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esp32_s3_eye.c
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esp32_s3_eye.c
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/*
* SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <stdio.h>
#include "esp_vfs_fat.h"
#include "esp_lcd_panel_io.h"
#include "esp_lcd_panel_vendor.h"
#include "esp_lcd_panel_ops.h"
#include "esp_log.h"
#include "esp_check.h"
#include "esp_vfs_fat.h"
#include "esp_spiffs.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "driver/spi_master.h"
#include "driver/ledc.h"
#include "driver/i2c.h"
#include "bsp/esp32_s3_eye.h"
#include "bsp_err_check.h"
#include "bsp/display.h"
static const char *TAG = "S3-EYE";
sdmmc_card_t *bsp_sdcard = NULL; // Global uSD card handler
static bool i2c_initialized = false;
#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL(5, 0, 0)
static adc_oneshot_unit_handle_t bsp_adc_handle = NULL;
#endif
static const button_config_t bsp_button_config[BSP_BUTTON_NUM] = {
{
.type = BUTTON_TYPE_ADC,
#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL(5, 0, 0)
.adc_button_config.adc_handle = &bsp_adc_handle,
#endif
.adc_button_config.adc_channel = ADC_CHANNEL_0, // ADC1 channel 0 is GPIO1
.adc_button_config.button_index = BSP_BUTTON_MENU,
.adc_button_config.min = 2310, // middle is 2410mV
.adc_button_config.max = 2510
},
{
.type = BUTTON_TYPE_ADC,
#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL(5, 0, 0)
.adc_button_config.adc_handle = &bsp_adc_handle,
#endif
.adc_button_config.adc_channel = ADC_CHANNEL_0, // ADC1 channel 0 is GPIO1
.adc_button_config.button_index = BSP_BUTTON_PLAY,
.adc_button_config.min = 1880, // middle is 1980mV
.adc_button_config.max = 2080
},
{
.type = BUTTON_TYPE_ADC,
#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL(5, 0, 0)
.adc_button_config.adc_handle = &bsp_adc_handle,
#endif
.adc_button_config.adc_channel = ADC_CHANNEL_0, // ADC1 channel 0 is GPIO1
.adc_button_config.button_index = BSP_BUTTON_DOWN,
.adc_button_config.min = 720, // middle is 820mV
.adc_button_config.max = 920
},
{
.type = BUTTON_TYPE_ADC,
#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL(5, 0, 0)
.adc_button_config.adc_handle = &bsp_adc_handle,
#endif
.adc_button_config.adc_channel = ADC_CHANNEL_0, // ADC1 channel 0 is GPIO1
.adc_button_config.button_index = BSP_BUTTON_UP,
.adc_button_config.min = 280, // middle is 380mV
.adc_button_config.max = 480
},
{
.type = BUTTON_TYPE_GPIO,
.gpio_button_config.active_level = 0,
.gpio_button_config.gpio_num = BSP_BUTTON_BOOT_IO
}
};
esp_err_t bsp_i2c_init(void)
{
/* I2C was initialized before */
if (i2c_initialized) {
return ESP_OK;
}
const i2c_config_t i2c_conf = {
.mode = I2C_MODE_MASTER,
.sda_io_num = BSP_I2C_SDA,
.sda_pullup_en = GPIO_PULLUP_ENABLE,
.scl_io_num = BSP_I2C_SCL,
.scl_pullup_en = GPIO_PULLUP_ENABLE,
.master.clk_speed = CONFIG_BSP_I2C_CLK_SPEED_HZ
};
BSP_ERROR_CHECK_RETURN_ERR(i2c_param_config(BSP_I2C_NUM, &i2c_conf));
BSP_ERROR_CHECK_RETURN_ERR(i2c_driver_install(BSP_I2C_NUM, i2c_conf.mode, 0, 0, 0));
i2c_initialized = true;
return ESP_OK;
}
esp_err_t bsp_i2c_deinit(void)
{
BSP_ERROR_CHECK_RETURN_ERR(i2c_driver_delete(BSP_I2C_NUM));
i2c_initialized = false;
return ESP_OK;
}
esp_err_t bsp_spiffs_mount(void)
{
esp_vfs_spiffs_conf_t conf = {
.base_path = CONFIG_BSP_SPIFFS_MOUNT_POINT,
.partition_label = CONFIG_BSP_SPIFFS_PARTITION_LABEL,
.max_files = CONFIG_BSP_SPIFFS_MAX_FILES,
#ifdef CONFIG_BSP_SPIFFS_FORMAT_ON_MOUNT_FAIL
.format_if_mount_failed = true,
#else
.format_if_mount_failed = false,
#endif
};
esp_err_t ret_val = esp_vfs_spiffs_register(&conf);
BSP_ERROR_CHECK_RETURN_ERR(ret_val);
size_t total = 0, used = 0;
ret_val = esp_spiffs_info(conf.partition_label, &total, &used);
if (ret_val != ESP_OK) {
ESP_LOGE(TAG, "Failed to get SPIFFS partition information (%s)", esp_err_to_name(ret_val));
} else {
ESP_LOGI(TAG, "Partition size: total: %d, used: %d", total, used);
}
return ret_val;
}
esp_err_t bsp_spiffs_unmount(void)
{
return esp_vfs_spiffs_unregister(CONFIG_BSP_SPIFFS_PARTITION_LABEL);
}
esp_err_t bsp_sdcard_mount(void)
{
const esp_vfs_fat_sdmmc_mount_config_t mount_config = {
#ifdef CONFIG_BSP_SD_FORMAT_ON_MOUNT_FAIL
.format_if_mount_failed = true,
#else
.format_if_mount_failed = false,
#endif
.max_files = 5,
.allocation_unit_size = 16 * 1024
};
const sdmmc_host_t host = SDMMC_HOST_DEFAULT();
const sdmmc_slot_config_t slot_config = {
.clk = BSP_SD_CLK,
.cmd = BSP_SD_CMD,
.d0 = BSP_SD_D0,
.d1 = GPIO_NUM_NC,
.d2 = GPIO_NUM_NC,
.d3 = GPIO_NUM_NC,
.d4 = GPIO_NUM_NC,
.d5 = GPIO_NUM_NC,
.d6 = GPIO_NUM_NC,
.d7 = GPIO_NUM_NC,
.cd = SDMMC_SLOT_NO_CD,
.wp = SDMMC_SLOT_NO_WP,
.width = 1,
.flags = 0,
};
#if !CONFIG_FATFS_LONG_FILENAMES
ESP_LOGW(TAG, "Warning: Long filenames on SD card are disabled in menuconfig!");
#endif
return esp_vfs_fat_sdmmc_mount(BSP_SD_MOUNT_POINT, &host, &slot_config, &mount_config, &bsp_sdcard);
}
esp_err_t bsp_sdcard_unmount(void)
{
return esp_vfs_fat_sdcard_unmount(BSP_SD_MOUNT_POINT, bsp_sdcard);
}
#define LCD_CMD_BITS (8)
#define LCD_PARAM_BITS (8)
#define LCD_LEDC_CH (CONFIG_BSP_DISPLAY_BRIGHTNESS_LEDC_CH)
#define LVGL_TICK_PERIOD_MS (CONFIG_BSP_DISPLAY_LVGL_TICK)
#define LVGL_MAX_SLEEP_MS (CONFIG_BSP_DISPLAY_LVGL_MAX_SLEEP)
esp_err_t bsp_display_brightness_init(void)
{
// Setup LEDC peripheral for PWM backlight control
const ledc_channel_config_t LCD_backlight_channel = {
.gpio_num = BSP_LCD_BACKLIGHT,
.speed_mode = LEDC_LOW_SPEED_MODE,
.channel = LCD_LEDC_CH,
.intr_type = LEDC_INTR_DISABLE,
.timer_sel = 1,
.duty = 0,
.hpoint = 0,
.flags.output_invert = true
};
const ledc_timer_config_t LCD_backlight_timer = {
.speed_mode = LEDC_LOW_SPEED_MODE,
.duty_resolution = LEDC_TIMER_10_BIT,
.timer_num = 1,
.freq_hz = 5000,
.clk_cfg = LEDC_AUTO_CLK
};
BSP_ERROR_CHECK_RETURN_ERR(ledc_timer_config(&LCD_backlight_timer));
BSP_ERROR_CHECK_RETURN_ERR(ledc_channel_config(&LCD_backlight_channel));
return ESP_OK;
}
esp_err_t bsp_display_brightness_set(int brightness_percent)
{
if (brightness_percent > 100) {
brightness_percent = 100;
} else if (brightness_percent < 0) {
brightness_percent = 0;
}
ESP_LOGI(TAG, "Setting LCD backlight: %d%%", brightness_percent);
// LEDC resolution set to 10bits, thus: 100% = 1023
uint32_t duty_cycle = (1023 * brightness_percent) / 100;
BSP_ERROR_CHECK_RETURN_ERR(ledc_set_duty(LEDC_LOW_SPEED_MODE, LCD_LEDC_CH, duty_cycle));
BSP_ERROR_CHECK_RETURN_ERR(ledc_update_duty(LEDC_LOW_SPEED_MODE, LCD_LEDC_CH));
return ESP_OK;
}
esp_err_t bsp_display_backlight_off(void)
{
return bsp_display_brightness_set(0);
}
esp_err_t bsp_display_backlight_on(void)
{
return bsp_display_brightness_set(100);
}
esp_err_t bsp_display_new(const bsp_display_config_t *config, esp_lcd_panel_handle_t *ret_panel, esp_lcd_panel_io_handle_t *ret_io)
{
esp_err_t ret = ESP_OK;
assert(config != NULL && config->max_transfer_sz > 0);
ESP_RETURN_ON_ERROR(bsp_display_brightness_init(), TAG, "Brightness init failed");
ESP_LOGD(TAG, "Initialize SPI bus");
const spi_bus_config_t buscfg = {
.sclk_io_num = BSP_LCD_SPI_CLK,
.mosi_io_num = BSP_LCD_SPI_MOSI,
.miso_io_num = GPIO_NUM_NC,
.quadwp_io_num = GPIO_NUM_NC,
.quadhd_io_num = GPIO_NUM_NC,
.max_transfer_sz = config->max_transfer_sz,
};
ESP_RETURN_ON_ERROR(spi_bus_initialize(BSP_LCD_SPI_NUM, &buscfg, SPI_DMA_CH_AUTO), TAG, "SPI init failed");
ESP_LOGD(TAG, "Install panel IO");
const esp_lcd_panel_io_spi_config_t io_config = {
.dc_gpio_num = BSP_LCD_DC,
.cs_gpio_num = BSP_LCD_SPI_CS,
.pclk_hz = BSP_LCD_PIXEL_CLOCK_HZ,
.lcd_cmd_bits = LCD_CMD_BITS,
.lcd_param_bits = LCD_PARAM_BITS,
.spi_mode = 2,
.trans_queue_depth = 10,
};
ESP_GOTO_ON_ERROR(esp_lcd_new_panel_io_spi((esp_lcd_spi_bus_handle_t)BSP_LCD_SPI_NUM, &io_config, ret_io), err, TAG, "New panel IO failed");
ESP_LOGD(TAG, "Install LCD driver");
const esp_lcd_panel_dev_config_t panel_config = {
.reset_gpio_num = BSP_LCD_RST,
.color_space = BSP_LCD_COLOR_SPACE,
.bits_per_pixel = BSP_LCD_BITS_PER_PIXEL,
};
ESP_GOTO_ON_ERROR(esp_lcd_new_panel_st7789(*ret_io, &panel_config, ret_panel), err, TAG, "New panel failed");
esp_lcd_panel_reset(*ret_panel);
esp_lcd_panel_init(*ret_panel);
esp_lcd_panel_invert_color(*ret_panel, true);
return ret;
err:
if (*ret_panel) {
esp_lcd_panel_del(*ret_panel);
}
if (*ret_io) {
esp_lcd_panel_io_del(*ret_io);
}
spi_bus_free(BSP_LCD_SPI_NUM);
return ret;
}
#if (BSP_CONFIG_NO_GRAPHIC_LIB == 0)
static lv_display_t *bsp_display_lcd_init(const bsp_display_cfg_t *cfg)
{
assert(cfg != NULL);
esp_lcd_panel_io_handle_t io_handle = NULL;
esp_lcd_panel_handle_t panel_handle = NULL;
const bsp_display_config_t bsp_disp_cfg = {
.max_transfer_sz = BSP_LCD_DRAW_BUFF_SIZE * sizeof(uint16_t),
};
BSP_ERROR_CHECK_RETURN_NULL(bsp_display_new(&bsp_disp_cfg, &panel_handle, &io_handle));
#if ESP_IDF_VERSION < ESP_IDF_VERSION_VAL(5, 0, 0)
esp_lcd_panel_disp_off(panel_handle, false);
#else
esp_lcd_panel_disp_on_off(panel_handle, true);
#endif
/* Add LCD screen */
ESP_LOGD(TAG, "Add LCD screen");
const lvgl_port_display_cfg_t disp_cfg = {
.io_handle = io_handle,
.panel_handle = panel_handle,
.buffer_size = cfg->buffer_size,
.double_buffer = cfg->double_buffer,
.hres = BSP_LCD_H_RES,
.vres = BSP_LCD_V_RES,
.monochrome = false,
/* Rotation values must be same as used in esp_lcd for initial settings of the screen */
.rotation = {
.swap_xy = false,
.mirror_x = false,
.mirror_y = false,
},
.flags = {
.buff_dma = cfg->flags.buff_dma,
.buff_spiram = cfg->flags.buff_spiram,
#if LVGL_VERSION_MAJOR >= 9
.swap_bytes = (BSP_LCD_BIGENDIAN ? true : false),
#endif
}
};
return lvgl_port_add_disp(&disp_cfg);
}
lv_display_t *bsp_display_start(void)
{
bsp_display_cfg_t cfg = {
.lvgl_port_cfg = {
.task_priority = CONFIG_BSP_DISPLAY_LVGL_TASK_PRIORITY,
.task_stack = 6144,
.task_affinity = 1,
.timer_period_ms = LVGL_TICK_PERIOD_MS,
.task_max_sleep_ms = LVGL_MAX_SLEEP_MS,
},
.buffer_size = BSP_LCD_DRAW_BUFF_SIZE,
.double_buffer = BSP_LCD_DRAW_BUFF_DOUBLE,
.flags = {
.buff_dma = true,
.buff_spiram = false,
}
};
return bsp_display_start_with_config(&cfg);
}
lv_display_t *bsp_display_start_with_config(const bsp_display_cfg_t *cfg)
{
lv_display_t *disp;
assert(cfg != NULL);
BSP_ERROR_CHECK_RETURN_NULL(lvgl_port_init(&cfg->lvgl_port_cfg));
BSP_NULL_CHECK(disp = bsp_display_lcd_init(cfg), NULL);
return disp;
}
lv_indev_t *bsp_display_get_input_dev(void)
{
return NULL;
}
bool bsp_display_lock(uint32_t timeout_ms)
{
return lvgl_port_lock(timeout_ms);
}
void bsp_display_unlock(void)
{
lvgl_port_unlock();
}
void bsp_display_rotate(lv_display_t *disp, lv_disp_rotation_t rotation)
{
lv_disp_set_rotation(disp, rotation);
}
#endif // (BSP_CONFIG_NO_GRAPHIC_LIB == 0)
esp_err_t bsp_leds_init(void)
{
const gpio_config_t led_io_config = {
.pin_bit_mask = BIT64(BSP_LED_GREEN),
.mode = GPIO_MODE_OUTPUT_OD, // GPIO3 is connected directly to the LED (on board revision 2.1), so we use Open-drain here
.pull_up_en = GPIO_PULLUP_DISABLE,
.pull_down_en = GPIO_PULLDOWN_DISABLE,
.intr_type = GPIO_INTR_DISABLE
};
BSP_ERROR_CHECK_RETURN_ERR(gpio_config(&led_io_config));
return ESP_OK;
}
esp_err_t bsp_led_set(const bsp_led_t led_io, const bool on)
{
BSP_ERROR_CHECK_RETURN_ERR(gpio_set_level((gpio_num_t) led_io, (uint32_t) on));
return ESP_OK;
}
esp_codec_dev_handle_t bsp_audio_codec_microphone_init(void)
{
const audio_codec_data_if_t *i2s_data_if = bsp_audio_get_codec_itf();
if (i2s_data_if == NULL) {
/* Initilize I2C */
BSP_ERROR_CHECK_RETURN_NULL(bsp_i2c_init());
/* Configure I2S peripheral and Power Amplifier */
BSP_ERROR_CHECK_RETURN_NULL(bsp_audio_init(NULL));
i2s_data_if = bsp_audio_get_codec_itf();
}
assert(i2s_data_if);
esp_codec_dev_cfg_t codec_dev_cfg = {
.dev_type = ESP_CODEC_DEV_TYPE_IN,
.codec_if = NULL,
.data_if = i2s_data_if,
};
return esp_codec_dev_new(&codec_dev_cfg);
}
esp_err_t bsp_iot_button_create(button_handle_t btn_array[], int *btn_cnt, int btn_array_size)
{
esp_err_t ret = ESP_OK;
if ((btn_array_size < BSP_BUTTON_NUM) ||
(btn_array == NULL)) {
return ESP_ERR_INVALID_ARG;
}
#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL(5, 0, 0)
/* Initialize ADC and get ADC handle */
BSP_ERROR_CHECK_RETURN_NULL(bsp_adc_initialize());
bsp_adc_handle = bsp_adc_get_handle();
#endif
if (btn_cnt) {
*btn_cnt = 0;
}
for (int i = 0; i < BSP_BUTTON_NUM; i++) {
btn_array[i] = iot_button_create(&bsp_button_config[i]);
if (btn_array[i] == NULL) {
ret = ESP_FAIL;
break;
}
if (btn_cnt) {
(*btn_cnt)++;
}
}
return ret;
}