devttl/xiaozhi-esp32
1
0
Fork 0
forked from xiaozhi/xiaozhi-esp32
Code Pull Requests Activity
Files
0ccdc082b513df11cf22bf0060ba89c1d403e7bc
xiaozhi-esp32/main/application.cc
Xiaoxia b7db68457c v2.1.0: Upgrade esp-wifi-connect to 3.0; New device state machine (#1528) 
* Upgrade component version

* update fonts component version

* Handle OTA error code

* Update project version to 2.1.0 and add device state machine implementation

- Upgrade  esp-wifi-connect to 3.0.0, allowing reconfiguring wifi without rebooting
- Introduce device state machine with state change notification in new files
- Remove obsolete device state event files
- Update application logic to utilize new state machine
- Minor adjustments in various board implementations for state handling

* fix compile errors

* Refactor power saving mode implementation to use PowerSaveLevel enumeration

- Updated Application class to replace SetPowerSaveMode with SetPowerSaveLevel, allowing for LOW_POWER and PERFORMANCE settings.
- Modified various board implementations to align with the new power save level structure.
- Ensured consistent handling of power save levels across different board files, enhancing code maintainability and clarity.

* Refactor power save level checks across multiple board implementations

- Updated the condition for power save level checks in various board files to ensure that the power save timer only wakes up when the level is not set to LOW_POWER.
- Improved consistency in handling power save levels, enhancing code clarity and maintainability.

* Refactor EnterWifiConfigMode calls in board implementations

- Updated calls to EnterWifiConfigMode to use the appropriate instance reference (self or board) across multiple board files.
- Improved code consistency and clarity in handling device state during WiFi configuration mode entry.

* Add cellular modem event handling and improve network status updates

- Introduced new network events for cellular modem operations, including detecting, registration errors, and timeouts.
- Enhanced the Application class to handle different network states and update the display status accordingly.
- Refactored Ml307Board to implement a callback mechanism for network events, improving modularity and responsiveness.
- Updated dual_network_board and board headers to support new network event callbacks, ensuring consistent handling across board implementations.

* update esp-wifi-connect version

* Update WiFi configuration tool messages across multiple board implementations to clarify user actions
2025-12-09 09:24:56 +08:00

1048 lines
36 KiB
C++
Raw Blame History

#include "application.h"
#include "board.h"
#include "display.h"
#include "system_info.h"
#include "audio_codec.h"
#include "mqtt_protocol.h"
#include "websocket_protocol.h"
#include "assets/lang_config.h"
#include "mcp_server.h"
#include "assets.h"
#include "settings.h"
#include <cstring>
#include <esp_log.h>
#include <cJSON.h>
#include <driver/gpio.h>
#include <arpa/inet.h>
#include <font_awesome.h>
#define TAG "Application"
Application::Application() {
event_group_ = xEventGroupCreate();
#if CONFIG_USE_DEVICE_AEC && CONFIG_USE_SERVER_AEC
#error "CONFIG_USE_DEVICE_AEC and CONFIG_USE_SERVER_AEC cannot be enabled at the same time"
#elif CONFIG_USE_DEVICE_AEC
aec_mode_ = kAecOnDeviceSide;
#elif CONFIG_USE_SERVER_AEC
aec_mode_ = kAecOnServerSide;
#else
aec_mode_ = kAecOff;
#endif
esp_timer_create_args_t clock_timer_args = {
.callback = [](void* arg) {
Application* app = (Application*)arg;
xEventGroupSetBits(app->event_group_, MAIN_EVENT_CLOCK_TICK);
},
.arg = this,
.dispatch_method = ESP_TIMER_TASK,
.name = "clock_timer",
.skip_unhandled_events = true
};
esp_timer_create(&clock_timer_args, &clock_timer_handle_);
}
Application::~Application() {
if (clock_timer_handle_ != nullptr) {
esp_timer_stop(clock_timer_handle_);
esp_timer_delete(clock_timer_handle_);
}
vEventGroupDelete(event_group_);
}
bool Application::SetDeviceState(DeviceState state) {
return state_machine_.TransitionTo(state);
}
void Application::Initialize() {
auto& board = Board::GetInstance();
SetDeviceState(kDeviceStateStarting);
// Setup the display
auto display = board.GetDisplay();
// Print board name/version info
display->SetChatMessage("system", SystemInfo::GetUserAgent().c_str());
// Setup the audio service
auto codec = board.GetAudioCodec();
audio_service_.Initialize(codec);
audio_service_.Start();
AudioServiceCallbacks callbacks;
callbacks.on_send_queue_available = [this]() {
xEventGroupSetBits(event_group_, MAIN_EVENT_SEND_AUDIO);
};
callbacks.on_wake_word_detected = [this](const std::string& wake_word) {
xEventGroupSetBits(event_group_, MAIN_EVENT_WAKE_WORD_DETECTED);
};
callbacks.on_vad_change = [this](bool speaking) {
xEventGroupSetBits(event_group_, MAIN_EVENT_VAD_CHANGE);
};
audio_service_.SetCallbacks(callbacks);
// Add state change listeners
state_machine_.AddStateChangeListener([this](DeviceState old_state, DeviceState new_state) {
xEventGroupSetBits(event_group_, MAIN_EVENT_STATE_CHANGED);
});
// Start the clock timer to update the status bar
esp_timer_start_periodic(clock_timer_handle_, 1000000);
// Add MCP common tools (only once during initialization)
auto& mcp_server = McpServer::GetInstance();
mcp_server.AddCommonTools();
mcp_server.AddUserOnlyTools();
// Set network event callback for UI updates and network state handling
board.SetNetworkEventCallback([this](NetworkEvent event, const std::string& data) {
auto display = Board::GetInstance().GetDisplay();
switch (event) {
case NetworkEvent::Scanning:
display->ShowNotification(Lang::Strings::SCANNING_WIFI, 30000);
xEventGroupSetBits(event_group_, MAIN_EVENT_NETWORK_DISCONNECTED);
break;
case NetworkEvent::Connecting: {
if (data.empty()) {
// Cellular network - registering without carrier info yet
display->SetStatus(Lang::Strings::REGISTERING_NETWORK);
} else {
// WiFi or cellular with carrier info
std::string msg = Lang::Strings::CONNECT_TO;
msg += data;
msg += "...";
display->ShowNotification(msg.c_str(), 30000);
}
break;
}
case NetworkEvent::Connected: {
std::string msg = Lang::Strings::CONNECTED_TO;
msg += data;
display->ShowNotification(msg.c_str(), 30000);
xEventGroupSetBits(event_group_, MAIN_EVENT_NETWORK_CONNECTED);
break;
}
case NetworkEvent::Disconnected:
xEventGroupSetBits(event_group_, MAIN_EVENT_NETWORK_DISCONNECTED);
break;
case NetworkEvent::WifiConfigModeEnter:
// WiFi config mode enter is handled by WifiBoard internally
break;
case NetworkEvent::WifiConfigModeExit:
// WiFi config mode exit is handled by WifiBoard internally
break;
// Cellular modem specific events
case NetworkEvent::ModemDetecting:
display->SetStatus(Lang::Strings::DETECTING_MODULE);
break;
case NetworkEvent::ModemErrorNoSim:
Alert(Lang::Strings::ERROR, Lang::Strings::PIN_ERROR, "triangle_exclamation", Lang::Sounds::OGG_ERR_PIN);
break;
case NetworkEvent::ModemErrorRegDenied:
Alert(Lang::Strings::ERROR, Lang::Strings::REG_ERROR, "triangle_exclamation", Lang::Sounds::OGG_ERR_REG);
break;
case NetworkEvent::ModemErrorInitFailed:
display->SetStatus(Lang::Strings::DETECTING_MODULE);
display->SetChatMessage("system", Lang::Strings::DETECTING_MODULE);
break;
case NetworkEvent::ModemErrorTimeout:
display->SetStatus(Lang::Strings::REGISTERING_NETWORK);
break;
}
});
// Start network asynchronously
board.StartNetwork();
// Update the status bar immediately to show the network state
display->UpdateStatusBar(true);
}
void Application::Run() {
const EventBits_t ALL_EVENTS =
MAIN_EVENT_SCHEDULE |
MAIN_EVENT_SEND_AUDIO |
MAIN_EVENT_WAKE_WORD_DETECTED |
MAIN_EVENT_VAD_CHANGE |
MAIN_EVENT_CLOCK_TICK |
MAIN_EVENT_ERROR |
MAIN_EVENT_NETWORK_CONNECTED |
MAIN_EVENT_NETWORK_DISCONNECTED |
MAIN_EVENT_TOGGLE_CHAT |
MAIN_EVENT_START_LISTENING |
MAIN_EVENT_STOP_LISTENING |
MAIN_EVENT_ACTIVATION_DONE |
MAIN_EVENT_STATE_CHANGED;
while (true) {
auto bits = xEventGroupWaitBits(event_group_, ALL_EVENTS, pdTRUE, pdFALSE, portMAX_DELAY);
if (bits & MAIN_EVENT_ERROR) {
SetDeviceState(kDeviceStateIdle);
Alert(Lang::Strings::ERROR, last_error_message_.c_str(), "circle_xmark", Lang::Sounds::OGG_EXCLAMATION);
}
if (bits & MAIN_EVENT_NETWORK_CONNECTED) {
HandleNetworkConnectedEvent();
}
if (bits & MAIN_EVENT_NETWORK_DISCONNECTED) {
HandleNetworkDisconnectedEvent();
}
if (bits & MAIN_EVENT_ACTIVATION_DONE) {
HandleActivationDoneEvent();
}
if (bits & MAIN_EVENT_STATE_CHANGED) {
HandleStateChangedEvent();
}
if (bits & MAIN_EVENT_TOGGLE_CHAT) {
HandleToggleChatEvent();
}
if (bits & MAIN_EVENT_START_LISTENING) {
HandleStartListeningEvent();
}
if (bits & MAIN_EVENT_STOP_LISTENING) {
HandleStopListeningEvent();
}
if (bits & MAIN_EVENT_SEND_AUDIO) {
while (auto packet = audio_service_.PopPacketFromSendQueue()) {
if (protocol_ && !protocol_->SendAudio(std::move(packet))) {
break;
}
}
}
if (bits & MAIN_EVENT_WAKE_WORD_DETECTED) {
HandleWakeWordDetectedEvent();
}
if (bits & MAIN_EVENT_VAD_CHANGE) {
if (GetDeviceState() == kDeviceStateListening) {
auto led = Board::GetInstance().GetLed();
led->OnStateChanged();
}
}
if (bits & MAIN_EVENT_SCHEDULE) {
std::unique_lock<std::mutex> lock(mutex_);
auto tasks = std::move(main_tasks_);
lock.unlock();
for (auto& task : tasks) {
task();
}
}
if (bits & MAIN_EVENT_CLOCK_TICK) {
clock_ticks_++;
auto display = Board::GetInstance().GetDisplay();
display->UpdateStatusBar();
// Print debug info every 10 seconds
if (clock_ticks_ % 10 == 0) {
SystemInfo::PrintHeapStats();
}
}
}
}
void Application::HandleNetworkConnectedEvent() {
ESP_LOGI(TAG, "Network connected");
auto state = GetDeviceState();
if (state == kDeviceStateStarting || state == kDeviceStateWifiConfiguring) {
// Network is ready, start activation
SetDeviceState(kDeviceStateActivating);
if (activation_task_handle_ != nullptr) {
ESP_LOGW(TAG, "Activation task already running");
return;
}
xTaskCreate([](void* arg) {
Application* app = static_cast<Application*>(arg);
app->ActivationTask();
app->activation_task_handle_ = nullptr;
vTaskDelete(NULL);
}, "activation", 4096 * 2, this, 2, &activation_task_handle_);
}
// Update the status bar immediately to show the network state
auto display = Board::GetInstance().GetDisplay();
display->UpdateStatusBar(true);
}
void Application::HandleNetworkDisconnectedEvent() {
// Close current conversation when network disconnected
auto state = GetDeviceState();
if (state == kDeviceStateConnecting || state == kDeviceStateListening || state == kDeviceStateSpeaking) {
ESP_LOGI(TAG, "Closing audio channel due to network disconnection");
protocol_->CloseAudioChannel();
}
// Update the status bar immediately to show the network state
auto display = Board::GetInstance().GetDisplay();
display->UpdateStatusBar(true);
}
void Application::HandleActivationDoneEvent() {
ESP_LOGI(TAG, "Activation done");
SystemInfo::PrintHeapStats();
SetDeviceState(kDeviceStateIdle);
has_server_time_ = ota_->HasServerTime();
auto display = Board::GetInstance().GetDisplay();
std::string message = std::string(Lang::Strings::VERSION) + ota_->GetCurrentVersion();
display->ShowNotification(message.c_str());
display->SetChatMessage("system", "");
// Play the success sound to indicate the device is ready
audio_service_.PlaySound(Lang::Sounds::OGG_SUCCESS);
// Release OTA object after activation is complete
ota_.reset();
auto& board = Board::GetInstance();
board.SetPowerSaveLevel(PowerSaveLevel::LOW_POWER);
}
void Application::ActivationTask() {
// Create OTA object for activation process
ota_ = std::make_unique<Ota>();
// Check for new assets version
CheckAssetsVersion();
// Check for new firmware version
CheckNewVersion();
// Initialize the protocol
InitializeProtocol();
// Signal completion to main loop
xEventGroupSetBits(event_group_, MAIN_EVENT_ACTIVATION_DONE);
}
void Application::CheckAssetsVersion() {
// Only allow CheckAssetsVersion to be called once
if (assets_version_checked_) {
return;
}
assets_version_checked_ = true;
auto& board = Board::GetInstance();
auto display = board.GetDisplay();
auto& assets = Assets::GetInstance();
if (!assets.partition_valid()) {
ESP_LOGW(TAG, "Assets partition is disabled for board %s", BOARD_NAME);
return;
}
Settings settings("assets", true);
// Check if there is a new assets need to be downloaded
std::string download_url = settings.GetString("download_url");
if (!download_url.empty()) {
settings.EraseKey("download_url");
char message[256];
snprintf(message, sizeof(message), Lang::Strings::FOUND_NEW_ASSETS, download_url.c_str());
Alert(Lang::Strings::LOADING_ASSETS, message, "cloud_arrow_down", Lang::Sounds::OGG_UPGRADE);
// Wait for the audio service to be idle for 3 seconds
vTaskDelay(pdMS_TO_TICKS(3000));
SetDeviceState(kDeviceStateUpgrading);
board.SetPowerSaveLevel(PowerSaveLevel::PERFORMANCE);
display->SetChatMessage("system", Lang::Strings::PLEASE_WAIT);
bool success = assets.Download(download_url, [display](int progress, size_t speed) -> void {
std::thread([display, progress, speed]() {
char buffer[32];
snprintf(buffer, sizeof(buffer), "%d%% %uKB/s", progress, speed / 1024);
display->SetChatMessage("system", buffer);
}).detach();
});
board.SetPowerSaveLevel(PowerSaveLevel::LOW_POWER);
vTaskDelay(pdMS_TO_TICKS(1000));
if (!success) {
Alert(Lang::Strings::ERROR, Lang::Strings::DOWNLOAD_ASSETS_FAILED, "circle_xmark", Lang::Sounds::OGG_EXCLAMATION);
vTaskDelay(pdMS_TO_TICKS(2000));
SetDeviceState(kDeviceStateActivating);
return;
}
}
// Apply assets
assets.Apply();
display->SetChatMessage("system", "");
display->SetEmotion("microchip_ai");
}
void Application::CheckNewVersion() {
const int MAX_RETRY = 10;
int retry_count = 0;
int retry_delay = 10; // Initial retry delay in seconds
auto& board = Board::GetInstance();
while (true) {
auto display = board.GetDisplay();
display->SetStatus(Lang::Strings::CHECKING_NEW_VERSION);
esp_err_t err = ota_->CheckVersion();
if (err != ESP_OK) {
retry_count++;
if (retry_count >= MAX_RETRY) {
ESP_LOGE(TAG, "Too many retries, exit version check");
return;
}
char error_message[128];
snprintf(error_message, sizeof(error_message), "code=%d, url=%s", err, ota_->GetCheckVersionUrl().c_str());
char buffer[256];
snprintf(buffer, sizeof(buffer), Lang::Strings::CHECK_NEW_VERSION_FAILED, retry_delay, error_message);
Alert(Lang::Strings::ERROR, buffer, "cloud_slash", Lang::Sounds::OGG_EXCLAMATION);
ESP_LOGW(TAG, "Check new version failed, retry in %d seconds (%d/%d)", retry_delay, retry_count, MAX_RETRY);
for (int i = 0; i < retry_delay; i++) {
vTaskDelay(pdMS_TO_TICKS(1000));
if (GetDeviceState() == kDeviceStateIdle) {
break;
}
}
retry_delay *= 2; // Double the retry delay
continue;
}
retry_count = 0;
retry_delay = 10; // Reset retry delay
if (ota_->HasNewVersion()) {
if (UpgradeFirmware(ota_->GetFirmwareUrl(), ota_->GetFirmwareVersion())) {
return; // This line will never be reached after reboot
}
// If upgrade failed, continue to normal operation
}
// No new version, mark the current version as valid
ota_->MarkCurrentVersionValid();
if (!ota_->HasActivationCode() && !ota_->HasActivationChallenge()) {
// Exit the loop if done checking new version
break;
}
display->SetStatus(Lang::Strings::ACTIVATION);
// Activation code is shown to the user and waiting for the user to input
if (ota_->HasActivationCode()) {
ShowActivationCode(ota_->GetActivationCode(), ota_->GetActivationMessage());
}
// This will block the loop until the activation is done or timeout
for (int i = 0; i < 10; ++i) {
ESP_LOGI(TAG, "Activating... %d/%d", i + 1, 10);
esp_err_t err = ota_->Activate();
if (err == ESP_OK) {
break;
} else if (err == ESP_ERR_TIMEOUT) {
vTaskDelay(pdMS_TO_TICKS(3000));
} else {
vTaskDelay(pdMS_TO_TICKS(10000));
}
if (GetDeviceState() == kDeviceStateIdle) {
break;
}
}
}
}
void Application::InitializeProtocol() {
auto& board = Board::GetInstance();
auto display = board.GetDisplay();
auto codec = board.GetAudioCodec();
display->SetStatus(Lang::Strings::LOADING_PROTOCOL);
if (ota_->HasMqttConfig()) {
protocol_ = std::make_unique<MqttProtocol>();
} else if (ota_->HasWebsocketConfig()) {
protocol_ = std::make_unique<WebsocketProtocol>();
} else {
ESP_LOGW(TAG, "No protocol specified in the OTA config, using MQTT");
protocol_ = std::make_unique<MqttProtocol>();
}
protocol_->OnConnected([this]() {
DismissAlert();
});
protocol_->OnNetworkError([this](const std::string& message) {
last_error_message_ = message;
xEventGroupSetBits(event_group_, MAIN_EVENT_ERROR);
});
protocol_->OnIncomingAudio([this](std::unique_ptr<AudioStreamPacket> packet) {
if (GetDeviceState() == kDeviceStateSpeaking) {
audio_service_.PushPacketToDecodeQueue(std::move(packet));
}
});
protocol_->OnAudioChannelOpened([this, codec, &board]() {
board.SetPowerSaveLevel(PowerSaveLevel::PERFORMANCE);
if (protocol_->server_sample_rate() != codec->output_sample_rate()) {
ESP_LOGW(TAG, "Server sample rate %d does not match device output sample rate %d, resampling may cause distortion",
protocol_->server_sample_rate(), codec->output_sample_rate());
}
});
protocol_->OnAudioChannelClosed([this, &board]() {
board.SetPowerSaveLevel(PowerSaveLevel::LOW_POWER);
Schedule([this]() {
auto display = Board::GetInstance().GetDisplay();
display->SetChatMessage("system", "");
SetDeviceState(kDeviceStateIdle);
});
});
protocol_->OnIncomingJson([this, display](const cJSON* root) {
// Parse JSON data
auto type = cJSON_GetObjectItem(root, "type");
if (strcmp(type->valuestring, "tts") == 0) {
auto state = cJSON_GetObjectItem(root, "state");
if (strcmp(state->valuestring, "start") == 0) {
Schedule([this]() {
aborted_ = false;
SetDeviceState(kDeviceStateSpeaking);
});
} else if (strcmp(state->valuestring, "stop") == 0) {
Schedule([this]() {
if (GetDeviceState() == kDeviceStateSpeaking) {
if (listening_mode_ == kListeningModeManualStop) {
SetDeviceState(kDeviceStateIdle);
} else {
SetDeviceState(kDeviceStateListening);
}
}
});
} else if (strcmp(state->valuestring, "sentence_start") == 0) {
auto text = cJSON_GetObjectItem(root, "text");
if (cJSON_IsString(text)) {
ESP_LOGI(TAG, "<< %s", text->valuestring);
Schedule([this, display, message = std::string(text->valuestring)]() {
display->SetChatMessage("assistant", message.c_str());
});
}
}
} else if (strcmp(type->valuestring, "stt") == 0) {
auto text = cJSON_GetObjectItem(root, "text");
if (cJSON_IsString(text)) {
ESP_LOGI(TAG, ">> %s", text->valuestring);
Schedule([this, display, message = std::string(text->valuestring)]() {
display->SetChatMessage("user", message.c_str());
});
}
} else if (strcmp(type->valuestring, "llm") == 0) {
auto emotion = cJSON_GetObjectItem(root, "emotion");
if (cJSON_IsString(emotion)) {
Schedule([this, display, emotion_str = std::string(emotion->valuestring)]() {
display->SetEmotion(emotion_str.c_str());
});
}
} else if (strcmp(type->valuestring, "mcp") == 0) {
auto payload = cJSON_GetObjectItem(root, "payload");
if (cJSON_IsObject(payload)) {
McpServer::GetInstance().ParseMessage(payload);
}
} else if (strcmp(type->valuestring, "system") == 0) {
auto command = cJSON_GetObjectItem(root, "command");
if (cJSON_IsString(command)) {
ESP_LOGI(TAG, "System command: %s", command->valuestring);
if (strcmp(command->valuestring, "reboot") == 0) {
// Do a reboot if user requests a OTA update
Schedule([this]() {
Reboot();
});
} else {
ESP_LOGW(TAG, "Unknown system command: %s", command->valuestring);
}
}
} else if (strcmp(type->valuestring, "alert") == 0) {
auto status = cJSON_GetObjectItem(root, "status");
auto message = cJSON_GetObjectItem(root, "message");
auto emotion = cJSON_GetObjectItem(root, "emotion");
if (cJSON_IsString(status) && cJSON_IsString(message) && cJSON_IsString(emotion)) {
Alert(status->valuestring, message->valuestring, emotion->valuestring, Lang::Sounds::OGG_VIBRATION);
} else {
ESP_LOGW(TAG, "Alert command requires status, message and emotion");
}
#if CONFIG_RECEIVE_CUSTOM_MESSAGE
} else if (strcmp(type->valuestring, "custom") == 0) {
auto payload = cJSON_GetObjectItem(root, "payload");
ESP_LOGI(TAG, "Received custom message: %s", cJSON_PrintUnformatted(root));
if (cJSON_IsObject(payload)) {
Schedule([this, display, payload_str = std::string(cJSON_PrintUnformatted(payload))]() {
display->SetChatMessage("system", payload_str.c_str());
});
} else {
ESP_LOGW(TAG, "Invalid custom message format: missing payload");
}
#endif
} else {
ESP_LOGW(TAG, "Unknown message type: %s", type->valuestring);
}
});
protocol_->Start();
}
void Application::ShowActivationCode(const std::string& code, const std::string& message) {
struct digit_sound {
char digit;
const std::string_view& sound;
};
static const std::array<digit_sound, 10> digit_sounds{{
digit_sound{'0', Lang::Sounds::OGG_0},
digit_sound{'1', Lang::Sounds::OGG_1},
digit_sound{'2', Lang::Sounds::OGG_2},
digit_sound{'3', Lang::Sounds::OGG_3},
digit_sound{'4', Lang::Sounds::OGG_4},
digit_sound{'5', Lang::Sounds::OGG_5},
digit_sound{'6', Lang::Sounds::OGG_6},
digit_sound{'7', Lang::Sounds::OGG_7},
digit_sound{'8', Lang::Sounds::OGG_8},
digit_sound{'9', Lang::Sounds::OGG_9}
}};
// This sentence uses 9KB of SRAM, so we need to wait for it to finish
Alert(Lang::Strings::ACTIVATION, message.c_str(), "link", Lang::Sounds::OGG_ACTIVATION);
for (const auto& digit : code) {
auto it = std::find_if(digit_sounds.begin(), digit_sounds.end(),
[digit](const digit_sound& ds) { return ds.digit == digit; });
if (it != digit_sounds.end()) {
audio_service_.PlaySound(it->sound);
}
}
}
void Application::Alert(const char* status, const char* message, const char* emotion, const std::string_view& sound) {
ESP_LOGW(TAG, "Alert [%s] %s: %s", emotion, status, message);
auto display = Board::GetInstance().GetDisplay();
display->SetStatus(status);
display->SetEmotion(emotion);
display->SetChatMessage("system", message);
if (!sound.empty()) {
audio_service_.PlaySound(sound);
}
}
void Application::DismissAlert() {
if (GetDeviceState() == kDeviceStateIdle) {
auto display = Board::GetInstance().GetDisplay();
display->SetStatus(Lang::Strings::STANDBY);
display->SetEmotion("neutral");
display->SetChatMessage("system", "");
}
}
void Application::ToggleChatState() {
xEventGroupSetBits(event_group_, MAIN_EVENT_TOGGLE_CHAT);
}
void Application::StartListening() {
xEventGroupSetBits(event_group_, MAIN_EVENT_START_LISTENING);
}
void Application::StopListening() {
xEventGroupSetBits(event_group_, MAIN_EVENT_STOP_LISTENING);
}
void Application::HandleToggleChatEvent() {
auto state = GetDeviceState();
if (state == kDeviceStateActivating) {
SetDeviceState(kDeviceStateIdle);
return;
} else if (state == kDeviceStateWifiConfiguring) {
audio_service_.EnableAudioTesting(true);
SetDeviceState(kDeviceStateAudioTesting);
return;
} else if (state == kDeviceStateAudioTesting) {
audio_service_.EnableAudioTesting(false);
SetDeviceState(kDeviceStateWifiConfiguring);
return;
}
if (!protocol_) {
ESP_LOGE(TAG, "Protocol not initialized");
return;
}
if (state == kDeviceStateIdle) {
if (!protocol_->IsAudioChannelOpened()) {
SetDeviceState(kDeviceStateConnecting);
if (!protocol_->OpenAudioChannel()) {
return;
}
}
SetListeningMode(aec_mode_ == kAecOff ? kListeningModeAutoStop : kListeningModeRealtime);
} else if (state == kDeviceStateSpeaking) {
AbortSpeaking(kAbortReasonNone);
} else if (state == kDeviceStateListening) {
protocol_->CloseAudioChannel();
}
}
void Application::HandleStartListeningEvent() {
auto state = GetDeviceState();
if (state == kDeviceStateActivating) {
SetDeviceState(kDeviceStateIdle);
return;
} else if (state == kDeviceStateWifiConfiguring) {
audio_service_.EnableAudioTesting(true);
SetDeviceState(kDeviceStateAudioTesting);
return;
}
if (!protocol_) {
ESP_LOGE(TAG, "Protocol not initialized");
return;
}
if (state == kDeviceStateIdle) {
if (!protocol_->IsAudioChannelOpened()) {
SetDeviceState(kDeviceStateConnecting);
if (!protocol_->OpenAudioChannel()) {
return;
}
}
SetListeningMode(kListeningModeManualStop);
} else if (state == kDeviceStateSpeaking) {
AbortSpeaking(kAbortReasonNone);
SetListeningMode(kListeningModeManualStop);
}
}
void Application::HandleStopListeningEvent() {
auto state = GetDeviceState();
if (state == kDeviceStateAudioTesting) {
audio_service_.EnableAudioTesting(false);
SetDeviceState(kDeviceStateWifiConfiguring);
return;
} else if (state == kDeviceStateListening) {
if (protocol_) {
protocol_->SendStopListening();
}
SetDeviceState(kDeviceStateIdle);
}
}
void Application::HandleWakeWordDetectedEvent() {
if (!protocol_) {
return;
}
auto state = GetDeviceState();
if (state == kDeviceStateIdle) {
audio_service_.EncodeWakeWord();
if (!protocol_->IsAudioChannelOpened()) {
SetDeviceState(kDeviceStateConnecting);
if (!protocol_->OpenAudioChannel()) {
audio_service_.EnableWakeWordDetection(true);
return;
}
}
auto wake_word = audio_service_.GetLastWakeWord();
ESP_LOGI(TAG, "Wake word detected: %s", wake_word.c_str());
#if CONFIG_SEND_WAKE_WORD_DATA
// Encode and send the wake word data to the server
while (auto packet = audio_service_.PopWakeWordPacket()) {
protocol_->SendAudio(std::move(packet));
}
// Set the chat state to wake word detected
protocol_->SendWakeWordDetected(wake_word);
SetListeningMode(aec_mode_ == kAecOff ? kListeningModeAutoStop : kListeningModeRealtime);
#else
SetListeningMode(aec_mode_ == kAecOff ? kListeningModeAutoStop : kListeningModeRealtime);
// Play the pop up sound to indicate the wake word is detected
audio_service_.PlaySound(Lang::Sounds::OGG_POPUP);
#endif
} else if (state == kDeviceStateSpeaking) {
AbortSpeaking(kAbortReasonWakeWordDetected);
} else if (state == kDeviceStateActivating) {
// Restart the activation check if the wake word is detected during activation
SetDeviceState(kDeviceStateIdle);
}
}
void Application::HandleStateChangedEvent() {
DeviceState new_state = state_machine_.GetState();
clock_ticks_ = 0;
auto& board = Board::GetInstance();
auto display = board.GetDisplay();
auto led = board.GetLed();
led->OnStateChanged();
switch (new_state) {
case kDeviceStateUnknown:
case kDeviceStateIdle:
display->SetStatus(Lang::Strings::STANDBY);
display->SetEmotion("neutral");
audio_service_.EnableVoiceProcessing(false);
audio_service_.EnableWakeWordDetection(true);
break;
case kDeviceStateConnecting:
display->SetStatus(Lang::Strings::CONNECTING);
display->SetEmotion("neutral");
display->SetChatMessage("system", "");
break;
case kDeviceStateListening:
display->SetStatus(Lang::Strings::LISTENING);
display->SetEmotion("neutral");
// Make sure the audio processor is running
if (!audio_service_.IsAudioProcessorRunning()) {
// Send the start listening command
protocol_->SendStartListening(listening_mode_);
audio_service_.EnableVoiceProcessing(true);
audio_service_.EnableWakeWordDetection(false);
}
break;
case kDeviceStateSpeaking:
display->SetStatus(Lang::Strings::SPEAKING);
if (listening_mode_ != kListeningModeRealtime) {
audio_service_.EnableVoiceProcessing(false);
// Only AFE wake word can be detected in speaking mode
audio_service_.EnableWakeWordDetection(audio_service_.IsAfeWakeWord());
}
audio_service_.ResetDecoder();
break;
case kDeviceStateWifiConfiguring:
audio_service_.EnableVoiceProcessing(false);
audio_service_.EnableWakeWordDetection(false);
break;
default:
// Do nothing
break;
}
}
void Application::Schedule(std::function<void()> callback) {
{
std::lock_guard<std::mutex> lock(mutex_);
main_tasks_.push_back(std::move(callback));
}
xEventGroupSetBits(event_group_, MAIN_EVENT_SCHEDULE);
}
void Application::AbortSpeaking(AbortReason reason) {
ESP_LOGI(TAG, "Abort speaking");
aborted_ = true;
if (protocol_) {
protocol_->SendAbortSpeaking(reason);
}
}
void Application::SetListeningMode(ListeningMode mode) {
listening_mode_ = mode;
SetDeviceState(kDeviceStateListening);
}
void Application::Reboot() {
ESP_LOGI(TAG, "Rebooting...");
// Disconnect the audio channel
if (protocol_ && protocol_->IsAudioChannelOpened()) {
protocol_->CloseAudioChannel();
}
protocol_.reset();
audio_service_.Stop();
vTaskDelay(pdMS_TO_TICKS(1000));
esp_restart();
}
bool Application::UpgradeFirmware(const std::string& url, const std::string& version) {
auto& board = Board::GetInstance();
auto display = board.GetDisplay();
std::string upgrade_url = url;
std::string version_info = version.empty() ? "(Manual upgrade)" : version;
// Close audio channel if it's open
if (protocol_ && protocol_->IsAudioChannelOpened()) {
ESP_LOGI(TAG, "Closing audio channel before firmware upgrade");
protocol_->CloseAudioChannel();
}
ESP_LOGI(TAG, "Starting firmware upgrade from URL: %s", upgrade_url.c_str());
Alert(Lang::Strings::OTA_UPGRADE, Lang::Strings::UPGRADING, "download", Lang::Sounds::OGG_UPGRADE);
vTaskDelay(pdMS_TO_TICKS(3000));
SetDeviceState(kDeviceStateUpgrading);
std::string message = std::string(Lang::Strings::NEW_VERSION) + version_info;
display->SetChatMessage("system", message.c_str());
board.SetPowerSaveLevel(PowerSaveLevel::PERFORMANCE);
audio_service_.Stop();
vTaskDelay(pdMS_TO_TICKS(1000));
bool upgrade_success = Ota::Upgrade(upgrade_url, [display](int progress, size_t speed) {
std::thread([display, progress, speed]() {
char buffer[32];
snprintf(buffer, sizeof(buffer), "%d%% %uKB/s", progress, speed / 1024);
display->SetChatMessage("system", buffer);
}).detach();
});
if (!upgrade_success) {
// Upgrade failed, restart audio service and continue running
ESP_LOGE(TAG, "Firmware upgrade failed, restarting audio service and continuing operation...");
audio_service_.Start(); // Restart audio service
board.SetPowerSaveLevel(PowerSaveLevel::LOW_POWER); // Restore power save level
Alert(Lang::Strings::ERROR, Lang::Strings::UPGRADE_FAILED, "circle_xmark", Lang::Sounds::OGG_EXCLAMATION);
vTaskDelay(pdMS_TO_TICKS(3000));
return false;
} else {
// Upgrade success, reboot immediately
ESP_LOGI(TAG, "Firmware upgrade successful, rebooting...");
display->SetChatMessage("system", "Upgrade successful, rebooting...");
vTaskDelay(pdMS_TO_TICKS(1000)); // Brief pause to show message
Reboot();
return true;
}
}
void Application::WakeWordInvoke(const std::string& wake_word) {
if (!protocol_) {
return;
}
auto state = GetDeviceState();
if (state == kDeviceStateIdle) {
audio_service_.EncodeWakeWord();
if (!protocol_->IsAudioChannelOpened()) {
SetDeviceState(kDeviceStateConnecting);
if (!protocol_->OpenAudioChannel()) {
audio_service_.EnableWakeWordDetection(true);
return;
}
}
ESP_LOGI(TAG, "Wake word detected: %s", wake_word.c_str());
#if CONFIG_USE_AFE_WAKE_WORD || CONFIG_USE_CUSTOM_WAKE_WORD
// Encode and send the wake word data to the server
while (auto packet = audio_service_.PopWakeWordPacket()) {
protocol_->SendAudio(std::move(packet));
}
// Set the chat state to wake word detected
protocol_->SendWakeWordDetected(wake_word);
SetListeningMode(aec_mode_ == kAecOff ? kListeningModeAutoStop : kListeningModeRealtime);
#else
SetListeningMode(aec_mode_ == kAecOff ? kListeningModeAutoStop : kListeningModeRealtime);
// Play the pop up sound to indicate the wake word is detected
audio_service_.PlaySound(Lang::Sounds::OGG_POPUP);
#endif
} else if (state == kDeviceStateSpeaking) {
Schedule([this]() {
AbortSpeaking(kAbortReasonNone);
});
} else if (state == kDeviceStateListening) {
Schedule([this]() {
if (protocol_) {
protocol_->CloseAudioChannel();
}
});
}
}
bool Application::CanEnterSleepMode() {
if (GetDeviceState() != kDeviceStateIdle) {
return false;
}
if (protocol_ && protocol_->IsAudioChannelOpened()) {
return false;
}
if (!audio_service_.IsIdle()) {
return false;
}
// Now it is safe to enter sleep mode
return true;
}
void Application::SendMcpMessage(const std::string& payload) {
// Always schedule to run in main task for thread safety
Schedule([this, payload = std::move(payload)]() {
if (protocol_) {
protocol_->SendMcpMessage(payload);
}
});
}
void Application::SetAecMode(AecMode mode) {
aec_mode_ = mode;
Schedule([this]() {
auto& board = Board::GetInstance();
auto display = board.GetDisplay();
switch (aec_mode_) {
case kAecOff:
audio_service_.EnableDeviceAec(false);
display->ShowNotification(Lang::Strings::RTC_MODE_OFF);
break;
case kAecOnServerSide:
audio_service_.EnableDeviceAec(false);
display->ShowNotification(Lang::Strings::RTC_MODE_ON);
break;
case kAecOnDeviceSide:
audio_service_.EnableDeviceAec(true);
display->ShowNotification(Lang::Strings::RTC_MODE_ON);
break;
}
// If the AEC mode is changed, close the audio channel
if (protocol_ && protocol_->IsAudioChannelOpened()) {
protocol_->CloseAudioChannel();
}
});
}
void Application::PlaySound(const std::string_view& sound) {
audio_service_.PlaySound(sound);
}
void Application::ResetProtocol() {
Schedule([this]() {
// Close audio channel if opened
if (protocol_ && protocol_->IsAudioChannelOpened()) {
protocol_->CloseAudioChannel();
}
// Reset protocol
protocol_.reset();
});
}
View Git Blame Copy Permalink