From d162ecbaffe845c9707da5d2f6cab11f343ef00e Mon Sep 17 00:00:00 2001 From: Gaming4JC Date: Sun, 27 Oct 2019 19:40:52 -0400 Subject: Issue #1267 - Part 1: Update libcubeb to a1200c34. --- media/libcubeb/src/cubeb_opensl.c | 1566 ++++++++++++++++++++++++++++--------- 1 file changed, 1181 insertions(+), 385 deletions(-) (limited to 'media/libcubeb/src/cubeb_opensl.c') diff --git a/media/libcubeb/src/cubeb_opensl.c b/media/libcubeb/src/cubeb_opensl.c index dd5416228..96374ec07 100644 --- a/media/libcubeb/src/cubeb_opensl.c +++ b/media/libcubeb/src/cubeb_opensl.c @@ -9,6 +9,7 @@ #include #include #include +#include #include #include #include @@ -19,88 +20,268 @@ #include #include #include -#define LOG(args...) __android_log_print(ANDROID_LOG_INFO, "Cubeb_OpenSL" , ## args) -#define ANDROID_VERSION_GINGERBREAD_MR1 10 -#define ANDROID_VERSION_LOLLIPOP 21 -#define ANDROID_VERSION_MARSHMALLOW 23 #endif #include "cubeb/cubeb.h" #include "cubeb-internal.h" #include "cubeb_resampler.h" #include "cubeb-sles.h" +#include "cubeb_array_queue.h" +#include "android/cubeb-output-latency.h" + +#if defined(__ANDROID__) +#ifdef LOG +#undef LOG +#endif +//#define LOGGING_ENABLED +#ifdef LOGGING_ENABLED +#define LOG(args...) __android_log_print(ANDROID_LOG_INFO, "Cubeb_OpenSL" , ## args) +#else +#define LOG(...) +#endif + +//#define TIMESTAMP_ENABLED +#ifdef TIMESTAMP_ENABLED +#define FILENAME (strrchr(__FILE__, '/') ? strrchr(__FILE__, '/') + 1 : __FILE__) +#define LOG_TS(args...) __android_log_print(ANDROID_LOG_INFO, "Cubeb_OpenSL ES: Timestamp(usec)" , ## args) +#define TIMESTAMP(msg) do { \ + struct timeval timestamp; \ + int ts_ret = gettimeofday(×tamp, NULL); \ + if (ts_ret == 0) { \ + LOG_TS("%lld: %s (%s %s:%d)", timestamp.tv_sec * 1000000LL + timestamp.tv_usec, msg, __FUNCTION__, FILENAME, __LINE__);\ + } else { \ + LOG_TS("Error: %s (%s %s:%d) - %s", msg, __FUNCTION__, FILENAME, __LINE__);\ + } \ +} while(0) +#else +#define TIMESTAMP(...) +#endif + +#define ANDROID_VERSION_GINGERBREAD_MR1 10 +#define ANDROID_VERSION_JELLY_BEAN 18 +#define ANDROID_VERSION_LOLLIPOP 21 +#define ANDROID_VERSION_MARSHMALLOW 23 +#define ANDROID_VERSION_N_MR1 25 +#endif + +#define DEFAULT_SAMPLE_RATE 48000 +#define DEFAULT_NUM_OF_FRAMES 480 +// If the latency requested is above this threshold, this stream is considered +// intended for playback (vs. real-time). Tell Android it should favor saving +// power over performance or latency. +// This is around 100ms at 44100 or 48000 +#define POWERSAVE_LATENCY_FRAMES_THRESHOLD 4000 static struct cubeb_ops const opensl_ops; struct cubeb { struct cubeb_ops const * ops; void * lib; - void * libmedia; - int32_t (* get_output_latency)(uint32_t * latency, int stream_type); SLInterfaceID SL_IID_BUFFERQUEUE; SLInterfaceID SL_IID_PLAY; #if defined(__ANDROID__) SLInterfaceID SL_IID_ANDROIDCONFIGURATION; + SLInterfaceID SL_IID_ANDROIDSIMPLEBUFFERQUEUE; #endif SLInterfaceID SL_IID_VOLUME; + SLInterfaceID SL_IID_RECORD; SLObjectItf engObj; SLEngineItf eng; SLObjectItf outmixObj; + output_latency_function * p_output_latency_function; }; #define NELEMS(A) (sizeof(A) / sizeof A[0]) -#define NBUFS 4 -#define AUDIO_STREAM_TYPE_MUSIC 3 +#define NBUFS 2 struct cubeb_stream { + /* Note: Must match cubeb_stream layout in cubeb.c. */ cubeb * context; + void * user_ptr; + /**/ pthread_mutex_t mutex; SLObjectItf playerObj; SLPlayItf play; SLBufferQueueItf bufq; SLVolumeItf volume; - uint8_t *queuebuf[NBUFS]; + void ** queuebuf; + uint32_t queuebuf_capacity; int queuebuf_idx; long queuebuf_len; long bytespersec; long framesize; + /* Total number of played frames. + * Synchronized by stream::mutex lock. */ long written; + /* Flag indicating draining. Synchronized + * by stream::mutex lock. */ int draining; - cubeb_stream_type stream_type; - + /* Flags to determine in/out.*/ + uint32_t input_enabled; + uint32_t output_enabled; + /* Recorder abstract object. */ + SLObjectItf recorderObj; + /* Recorder Itf for input capture. */ + SLRecordItf recorderItf; + /* Buffer queue for input capture. */ + SLAndroidSimpleBufferQueueItf recorderBufferQueueItf; + /* Store input buffers. */ + void ** input_buffer_array; + /* The capacity of the array. + * On capture only can be small (4). + * On full duplex is calculated to + * store 1 sec of data buffers. */ + uint32_t input_array_capacity; + /* Current filled index of input buffer array. + * It is initiated to -1 indicating buffering + * have not started yet. */ + int input_buffer_index; + /* Length of input buffer.*/ + uint32_t input_buffer_length; + /* Input frame size */ + uint32_t input_frame_size; + /* Device sampling rate. If user rate is not + * accepted an compatible rate is set. If it is + * accepted this is equal to params.rate. */ + uint32_t input_device_rate; + /* Exchange input buffers between input + * and full duplex threads. */ + array_queue * input_queue; + /* Silent input buffer used on full duplex. */ + void * input_silent_buffer; + /* Number of input frames from the start of the stream*/ + uint32_t input_total_frames; + /* Flag to stop the execution of user callback and + * close all working threads. Synchronized by + * stream::mutex lock. */ + uint32_t shutdown; + /* Store user callback. */ cubeb_data_callback data_callback; + /* Store state callback. */ cubeb_state_callback state_callback; - void * user_ptr; cubeb_resampler * resampler; - unsigned int inputrate; - unsigned int outputrate; - unsigned int latency; + unsigned int user_output_rate; + unsigned int output_configured_rate; + unsigned int buffer_size_frames; + // Audio output latency used in cubeb_stream_get_position(). + unsigned int output_latency_ms; int64_t lastPosition; int64_t lastPositionTimeStamp; int64_t lastCompensativePosition; + int voice; }; +/* Forward declaration. */ +static int opensl_stop_player(cubeb_stream * stm); +static int opensl_stop_recorder(cubeb_stream * stm); + +static int +opensl_get_draining(cubeb_stream * stm) +{ +#ifdef DEBUG + int r = pthread_mutex_trylock(&stm->mutex); + assert((r == EDEADLK || r == EBUSY) && "get_draining: mutex should be locked but it's not."); +#endif + return stm->draining; +} + +static void +opensl_set_draining(cubeb_stream * stm, int value) +{ +#ifdef DEBUG + int r = pthread_mutex_trylock(&stm->mutex); + LOG("set draining try r = %d", r); + assert((r == EDEADLK || r == EBUSY) && "set_draining: mutex should be locked but it's not."); +#endif + assert(value == 0 || value == 1); + stm->draining = value; +} + +static void +opensl_notify_drained(cubeb_stream * stm) +{ + assert(stm); + int r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + int draining = opensl_get_draining(stm); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + if (draining) { + stm->state_callback(stm, stm->user_ptr, CUBEB_STATE_DRAINED); + if (stm->play) { + LOG("stop player in play_callback"); + r = opensl_stop_player(stm); + assert(r == CUBEB_OK); + } + if (stm->recorderItf) { + r = opensl_stop_recorder(stm); + assert(r == CUBEB_OK); + } + } +} + +static uint32_t +opensl_get_shutdown(cubeb_stream * stm) +{ +#ifdef DEBUG + int r = pthread_mutex_trylock(&stm->mutex); + assert((r == EDEADLK || r == EBUSY) && "get_shutdown: mutex should be locked but it's not."); +#endif + return stm->shutdown; +} + +static void +opensl_set_shutdown(cubeb_stream * stm, uint32_t value) +{ +#ifdef DEBUG + int r = pthread_mutex_trylock(&stm->mutex); + LOG("set shutdown try r = %d", r); + assert((r == EDEADLK || r == EBUSY) && "set_shutdown: mutex should be locked but it's not."); +#endif + assert(value == 0 || value == 1); + stm->shutdown = value; +} + static void play_callback(SLPlayItf caller, void * user_ptr, SLuint32 event) { cubeb_stream * stm = user_ptr; - int draining; assert(stm); switch (event) { - case SL_PLAYEVENT_HEADATMARKER: - pthread_mutex_lock(&stm->mutex); - draining = stm->draining; - pthread_mutex_unlock(&stm->mutex); - if (draining) { - stm->state_callback(stm, stm->user_ptr, CUBEB_STATE_DRAINED); - (*stm->play)->SetPlayState(stm->play, SL_PLAYSTATE_PAUSED); - } + case SL_PLAYEVENT_HEADATMARKER: + opensl_notify_drained(stm); break; default: break; } } +static void +recorder_marker_callback (SLRecordItf caller, void * pContext, SLuint32 event) +{ + cubeb_stream * stm = pContext; + assert(stm); + + if (event == SL_RECORDEVENT_HEADATMARKER) { + int r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + int draining = opensl_get_draining(stm); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + if (draining) { + stm->state_callback(stm, stm->user_ptr, CUBEB_STATE_DRAINED); + if (stm->recorderItf) { + r = opensl_stop_recorder(stm); + assert(r == CUBEB_OK); + } + if (stm->play) { + r = opensl_stop_player(stm); + assert(r == CUBEB_OK); + } + } + } +} + static void bufferqueue_callback(SLBufferQueueItf caller, void * user_ptr) { @@ -108,90 +289,333 @@ bufferqueue_callback(SLBufferQueueItf caller, void * user_ptr) assert(stm); SLBufferQueueState state; SLresult res; + long written = 0; res = (*stm->bufq)->GetState(stm->bufq, &state); assert(res == SL_RESULT_SUCCESS); - if (state.count > 1) + if (state.count > 1) { return; + } - SLuint32 i; - for (i = state.count; i < NBUFS; i++) { - uint8_t *buf = stm->queuebuf[stm->queuebuf_idx]; - long written = 0; - pthread_mutex_lock(&stm->mutex); - int draining = stm->draining; - pthread_mutex_unlock(&stm->mutex); - - if (!draining) { - written = cubeb_resampler_fill(stm->resampler, - NULL, NULL, - buf, stm->queuebuf_len / stm->framesize); - if (written < 0 || written * stm->framesize > stm->queuebuf_len) { - (*stm->play)->SetPlayState(stm->play, SL_PLAYSTATE_PAUSED); - return; - } + uint8_t *buf = stm->queuebuf[stm->queuebuf_idx]; + written = 0; + int r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + int draining = opensl_get_draining(stm); + uint32_t shutdown = opensl_get_shutdown(stm); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + if (!draining && !shutdown) { + written = cubeb_resampler_fill(stm->resampler, + NULL, NULL, + buf, stm->queuebuf_len / stm->framesize); + LOG("bufferqueue_callback: resampler fill returned %ld frames", written); + if (written < 0 || written * stm->framesize > stm->queuebuf_len) { + r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + opensl_set_shutdown(stm, 1); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + opensl_stop_player(stm); + stm->state_callback(stm, stm->user_ptr, CUBEB_STATE_ERROR); + return; } + } - // Keep sending silent data even in draining mode to prevent the audio - // back-end from being stopped automatically by OpenSL/ES. - memset(buf + written * stm->framesize, 0, stm->queuebuf_len - written * stm->framesize); - res = (*stm->bufq)->Enqueue(stm->bufq, buf, stm->queuebuf_len); - assert(res == SL_RESULT_SUCCESS); - stm->queuebuf_idx = (stm->queuebuf_idx + 1) % NBUFS; - if (written > 0) { - pthread_mutex_lock(&stm->mutex); - stm->written += written; - pthread_mutex_unlock(&stm->mutex); - } + // Keep sending silent data even in draining mode to prevent the audio + // back-end from being stopped automatically by OpenSL/ES. + assert(stm->queuebuf_len >= written * stm->framesize); + memset(buf + written * stm->framesize, 0, stm->queuebuf_len - written * stm->framesize); + res = (*stm->bufq)->Enqueue(stm->bufq, buf, stm->queuebuf_len); + assert(res == SL_RESULT_SUCCESS); + stm->queuebuf_idx = (stm->queuebuf_idx + 1) % stm->queuebuf_capacity; + + if (written > 0) { + pthread_mutex_lock(&stm->mutex); + stm->written += written; + pthread_mutex_unlock(&stm->mutex); + } - if (!draining && written * stm->framesize < stm->queuebuf_len) { - pthread_mutex_lock(&stm->mutex); - int64_t written_duration = INT64_C(1000) * stm->written * stm->framesize / stm->bytespersec; - stm->draining = 1; - pthread_mutex_unlock(&stm->mutex); + if (!draining && written * stm->framesize < stm->queuebuf_len) { + LOG("bufferqueue_callback draining"); + r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + int64_t written_duration = INT64_C(1000) * stm->written * stm->framesize / stm->bytespersec; + opensl_set_draining(stm, 1); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + + if (written_duration == 0) { + // since we didn't write any sample, it's not possible to reach the marker + // time and trigger the callback. We should initiative notify drained. + opensl_notify_drained(stm); + } else { // Use SL_PLAYEVENT_HEADATMARKER event from slPlayCallback of SLPlayItf // to make sure all the data has been processed. (*stm->play)->SetMarkerPosition(stm->play, (SLmillisecond)written_duration); - return; } + return; } } -#if defined(__ANDROID__) -static SLuint32 -convert_stream_type_to_sl_stream(cubeb_stream_type stream_type) -{ - switch(stream_type) { - case CUBEB_STREAM_TYPE_SYSTEM: - return SL_ANDROID_STREAM_SYSTEM; - case CUBEB_STREAM_TYPE_MUSIC: - return SL_ANDROID_STREAM_MEDIA; - case CUBEB_STREAM_TYPE_NOTIFICATION: - return SL_ANDROID_STREAM_NOTIFICATION; - case CUBEB_STREAM_TYPE_ALARM: - return SL_ANDROID_STREAM_ALARM; - case CUBEB_STREAM_TYPE_VOICE_CALL: - return SL_ANDROID_STREAM_VOICE; - case CUBEB_STREAM_TYPE_RING: - return SL_ANDROID_STREAM_RING; - case CUBEB_STREAM_TYPE_SYSTEM_ENFORCED: - return SL_ANDROID_STREAM_SYSTEM_ENFORCED; - default: - return 0xFFFFFFFF; +static int +opensl_enqueue_recorder(cubeb_stream * stm, void ** last_filled_buffer) +{ + assert(stm); + + int current_index = stm->input_buffer_index; + void * last_buffer = NULL; + + if (current_index < 0) { + // This is the first enqueue + current_index = 0; + } else { + // The current index hold the last filled buffer get it before advance index. + last_buffer = stm->input_buffer_array[current_index]; + // Advance to get next available buffer + current_index = (current_index + 1) % stm->input_array_capacity; + } + // enqueue next empty buffer to be filled by the recorder + SLresult res = (*stm->recorderBufferQueueItf)->Enqueue(stm->recorderBufferQueueItf, + stm->input_buffer_array[current_index], + stm->input_buffer_length); + if (res != SL_RESULT_SUCCESS ) { + LOG("Enqueue recorder failed. Error code: %lu", res); + return CUBEB_ERROR; + } + // All good, update buffer and index. + stm->input_buffer_index = current_index; + if (last_filled_buffer) { + *last_filled_buffer = last_buffer; } + return CUBEB_OK; +} + +// input data callback +void recorder_callback(SLAndroidSimpleBufferQueueItf bq, void * context) +{ + assert(context); + cubeb_stream * stm = context; + assert(stm->recorderBufferQueueItf); + + int r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + uint32_t shutdown = opensl_get_shutdown(stm); + int draining = opensl_get_draining(stm); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + + if (shutdown || draining) { + // According to the OpenSL ES 1.1 Specification, 8.14 SLBufferQueueItf + // page 184, on transition to the SL_RECORDSTATE_STOPPED state, + // the application should continue to enqueue buffers onto the queue + // to retrieve the residual recorded data in the system. + r = opensl_enqueue_recorder(stm, NULL); + assert(r == CUBEB_OK); + return; + } + + // Enqueue next available buffer and get the last filled buffer. + void * input_buffer = NULL; + r = opensl_enqueue_recorder(stm, &input_buffer); + assert(r == CUBEB_OK); + assert(input_buffer); + // Fill resampler with last input + long input_frame_count = stm->input_buffer_length / stm->input_frame_size; + long got = cubeb_resampler_fill(stm->resampler, + input_buffer, + &input_frame_count, + NULL, + 0); + // Error case + if (got < 0 || got > input_frame_count) { + r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + opensl_set_shutdown(stm, 1); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + r = opensl_stop_recorder(stm); + assert(r == CUBEB_OK); + stm->state_callback(stm, stm->user_ptr, CUBEB_STATE_ERROR); + } + + // Advance total stream frames + stm->input_total_frames += got; + + if (got < input_frame_count) { + r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + opensl_set_draining(stm, 1); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + int64_t duration = INT64_C(1000) * stm->input_total_frames / stm->input_device_rate; + (*stm->recorderItf)->SetMarkerPosition(stm->recorderItf, (SLmillisecond)duration); + return; + } +} + +void recorder_fullduplex_callback(SLAndroidSimpleBufferQueueItf bq, void * context) +{ + assert(context); + cubeb_stream * stm = context; + assert(stm->recorderBufferQueueItf); + + int r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + int draining = opensl_get_draining(stm); + uint32_t shutdown = opensl_get_shutdown(stm); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + + if (shutdown || draining) { + /* On draining and shutdown the recorder should have been stoped from + * the one set the flags. Accordint to the doc, on transition to + * the SL_RECORDSTATE_STOPPED state, the application should + * continue to enqueue buffers onto the queue to retrieve the residual + * recorded data in the system. */ + LOG("Input shutdown %d or drain %d", shutdown, draining); + int r = opensl_enqueue_recorder(stm, NULL); + assert(r == CUBEB_OK); + return; + } + + // Enqueue next available buffer and get the last filled buffer. + void * input_buffer = NULL; + r = opensl_enqueue_recorder(stm, &input_buffer); + assert(r == CUBEB_OK); + assert(input_buffer); + + assert(stm->input_queue); + r = array_queue_push(stm->input_queue, input_buffer); + if (r == -1) { + LOG("Input queue is full, drop input ..."); + return; + } + + LOG("Input pushed in the queue, input array %zu", + array_queue_get_size(stm->input_queue)); +} + +static void +player_fullduplex_callback(SLBufferQueueItf caller, void * user_ptr) +{ + TIMESTAMP("ENTER"); + cubeb_stream * stm = user_ptr; + assert(stm); + SLresult res; + + int r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + int draining = opensl_get_draining(stm); + uint32_t shutdown = opensl_get_shutdown(stm); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + + // Get output + void * output_buffer = NULL; + r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + output_buffer = stm->queuebuf[stm->queuebuf_idx]; + // Advance the output buffer queue index + stm->queuebuf_idx = (stm->queuebuf_idx + 1) % stm->queuebuf_capacity; + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + + if (shutdown || draining) { + LOG("Shutdown/draining, send silent"); + // Set silent on buffer + memset(output_buffer, 0, stm->queuebuf_len); + + // Enqueue data in player buffer queue + res = (*stm->bufq)->Enqueue(stm->bufq, + output_buffer, + stm->queuebuf_len); + assert(res == SL_RESULT_SUCCESS); + return; + } + + // Get input. + void * input_buffer = array_queue_pop(stm->input_queue); + long input_frame_count = stm->input_buffer_length / stm->input_frame_size; + long frames_needed = stm->queuebuf_len / stm->framesize; + if (!input_buffer) { + LOG("Input hole set silent input buffer"); + input_buffer = stm->input_silent_buffer; + } + + long written = 0; + // Trigger user callback through resampler + written = cubeb_resampler_fill(stm->resampler, + input_buffer, + &input_frame_count, + output_buffer, + frames_needed); + + LOG("Fill: written %ld, frames_needed %ld, input array size %zu", + written, frames_needed, array_queue_get_size(stm->input_queue)); + + if (written < 0 || written > frames_needed) { + // Error case + r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + opensl_set_shutdown(stm, 1); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + opensl_stop_player(stm); + opensl_stop_recorder(stm); + stm->state_callback(stm, stm->user_ptr, CUBEB_STATE_ERROR); + memset(output_buffer, 0, stm->queuebuf_len); + + // Enqueue data in player buffer queue + res = (*stm->bufq)->Enqueue(stm->bufq, + output_buffer, + stm->queuebuf_len); + assert(res == SL_RESULT_SUCCESS); + return; + } + + // Advance total out written frames counter + r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + stm->written += written; + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + + if ( written < frames_needed) { + r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + int64_t written_duration = INT64_C(1000) * stm->written * stm->framesize / stm->bytespersec; + opensl_set_draining(stm, 1); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + + // Use SL_PLAYEVENT_HEADATMARKER event from slPlayCallback of SLPlayItf + // to make sure all the data has been processed. + (*stm->play)->SetMarkerPosition(stm->play, (SLmillisecond)written_duration); + } + + // Keep sending silent data even in draining mode to prevent the audio + // back-end from being stopped automatically by OpenSL/ES. + memset((uint8_t *)output_buffer + written * stm->framesize, 0, + stm->queuebuf_len - written * stm->framesize); + + // Enqueue data in player buffer queue + res = (*stm->bufq)->Enqueue(stm->bufq, + output_buffer, + stm->queuebuf_len); + assert(res == SL_RESULT_SUCCESS); + TIMESTAMP("EXIT"); } -#endif static void opensl_destroy(cubeb * ctx); #if defined(__ANDROID__) - #if (__ANDROID_API__ >= ANDROID_VERSION_LOLLIPOP) typedef int (system_property_get)(const char*, char*); static int -__system_property_get(const char* name, char* value) +wrap_system_property_get(const char* name, char* value) { void* libc = dlopen("libc.so", RTLD_LAZY); if (!libc) { @@ -216,14 +640,18 @@ get_android_version(void) memset(version_string, 0, PROP_VALUE_MAX); +#if (__ANDROID_API__ >= ANDROID_VERSION_LOLLIPOP) + int len = wrap_system_property_get("ro.build.version.sdk", version_string); +#else int len = __system_property_get("ro.build.version.sdk", version_string); +#endif if (len <= 0) { LOG("Failed to get Android version!\n"); return len; } int version = (int)strtol(version_string, NULL, 10); - LOG("%d", version); + LOG("Android version %d", version); return version; } #endif @@ -249,30 +677,11 @@ opensl_init(cubeb ** context, char const * context_name) ctx->ops = &opensl_ops; ctx->lib = dlopen("libOpenSLES.so", RTLD_LAZY); - ctx->libmedia = dlopen("libmedia.so", RTLD_LAZY); - if (!ctx->lib || !ctx->libmedia) { + if (!ctx->lib) { free(ctx); return CUBEB_ERROR; } - /* Get the latency, in ms, from AudioFlinger */ - /* status_t AudioSystem::getOutputLatency(uint32_t* latency, - * audio_stream_type_t streamType) */ - /* First, try the most recent signature. */ - ctx->get_output_latency = - dlsym(ctx->libmedia, "_ZN7android11AudioSystem16getOutputLatencyEPj19audio_stream_type_t"); - if (!ctx->get_output_latency) { - /* in case of failure, try the legacy version. */ - /* status_t AudioSystem::getOutputLatency(uint32_t* latency, - * int streamType) */ - ctx->get_output_latency = - dlsym(ctx->libmedia, "_ZN7android11AudioSystem16getOutputLatencyEPji"); - if (!ctx->get_output_latency) { - opensl_destroy(ctx); - return CUBEB_ERROR; - } - } - typedef SLresult (*slCreateEngine_t)(SLObjectItf *, SLuint32, const SLEngineOption *, @@ -287,16 +696,21 @@ opensl_init(cubeb ** context, char const * context_name) ctx->SL_IID_BUFFERQUEUE = *(SLInterfaceID *)dlsym(ctx->lib, "SL_IID_BUFFERQUEUE"); #if defined(__ANDROID__) ctx->SL_IID_ANDROIDCONFIGURATION = *(SLInterfaceID *)dlsym(ctx->lib, "SL_IID_ANDROIDCONFIGURATION"); + ctx->SL_IID_ANDROIDSIMPLEBUFFERQUEUE = *(SLInterfaceID *)dlsym(ctx->lib, "SL_IID_ANDROIDSIMPLEBUFFERQUEUE"); #endif ctx->SL_IID_PLAY = *(SLInterfaceID *)dlsym(ctx->lib, "SL_IID_PLAY"); + ctx->SL_IID_RECORD = *(SLInterfaceID *)dlsym(ctx->lib, "SL_IID_RECORD"); + if (!f_slCreateEngine || !SL_IID_ENGINE || !SL_IID_OUTPUTMIX || !ctx->SL_IID_BUFFERQUEUE || #if defined(__ANDROID__) !ctx->SL_IID_ANDROIDCONFIGURATION || + !ctx->SL_IID_ANDROIDSIMPLEBUFFERQUEUE || #endif - !ctx->SL_IID_PLAY) { + !ctx->SL_IID_PLAY || + !ctx->SL_IID_RECORD) { opensl_destroy(ctx); return CUBEB_ERROR; } @@ -337,8 +751,14 @@ opensl_init(cubeb ** context, char const * context_name) return CUBEB_ERROR; } + ctx->p_output_latency_function = cubeb_output_latency_load_method(android_version); + if (!ctx->p_output_latency_function) { + LOG("Warning: output latency is not available, cubeb_stream_get_position() is not supported"); + } + *context = ctx; + LOG("Cubeb init (%p) success", ctx); return CUBEB_OK; } @@ -359,200 +779,257 @@ opensl_get_max_channel_count(cubeb * ctx, uint32_t * max_channels) return CUBEB_OK; } +static void +opensl_destroy(cubeb * ctx) +{ + if (ctx->outmixObj) + (*ctx->outmixObj)->Destroy(ctx->outmixObj); + if (ctx->engObj) + cubeb_destroy_sles_engine(&ctx->engObj); + dlclose(ctx->lib); + if (ctx->p_output_latency_function) + cubeb_output_latency_unload_method(ctx->p_output_latency_function); + free(ctx); +} + +static void opensl_stream_destroy(cubeb_stream * stm); + static int -opensl_get_preferred_sample_rate(cubeb * ctx, uint32_t * rate) -{ - /* https://android.googlesource.com/platform/ndk.git/+/master/docs/opensles/index.html - * We don't want to deal with JNI here (and we don't have Java on b2g anyways), - * so we just dlopen the library and get the two symbols we need. */ - int r; - void * libmedia; - uint32_t (*get_primary_output_samplingrate)(); - uint32_t (*get_output_samplingrate)(int * samplingRate, int streamType); - - libmedia = dlopen("libmedia.so", RTLD_LAZY); - if (!libmedia) { - return CUBEB_ERROR; +opensl_set_format(SLDataFormat_PCM * format, cubeb_stream_params * params) +{ + assert(format); + assert(params); + + format->formatType = SL_DATAFORMAT_PCM; + format->numChannels = params->channels; + // samplesPerSec is in milliHertz + format->samplesPerSec = params->rate * 1000; + format->bitsPerSample = SL_PCMSAMPLEFORMAT_FIXED_16; + format->containerSize = SL_PCMSAMPLEFORMAT_FIXED_16; + format->channelMask = params->channels == 1 ? + SL_SPEAKER_FRONT_CENTER : + SL_SPEAKER_FRONT_LEFT | SL_SPEAKER_FRONT_RIGHT; + + switch (params->format) { + case CUBEB_SAMPLE_S16LE: + format->endianness = SL_BYTEORDER_LITTLEENDIAN; + break; + case CUBEB_SAMPLE_S16BE: + format->endianness = SL_BYTEORDER_BIGENDIAN; + break; + default: + return CUBEB_ERROR_INVALID_FORMAT; + } + return CUBEB_OK; +} + +static int +opensl_configure_capture(cubeb_stream * stm, cubeb_stream_params * params) +{ + assert(stm); + assert(params); + + SLDataLocator_AndroidSimpleBufferQueue lDataLocatorOut; + lDataLocatorOut.locatorType = SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE; + lDataLocatorOut.numBuffers = NBUFS; + + SLDataFormat_PCM lDataFormat; + int r = opensl_set_format(&lDataFormat, params); + if (r != CUBEB_OK) { + return CUBEB_ERROR_INVALID_FORMAT; } - /* uint32_t AudioSystem::getPrimaryOutputSamplingRate(void) */ - get_primary_output_samplingrate = - dlsym(libmedia, "_ZN7android11AudioSystem28getPrimaryOutputSamplingRateEv"); - if (!get_primary_output_samplingrate) { - /* fallback to - * status_t AudioSystem::getOutputSamplingRate(int* samplingRate, int streamType) - * if we cannot find getPrimaryOutputSamplingRate. */ - get_output_samplingrate = - dlsym(libmedia, "_ZN7android11AudioSystem21getOutputSamplingRateEPj19audio_stream_type_t"); - if (!get_output_samplingrate) { - /* Another signature exists, with a int instead of an audio_stream_type_t */ - get_output_samplingrate = - dlsym(libmedia, "_ZN7android11AudioSystem21getOutputSamplingRateEPii"); - if (!get_output_samplingrate) { - dlclose(libmedia); - return CUBEB_ERROR; - } + /* For now set device rate to params rate. */ + stm->input_device_rate = params->rate; + + SLDataSink lDataSink; + lDataSink.pLocator = &lDataLocatorOut; + lDataSink.pFormat = &lDataFormat; + + SLDataLocator_IODevice lDataLocatorIn; + lDataLocatorIn.locatorType = SL_DATALOCATOR_IODEVICE; + lDataLocatorIn.deviceType = SL_IODEVICE_AUDIOINPUT; + lDataLocatorIn.deviceID = SL_DEFAULTDEVICEID_AUDIOINPUT; + lDataLocatorIn.device = NULL; + + SLDataSource lDataSource; + lDataSource.pLocator = &lDataLocatorIn; + lDataSource.pFormat = NULL; + + const SLInterfaceID lSoundRecorderIIDs[] = { stm->context->SL_IID_RECORD, + stm->context->SL_IID_ANDROIDSIMPLEBUFFERQUEUE, + stm->context->SL_IID_ANDROIDCONFIGURATION }; + + const SLboolean lSoundRecorderReqs[] = { SL_BOOLEAN_TRUE, SL_BOOLEAN_TRUE, SL_BOOLEAN_TRUE }; + // create the audio recorder abstract object + SLresult res = (*stm->context->eng)->CreateAudioRecorder(stm->context->eng, + &stm->recorderObj, + &lDataSource, + &lDataSink, + NELEMS(lSoundRecorderIIDs), + lSoundRecorderIIDs, + lSoundRecorderReqs); + // Sample rate not supported. Try again with default sample rate! + if (res == SL_RESULT_CONTENT_UNSUPPORTED) { + if (stm->output_enabled && stm->output_configured_rate != 0) { + // Set the same with the player. Since there is no + // api for input device this is a safe choice. + stm->input_device_rate = stm->output_configured_rate; + } else { + // The output preferred rate is used for an input only scenario. + // The default rate expected to be supported from all android devices. + stm->input_device_rate = DEFAULT_SAMPLE_RATE; } - } + lDataFormat.samplesPerSec = stm->input_device_rate * 1000; + res = (*stm->context->eng)->CreateAudioRecorder(stm->context->eng, + &stm->recorderObj, + &lDataSource, + &lDataSink, + NELEMS(lSoundRecorderIIDs), + lSoundRecorderIIDs, + lSoundRecorderReqs); - if (get_primary_output_samplingrate) { - *rate = get_primary_output_samplingrate(); - } else { - /* We don't really know about the type, here, so we just pass music. */ - r = get_output_samplingrate((int *) rate, AUDIO_STREAM_TYPE_MUSIC); - if (r) { - dlclose(libmedia); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to create recorder. Error code: %lu", res); return CUBEB_ERROR; } } - dlclose(libmedia); - /* Depending on which method we called above, we can get a zero back, yet have - * a non-error return value, especially if the audio system is not - * ready/shutting down (i.e. when we can't get our hand on the AudioFlinger - * thread). */ - if (*rate == 0) { - return CUBEB_ERROR; - } + if (get_android_version() > ANDROID_VERSION_JELLY_BEAN) { + SLAndroidConfigurationItf recorderConfig; + res = (*stm->recorderObj) + ->GetInterface(stm->recorderObj, + stm->context->SL_IID_ANDROIDCONFIGURATION, + &recorderConfig); - return CUBEB_OK; -} + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to get the android configuration interface for recorder. Error " + "code: %lu", + res); + return CUBEB_ERROR; + } -static int -opensl_get_min_latency(cubeb * ctx, cubeb_stream_params params, uint32_t * latency_frames) -{ - /* https://android.googlesource.com/platform/ndk.git/+/master/docs/opensles/index.html - * We don't want to deal with JNI here (and we don't have Java on b2g anyways), - * so we just dlopen the library and get the two symbols we need. */ + // Voice recognition is the lowest latency, according to the docs. Camcorder + // uses a microphone that is in the same direction as the camera. + SLint32 streamType = stm->voice ? SL_ANDROID_RECORDING_PRESET_VOICE_RECOGNITION + : SL_ANDROID_RECORDING_PRESET_CAMCORDER; + + res = (*recorderConfig) + ->SetConfiguration(recorderConfig, SL_ANDROID_KEY_RECORDING_PRESET, + &streamType, sizeof(SLint32)); + + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to set the android configuration to VOICE for the recorder. " + "Error code: %lu", res); + return CUBEB_ERROR; + } + } + // realize the audio recorder + res = (*stm->recorderObj)->Realize(stm->recorderObj, SL_BOOLEAN_FALSE); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to realize recorder. Error code: %lu", res); + return CUBEB_ERROR; + } + // get the record interface + res = (*stm->recorderObj)->GetInterface(stm->recorderObj, + stm->context->SL_IID_RECORD, + &stm->recorderItf); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to get recorder interface. Error code: %lu", res); + return CUBEB_ERROR; + } - int r; - void * libmedia; - size_t (*get_primary_output_frame_count)(void); - int (*get_output_frame_count)(size_t * frameCount, int streamType); - uint32_t primary_sampling_rate; - size_t primary_buffer_size; + res = (*stm->recorderItf)->RegisterCallback(stm->recorderItf, recorder_marker_callback, stm); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to register recorder marker callback. Error code: %lu", res); + return CUBEB_ERROR; + } - r = opensl_get_preferred_sample_rate(ctx, &primary_sampling_rate); + (*stm->recorderItf)->SetMarkerPosition(stm->recorderItf, (SLmillisecond)0); - if (r) { + res = (*stm->recorderItf)->SetCallbackEventsMask(stm->recorderItf, (SLuint32)SL_RECORDEVENT_HEADATMARKER); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to set headatmarker event mask. Error code: %lu", res); + return CUBEB_ERROR; + } + // get the simple android buffer queue interface + res = (*stm->recorderObj)->GetInterface(stm->recorderObj, + stm->context->SL_IID_ANDROIDSIMPLEBUFFERQUEUE, + &stm->recorderBufferQueueItf); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to get recorder (android) buffer queue interface. Error code: %lu", res); return CUBEB_ERROR; } - libmedia = dlopen("libmedia.so", RTLD_LAZY); - if (!libmedia) { + // register callback on record (input) buffer queue + slAndroidSimpleBufferQueueCallback rec_callback = recorder_callback; + if (stm->output_enabled) { + // Register full duplex callback instead. + rec_callback = recorder_fullduplex_callback; + } + res = (*stm->recorderBufferQueueItf)->RegisterCallback(stm->recorderBufferQueueItf, + rec_callback, + stm); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to register recorder buffer queue callback. Error code: %lu", res); return CUBEB_ERROR; } - /* JB variant */ - /* size_t AudioSystem::getPrimaryOutputFrameCount(void) */ - get_primary_output_frame_count = - dlsym(libmedia, "_ZN7android11AudioSystem26getPrimaryOutputFrameCountEv"); - if (!get_primary_output_frame_count) { - /* ICS variant */ - /* status_t AudioSystem::getOutputFrameCount(int* frameCount, int streamType) */ - get_output_frame_count = - dlsym(libmedia, "_ZN7android11AudioSystem19getOutputFrameCountEPii"); - if (!get_output_frame_count) { - dlclose(libmedia); - return CUBEB_ERROR; - } + // Calculate length of input buffer according to requested latency + stm->input_frame_size = params->channels * sizeof(int16_t); + stm->input_buffer_length = (stm->input_frame_size * stm->buffer_size_frames); + + // Calculate the capacity of input array + stm->input_array_capacity = NBUFS; + if (stm->output_enabled) { + // Full duplex, update capacity to hold 1 sec of data + stm->input_array_capacity = 1 * stm->input_device_rate / stm->input_buffer_length; + } + // Allocate input array + stm->input_buffer_array = (void**)calloc(1, sizeof(void*)*stm->input_array_capacity); + // Buffering has not started yet. + stm->input_buffer_index = -1; + // Prepare input buffers + for(uint32_t i = 0; i < stm->input_array_capacity; ++i) { + stm->input_buffer_array[i] = calloc(1, stm->input_buffer_length); } - if (get_primary_output_frame_count) { - primary_buffer_size = get_primary_output_frame_count(); - } else { - if (get_output_frame_count(&primary_buffer_size, params.stream_type) != 0) { - return CUBEB_ERROR; - } + // On full duplex allocate input queue and silent buffer + if (stm->output_enabled) { + stm->input_queue = array_queue_create(stm->input_array_capacity); + assert(stm->input_queue); + stm->input_silent_buffer = calloc(1, stm->input_buffer_length); + assert(stm->input_silent_buffer); } - /* To get a fast track in Android's mixer, we need to be at the native - * samplerate, which is device dependant. Some devices might be able to - * resample when playing a fast track, but it's pretty rare. */ - *latency_frames = NBUFS * primary_buffer_size; + // Enqueue buffer to start rolling once recorder started + r = opensl_enqueue_recorder(stm, NULL); + if (r != CUBEB_OK) { + return r; + } - dlclose(libmedia); + LOG("Cubeb stream init recorder success"); return CUBEB_OK; } -static void -opensl_destroy(cubeb * ctx) -{ - if (ctx->outmixObj) - (*ctx->outmixObj)->Destroy(ctx->outmixObj); - if (ctx->engObj) - cubeb_destroy_sles_engine(&ctx->engObj); - dlclose(ctx->lib); - dlclose(ctx->libmedia); - free(ctx); -} - -static void opensl_stream_destroy(cubeb_stream * stm); - static int -opensl_stream_init(cubeb * ctx, cubeb_stream ** stream, char const * stream_name, - cubeb_devid input_device, - cubeb_stream_params * input_stream_params, - cubeb_devid output_device, - cubeb_stream_params * output_stream_params, - unsigned int latency_frames, - cubeb_data_callback data_callback, cubeb_state_callback state_callback, - void * user_ptr) -{ - cubeb_stream * stm; - - assert(ctx); - assert(!input_stream_params && "not supported"); - if (input_device || output_device) { - /* Device selection not yet implemented. */ - return CUBEB_ERROR_DEVICE_UNAVAILABLE; - } - - *stream = NULL; - - SLDataFormat_PCM format; - - format.formatType = SL_DATAFORMAT_PCM; - format.numChannels = output_stream_params->channels; - // samplesPerSec is in milliHertz - format.samplesPerSec = output_stream_params->rate * 1000; - format.bitsPerSample = SL_PCMSAMPLEFORMAT_FIXED_16; - format.containerSize = SL_PCMSAMPLEFORMAT_FIXED_16; - format.channelMask = output_stream_params->channels == 1 ? - SL_SPEAKER_FRONT_CENTER : - SL_SPEAKER_FRONT_LEFT | SL_SPEAKER_FRONT_RIGHT; - - switch (output_stream_params->format) { - case CUBEB_SAMPLE_S16LE: - format.endianness = SL_BYTEORDER_LITTLEENDIAN; - break; - case CUBEB_SAMPLE_S16BE: - format.endianness = SL_BYTEORDER_BIGENDIAN; - break; - default: - return CUBEB_ERROR_INVALID_FORMAT; - } - - stm = calloc(1, sizeof(*stm)); +opensl_configure_playback(cubeb_stream * stm, cubeb_stream_params * params) { assert(stm); + assert(params); - stm->context = ctx; - stm->data_callback = data_callback; - stm->state_callback = state_callback; - stm->user_ptr = user_ptr; - - stm->inputrate = output_stream_params->rate; - stm->latency = latency_frames; - stm->stream_type = output_stream_params->stream_type; - stm->framesize = output_stream_params->channels * sizeof(int16_t); + stm->user_output_rate = params->rate; + stm->framesize = params->channels * sizeof(int16_t); stm->lastPosition = -1; stm->lastPositionTimeStamp = 0; stm->lastCompensativePosition = -1; - int r = pthread_mutex_init(&stm->mutex, NULL); - assert(r == 0); + SLDataFormat_PCM format; + int r = opensl_set_format(&format, params); + if (r != CUBEB_OK) { + return CUBEB_ERROR_INVALID_FORMAT; + } SLDataLocator_BufferQueue loc_bufq; loc_bufq.locatorType = SL_DATALOCATOR_BUFFERQUEUE; @@ -563,15 +1040,15 @@ opensl_stream_init(cubeb * ctx, cubeb_stream ** stream, char const * stream_name SLDataLocator_OutputMix loc_outmix; loc_outmix.locatorType = SL_DATALOCATOR_OUTPUTMIX; - loc_outmix.outputMix = ctx->outmixObj; + loc_outmix.outputMix = stm->context->outmixObj; SLDataSink sink; sink.pLocator = &loc_outmix; sink.pFormat = NULL; #if defined(__ANDROID__) - const SLInterfaceID ids[] = {ctx->SL_IID_BUFFERQUEUE, - ctx->SL_IID_VOLUME, - ctx->SL_IID_ANDROIDCONFIGURATION}; + const SLInterfaceID ids[] = {stm->context->SL_IID_BUFFERQUEUE, + stm->context->SL_IID_VOLUME, + stm->context->SL_IID_ANDROIDCONFIGURATION}; const SLboolean req[] = {SL_BOOLEAN_TRUE, SL_BOOLEAN_TRUE, SL_BOOLEAN_TRUE}; #else const SLInterfaceID ids[] = {ctx->SL_IID_BUFFERQUEUE, ctx->SL_IID_VOLUME}; @@ -579,115 +1056,166 @@ opensl_stream_init(cubeb * ctx, cubeb_stream ** stream, char const * stream_name #endif assert(NELEMS(ids) == NELEMS(req)); - uint32_t preferred_sampling_rate = stm->inputrate; -#if defined(__ANDROID__) - if (get_android_version() >= ANDROID_VERSION_MARSHMALLOW) { - // Reset preferred samping rate to trigger fallback to native sampling rate. - preferred_sampling_rate = 0; - if (opensl_get_min_latency(ctx, *output_stream_params, &latency_frames) != CUBEB_OK) { - // Default to AudioFlinger's advertised fast track latency of 10ms. - latency_frames = 440; - } - stm->latency = latency_frames; - } -#endif - + uint32_t preferred_sampling_rate = stm->user_output_rate; SLresult res = SL_RESULT_CONTENT_UNSUPPORTED; if (preferred_sampling_rate) { - res = (*ctx->eng)->CreateAudioPlayer(ctx->eng, &stm->playerObj, &source, - &sink, NELEMS(ids), ids, req); + res = (*stm->context->eng)->CreateAudioPlayer(stm->context->eng, + &stm->playerObj, + &source, + &sink, + NELEMS(ids), + ids, + req); } // Sample rate not supported? Try again with primary sample rate! - if (res == SL_RESULT_CONTENT_UNSUPPORTED) { - if (opensl_get_preferred_sample_rate(ctx, &preferred_sampling_rate)) { - opensl_stream_destroy(stm); - return CUBEB_ERROR; - } - + if (res == SL_RESULT_CONTENT_UNSUPPORTED && + preferred_sampling_rate != DEFAULT_SAMPLE_RATE) { + preferred_sampling_rate = DEFAULT_SAMPLE_RATE; format.samplesPerSec = preferred_sampling_rate * 1000; - res = (*ctx->eng)->CreateAudioPlayer(ctx->eng, &stm->playerObj, - &source, &sink, NELEMS(ids), ids, req); + res = (*stm->context->eng)->CreateAudioPlayer(stm->context->eng, + &stm->playerObj, + &source, + &sink, + NELEMS(ids), + ids, + req); } if (res != SL_RESULT_SUCCESS) { - opensl_stream_destroy(stm); + LOG("Failed to create audio player. Error code: %lu", res); return CUBEB_ERROR; } - stm->outputrate = preferred_sampling_rate; - stm->bytespersec = stm->outputrate * stm->framesize; - stm->queuebuf_len = stm->framesize * latency_frames / NBUFS; - // round up to the next multiple of stm->framesize, if needed. - if (stm->queuebuf_len % stm->framesize) { - stm->queuebuf_len += stm->framesize - (stm->queuebuf_len % stm->framesize); + stm->output_configured_rate = preferred_sampling_rate; + stm->bytespersec = stm->output_configured_rate * stm->framesize; + stm->queuebuf_len = stm->framesize * stm->buffer_size_frames; + + // Calculate the capacity of input array + stm->queuebuf_capacity = NBUFS; + if (stm->output_enabled) { + // Full duplex, update capacity to hold 1 sec of data + stm->queuebuf_capacity = 1 * stm->output_configured_rate / stm->queuebuf_len; + } + // Allocate input array + stm->queuebuf = (void**)calloc(1, sizeof(void*) * stm->queuebuf_capacity); + for (uint32_t i = 0; i < stm->queuebuf_capacity; ++i) { + stm->queuebuf[i] = calloc(1, stm->queuebuf_len); + assert(stm->queuebuf[i]); } - cubeb_stream_params params = *output_stream_params; - params.rate = preferred_sampling_rate; + SLAndroidConfigurationItf playerConfig = NULL; - stm->resampler = cubeb_resampler_create(stm, NULL, ¶ms, - output_stream_params->rate, - data_callback, - user_ptr, - CUBEB_RESAMPLER_QUALITY_DEFAULT); + if (get_android_version() >= ANDROID_VERSION_N_MR1) { + res = (*stm->playerObj) + ->GetInterface(stm->playerObj, + stm->context->SL_IID_ANDROIDCONFIGURATION, + &playerConfig); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to get Android configuration interface. Error code: %lu", res); + return CUBEB_ERROR; + } - if (!stm->resampler) { - opensl_stream_destroy(stm); - return CUBEB_ERROR; - } + SLint32 streamType = SL_ANDROID_STREAM_MEDIA; + if (stm->voice) { + streamType = SL_ANDROID_STREAM_VOICE; + } + res = (*playerConfig)->SetConfiguration(playerConfig, + SL_ANDROID_KEY_STREAM_TYPE, + &streamType, + sizeof(streamType)); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to set Android configuration to %d Error code: %lu", + streamType, res); + } - int i; - for (i = 0; i < NBUFS; i++) { - stm->queuebuf[i] = malloc(stm->queuebuf_len); - assert(stm->queuebuf[i]); - } + SLuint32 performanceMode = SL_ANDROID_PERFORMANCE_LATENCY; + if (stm->buffer_size_frames > POWERSAVE_LATENCY_FRAMES_THRESHOLD) { + performanceMode = SL_ANDROID_PERFORMANCE_POWER_SAVING; + } -#if defined(__ANDROID__) - SLuint32 stream_type = convert_stream_type_to_sl_stream(output_stream_params->stream_type); - if (stream_type != 0xFFFFFFFF) { - SLAndroidConfigurationItf playerConfig; - res = (*stm->playerObj)->GetInterface(stm->playerObj, - ctx->SL_IID_ANDROIDCONFIGURATION, &playerConfig); res = (*playerConfig)->SetConfiguration(playerConfig, - SL_ANDROID_KEY_STREAM_TYPE, &stream_type, sizeof(SLint32)); + SL_ANDROID_KEY_PERFORMANCE_MODE, + &performanceMode, + sizeof(performanceMode)); if (res != SL_RESULT_SUCCESS) { - opensl_stream_destroy(stm); - return CUBEB_ERROR; + LOG("Failed to set Android performance mode to %d Error code: %lu. This is" + " not fatal", performanceMode, res); } } -#endif res = (*stm->playerObj)->Realize(stm->playerObj, SL_BOOLEAN_FALSE); if (res != SL_RESULT_SUCCESS) { - opensl_stream_destroy(stm); + LOG("Failed to realize player object. Error code: %lu", res); return CUBEB_ERROR; } - res = (*stm->playerObj)->GetInterface(stm->playerObj, ctx->SL_IID_PLAY, &stm->play); + // There are two ways of getting the audio output latency: + // - a configuration value, only available on some devices (notably devices + // running FireOS) + // - A Java method, that we call using JNI. + // + // The first method is prefered, if available, because it can account for more + // latency causes, and is more precise. + + // Latency has to be queried after the realization of the interface, when + // using SL_IID_ANDROIDCONFIGURATION. + SLuint32 audioLatency = 0; + SLuint32 paramSize = sizeof(SLuint32); + // The reported latency is in milliseconds. + if (playerConfig) { + res = (*playerConfig)->GetConfiguration(playerConfig, + (const SLchar *)"androidGetAudioLatency", + ¶mSize, + &audioLatency); + if (res == SL_RESULT_SUCCESS) { + LOG("Got playback latency using android configuration extension"); + stm->output_latency_ms = audioLatency; + } + } + // `playerConfig` is available, but the above failed, or `playerConfig` is not + // available. In both cases, we need to acquire the output latency by an other + // mean. + if ((playerConfig && res != SL_RESULT_SUCCESS) || + !playerConfig) { + if (cubeb_output_latency_method_is_loaded(stm->context->p_output_latency_function)) { + LOG("Got playback latency using JNI"); + stm->output_latency_ms = cubeb_get_output_latency(stm->context->p_output_latency_function); + } else { + LOG("No alternate latency querying method loaded, A/V sync will be off."); + stm->output_latency_ms = 0; + } + } + + LOG("Audio output latency: %dms", stm->output_latency_ms); + + res = (*stm->playerObj)->GetInterface(stm->playerObj, + stm->context->SL_IID_PLAY, + &stm->play); if (res != SL_RESULT_SUCCESS) { - opensl_stream_destroy(stm); + LOG("Failed to get play interface. Error code: %lu", res); return CUBEB_ERROR; } - res = (*stm->playerObj)->GetInterface(stm->playerObj, ctx->SL_IID_BUFFERQUEUE, + res = (*stm->playerObj)->GetInterface(stm->playerObj, + stm->context->SL_IID_BUFFERQUEUE, &stm->bufq); if (res != SL_RESULT_SUCCESS) { - opensl_stream_destroy(stm); + LOG("Failed to get bufferqueue interface. Error code: %lu", res); return CUBEB_ERROR; } - res = (*stm->playerObj)->GetInterface(stm->playerObj, ctx->SL_IID_VOLUME, + res = (*stm->playerObj)->GetInterface(stm->playerObj, + stm->context->SL_IID_VOLUME, &stm->volume); - if (res != SL_RESULT_SUCCESS) { - opensl_stream_destroy(stm); + LOG("Failed to get volume interface. Error code: %lu", res); return CUBEB_ERROR; } res = (*stm->play)->RegisterCallback(stm->play, play_callback, stm); if (res != SL_RESULT_SUCCESS) { - opensl_stream_destroy(stm); + LOG("Failed to register play callback. Error code: %lu", res); return CUBEB_ERROR; } @@ -696,13 +1224,17 @@ opensl_stream_init(cubeb * ctx, cubeb_stream ** stream, char const * stream_name res = (*stm->play)->SetCallbackEventsMask(stm->play, (SLuint32)SL_PLAYEVENT_HEADATMARKER); if (res != SL_RESULT_SUCCESS) { - opensl_stream_destroy(stm); + LOG("Failed to set headatmarker event mask. Error code: %lu", res); return CUBEB_ERROR; } - res = (*stm->bufq)->RegisterCallback(stm->bufq, bufferqueue_callback, stm); + slBufferQueueCallback player_callback = bufferqueue_callback; + if (stm->input_enabled) { + player_callback = player_fullduplex_callback; + } + res = (*stm->bufq)->RegisterCallback(stm->bufq, player_callback, stm); if (res != SL_RESULT_SUCCESS) { - opensl_stream_destroy(stm); + LOG("Failed to register bufferqueue callback. Error code: %lu", res); return CUBEB_ERROR; } @@ -717,55 +1249,340 @@ opensl_stream_init(cubeb * ctx, cubeb_stream ** stream, char const * stream_name assert(res == SL_RESULT_SUCCESS); } - *stream = stm; + LOG("Cubeb stream init playback success"); return CUBEB_OK; } -static void -opensl_stream_destroy(cubeb_stream * stm) +static int +opensl_validate_stream_param(cubeb_stream_params * stream_params) { - if (stm->playerObj) - (*stm->playerObj)->Destroy(stm->playerObj); - int i; - for (i = 0; i < NBUFS; i++) { - free(stm->queuebuf[i]); + if ((stream_params && + (stream_params->channels < 1 || stream_params->channels > 32))) { + return CUBEB_ERROR_INVALID_FORMAT; } - pthread_mutex_destroy(&stm->mutex); + if ((stream_params && + (stream_params->prefs & CUBEB_STREAM_PREF_LOOPBACK))) { + LOG("Loopback is not supported"); + return CUBEB_ERROR_NOT_SUPPORTED; + } + return CUBEB_OK; +} - cubeb_resampler_destroy(stm->resampler); +int has_pref_set(cubeb_stream_params* input_params, + cubeb_stream_params* output_params, + cubeb_stream_prefs pref) +{ + return (input_params && input_params->prefs & pref) || + (output_params && output_params->prefs & pref); +} - free(stm); +static int +opensl_stream_init(cubeb * ctx, cubeb_stream ** stream, char const * stream_name, + cubeb_devid input_device, + cubeb_stream_params * input_stream_params, + cubeb_devid output_device, + cubeb_stream_params * output_stream_params, + unsigned int latency_frames, + cubeb_data_callback data_callback, cubeb_state_callback state_callback, + void * user_ptr) +{ + cubeb_stream * stm; + + assert(ctx); + if (input_device || output_device) { + LOG("Device selection is not supported in Android. The default will be used"); + } + + *stream = NULL; + + int r = opensl_validate_stream_param(output_stream_params); + if(r != CUBEB_OK) { + LOG("Output stream params not valid"); + return r; + } + r = opensl_validate_stream_param(input_stream_params); + if(r != CUBEB_OK) { + LOG("Input stream params not valid"); + return r; + } + + stm = calloc(1, sizeof(*stm)); + assert(stm); + + stm->context = ctx; + stm->data_callback = data_callback; + stm->state_callback = state_callback; + stm->user_ptr = user_ptr; + stm->buffer_size_frames = latency_frames ? latency_frames : DEFAULT_NUM_OF_FRAMES; + stm->input_enabled = (input_stream_params) ? 1 : 0; + stm->output_enabled = (output_stream_params) ? 1 : 0; + stm->shutdown = 1; + stm->voice = has_pref_set(input_stream_params, output_stream_params, CUBEB_STREAM_PREF_VOICE); + + LOG("cubeb stream prefs: voice: %s", stm->voice ? "true" : "false"); + + +#ifdef DEBUG + pthread_mutexattr_t attr; + pthread_mutexattr_init(&attr); + pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_ERRORCHECK); + r = pthread_mutex_init(&stm->mutex, &attr); +#else + r = pthread_mutex_init(&stm->mutex, NULL); +#endif + assert(r == 0); + + if (output_stream_params) { + LOG("Playback params: Rate %d, channels %d, format %d, latency in frames %d.", + output_stream_params->rate, output_stream_params->channels, + output_stream_params->format, stm->buffer_size_frames); + r = opensl_configure_playback(stm, output_stream_params); + if (r != CUBEB_OK) { + opensl_stream_destroy(stm); + return r; + } + } + + if (input_stream_params) { + LOG("Capture params: Rate %d, channels %d, format %d, latency in frames %d.", + input_stream_params->rate, input_stream_params->channels, + input_stream_params->format, stm->buffer_size_frames); + r = opensl_configure_capture(stm, input_stream_params); + if (r != CUBEB_OK) { + opensl_stream_destroy(stm); + return r; + } + } + + /* Configure resampler*/ + uint32_t target_sample_rate; + if (input_stream_params) { + target_sample_rate = input_stream_params->rate; + } else { + assert(output_stream_params); + target_sample_rate = output_stream_params->rate; + } + + // Use the actual configured rates for input + // and output. + cubeb_stream_params input_params; + if (input_stream_params) { + input_params = *input_stream_params; + input_params.rate = stm->input_device_rate; + } + cubeb_stream_params output_params; + if (output_stream_params) { + output_params = *output_stream_params; + output_params.rate = stm->output_configured_rate; + } + + stm->resampler = cubeb_resampler_create(stm, + input_stream_params ? &input_params : NULL, + output_stream_params ? &output_params : NULL, + target_sample_rate, + data_callback, + user_ptr, + CUBEB_RESAMPLER_QUALITY_DEFAULT); + if (!stm->resampler) { + LOG("Failed to create resampler"); + opensl_stream_destroy(stm); + return CUBEB_ERROR; + } + + *stream = stm; + LOG("Cubeb stream (%p) init success", stm); + return CUBEB_OK; +} + +static int +opensl_start_player(cubeb_stream * stm) +{ + assert(stm->playerObj); + SLuint32 playerState; + (*stm->playerObj)->GetState(stm->playerObj, &playerState); + if (playerState == SL_OBJECT_STATE_REALIZED) { + SLresult res = (*stm->play)->SetPlayState(stm->play, SL_PLAYSTATE_PLAYING); + if(res != SL_RESULT_SUCCESS) { + LOG("Failed to start player. Error code: %lu", res); + return CUBEB_ERROR; + } + } + return CUBEB_OK; +} + +static int +opensl_start_recorder(cubeb_stream * stm) +{ + assert(stm->recorderObj); + SLuint32 recorderState; + (*stm->recorderObj)->GetState(stm->recorderObj, &recorderState); + if (recorderState == SL_OBJECT_STATE_REALIZED) { + SLresult res = (*stm->recorderItf)->SetRecordState(stm->recorderItf, SL_RECORDSTATE_RECORDING); + if(res != SL_RESULT_SUCCESS) { + LOG("Failed to start recorder. Error code: %lu", res); + return CUBEB_ERROR; + } + } + return CUBEB_OK; } static int opensl_stream_start(cubeb_stream * stm) { - SLresult res = (*stm->play)->SetPlayState(stm->play, SL_PLAYSTATE_PLAYING); - if (res != SL_RESULT_SUCCESS) - return CUBEB_ERROR; + assert(stm); + + int r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + opensl_set_shutdown(stm, 0); + opensl_set_draining(stm, 0); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + + if (stm->playerObj) { + r = opensl_start_player(stm); + if (r != CUBEB_OK) { + return r; + } + } + + if (stm->recorderObj) { + int r = opensl_start_recorder(stm); + if (r != CUBEB_OK) { + return r; + } + } + stm->state_callback(stm, stm->user_ptr, CUBEB_STATE_STARTED); + LOG("Cubeb stream (%p) started", stm); return CUBEB_OK; } static int -opensl_stream_stop(cubeb_stream * stm) +opensl_stop_player(cubeb_stream * stm) { + assert(stm->playerObj); + assert(stm->shutdown || stm->draining); + SLresult res = (*stm->play)->SetPlayState(stm->play, SL_PLAYSTATE_PAUSED); - if (res != SL_RESULT_SUCCESS) + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to stop player. Error code: %lu", res); + return CUBEB_ERROR; + } + + return CUBEB_OK; +} + +static int +opensl_stop_recorder(cubeb_stream * stm) +{ + assert(stm->recorderObj); + assert(stm->shutdown || stm->draining); + + SLresult res = (*stm->recorderItf)->SetRecordState(stm->recorderItf, SL_RECORDSTATE_PAUSED); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to stop recorder. Error code: %lu", res); return CUBEB_ERROR; + } + + return CUBEB_OK; +} + +static int +opensl_stream_stop(cubeb_stream * stm) +{ + assert(stm); + + int r = pthread_mutex_lock(&stm->mutex); + assert(r == 0); + opensl_set_shutdown(stm, 1); + r = pthread_mutex_unlock(&stm->mutex); + assert(r == 0); + + if (stm->playerObj) { + r = opensl_stop_player(stm); + if (r != CUBEB_OK) { + return r; + } + } + + if (stm->recorderObj) { + int r = opensl_stop_recorder(stm); + if (r != CUBEB_OK) { + return r; + } + } + stm->state_callback(stm, stm->user_ptr, CUBEB_STATE_STOPPED); + LOG("Cubeb stream (%p) stopped", stm); return CUBEB_OK; } +static int +opensl_destroy_recorder(cubeb_stream * stm) +{ + assert(stm); + assert(stm->recorderObj); + + if (stm->recorderBufferQueueItf) { + SLresult res = (*stm->recorderBufferQueueItf)->Clear(stm->recorderBufferQueueItf); + if (res != SL_RESULT_SUCCESS) { + LOG("Failed to clear recorder buffer queue. Error code: %lu", res); + return CUBEB_ERROR; + } + stm->recorderBufferQueueItf = NULL; + for (uint32_t i = 0; i < stm->input_array_capacity; ++i) { + free(stm->input_buffer_array[i]); + } + } + + (*stm->recorderObj)->Destroy(stm->recorderObj); + stm->recorderObj = NULL; + stm->recorderItf = NULL; + + if (stm->input_queue) { + array_queue_destroy(stm->input_queue); + } + free(stm->input_silent_buffer); + + return CUBEB_OK; +} + +static void +opensl_stream_destroy(cubeb_stream * stm) +{ + assert(stm->draining || stm->shutdown); + + if (stm->playerObj) { + (*stm->playerObj)->Destroy(stm->playerObj); + stm->playerObj = NULL; + stm->play = NULL; + stm->bufq = NULL; + for (uint32_t i = 0; i < stm->queuebuf_capacity; ++i) { + free(stm->queuebuf[i]); + } + } + + if (stm->recorderObj) { + int r = opensl_destroy_recorder(stm); + assert(r == CUBEB_OK); + } + + if (stm->resampler) { + cubeb_resampler_destroy(stm->resampler); + } + + pthread_mutex_destroy(&stm->mutex); + + LOG("Cubeb stream (%p) destroyed", stm); + free(stm); +} + static int opensl_stream_get_position(cubeb_stream * stm, uint64_t * position) { SLmillisecond msec; - uint64_t samplerate; - SLresult res; - int r; - uint32_t mixer_latency; uint32_t compensation_msec = 0; + SLresult res; res = (*stm->play)->GetPosition(stm->play, &msec); if (res != SL_RESULT_SUCCESS) @@ -781,27 +1598,23 @@ opensl_stream_get_position(cubeb_stream * stm, uint64_t * position) stm->lastPosition = msec; } - samplerate = stm->inputrate; - - r = stm->context->get_output_latency(&mixer_latency, stm->stream_type); - if (r) { - return CUBEB_ERROR; - } + uint64_t samplerate = stm->user_output_rate; + uint32_t output_latency = stm->output_latency_ms; pthread_mutex_lock(&stm->mutex); - int64_t maximum_position = stm->written * (int64_t)stm->inputrate / stm->outputrate; + int64_t maximum_position = stm->written * (int64_t)stm->user_output_rate / stm->output_configured_rate; pthread_mutex_unlock(&stm->mutex); assert(maximum_position >= 0); - if (msec > mixer_latency) { + if (msec > output_latency) { int64_t unadjusted_position; if (stm->lastCompensativePosition > msec + compensation_msec) { // Over compensation, use lastCompensativePosition. unadjusted_position = - samplerate * (stm->lastCompensativePosition - mixer_latency) / 1000; + samplerate * (stm->lastCompensativePosition - output_latency) / 1000; } else { unadjusted_position = - samplerate * (msec - mixer_latency + compensation_msec) / 1000; + samplerate * (msec - output_latency + compensation_msec) / 1000; stm->lastCompensativePosition = msec + compensation_msec; } *position = unadjusted_position < maximum_position ? @@ -812,24 +1625,6 @@ opensl_stream_get_position(cubeb_stream * stm, uint64_t * position) return CUBEB_OK; } -int -opensl_stream_get_latency(cubeb_stream * stm, uint32_t * latency) -{ - int r; - uint32_t mixer_latency; // The latency returned by AudioFlinger is in ms. - - /* audio_stream_type_t is an int, so this is okay. */ - r = stm->context->get_output_latency(&mixer_latency, stm->stream_type); - if (r) { - return CUBEB_ERROR; - } - - *latency = stm->latency * stm->inputrate / 1000 + // OpenSL latency - mixer_latency * stm->inputrate / 1000; // AudioFlinger latency - - return CUBEB_OK; -} - int opensl_stream_set_volume(cubeb_stream * stm, float volume) { @@ -865,18 +1660,19 @@ static struct cubeb_ops const opensl_ops = { .init = opensl_init, .get_backend_id = opensl_get_backend_id, .get_max_channel_count = opensl_get_max_channel_count, - .get_min_latency = opensl_get_min_latency, - .get_preferred_sample_rate = opensl_get_preferred_sample_rate, + .get_min_latency = NULL, + .get_preferred_sample_rate = NULL, .enumerate_devices = NULL, + .device_collection_destroy = NULL, .destroy = opensl_destroy, .stream_init = opensl_stream_init, .stream_destroy = opensl_stream_destroy, .stream_start = opensl_stream_start, .stream_stop = opensl_stream_stop, + .stream_reset_default_device = NULL, .stream_get_position = opensl_stream_get_position, - .stream_get_latency = opensl_stream_get_latency, + .stream_get_latency = NULL, .stream_set_volume = opensl_stream_set_volume, - .stream_set_panning = NULL, .stream_get_current_device = NULL, .stream_device_destroy = NULL, .stream_register_device_changed_callback = NULL, -- cgit v1.2.3