/* * Copyright (c) 2006-2022, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2022-03-04 stevetong459 first version */ #include "board.h" #include #ifdef RT_USING_I2C #define DBG_TAG "drv.i2c" #define DBG_LVL DBG_INFO #include #if !defined(BSP_USING_I2C1) && !defined(BSP_USING_I2C2) && !defined(BSP_USING_I2C3) && !defined(BSP_USING_I2C4) #error "Please define at least one BSP_USING_I2Cx" #endif /* apm32 i2c config class */ struct apm32_soft_i2c_config { rt_uint8_t scl_pin; rt_uint8_t sda_pin; const char *bus_name; }; /* apm32 i2c dirver class */ struct apm32_soft_i2c { struct rt_i2c_bit_ops ops; struct rt_i2c_bus_device i2c2_bus; }; static const struct apm32_soft_i2c_config soft_i2c_config[] = { #ifdef BSP_USING_I2C1 { BSP_I2C1_SCL_PIN, BSP_I2C1_SDA_PIN, "i2c1" }, #endif #ifdef BSP_USING_I2C2 { BSP_I2C2_SCL_PIN, BSP_I2C2_SDA_PIN, "i2c2" }, #endif #ifdef BSP_USING_I2C3 { BSP_I2C3_SCL_PIN, BSP_I2C3_SDA_PIN, "i2c3" }, #endif #ifdef BSP_USING_I2C4 { BSP_I2C4_SCL_PIN, BSP_I2C4_SDA_PIN, "i2c4" }, #endif }; static struct apm32_soft_i2c i2c_obj[sizeof(soft_i2c_config) / sizeof(soft_i2c_config[0])]; /** * @brief This function will config gpio of soft i2c. * * @param i2c is a pointer to the object of soft i2c. */ static void apm32_soft_i2c_gpio_init(struct apm32_soft_i2c *i2c) { struct apm32_soft_i2c_config *cfg = (struct apm32_soft_i2c_config *)i2c->ops.data; rt_pin_mode(cfg->scl_pin, PIN_MODE_OUTPUT_OD); rt_pin_mode(cfg->sda_pin, PIN_MODE_OUTPUT_OD); rt_pin_write(cfg->scl_pin, PIN_HIGH); rt_pin_write(cfg->sda_pin, PIN_HIGH); } /** * @brief This function sets the sda pin. * * @param data is a pointer to the i2c config class. * * @param state is the level of sda pin. */ static void apm32_soft_i2c_set_sda(void *data, rt_int32_t state) { struct apm32_soft_i2c_config *cfg = (struct apm32_soft_i2c_config *)data; rt_pin_write(cfg->sda_pin, state ? PIN_HIGH : PIN_LOW); } /** * @brief This function sets the scl pin. * * @param data is a pointer to the i2c config class. * * @param state is the level of scl pin. */ static void apm32_soft_i2c_set_scl(void *data, rt_int32_t state) { struct apm32_soft_i2c_config *cfg = (struct apm32_soft_i2c_config *)data; rt_pin_write(cfg->scl_pin, state ? PIN_HIGH : PIN_LOW); } /** * @brief This function gets the sda pin state. * * @param data is a pointer to the i2c config class. */ static rt_int32_t apm32_soft_i2c_get_sda(void *data) { struct apm32_soft_i2c_config *cfg = (struct apm32_soft_i2c_config *)data; return rt_pin_read(cfg->sda_pin); } /** * @brief This function gets the scl pin state. * * @param data is a pointer to the i2c config class. */ static rt_int32_t apm32_soft_i2c_get_scl(void *data) { struct apm32_soft_i2c_config *cfg = (struct apm32_soft_i2c_config *)data; return rt_pin_read(cfg->scl_pin); } /** * @brief The time delay function in microseconds. * * @param us is the microseconds to delay. */ static void apm32_soft_i2c_udelay(rt_uint32_t us) { rt_uint32_t count_old = SysTick->VAL; rt_uint32_t count_now; rt_uint32_t count = 0; rt_uint32_t reload = SysTick->LOAD; rt_uint32_t count_pre_us = (reload * RT_TICK_PER_SECOND) / 1000000; while (count_pre_us * us > count) { count_now = SysTick->VAL; if (count_now != count_old) { if (count_now < count_old) { count += count_old - count_now; } else { count += reload - count_now + count_old; } count_old = count_now; } } } /** * @brief This function will unlock i2c, if it is locked. * * @param cfg is a pointer to i2c config class. * * @return RT_EOK indicates successful unlock, other value indicates failed. */ static rt_err_t apm32_i2c_bus_unlock(const struct apm32_soft_i2c_config *cfg) { rt_int32_t i = 0; if (PIN_LOW == rt_pin_read(cfg->sda_pin)) { while (i++ < 9) { rt_pin_write(cfg->scl_pin, PIN_HIGH); apm32_soft_i2c_udelay(100); rt_pin_write(cfg->scl_pin, PIN_LOW); apm32_soft_i2c_udelay(100); } } if (PIN_LOW == rt_pin_read(cfg->sda_pin)) { return -RT_ERROR; } return RT_EOK; } static const struct rt_i2c_bit_ops apm32_bit_ops_default = { .data = RT_NULL, .set_sda = apm32_soft_i2c_set_sda, .set_scl = apm32_soft_i2c_set_scl, .get_sda = apm32_soft_i2c_get_sda, .get_scl = apm32_soft_i2c_get_scl, .udelay = apm32_soft_i2c_udelay, .delay_us = 1, .timeout = 100 }; /** * @brief I2C initialization function. * * @return RT_EOK indicates successful initialization, other value indicates failed; */ int rt_hw_i2c_init(void) { rt_size_t obj_num = sizeof(i2c_obj) / sizeof(struct apm32_soft_i2c); rt_err_t result; for (int i = 0; i < obj_num; i++) { i2c_obj[i].ops = apm32_bit_ops_default; i2c_obj[i].ops.data = (void *)&soft_i2c_config[i]; i2c_obj[i].i2c2_bus.priv = &i2c_obj[i].ops; apm32_soft_i2c_gpio_init(&i2c_obj[i]); result = rt_i2c_bit_add_bus(&i2c_obj[i].i2c2_bus, soft_i2c_config[i].bus_name); RT_ASSERT(result == RT_EOK); apm32_i2c_bus_unlock(&soft_i2c_config[i]); LOG_D("software simulation %s init done, pin scl: %d, pin sda: %d", soft_i2c_config[i].bus_name, soft_i2c_config[i].scl_pin, soft_i2c_config[i].sda_pin); } return RT_EOK; } INIT_BOARD_EXPORT(rt_hw_i2c_init); #endif /* RT_USING_I2C */