/* * Copyright (c) 2006-2018, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2017-05-09 Urey first version * 2019-07-09 Zero-Free improve device ops interface and data flows */ #include #include #include #include #define DBG_TAG "audio" #define DBG_LVL DBG_INFO #include #ifndef MIN #define MIN(a, b) ((a) < (b) ? (a) : (b)) #endif enum { REPLAY_EVT_NONE = 0x00, REPLAY_EVT_START = 0x01, REPLAY_EVT_STOP = 0x02, }; static rt_err_t _audio_send_replay_frame(struct rt_audio_device *audio) { rt_err_t result = RT_EOK; rt_uint8_t *data; rt_size_t dst_size, src_size; rt_uint16_t position, remain_bytes = 0, index = 0; struct rt_audio_buf_info *buf_info; RT_ASSERT(audio != RT_NULL); buf_info = &audio->replay->buf_info; /* save current pos */ position = audio->replay->pos; dst_size = buf_info->block_size; /* check replay queue is empty */ if (rt_data_queue_peak(&audio->replay->queue, (const void **)&data, &src_size) != RT_EOK) { /* ack stop event */ if (audio->replay->event & REPLAY_EVT_STOP) rt_completion_done(&audio->replay->cmp); /* send zero frames */ memset(&buf_info->buffer[audio->replay->pos], 0, dst_size); audio->replay->pos += dst_size; audio->replay->pos %= buf_info->total_size; } else { memset(&buf_info->buffer[audio->replay->pos], 0, dst_size); /* copy data from memory pool to hardware device fifo */ while (index < dst_size) { result = rt_data_queue_peak(&audio->replay->queue, (const void **)&data, &src_size); if (result != RT_EOK) { LOG_D("under run %d, remain %d", audio->replay->pos, remain_bytes); audio->replay->pos -= remain_bytes; audio->replay->pos += dst_size; audio->replay->pos %= buf_info->total_size; audio->replay->read_index = 0; result = -RT_EEMPTY; break; } remain_bytes = MIN((dst_size - index), (src_size - audio->replay->read_index)); memcpy(&buf_info->buffer[audio->replay->pos], &data[audio->replay->read_index], remain_bytes); index += remain_bytes; audio->replay->read_index += remain_bytes; audio->replay->pos += remain_bytes; audio->replay->pos %= buf_info->total_size; if (audio->replay->read_index == src_size) { /* free memory */ audio->replay->read_index = 0; rt_data_queue_pop(&audio->replay->queue, (const void **)&data, &src_size, RT_WAITING_NO); rt_mp_free(data); /* notify transmitted complete. */ if (audio->parent.tx_complete != RT_NULL) audio->parent.tx_complete(&audio->parent, (void *)data); } } } if (audio->ops->transmit != RT_NULL) { if (audio->ops->transmit(audio, &buf_info->buffer[position], RT_NULL, dst_size) != dst_size) result = -RT_ERROR; } return result; } static rt_err_t _audio_flush_replay_frame(struct rt_audio_device *audio) { rt_err_t result = RT_EOK; if (audio->replay->write_index) { result = rt_data_queue_push(&audio->replay->queue, (const void **)audio->replay->write_data, audio->replay->write_index, RT_WAITING_FOREVER); audio->replay->write_index = 0; } return result; } static rt_err_t _aduio_replay_start(struct rt_audio_device *audio) { rt_err_t result = RT_EOK; if (audio->replay->activated != RT_TRUE) { /* start playback hardware device */ if (audio->ops->start) result = audio->ops->start(audio, AUDIO_STREAM_REPLAY); audio->replay->activated = RT_TRUE; LOG_D("start audio replay device"); } return result; } static rt_err_t _aduio_replay_stop(struct rt_audio_device *audio) { rt_err_t result = RT_EOK; if (audio->replay->activated == RT_TRUE) { /* flush replay remian frames */ _audio_flush_replay_frame(audio); /* notify irq(or thread) to stop the data transmission */ audio->replay->event |= REPLAY_EVT_STOP; /* waiting for the remaining data transfer to complete */ rt_completion_init(&audio->replay->cmp); rt_completion_wait(&audio->replay->cmp, RT_WAITING_FOREVER); audio->replay->event &= ~REPLAY_EVT_STOP; /* stop playback hardware device */ if (audio->ops->stop) result = audio->ops->stop(audio, AUDIO_STREAM_REPLAY); audio->replay->activated = RT_FALSE; LOG_D("stop audio replay device"); } return result; } static rt_err_t _audio_record_start(struct rt_audio_device *audio) { rt_err_t result = RT_EOK; if (audio->record->activated != RT_TRUE) { /* open audio record pipe */ rt_device_open(RT_DEVICE(&audio->record->pipe), RT_DEVICE_OFLAG_RDONLY); /* start record hardware device */ if (audio->ops->start) result = audio->ops->start(audio, AUDIO_STREAM_RECORD); audio->record->activated = RT_TRUE; LOG_D("start audio record device"); } return result; } static rt_err_t _audio_record_stop(struct rt_audio_device *audio) { rt_err_t result = RT_EOK; if (audio->record->activated == RT_TRUE) { /* stop record hardware device */ if (audio->ops->stop) result = audio->ops->stop(audio, AUDIO_STREAM_RECORD); /* close audio record pipe */ rt_device_close(RT_DEVICE(&audio->record->pipe)); audio->record->activated = RT_FALSE; LOG_D("stop audio record device"); } return result; } static rt_err_t _audio_dev_init(struct rt_device *dev) { rt_err_t result = RT_EOK; struct rt_audio_device *audio; RT_ASSERT(dev != RT_NULL); audio = (struct rt_audio_device *) dev; /* initialize replay & record */ audio->replay = RT_NULL; audio->record = RT_NULL; /* initialize replay */ if (dev->flag & RT_DEVICE_FLAG_WRONLY) { struct rt_audio_replay *replay = (struct rt_audio_replay *) rt_malloc(sizeof(struct rt_audio_replay)); if (replay == RT_NULL) return -RT_ENOMEM; memset(replay, 0, sizeof(struct rt_audio_replay)); /* init memory pool for replay */ replay->mp = rt_mp_create("adu_mp", RT_AUDIO_REPLAY_MP_BLOCK_COUNT, RT_AUDIO_REPLAY_MP_BLOCK_SIZE); if (replay->mp == RT_NULL) { rt_free(replay); LOG_E("create memory pool for replay failed"); return -RT_ENOMEM; } /* init queue for audio replay */ rt_data_queue_init(&replay->queue, CFG_AUDIO_REPLAY_QUEUE_COUNT, 0, RT_NULL); /* init mutex lock for audio replay */ rt_mutex_init(&replay->lock, "replay", RT_IPC_FLAG_PRIO); replay->activated = RT_FALSE; audio->replay = replay; } /* initialize record */ if (dev->flag & RT_DEVICE_FLAG_RDONLY) { struct rt_audio_record *record = (struct rt_audio_record *) rt_malloc(sizeof(struct rt_audio_record)); rt_uint8_t *buffer; if (record == RT_NULL) return -RT_ENOMEM; memset(record, 0, sizeof(struct rt_audio_record)); /* init pipe for record*/ buffer = rt_malloc(RT_AUDIO_RECORD_PIPE_SIZE); if (buffer == RT_NULL) { rt_free(record); LOG_E("malloc memory for for record pipe failed"); return -RT_ENOMEM; } rt_audio_pipe_init(&record->pipe, "record", (rt_int32_t)(RT_PIPE_FLAG_FORCE_WR | RT_PIPE_FLAG_BLOCK_RD), buffer, RT_AUDIO_RECORD_PIPE_SIZE); record->activated = RT_FALSE; audio->record = record; } /* initialize hardware configuration */ if (audio->ops->init) audio->ops->init(audio); /* get replay buffer information */ if (audio->ops->buffer_info) audio->ops->buffer_info(audio, &audio->replay->buf_info); return result; } static rt_err_t _audio_dev_open(struct rt_device *dev, rt_uint16_t oflag) { struct rt_audio_device *audio; RT_ASSERT(dev != RT_NULL); audio = (struct rt_audio_device *) dev; /* check device flag with the open flag */ if ((oflag & RT_DEVICE_OFLAG_RDONLY) && !(dev->flag & RT_DEVICE_FLAG_RDONLY)) return -RT_EIO; if ((oflag & RT_DEVICE_OFLAG_WRONLY) && !(dev->flag & RT_DEVICE_FLAG_WRONLY)) return -RT_EIO; /* get open flags */ dev->open_flag = oflag & 0xff; /* initialize the Rx/Tx structure according to open flag */ if (oflag & RT_DEVICE_OFLAG_WRONLY) { if (audio->replay->activated != RT_TRUE) { LOG_D("open audio replay device, oflag = %x\n", oflag); audio->replay->write_index = 0; audio->replay->read_index = 0; audio->replay->pos = 0; audio->replay->event = REPLAY_EVT_NONE; } dev->open_flag |= RT_DEVICE_OFLAG_WRONLY; } if (oflag & RT_DEVICE_OFLAG_RDONLY) { /* open record pipe */ if (audio->record->activated != RT_TRUE) { LOG_D("open audio record device ,oflag = %x\n", oflag); _audio_record_start(audio); audio->record->activated = RT_TRUE; } dev->open_flag |= RT_DEVICE_OFLAG_RDONLY; } return RT_EOK; } static rt_err_t _audio_dev_close(struct rt_device *dev) { struct rt_audio_device *audio; RT_ASSERT(dev != RT_NULL); audio = (struct rt_audio_device *) dev; if (dev->open_flag & RT_DEVICE_OFLAG_WRONLY) { /* stop replay stream */ _aduio_replay_stop(audio); dev->open_flag &= ~RT_DEVICE_OFLAG_WRONLY; } if (dev->open_flag & RT_DEVICE_OFLAG_RDONLY) { /* stop record stream */ _audio_record_stop(audio); dev->open_flag &= ~RT_DEVICE_OFLAG_RDONLY; } return RT_EOK; } static rt_size_t _audio_dev_read(struct rt_device *dev, rt_off_t pos, void *buffer, rt_size_t size) { struct rt_audio_device *audio; RT_ASSERT(dev != RT_NULL); audio = (struct rt_audio_device *) dev; if (!(dev->open_flag & RT_DEVICE_OFLAG_RDONLY) || (audio->record == RT_NULL)) return 0; return rt_device_read(RT_DEVICE(&audio->record->pipe), pos, buffer, size); } static rt_size_t _audio_dev_write(struct rt_device *dev, rt_off_t pos, const void *buffer, rt_size_t size) { struct rt_audio_device *audio; rt_uint8_t *ptr; rt_uint16_t block_size, remain_bytes, index = 0; RT_ASSERT(dev != RT_NULL); audio = (struct rt_audio_device *) dev; if (!(dev->open_flag & RT_DEVICE_OFLAG_WRONLY) || (audio->replay == RT_NULL)) return 0; /* push a new frame to replay data queue */ ptr = (rt_uint8_t *)buffer; block_size = RT_AUDIO_REPLAY_MP_BLOCK_SIZE; rt_mutex_take(&audio->replay->lock, RT_WAITING_FOREVER); while (index < size) { /* request buffer from replay memory pool */ if (audio->replay->write_index % block_size == 0) { audio->replay->write_data = rt_mp_alloc(audio->replay->mp, RT_WAITING_FOREVER); memset(audio->replay->write_data, 0, block_size); } /* copy data to replay memory pool */ remain_bytes = MIN((block_size - audio->replay->write_index), (size - index)); memcpy(&audio->replay->write_data[audio->replay->write_index], &ptr[index], remain_bytes); index += remain_bytes; audio->replay->write_index += remain_bytes; audio->replay->write_index %= block_size; if (audio->replay->write_index == 0) { rt_data_queue_push(&audio->replay->queue, audio->replay->write_data, block_size, RT_WAITING_FOREVER); } } rt_mutex_release(&audio->replay->lock); /* check replay state */ if (audio->replay->activated != RT_TRUE) { _aduio_replay_start(audio); audio->replay->activated = RT_TRUE; } return index; } static rt_err_t _audio_dev_control(struct rt_device *dev, int cmd, void *args) { rt_err_t result = RT_EOK; struct rt_audio_device *audio; RT_ASSERT(dev != RT_NULL); audio = (struct rt_audio_device *) dev; /* dev stat...*/ switch (cmd) { case AUDIO_CTL_GETCAPS: { struct rt_audio_caps *caps = (struct rt_audio_caps *) args; LOG_D("AUDIO_CTL_GETCAPS: main_type = %d,sub_type = %d", caps->main_type, caps->sub_type); if (audio->ops->getcaps != RT_NULL) { result = audio->ops->getcaps(audio, caps); } break; } case AUDIO_CTL_CONFIGURE: { struct rt_audio_caps *caps = (struct rt_audio_caps *) args; LOG_D("AUDIO_CTL_CONFIGURE: main_type = %d,sub_type = %d", caps->main_type, caps->sub_type); if (audio->ops->configure != RT_NULL) { result = audio->ops->configure(audio, caps); } break; } case AUDIO_CTL_START: { int stream = *(int *) args; LOG_D("AUDIO_CTL_START: stream = %d", stream); if (stream == AUDIO_STREAM_REPLAY) { result = _aduio_replay_start(audio); } else { result = _audio_record_start(audio); } break; } case AUDIO_CTL_STOP: { int stream = *(int *) args; LOG_D("AUDIO_CTL_STOP: stream = %d", stream); if (stream == AUDIO_STREAM_REPLAY) { result = _aduio_replay_stop(audio); } else { result = _audio_record_stop(audio); } break; } default: break; } return result; } #ifdef RT_USING_DEVICE_OPS const static struct rt_device_ops audio_ops = { _audio_dev_init, _audio_dev_open, _audio_dev_close, _audio_dev_read, _audio_dev_write, _audio_dev_control }; #endif rt_err_t rt_audio_register(struct rt_audio_device *audio, const char *name, rt_uint32_t flag, void *data) { rt_err_t result = RT_EOK; struct rt_device *device; RT_ASSERT(audio != RT_NULL); device = &(audio->parent); device->type = RT_Device_Class_Sound; device->rx_indicate = RT_NULL; device->tx_complete = RT_NULL; #ifdef RT_USING_DEVICE_OPS device->ops = &audio_ops; #else device->init = _audio_dev_init; device->open = _audio_dev_open; device->close = _audio_dev_close; device->read = _audio_dev_read; device->write = _audio_dev_write; device->control = _audio_dev_control; #endif device->user_data = data; /* register a character device */ result = rt_device_register(device, name, flag | RT_DEVICE_FLAG_REMOVABLE); /* initialize audio device */ if (result == RT_EOK) result = rt_device_init(device); return result; } int rt_audio_samplerate_to_speed(rt_uint32_t bitValue) { int speed = 0; switch (bitValue) { case AUDIO_SAMP_RATE_8K: speed = 8000; break; case AUDIO_SAMP_RATE_11K: speed = 11052; break; case AUDIO_SAMP_RATE_16K: speed = 16000; break; case AUDIO_SAMP_RATE_22K: speed = 22050; break; case AUDIO_SAMP_RATE_32K: speed = 32000; break; case AUDIO_SAMP_RATE_44K: speed = 44100; break; case AUDIO_SAMP_RATE_48K: speed = 48000; break; case AUDIO_SAMP_RATE_96K: speed = 96000; break; case AUDIO_SAMP_RATE_128K: speed = 128000; break; case AUDIO_SAMP_RATE_160K: speed = 160000; break; case AUDIO_SAMP_RATE_172K: speed = 176400; break; case AUDIO_SAMP_RATE_192K: speed = 192000; break; default: break; } return speed; } void rt_audio_tx_complete(struct rt_audio_device *audio) { /* try to send next frame */ _audio_send_replay_frame(audio); } void rt_audio_rx_done(struct rt_audio_device *audio, rt_uint8_t *pbuf, rt_size_t len) { /* save data to record pipe */ rt_device_write(RT_DEVICE(&audio->record->pipe), 0, pbuf, len); /* invoke callback */ if (audio->parent.rx_indicate != RT_NULL) audio->parent.rx_indicate(&audio->parent, len); }