_config) {
1347         ALOGE("%s: A2DP handle is not identified, ignoring A2DP encoder config", __func__);
1348         return false;
1349     }
1350     ALOGD("%s: start", __func__);
1351     codec_info = a2dp.audio_get_codec_config(&multi_cast, &num_dev,
1352                                &codec_type);
1353 
1354     // ABR disabled by default for all codecs
1355     a2dp.abr_config.is_abr_enabled = false;
1356 
1357     switch (codec_type) {
1358         case ENC_CODEC_TYPE_SBC:
1359             ALOGD("%s: Received SBC encoder supported Bluetooth device", __func__);
1360             is_configured =
1361               configure_sbc_enc_format((audio_sbc_encoder_config *)codec_info);
1362             break;
1363         case ENC_CODEC_TYPE_APTX:
1364             ALOGD("%s: Received APTX encoder supported Bluetooth device", __func__);
1365             a2dp.is_aptx_dual_mono_supported = false;
1366             aptx_encoder_cfg.default_cfg = (audio_aptx_default_config *)codec_info;
1367             is_configured =
1368               configure_aptx_enc_format(&aptx_encoder_cfg);
1369             break;
1370         case ENC_CODEC_TYPE_APTX_HD:
1371             ALOGD("%s: Received APTX HD encoder supported Bluetooth device", __func__);
1372             is_configured =
1373               configure_aptx_hd_enc_format((audio_aptx_default_config *)codec_info);
1374             break;
1375         case ENC_CODEC_TYPE_AAC:
1376             ALOGD("%s: Received AAC encoder supported Bluetooth device", __func__);
1377             is_configured =
1378               configure_aac_enc_format((audio_aac_encoder_config *)codec_info);
1379             break;
1380         case ENC_CODEC_TYPE_LDAC:
1381             ALOGD("%s: Received LDAC encoder supported Bluetooth device", __func__);
1382             if (!instance_id || instance_id > MAX_INSTANCE_ID)
1383                 instance_id = MAX_INSTANCE_ID;
1384             a2dp.abr_config.imc_instance = instance_id--;
1385             is_configured =
1386                 (configure_ldac_enc_format((audio_ldac_encoder_config *)codec_info) &&
1387                  configure_a2dp_decoder_format(ENC_CODEC_TYPE_LDAC));
1388             break;
1389         case ENC_CODEC_TYPE_PCM:
1390             ALOGD("Received PCM format for BT device");
1391             a2dp.bt_encoder_format = ENC_CODEC_TYPE_PCM;
1392             is_configured = true;
1393             break;
1394         default:
1395             ALOGD("%s: Received unsupported encoder format", __func__);
1396             is_configured = false;
1397             break;
1398     }
1399     return is_configured;
1400 }
1401 
audio_extn_a2dp_start_playback()1402 int audio_extn_a2dp_start_playback()
1403 {
1404     int ret = 0;
1405 
1406     ALOGD("%s: start", __func__);
1407 
1408     if (!(a2dp.bt_lib_handle && a2dp.audio_stream_start
1409        && a2dp.audio_get_codec_config)) {
1410         ALOGE("%s: A2DP handle is not identified, Ignoring start request", __func__);
1411         return -ENOSYS;
1412     }
1413 
1414     if (a2dp.a2dp_suspended) {
1415         // session will be restarted after suspend completion
1416         ALOGD("%s: A2DP start requested during suspend state", __func__);
1417         return -ENOSYS;
1418     }
1419 
1420     if (!a2dp.a2dp_started && !a2dp.a2dp_total_active_session_request) {
1421         ALOGD("%s: calling Bluetooth module stream start", __func__);
1422         /* This call indicates Bluetooth IPC lib to start playback */
1423         ret =  a2dp.audio_stream_start();
1424         if (ret != 0 ) {
1425            ALOGE("%s: Bluetooth controller start failed", __func__);
1426            a2dp.a2dp_started = false;
1427         } else {
1428            if (configure_a2dp_encoder_format() == true) {
1429                 a2dp.a2dp_started = true;
1430                 ret = 0;
1431                 ALOGD("%s: Start playback successful to Bluetooth IPC library", __func__);
1432            } else {
1433                 ALOGD("%s: unable to configure DSP encoder", __func__);
1434                 a2dp.a2dp_started = false;
1435                 ret = -ETIMEDOUT;
1436            }
1437         }
1438     }
1439 
1440     if (a2dp.a2dp_started) {
1441         a2dp.a2dp_total_active_session_request++;
1442         a2dp_check_and_set_scrambler();
1443         a2dp_set_backend_cfg();
1444         if (a2dp.abr_config.is_abr_enabled)
1445             start_abr();
1446     }
1447 
1448     ALOGD("%s: start A2DP playback total active sessions :%d", __func__,
1449           a2dp.a2dp_total_active_session_request);
1450     return ret;
1451 }
1452 
reset_a2dp_enc_config_params()1453 static int reset_a2dp_enc_config_params()
1454 {
1455     int ret = 0;
1456 
1457     struct mixer_ctl *ctl_enc_config, *ctrl_bit_format;
1458     struct sbc_enc_cfg_t dummy_reset_config;
1459 
1460     memset(&dummy_reset_config, 0x0, sizeof(dummy_reset_config));
1461     ctl_enc_config = mixer_get_ctl_by_name(a2dp.adev->mixer,
1462                                            MIXER_ENC_CONFIG_BLOCK);
1463     if (!ctl_enc_config) {
1464         ALOGE("%s: ERROR A2DP encoder format mixer control not identifed", __func__);
1465     } else {
1466         ret = mixer_ctl_set_array(ctl_enc_config, (void *)&dummy_reset_config,
1467                                         sizeof(dummy_reset_config));
1468          a2dp.bt_encoder_format = ENC_MEDIA_FMT_NONE;
1469     }
1470 
1471     ret = a2dp_set_bit_format(DEFAULT_ENCODER_BIT_FORMAT);
1472 
1473     return ret;
1474 }
1475 
reset_a2dp_dec_config_params()1476 static int reset_a2dp_dec_config_params()
1477 {
1478     struct mixer_ctl *ctl_dec_data = NULL;
1479     struct abr_dec_cfg_t dummy_reset_cfg;
1480     int ret = 0;
1481 
1482     if (a2dp.abr_config.is_abr_enabled) {
1483         ctl_dec_data = mixer_get_ctl_by_name(a2dp.adev->mixer, MIXER_DEC_CONFIG_BLOCK);
1484         if (!ctl_dec_data) {
1485             ALOGE("%s: ERROR A2DP decoder config mixer control not identifed", __func__);
1486             return -EINVAL;
1487         }
1488         memset(&dummy_reset_cfg, 0x0, sizeof(dummy_reset_cfg));
1489         ret = mixer_ctl_set_array(ctl_dec_data, (void *)&dummy_reset_cfg,
1490                                   sizeof(dummy_reset_cfg));
1491         if (ret != 0) {
1492             ALOGE("%s: Failed to set dummy decoder config", __func__);
1493             return ret;
1494         }
1495     }
1496 
1497     return ret;
1498 }
1499 
reset_a2dp_config()1500 static void reset_a2dp_config() {
1501     reset_a2dp_enc_config_params();
1502     reset_a2dp_dec_config_params();
1503     a2dp_reset_backend_cfg();
1504     if (a2dp.abr_config.is_abr_enabled && a2dp.abr_config.abr_started)
1505         stop_abr();
1506     a2dp.abr_config.is_abr_enabled = false;
1507 }
1508 
audio_extn_a2dp_stop_playback()1509 int audio_extn_a2dp_stop_playback()
1510 {
1511     int ret = 0;
1512 
1513     ALOGV("%s: stop", __func__);
1514     if (!(a2dp.bt_lib_handle && a2dp.audio_stream_stop)) {
1515         ALOGE("%s: A2DP handle is not identified, Ignoring start request", __func__);
1516         return -ENOSYS;
1517     }
1518 
1519     if (a2dp.a2dp_total_active_session_request > 0)
1520         a2dp.a2dp_total_active_session_request--;
1521     else
1522         ALOGE("%s: No active playback session requests on A2DP", __func__);
1523 
1524     if (a2dp.a2dp_started && !a2dp.a2dp_total_active_session_request) {
1525         ALOGV("%s: calling Bluetooth module stream stop", __func__);
1526         ret = a2dp.audio_stream_stop();
1527         if (ret < 0)
1528             ALOGE("%s: stop stream to Bluetooth IPC lib failed", __func__);
1529         else
1530             ALOGV("%s: stop steam to Bluetooth IPC lib successful", __func__);
1531         if (!a2dp.a2dp_suspended)
1532             reset_a2dp_config();
1533         a2dp.a2dp_started = false;
1534     }
1535     ALOGD("%s: Stop A2DP playback total active sessions :%d", __func__,
1536           a2dp.a2dp_total_active_session_request);
1537     return 0;
1538 }
1539 
audio_extn_a2dp_set_parameters(struct str_parms * parms,bool * reconfig)1540 int audio_extn_a2dp_set_parameters(struct str_parms *parms, bool *reconfig)
1541 {
1542      int ret = 0, val;
1543      int status = 0;
1544      char value[32] = {0};
1545      struct audio_usecase *uc_info;
1546      struct listnode *node;
1547 
1548      if (a2dp.is_a2dp_offload_enabled == false) {
1549         ALOGV("%s: No supported encoders identified,ignoring A2DP setparam", __func__);
1550         status = -EINVAL;
1551         goto param_handled;
1552      }
1553 
1554      ret = str_parms_get_str(parms, AUDIO_PARAMETER_DEVICE_CONNECT, value,
1555                             sizeof(value));
1556      if (ret >= 0) {
1557          val = atoi(value);
1558          if (audio_is_a2dp_out_device(val)) {
1559              ALOGV("%s: Received device connect request for A2DP", __func__);
1560              open_a2dp_output();
1561          }
1562          goto param_handled;
1563      }
1564 
1565      ret = str_parms_get_str(parms, AUDIO_PARAMETER_DEVICE_DISCONNECT, value,
1566                          sizeof(value));
1567 
1568      if (ret >= 0) {
1569          val = atoi(value);
1570          if (audio_is_a2dp_out_device(val)) {
1571              ALOGV("%s: Received device disconnect request", __func__);
1572              reset_a2dp_config();
1573              close_a2dp_output();
1574          }
1575          goto param_handled;
1576      }
1577 
1578      ret = str_parms_get_str(parms, "A2dpSuspended", value, sizeof(value));
1579      if (ret >= 0) {
1580          if (a2dp.bt_lib_handle && (a2dp.bt_state != A2DP_STATE_DISCONNECTED)) {
1581              if (strncmp(value, "true", sizeof(value)) == 0) {
1582                 if (a2dp.a2dp_suspended) {
1583                     ALOGD("%s: A2DP is already suspended", __func__);
1584                     goto param_handled;
1585                 }
1586                 ALOGD("%s: Setting A2DP to suspend state", __func__);
1587                 a2dp.a2dp_suspended = true;
1588                 list_for_each(node, &a2dp.adev->usecase_list) {
1589                     uc_info = node_to_item(node, struct audio_usecase, list);
1590                     if (uc_info->type == PCM_PLAYBACK &&
1591                          (uc_info->stream.out->devices & AUDIO_DEVICE_OUT_ALL_A2DP)) {
1592                         pthread_mutex_unlock(&a2dp.adev->lock);
1593                         check_a2dp_restore(a2dp.adev, uc_info->stream.out, false);
1594                         pthread_mutex_lock(&a2dp.adev->lock);
1595                     }
1596                 }
1597                 reset_a2dp_config();
1598                 if (a2dp.audio_stream_suspend) {
1599                    a2dp.audio_stream_suspend();
1600                 }
1601             } else {
1602                 if (!a2dp.a2dp_suspended) {
1603                     ALOGD("%s: A2DP is already unsuspended", __func__);
1604                     goto param_handled;
1605                 }
1606                 ALOGD("%s: Resetting A2DP suspend state", __func__);
1607                 struct audio_usecase *uc_info;
1608                 struct listnode *node;
1609                 if (a2dp.clear_a2dp_suspend_flag) {
1610                     a2dp.clear_a2dp_suspend_flag();
1611                 }
1612                 a2dp.a2dp_suspended = false;
1613                 /*
1614                  * It is possible that before suspend, A2DP sessions can be active.
1615                  * For example, during music + voice activation concurrency,
1616                  * A2DP suspend will be called & Bluetooth will change to SCO mode.
1617                  * Though music is paused as a part of voice activation,
1618                  * compress session close happens only after pause timeout(10 secs).
1619                  * So, if resume request comes before pause timeout, as A2DP session
1620                  * is already active, IPC start will not be called from APM/audio_hw.
1621                  * Fix this by calling A2DP start for IPC library post suspend
1622                  * based on number of active session count.
1623                  */
1624                 if (a2dp.a2dp_total_active_session_request > 0) {
1625                     ALOGD("%s: Calling Bluetooth IPC lib start post suspend state", __func__);
1626                     if (a2dp.audio_stream_start) {
1627                         status =  a2dp.audio_stream_start();
1628                         if (status != 0) {
1629                             ALOGE("%s: Bluetooth controller start failed", __func__);
1630                             a2dp.a2dp_started = false;
1631                         } else {
1632                             if (!configure_a2dp_encoder_format()) {
1633                                 ALOGE("%s: Encoder params configuration failed post suspend", __func__);
1634                                 a2dp.a2dp_started = false;
1635                                 status = -ETIMEDOUT;
1636                             }
1637                         }
1638                     }
1639                     if (a2dp.a2dp_started) {
1640                         a2dp_set_backend_cfg();
1641                         if (a2dp.abr_config.is_abr_enabled)
1642                             start_abr();
1643                     }
1644                 }
1645                 list_for_each(node, &a2dp.adev->usecase_list) {
1646                     uc_info = node_to_item(node, struct audio_usecase, list);
1647                     if (uc_info->type == PCM_PLAYBACK &&
1648                          (uc_info->stream.out->devices & AUDIO_DEVICE_OUT_ALL_A2DP)) {
1649                         pthread_mutex_unlock(&a2dp.adev->lock);
1650                         check_a2dp_restore(a2dp.adev, uc_info->stream.out, true);
1651                         pthread_mutex_lock(&a2dp.adev->lock);
1652                     }
1653                 }
1654             }
1655         }
1656         goto param_handled;
1657      }
1658 
1659      ret = str_parms_get_str(parms, AUDIO_PARAMETER_RECONFIG_A2DP, value,
1660                          sizeof(value));
1661      if (ret >= 0) {
1662          if (a2dp.is_a2dp_offload_enabled &&
1663                 a2dp.bt_state != A2DP_STATE_DISCONNECTED) {
1664              *reconfig = true;
1665          }
1666          goto param_handled;
1667      }
1668 
1669 param_handled:
1670      ALOGV("%s: end of A2DP setparam", __func__);
1671      return status;
1672 }
1673 
audio_extn_a2dp_set_handoff_mode(bool is_on)1674 void audio_extn_a2dp_set_handoff_mode(bool is_on)
1675 {
1676     a2dp.is_handoff_in_progress = is_on;
1677 }
1678 
audio_extn_a2dp_is_force_device_switch()1679 bool audio_extn_a2dp_is_force_device_switch()
1680 {
1681     // During encoder reconfiguration mode, force A2DP device switch
1682     // Or if A2DP device is selected but earlier start failed as A2DP
1683     // was suspended, force retry.
1684     return a2dp.is_handoff_in_progress || !a2dp.a2dp_started;
1685 }
1686 
audio_extn_a2dp_get_sample_rate(int * sample_rate)1687 void audio_extn_a2dp_get_sample_rate(int *sample_rate)
1688 {
1689     *sample_rate = a2dp.enc_sampling_rate;
1690 }
1691 
audio_extn_a2dp_is_ready()1692 bool audio_extn_a2dp_is_ready()
1693 {
1694     bool ret = false;
1695 
1696     if (a2dp.a2dp_suspended)
1697         goto exit;
1698 
1699     if ((a2dp.bt_state != A2DP_STATE_DISCONNECTED) &&
1700         (a2dp.is_a2dp_offload_enabled) &&
1701         (a2dp.audio_check_a2dp_ready))
1702            ret = a2dp.audio_check_a2dp_ready();
1703 
1704 exit:
1705     return ret;
1706 }
1707 
audio_extn_a2dp_is_suspended()1708 bool audio_extn_a2dp_is_suspended()
1709 {
1710     return a2dp.a2dp_suspended;
1711 }
1712 
audio_extn_a2dp_init(void * adev)1713 void audio_extn_a2dp_init(void *adev)
1714 {
1715   a2dp.adev = (struct audio_device*)adev;
1716   a2dp.bt_lib_handle = NULL;
1717   a2dp_common_init();
1718   a2dp.enc_sampling_rate = 48000;
1719   a2dp.is_a2dp_offload_enabled = false;
1720   a2dp.is_handoff_in_progress = false;
1721   a2dp.is_aptx_dual_mono_supported = false;
1722   reset_a2dp_enc_config_params();
1723   reset_a2dp_dec_config_params();
1724   update_offload_codec_support();
1725 }
1726 
audio_extn_a2dp_get_encoder_latency()1727 uint32_t audio_extn_a2dp_get_encoder_latency()
1728 {
1729     uint32_t latency_ms = 0;
1730     int avsync_runtime_prop = 0;
1731     int sbc_offset = 0, aptx_offset = 0, aptxhd_offset = 0,
1732         aac_offset = 0, ldac_offset = 0;
1733     char value[PROPERTY_VALUE_MAX];
1734 
1735     memset(value, '\0', sizeof(char) * PROPERTY_VALUE_MAX);
1736     avsync_runtime_prop = property_get(SYSPROP_A2DP_CODEC_LATENCIES, value, NULL);
1737     if (avsync_runtime_prop > 0) {
1738         if (sscanf(value, "%d/%d/%d/%d/%d",
1739             &sbc_offset, &aptx_offset, &aptxhd_offset, &aac_offset,
1740             &ldac_offset) != 5) {
1741             ALOGI("%s: Failed to parse avsync offset params from '%s'.", __func__, value);
1742             avsync_runtime_prop = 0;
1743         }
1744     }
1745 
1746     uint32_t slatency_ms = 0;
1747     if (a2dp.audio_get_a2dp_sink_latency && a2dp.bt_state != A2DP_STATE_DISCONNECTED) {
1748         slatency_ms = a2dp.audio_get_a2dp_sink_latency();
1749     }
1750 
1751     switch (a2dp.bt_encoder_format) {
1752         case ENC_CODEC_TYPE_SBC:
1753             latency_ms = (avsync_runtime_prop > 0) ? sbc_offset : ENCODER_LATENCY_SBC;
1754             latency_ms += (slatency_ms == 0) ? DEFAULT_SINK_LATENCY_SBC : slatency_ms;
1755             break;
1756         case ENC_CODEC_TYPE_APTX:
1757             latency_ms = (avsync_runtime_prop > 0) ? aptx_offset : ENCODER_LATENCY_APTX;
1758             latency_ms += (slatency_ms == 0) ? DEFAULT_SINK_LATENCY_APTX : slatency_ms;
1759             break;
1760         case ENC_CODEC_TYPE_APTX_HD:
1761             latency_ms = (avsync_runtime_prop > 0) ? aptxhd_offset : ENCODER_LATENCY_APTX_HD;
1762             latency_ms += (slatency_ms == 0) ? DEFAULT_SINK_LATENCY_APTX_HD : slatency_ms;
1763             break;
1764         case ENC_CODEC_TYPE_AAC:
1765             latency_ms = (avsync_runtime_prop > 0) ? aac_offset : ENCODER_LATENCY_AAC;
1766             latency_ms += (slatency_ms == 0) ? DEFAULT_SINK_LATENCY_AAC : slatency_ms;
1767             break;
1768         case ENC_CODEC_TYPE_LDAC:
1769             latency_ms = (avsync_runtime_prop > 0) ? ldac_offset : ENCODER_LATENCY_LDAC;
1770             latency_ms += (slatency_ms == 0) ? DEFAULT_SINK_LATENCY_LDAC : slatency_ms;
1771             break;
1772         case ENC_CODEC_TYPE_PCM:
1773             latency_ms = ENCODER_LATENCY_PCM;
1774             latency_ms += DEFAULT_SINK_LATENCY_PCM;
1775             break;
1776         default:
1777             latency_ms = DEFAULT_ENCODER_LATENCY;
1778             break;
1779     }
1780     return latency_ms;
1781 }
1782 
audio_extn_a2dp_get_parameters(struct str_parms * query,struct str_parms * reply)1783 int audio_extn_a2dp_get_parameters(struct str_parms *query,
1784                                    struct str_parms *reply)
1785 {
1786     int ret, val = 0;
1787     char value[32]={0};
1788 
1789     ret = str_parms_get_str(query, AUDIO_PARAMETER_A2DP_RECONFIG_SUPPORTED,
1790                             value, sizeof(value));
1791     if (ret >= 0) {
1792         val = a2dp.is_a2dp_offload_enabled;
1793         str_parms_add_int(reply, AUDIO_PARAMETER_A2DP_RECONFIG_SUPPORTED, val);
1794         ALOGV("%s: called ... isReconfigA2dpSupported %d", __func__, val);
1795     }
1796 
1797     return 0;
1798 }
1799 #endif // A2DP_OFFLOAD_ENABLED
1800