#include "hardware.h" #include #include #include #include "managed_i2c.h" #include "logo.h" #include "sdcard.h" static const char *TAG = "hardware"; PCA9555 dev_pca9555 = {0}; BNO055 dev_bno055 = {0}; ILI9341 dev_ili9341 = {0}; ICE40 dev_ice40 = {0}; // Wrapper functions for linking the ICE40 component to the PCA9555 component esp_err_t ice40_get_done_wrapper(bool* done) { return pca9555_get_gpio_value(&dev_pca9555, PCA9555_PIN_FPGA_CDONE, done); } esp_err_t ice40_set_reset_wrapper(bool reset) { return pca9555_set_gpio_value(&dev_pca9555, PCA9555_PIN_FPGA_RESET, reset); } esp_err_t hardware_init() { esp_err_t res; // Interrupts res = gpio_install_isr_service(0); if (res != ESP_OK) { ESP_LOGE(TAG, "Initializing ISR service failed"); return res; } // System I2C bus res = i2c_init(I2C_BUS_SYS, GPIO_I2C_SYS_SDA, GPIO_I2C_SYS_SCL, I2C_SPEED_SYS, false, false); if (res != ESP_OK) { ESP_LOGE(TAG, "Initializing system I2C bus failed"); return res; } // User I2C bus res = i2c_init(I2C_BUS_EXT, GPIO_I2C_EXT_SDA, GPIO_I2C_EXT_SCL, I2C_SPEED_EXT, false, false); if (res != ESP_OK) { ESP_LOGE(TAG, "Initializing user I2C bus failed"); return res; } // SPI bus spi_bus_config_t busConfiguration = {0}; busConfiguration.mosi_io_num = GPIO_SPI_MOSI; busConfiguration.miso_io_num = GPIO_SPI_MISO; busConfiguration.sclk_io_num = GPIO_SPI_CLK; busConfiguration.quadwp_io_num = -1; busConfiguration.quadhd_io_num = -1; busConfiguration.max_transfer_sz = SPI_MAX_TRANSFER_SIZE; res = spi_bus_initialize(SPI_BUS, &busConfiguration, SPI_DMA_CHANNEL); if (res != ESP_OK) { ESP_LOGE(TAG, "Initializing SPI bus failed"); return res; } // PCA9555 IO expander on system I2C bus res = pca9555_init(&dev_pca9555, I2C_BUS_SYS, PCA9555_ADDR, GPIO_INT_PCA9555); if (res != ESP_OK) { ESP_LOGE(TAG, "Initializing PCA9555 failed"); return res; } res = pca9555_set_gpio_direction(&dev_pca9555, PCA9555_PIN_FPGA_RESET, true); if (res != ESP_OK) { ESP_LOGE(TAG, "Setting the FPGA reset pin on the PCA9555 to output failed"); return res; } res = pca9555_set_gpio_value(&dev_pca9555, PCA9555_PIN_FPGA_RESET, false); if (res != ESP_OK) { ESP_LOGE(TAG, "Setting the FPGA reset pin on the PCA9555 to low failed"); return res; } // FPGA dev_ice40.spi_bus = SPI_BUS; dev_ice40.pin_cs = GPIO_SPI_CS_FPGA; dev_ice40.pin_done = -1; dev_ice40.pin_reset = -1; dev_ice40.pin_int = GPIO_INT_FPGA; dev_ice40.spi_speed = 23000000; // 23MHz dev_ice40.spi_max_transfer_size = SPI_MAX_TRANSFER_SIZE; dev_ice40.get_done = ice40_get_done_wrapper; dev_ice40.set_reset = ice40_set_reset_wrapper; res = ice40_init(&dev_ice40); if (res != ESP_OK) { ESP_LOGE(TAG, "Initializing FPGA failed"); return res; } // LCD display dev_ili9341.spi_bus = SPI_BUS; dev_ili9341.pin_cs = GPIO_SPI_CS_LCD; dev_ili9341.pin_dcx = GPIO_SPI_DC_LCD; dev_ili9341.pin_reset = -1; dev_ili9341.rotation = 1; dev_ili9341.color_mode = true; // Blue and red channels are swapped dev_ili9341.spi_speed = 60000000; // 60MHz dev_ili9341.spi_max_transfer_size = SPI_MAX_TRANSFER_SIZE; dev_ili9341.callback = NULL; // Callback for changing LCD mode between ESP32 and FPGA res = ili9341_init(&dev_ili9341); if (res != ESP_OK) { ESP_LOGE(TAG, "Initializing LCD failed"); return res; } // Hack: show logo while the other hardware components initialize res = ili9341_write(&dev_ili9341, logo); if (res != ESP_OK) { ESP_LOGE(TAG, "Failed to write logo to LCD"); return res; } // BNO055 sensor on system I2C bus res = bno055_init(&dev_bno055, I2C_BUS_SYS, BNO055_ADDR, GPIO_INT_BNO055, true); if (res != ESP_OK) { ESP_LOGE(TAG, "Initializing BNO055 failed"); return res; } //res = mount_sd(SD_CMD, SD_CLK, SD_D0, SD_PWR, "/sd", false, 5); return res; } PCA9555* get_pca9555() { return &dev_pca9555; } BNO055* get_bno055() { return &dev_bno055; } ILI9341* get_ili9341() { return &dev_ili9341; } ICE40* get_ice40() { return &dev_ice40; }