/* * SPDX-FileCopyrightText: 2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #pragma once #ifdef __cplusplus extern "C" { #endif #include #include #include "hal/gpio_types.h" #include "esp_err.h" typedef struct { uint32_t sda_io_num; // GPIO pin for SDA signal. Only GPIO#1 or GPIO#3 can be used as the SDA pin. uint32_t scl_io_num; // GPIO pin for SCL signal. Only GPIO#0 or GPIO#2 can be used as the SCL pin. bool sda_pullup_en; // SDA line enable internal pullup. Can be configured if external pullup is not used. bool scl_pullup_en; // SCL line enable internal pullup. Can be configured if external pullup is not used. } ulp_riscv_i2c_pin_cfg_t; typedef struct { uint32_t scl_low_period; // SCL low period uint32_t scl_high_period; // SCL high period uint32_t sda_duty_period; // Period between the SDA switch and the falling edge of SCL uint32_t scl_start_period; // Waiting time after the START condition uint32_t scl_stop_period; // Waiting time before the END condition uint32_t i2c_trans_timeout; // I2C transaction timeout } ulp_riscv_i2c_timing_cfg_t; typedef struct { ulp_riscv_i2c_pin_cfg_t i2c_pin_cfg; // RTC I2C pin configuration ulp_riscv_i2c_timing_cfg_t i2c_timing_cfg; // RTC I2C timing configuration } ulp_riscv_i2c_cfg_t; /* Nominal default GPIO settings and timing parametes */ #define ULP_RISCV_I2C_DEFAULT_CONFIG() \ { \ .i2c_pin_cfg.sda_io_num = GPIO_NUM_3, \ .i2c_pin_cfg.scl_io_num = GPIO_NUM_2, \ .i2c_pin_cfg.sda_pullup_en = true, \ .i2c_pin_cfg.scl_pullup_en = true, \ .i2c_timing_cfg.scl_low_period = 5, \ .i2c_timing_cfg.scl_high_period = 5, \ .i2c_timing_cfg.sda_duty_period = 2, \ .i2c_timing_cfg.scl_start_period = 3, \ .i2c_timing_cfg.scl_stop_period = 6, \ .i2c_timing_cfg.i2c_trans_timeout = 20, \ } /** * @brief Set the I2C slave device address * * @param slave_addr I2C slave address (7 bit) */ void ulp_riscv_i2c_master_set_slave_addr(uint8_t slave_addr); /** * @brief Set the I2C slave device sub register address * * @note The RTC I2C peripheral always expects a slave sub register address to be programmed. If it is not, the I2C * peripheral uses the SENS_SAR_I2C_CTRL_REG[18:11] as the sub register address for the subsequent read or write * operation. * * @param slave_reg_addr I2C slave sub register address */ void ulp_riscv_i2c_master_set_slave_reg_addr(uint8_t slave_reg_addr); /** * @brief Read from I2C slave device * * @note The I2C slave device address must be configured at least once before invoking this API. * * @param data_rd Buffer to hold data to be read * @param size Size of data to be read in bytes */ void ulp_riscv_i2c_master_read_from_device(uint8_t *data_rd, size_t size); /** * @brief Write to I2C slave device * * @note The I2C slave device address must be configured at least once before invoking this API. * * @param data_wr Buffer which holds the data to be written * @param size Size of data to be written in bytes */ void ulp_riscv_i2c_master_write_to_device(uint8_t *data_wr, size_t size); /** * @brief Initialize and configure the RTC I2C for use by ULP RISC-V * Currently RTC I2C can only be used in master mode * * @param cfg Configuration parameters * @return esp_err_t ESP_OK when successful */ esp_err_t ulp_riscv_i2c_master_init(const ulp_riscv_i2c_cfg_t *cfg); #ifdef __cplusplus } #endif