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QingLong/XiaoZhi/xiaozhi-esp32/main/audio_processing/wake_word_detect.cc

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#include "wake_word_detect.h"
#include "application.h"
#include <esp_log.h>
#include <model_path.h>
#include <arpa/inet.h>
#include <sstream>
#define DETECTION_RUNNING_EVENT 1
static const char* TAG = "WakeWordDetect";
WakeWordDetect::WakeWordDetect()
: afe_data_(nullptr),
wake_word_pcm_(),
wake_word_opus_() {
event_group_ = xEventGroupCreate();
}
WakeWordDetect::~WakeWordDetect() {
if (afe_data_ != nullptr) {
afe_iface_->destroy(afe_data_);
}
if (wake_word_encode_task_stack_ != nullptr) {
heap_caps_free(wake_word_encode_task_stack_);
}
vEventGroupDelete(event_group_);
}
void WakeWordDetect::Initialize(AudioCodec* codec) {
codec_ = codec;
int ref_num = codec_->input_reference() ? 1 : 0;
srmodel_list_t *models = esp_srmodel_init("model");
for (int i = 0; i < models->num; i++) {
ESP_LOGI(TAG, "Model %d: %s", i, models->model_name[i]);
if (strstr(models->model_name[i], ESP_WN_PREFIX) != NULL) {
wakenet_model_ = models->model_name[i];
auto words = esp_srmodel_get_wake_words(models, wakenet_model_);
// split by ";" to get all wake words
std::stringstream ss(words);
std::string word;
while (std::getline(ss, word, ';')) {
wake_words_.push_back(word);
}
}
}
std::string input_format;
for (int i = 0; i < codec_->input_channels() - ref_num; i++) {
input_format.push_back('M');
}
for (int i = 0; i < ref_num; i++) {
input_format.push_back('R');
}
afe_config_t* afe_config = afe_config_init(input_format.c_str(), models, AFE_TYPE_SR, AFE_MODE_HIGH_PERF);
afe_config->aec_init = codec_->input_reference();
afe_config->aec_mode = AEC_MODE_SR_HIGH_PERF;
afe_config->afe_perferred_core = 1;
afe_config->afe_perferred_priority = 1;
afe_config->memory_alloc_mode = AFE_MEMORY_ALLOC_MORE_PSRAM;
afe_iface_ = esp_afe_handle_from_config(afe_config);
afe_data_ = afe_iface_->create_from_config(afe_config);
xTaskCreate([](void* arg) {
auto this_ = (WakeWordDetect*)arg;
this_->AudioDetectionTask();
vTaskDelete(NULL);
}, "audio_detection", 4096, this, 3, nullptr);
}
void WakeWordDetect::OnWakeWordDetected(std::function<void(const std::string& wake_word)> callback) {
wake_word_detected_callback_ = callback;
}
void WakeWordDetect::StartDetection() {
xEventGroupSetBits(event_group_, DETECTION_RUNNING_EVENT);
}
void WakeWordDetect::StopDetection() {
xEventGroupClearBits(event_group_, DETECTION_RUNNING_EVENT);
if (afe_data_ != nullptr) {
afe_iface_->reset_buffer(afe_data_);
}
}
bool WakeWordDetect::IsDetectionRunning() {
return xEventGroupGetBits(event_group_) & DETECTION_RUNNING_EVENT;
}
void WakeWordDetect::Feed(const std::vector<int16_t>& data) {
afe_iface_->feed(afe_data_, data.data());
}
size_t WakeWordDetect::GetFeedSize() {
return afe_iface_->get_feed_chunksize(afe_data_) * codec_->input_channels();
}
void WakeWordDetect::AudioDetectionTask() {
auto fetch_size = afe_iface_->get_fetch_chunksize(afe_data_);
auto feed_size = afe_iface_->get_feed_chunksize(afe_data_);
ESP_LOGI(TAG, "Audio detection task started, feed size: %d fetch size: %d",
feed_size, fetch_size);
while (true) {
xEventGroupWaitBits(event_group_, DETECTION_RUNNING_EVENT, pdFALSE, pdTRUE, portMAX_DELAY);
auto res = afe_iface_->fetch_with_delay(afe_data_, portMAX_DELAY);
if (res == nullptr || res->ret_value == ESP_FAIL) {
continue;;
}
// Store the wake word data for voice recognition, like who is speaking
StoreWakeWordData((uint16_t*)res->data, res->data_size / sizeof(uint16_t));
if (res->wakeup_state == WAKENET_DETECTED) {
StopDetection();
last_detected_wake_word_ = wake_words_[res->wake_word_index - 1];
if (wake_word_detected_callback_) {
wake_word_detected_callback_(last_detected_wake_word_);
}
}
}
}
void WakeWordDetect::StoreWakeWordData(uint16_t* data, size_t samples) {
// store audio data to wake_word_pcm_
wake_word_pcm_.emplace_back(std::vector<int16_t>(data, data + samples));
// keep about 2 seconds of data, detect duration is 32ms (sample_rate == 16000, chunksize == 512)
while (wake_word_pcm_.size() > 2000 / 32) {
wake_word_pcm_.pop_front();
}
}
void WakeWordDetect::EncodeWakeWordData() {
wake_word_opus_.clear();
if (wake_word_encode_task_stack_ == nullptr) {
wake_word_encode_task_stack_ = (StackType_t*)heap_caps_malloc(4096 * 8, MALLOC_CAP_SPIRAM);
}
wake_word_encode_task_ = xTaskCreateStatic([](void* arg) {
auto this_ = (WakeWordDetect*)arg;
{
auto start_time = esp_timer_get_time();
auto encoder = std::make_unique<OpusEncoderWrapper>(16000, 1, OPUS_FRAME_DURATION_MS);
encoder->SetComplexity(0); // 0 is the fastest
for (auto& pcm: this_->wake_word_pcm_) {
encoder->Encode(std::move(pcm), [this_](std::vector<uint8_t>&& opus) {
std::lock_guard<std::mutex> lock(this_->wake_word_mutex_);
this_->wake_word_opus_.emplace_back(std::move(opus));
this_->wake_word_cv_.notify_all();
});
}
this_->wake_word_pcm_.clear();
auto end_time = esp_timer_get_time();
ESP_LOGI(TAG, "Encode wake word opus %zu packets in %lld ms",
this_->wake_word_opus_.size(), (end_time - start_time) / 1000);
std::lock_guard<std::mutex> lock(this_->wake_word_mutex_);
this_->wake_word_opus_.push_back(std::vector<uint8_t>());
this_->wake_word_cv_.notify_all();
}
vTaskDelete(NULL);
}, "encode_detect_packets", 4096 * 8, this, 2, wake_word_encode_task_stack_, &wake_word_encode_task_buffer_);
}
bool WakeWordDetect::GetWakeWordOpus(std::vector<uint8_t>& opus) {
std::unique_lock<std::mutex> lock(wake_word_mutex_);
wake_word_cv_.wait(lock, [this]() {
return !wake_word_opus_.empty();
});
opus.swap(wake_word_opus_.front());
wake_word_opus_.pop_front();
return !opus.empty();
}
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