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b7db68457c
xiaozhi-esp32/main/boards/minsi-k08-dual/minsi_k08_dual.cc
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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

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#include "dual_network_board.h"
//#include "wifi_board.h"
#include "codecs/no_audio_codec.h"
#include "display/lcd_display.h"
#include "system_reset.h"
#include "application.h"
#include "button.h"
#include "config.h"
#include "power_save_timer.h"
#include "mcp_server.h"
#include "lamp_controller.h"
#include "led/single_led.h"
#include "assets/lang_config.h"
#include "power_manager.h"
#include <esp_log.h>
#include <driver/i2c_master.h>
#include <esp_lcd_panel_vendor.h>
#include <esp_lcd_panel_io.h>
#include <esp_lcd_panel_ops.h>
#include <driver/spi_common.h>
#include <driver/rtc_io.h>
#include <esp_sleep.h>
#define TAG "MINSI_K08_DUAL"
class MINSI_K08_DUAL : public DualNetworkBoard {
private:
Button boot_button_;
Button volume_up_button_;
Button volume_down_button_;
LcdDisplay* display_;
PowerSaveTimer* power_save_timer_;
PowerManager* power_manager_;
esp_lcd_panel_io_handle_t panel_io_ = nullptr;
esp_lcd_panel_handle_t panel_ = nullptr;
void InitializePowerManager() {
//power_manager_ = new PowerManager(GPIO_NUM_38);
power_manager_ = new PowerManager(GPIO_NUM_3);
power_manager_->OnChargingStatusChanged([this](bool is_charging) {
if (is_charging) {
power_save_timer_->SetEnabled(false);
} else {
power_save_timer_->SetEnabled(true);
//power_save_timer_->SetEnabled(false);
}
});
}
void InitializePowerSaveTimer() {
/*rtc_gpio_init(GPIO_NUM_21);
rtc_gpio_set_direction(GPIO_NUM_21, RTC_GPIO_MODE_OUTPUT_ONLY);
rtc_gpio_set_level(GPIO_NUM_21, 1);*/
power_save_timer_ = new PowerSaveTimer(-1, 60, 300);
power_save_timer_->OnEnterSleepMode([this]() {
GetDisplay()->SetPowerSaveMode(true);
GetBacklight()->SetBrightness(1);
});
power_save_timer_->OnExitSleepMode([this]() {
GetDisplay()->SetPowerSaveMode(false);
GetBacklight()->RestoreBrightness();
});
power_save_timer_->OnShutdownRequest([this]() {
ESP_LOGI(TAG, "Shutting down");
//rtc_gpio_set_level(GPIO_NUM_21, 0);
// 启用保持功能,确保睡眠期间电平不变
//rtc_gpio_hold_en(GPIO_NUM_21);
//esp_lcd_panel_disp_on_off(panel_, false); //关闭显示
//esp_deep_sleep_start();
});
power_save_timer_->SetEnabled(true);
//power_save_timer_->SetEnabled(false);
}
void InitializeSpi() {
spi_bus_config_t buscfg = {};
buscfg.mosi_io_num = DISPLAY_MOSI_PIN;
buscfg.miso_io_num = GPIO_NUM_NC;
buscfg.sclk_io_num = DISPLAY_CLK_PIN;
buscfg.quadwp_io_num = GPIO_NUM_NC;
buscfg.quadhd_io_num = GPIO_NUM_NC;
buscfg.max_transfer_sz = DISPLAY_WIDTH * DISPLAY_HEIGHT * sizeof(uint16_t);
ESP_ERROR_CHECK(spi_bus_initialize(SPI3_HOST, &buscfg, SPI_DMA_CH_AUTO));
}
void InitializeLcdDisplay() {
esp_lcd_panel_io_handle_t panel_io = nullptr;
esp_lcd_panel_handle_t panel = nullptr;
// 液晶屏控制IO初始化
ESP_LOGD(TAG, "Install panel IO");
esp_lcd_panel_io_spi_config_t io_config = {};
io_config.cs_gpio_num = DISPLAY_CS_PIN;
io_config.dc_gpio_num = DISPLAY_DC_PIN;
io_config.spi_mode = 3;
io_config.pclk_hz = 40 * 1000 * 1000;
io_config.trans_queue_depth = 10;
io_config.lcd_cmd_bits = 8;
io_config.lcd_param_bits = 8;
ESP_ERROR_CHECK(esp_lcd_new_panel_io_spi(SPI3_HOST, &io_config, &panel_io));
// 初始化液晶屏驱动芯片
ESP_LOGD(TAG, "Install LCD driver");
esp_lcd_panel_dev_config_t panel_config = {};
panel_config.reset_gpio_num = DISPLAY_RST_PIN;
panel_config.rgb_ele_order = DISPLAY_RGB_ORDER;
panel_config.bits_per_pixel = 16;
ESP_ERROR_CHECK(esp_lcd_new_panel_st7789(panel_io, &panel_config, &panel));
esp_lcd_panel_reset(panel);
esp_lcd_panel_init(panel);
esp_lcd_panel_invert_color(panel, DISPLAY_INVERT_COLOR);
esp_lcd_panel_swap_xy(panel, DISPLAY_SWAP_XY);
esp_lcd_panel_mirror(panel, DISPLAY_MIRROR_X, DISPLAY_MIRROR_Y);
display_ = new SpiLcdDisplay(panel_io, panel,
DISPLAY_WIDTH, DISPLAY_HEIGHT, DISPLAY_OFFSET_X, DISPLAY_OFFSET_Y, DISPLAY_MIRROR_X, DISPLAY_MIRROR_Y, DISPLAY_SWAP_XY);
}
void InitializeButtons() {
boot_button_.OnClick([this]() {
auto& app = Application::GetInstance();
if (GetNetworkType() == NetworkType::WIFI) {
if (app.GetDeviceState() == kDeviceStateStarting) {
// cast to WifiBoard
auto& wifi_board = static_cast<WifiBoard&>(GetCurrentBoard());
wifi_board.EnterWifiConfigMode();
return;
}
}
app.ToggleChatState();
});
boot_button_.OnDoubleClick([this]() {
auto& app = Application::GetInstance();
if (app.GetDeviceState() == kDeviceStateStarting || app.GetDeviceState() == kDeviceStateWifiConfiguring) {
SwitchNetworkType();
}
});
volume_up_button_.OnClick([this]() {
power_save_timer_->WakeUp();
auto codec = GetAudioCodec();
auto volume = codec->output_volume() + 10;
if (volume > 100) {
volume = 100;
}
codec->SetOutputVolume(volume);
GetDisplay()->ShowNotification(Lang::Strings::VOLUME + std::to_string(volume));
});
volume_up_button_.OnLongPress([this]() {
power_save_timer_->WakeUp();
GetAudioCodec()->SetOutputVolume(100);
GetDisplay()->ShowNotification(Lang::Strings::MAX_VOLUME);
});
volume_down_button_.OnClick([this]() {
power_save_timer_->WakeUp();
auto codec = GetAudioCodec();
auto volume = codec->output_volume() - 10;
if (volume < 0) {
volume = 0;
}
codec->SetOutputVolume(volume);
GetDisplay()->ShowNotification(Lang::Strings::VOLUME + std::to_string(volume));
});
volume_down_button_.OnLongPress([this]() {
power_save_timer_->WakeUp();
GetAudioCodec()->SetOutputVolume(0);
GetDisplay()->ShowNotification(Lang::Strings::MUTED);
});
}
// 物联网初始化,添加对 AI 可见设备
void InitializeTools() {
static LampController lamp(LAMP_GPIO);
}
public:
MINSI_K08_DUAL() : DualNetworkBoard(ML307_TX_PIN, ML307_RX_PIN),
boot_button_(BOOT_BUTTON_GPIO),
volume_up_button_(VOLUME_UP_BUTTON_GPIO),
volume_down_button_(VOLUME_DOWN_BUTTON_GPIO) {
InitializePowerManager();
InitializePowerSaveTimer();
InitializeSpi();
InitializeLcdDisplay();
InitializeButtons();
InitializeTools();
if (DISPLAY_BACKLIGHT_PIN != GPIO_NUM_NC) {
GetBacklight()->RestoreBrightness();
}
}
virtual Led* GetLed() override {
static SingleLed led(BUILTIN_LED_GPIO);
return &led;
}
virtual AudioCodec* GetAudioCodec() override {
static NoAudioCodecSimplex audio_codec(AUDIO_INPUT_SAMPLE_RATE, AUDIO_OUTPUT_SAMPLE_RATE,
AUDIO_I2S_SPK_GPIO_BCLK, AUDIO_I2S_SPK_GPIO_LRCK, AUDIO_I2S_SPK_GPIO_DOUT, AUDIO_I2S_MIC_GPIO_SCK, AUDIO_I2S_MIC_GPIO_WS, AUDIO_I2S_MIC_GPIO_DIN);
return &audio_codec;
}
virtual Display* GetDisplay() override {
return display_;
}
virtual Backlight* GetBacklight() override {
if (DISPLAY_BACKLIGHT_PIN != GPIO_NUM_NC) {
static PwmBacklight backlight(DISPLAY_BACKLIGHT_PIN, DISPLAY_BACKLIGHT_OUTPUT_INVERT);
return &backlight;
}
return nullptr;
}
virtual bool GetBatteryLevel(int& level, bool& charging, bool& discharging) override {
static bool last_discharging = false;
charging = power_manager_->IsCharging();
discharging = power_manager_->IsDischarging();
if (discharging != last_discharging) {
power_save_timer_->SetEnabled(discharging);
//power_save_timer_->SetEnabled(false);
last_discharging = discharging;
}
level = power_manager_->GetBatteryLevel();
return true;
}
virtual void SetPowerSaveLevel(PowerSaveLevel level) override {
if (level != PowerSaveLevel::LOW_POWER) {
power_save_timer_->WakeUp();
}
DualNetworkBoard::SetPowerSaveLevel(level);
}
};
DECLARE_BOARD(MINSI_K08_DUAL);
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