#include "playback.hpp" #include "dac.hpp" #include #include "audio_element.h" #include "audio_event_iface.h" #include "audio_pipeline.h" #include "driver/i2s.h" #include "esp_err.h" #include "freertos/portmacro.h" #include "mp3_decoder.h" static const char* kTag = "PLAYBACK"; static const i2s_port_t kI2SPort = I2S_NUM_0; namespace gay_ipod { static audio_element_status_t status_from_the_void(void *status) { uintptr_t as_pointer_int = reinterpret_cast(status); return static_cast(as_pointer_int); } auto DacAudioPlayback::create(AudioDac* dac) -> cpp::result, Error> { // Ensure we're soft-muted before initialising, in order to reduce protential // clicks and pops. dac->WriteVolume(255); audio_pipeline_handle_t pipeline; audio_element_handle_t fatfs_stream_reader; audio_element_handle_t i2s_stream_writer; audio_event_iface_handle_t event_interface; audio_pipeline_cfg_t pipeline_config = audio_pipeline_cfg_t(DEFAULT_AUDIO_PIPELINE_CONFIG()); pipeline = audio_pipeline_init(&pipeline_config); if (pipeline == NULL) { return cpp::fail(Error::PIPELINE_INIT); } fatfs_stream_cfg_t fatfs_stream_config = fatfs_stream_cfg_t(FATFS_STREAM_CFG_DEFAULT()); fatfs_stream_config.type = AUDIO_STREAM_READER; fatfs_stream_reader = fatfs_stream_init(&fatfs_stream_config); if (fatfs_stream_reader == NULL) { return cpp::fail(Error::PIPELINE_INIT); } i2s_stream_cfg_t i2s_stream_config = i2s_stream_cfg_t{ .type = AUDIO_STREAM_WRITER, .i2s_config = { // static_cast bc esp-adf uses enums incorrectly .mode = static_cast(I2S_MODE_MASTER | I2S_MODE_TX), .sample_rate = 44100, .bits_per_sample = I2S_BITS_PER_SAMPLE_16BIT, .channel_format = I2S_CHANNEL_FMT_RIGHT_LEFT, .communication_format = I2S_COMM_FORMAT_STAND_I2S, .intr_alloc_flags = ESP_INTR_FLAG_LOWMED, .dma_buf_count = 8, .dma_buf_len = 64, .use_apll = false, .tx_desc_auto_clear = false, .fixed_mclk = 0, .mclk_multiple = I2S_MCLK_MULTIPLE_DEFAULT, .bits_per_chan = I2S_BITS_PER_CHAN_DEFAULT, }, .i2s_port = kI2SPort, .use_alc = false, .volume = 0, // Does nothing; use AudioDac to change this. .out_rb_size = I2S_STREAM_RINGBUFFER_SIZE, .task_stack = I2S_STREAM_TASK_STACK, .task_core = I2S_STREAM_TASK_CORE, .task_prio = I2S_STREAM_TASK_PRIO, .stack_in_ext = false, .multi_out_num = 0, .uninstall_drv = true, .need_expand = false, .expand_src_bits = I2S_BITS_PER_SAMPLE_16BIT, }; i2s_stream_writer = i2s_stream_init(&i2s_stream_config); if (i2s_stream_writer == NULL) { return cpp::fail(Error::PIPELINE_INIT); } // NOTE: i2s_stream_init does some additional setup that hardcodes MCK as // GPIO0. This happens to work fine for us, but be careful if changing. i2s_pin_config_t pin_config = {.mck_io_num = GPIO_NUM_0, .bck_io_num = GPIO_NUM_26, .ws_io_num = GPIO_NUM_27, .data_out_num = GPIO_NUM_5, .data_in_num = I2S_PIN_NO_CHANGE}; if (esp_err_t err = i2s_set_pin(kI2SPort, &pin_config) != ESP_OK) { ESP_LOGE(kTag, "failed to configure i2s pins %x", err); return cpp::fail(Error::PIPELINE_INIT); } // TODO: Create encoders dynamically when we need them. audio_element_handle_t mp3_decoder; mp3_decoder_cfg_t mp3_config = mp3_decoder_cfg_t(DEFAULT_MP3_DECODER_CONFIG()); mp3_decoder = mp3_decoder_init(&mp3_config); assert(mp3_decoder != NULL); audio_event_iface_cfg_t event_config = AUDIO_EVENT_IFACE_DEFAULT_CFG(); event_interface = audio_event_iface_init(&event_config); audio_pipeline_set_listener(pipeline, event_interface); audio_element_msg_set_listener(fatfs_stream_reader, event_interface); audio_element_msg_set_listener(mp3_decoder, event_interface); audio_element_msg_set_listener(i2s_stream_writer, event_interface); // TODO: most of this is likely post-init, since it involves a decoder. // All the elements of our pipeline have been initialised. Now switch them // together. audio_pipeline_register(pipeline, fatfs_stream_reader, "file"); audio_pipeline_register(pipeline, mp3_decoder, "dec"); audio_pipeline_register(pipeline, i2s_stream_writer, "i2s"); const char* link_tag[3] = {"file", "dec", "i2s"}; audio_pipeline_link(pipeline, &link_tag[0], 3); return std::make_unique(dac, pipeline, fatfs_stream_reader, i2s_stream_writer, event_interface, mp3_decoder); } DacAudioPlayback::DacAudioPlayback(AudioDac* dac, audio_pipeline_handle_t pipeline, audio_element_handle_t fatfs_stream_reader, audio_element_handle_t i2s_stream_writer, audio_event_iface_handle_t event_interface, audio_element_handle_t mp3_decoder) : dac_(dac), pipeline_(pipeline), fatfs_stream_reader_(fatfs_stream_reader), i2s_stream_writer_(i2s_stream_writer), event_interface_(event_interface), mp3_decoder_(mp3_decoder) {} DacAudioPlayback::~DacAudioPlayback() { dac_->WriteVolume(255); audio_pipeline_remove_listener(pipeline_); audio_element_msg_remove_listener(fatfs_stream_reader_, event_interface_); audio_element_msg_remove_listener(mp3_decoder_, event_interface_); audio_element_msg_remove_listener(i2s_stream_writer_, event_interface_); audio_pipeline_stop(pipeline_); audio_pipeline_wait_for_stop(pipeline_); audio_pipeline_terminate(pipeline_); audio_pipeline_unregister(pipeline_, fatfs_stream_reader_); audio_pipeline_unregister(pipeline_, mp3_decoder_); audio_pipeline_unregister(pipeline_, i2s_stream_writer_); audio_event_iface_destroy(event_interface_); audio_pipeline_deinit(pipeline_); audio_element_deinit(fatfs_stream_reader_); audio_element_deinit(i2s_stream_writer_); audio_element_deinit(mp3_decoder_); } void DacAudioPlayback::Play(const std::string& filename) { dac_->WriteVolume(255); // TODO: handle reconfiguring the pipeline if needed. audio_element_set_uri(fatfs_stream_reader_, filename.c_str()); audio_pipeline_run(pipeline_); dac_->WriteVolume(volume_); } void DacAudioPlayback::Resume() { // TODO. } void DacAudioPlayback::Pause() { // TODO. } void DacAudioPlayback::ProcessEvents() { while (1) { audio_event_iface_msg_t event; esp_err_t err = audio_event_iface_listen(event_interface_, &event, portMAX_DELAY); if (err != ESP_OK) { ESP_LOGI(kTag, "error listening for event:%x", err); continue; } ESP_LOGI(kTag, "received event, cmd %i", event.cmd); if (event.source_type == AUDIO_ELEMENT_TYPE_ELEMENT && event.source == (void *) mp3_decoder_ && event.cmd == AEL_MSG_CMD_REPORT_MUSIC_INFO) { audio_element_info_t music_info = {0}; audio_element_getinfo(mp3_decoder_, &music_info); ESP_LOGI(kTag, "sample_rate=%d, bits=%d, ch=%d", music_info.sample_rates, music_info.bits, music_info.channels); audio_element_setinfo(i2s_stream_writer_, &music_info); i2s_stream_set_clk(i2s_stream_writer_, music_info.sample_rates, music_info.bits, music_info.channels); } if (event.source_type == AUDIO_ELEMENT_TYPE_ELEMENT && event.source == (void *) fatfs_stream_reader_ && event.cmd == AEL_MSG_CMD_REPORT_STATUS) { audio_element_status_t status = status_from_the_void(event.data); if (status == AEL_STATUS_STATE_FINISHED) { // TODO: enqueue next track? } } if (event.source_type == AUDIO_ELEMENT_TYPE_ELEMENT && event.source == (void *) i2s_stream_writer_ && event.cmd == AEL_MSG_CMD_REPORT_STATUS) { audio_element_status_t status = status_from_the_void(event.data); if (status == AEL_STATUS_STATE_FINISHED) { // TODO. return; } } if (event.need_free_data) { ESP_LOGI(kTag, "freeing event data"); free(event.data); } } } /* for gapless */ void DacAudioPlayback::set_next_file(const std::string& filename) { next_filename_ = filename; } void DacAudioPlayback::set_volume(uint8_t volume) { volume_ = volume; // TODO: don't write immediately if we're muting to change track or similar. dac_->WriteVolume(volume); } auto DacAudioPlayback::volume() -> uint8_t { return volume_; } } // namespace gay_ipod