/* * Copyright 2021 NXP * * SPDX-License-Identifier: BSD-3-Clause * */ #include #include #include static gpio_init_info_t *gpio_init_info; void gpio_init(gpio_init_info_t *gpio_init_data) { gpio_init_info = gpio_init_data; } /* This function set GPIO pin for raising POVDD. */ int set_gpio_bit(uint32_t *gpio_base_addr, uint32_t bit_num) { uint32_t val = 0U; uint32_t *gpdir = NULL; uint32_t *gpdat = NULL; if (gpio_init_info == NULL) { ERROR("GPIO is not initialized.\n"); return GPIO_FAILURE; } gpdir = gpio_base_addr + GPDIR_REG_OFFSET; gpdat = gpio_base_addr + (GPDAT_REG_OFFSET >> 2); /* * Set the corresponding bit in direction register * to configure the GPIO as output. */ val = gpio_read32(gpdir); val = val | bit_num; gpio_write32(gpdir, val); /* Set the corresponding bit in GPIO data register */ val = gpio_read32(gpdat); val = val | bit_num; gpio_write32(gpdat, val); val = gpio_read32(gpdat); if ((val & bit_num) == 0U) { return GPIO_FAILURE; } return GPIO_SUCCESS; } /* This function reset GPIO pin set for raising POVDD. */ int clr_gpio_bit(uint32_t *gpio_base_addr, uint32_t bit_num) { uint32_t val = 0U; uint32_t *gpdir = NULL; uint32_t *gpdat = NULL; if (gpio_init_info == NULL) { ERROR("GPIO is not initialized.\n"); return GPIO_FAILURE; } gpdir = gpio_base_addr + GPDIR_REG_OFFSET; gpdat = gpio_base_addr + GPDAT_REG_OFFSET; /* * Reset the corresponding bit in direction and data register * to configure the GPIO as input. */ val = gpio_read32(gpdat); val = val & ~(bit_num); gpio_write32(gpdat, val); val = gpio_read32(gpdat); val = gpio_read32(gpdir); val = val & ~(bit_num); gpio_write32(gpdir, val); val = gpio_read32(gpdat); if ((val & bit_num) != 0U) { return GPIO_FAILURE; } return GPIO_SUCCESS; } uint32_t *select_gpio_n_bitnum(uint32_t povdd_gpio, uint32_t *bit_num) { uint32_t *ret_gpio; uint32_t povdd_gpio_val = 0U; uint32_t gpio_num = 0U; if (gpio_init_info == NULL) { ERROR("GPIO is not initialized.\n"); } /* * Subtract 1 from fuse_hdr povdd_gpio value as * for 0x1 value, bit 0 is to be set * for 0x20 value i.e 32, bit 31 i.e. 0x1f is to be set. * 0x1f - 0x00 : GPIO_1 * 0x3f - 0x20 : GPIO_2 * 0x5f - 0x40 : GPIO_3 * 0x7f - 0x60 : GPIO_4 */ povdd_gpio_val = (povdd_gpio - 1U) & GPIO_SEL_MASK; /* Right shift by 5 to divide by 32 */ gpio_num = povdd_gpio_val >> GPIO_ID_BASE_ADDR_SHIFT; *bit_num = 1U << (GPIO_BITS_PER_BASE_REG - (povdd_gpio_val & GPIO_BIT_MASK) - 1U); switch (gpio_num) { case GPIO_0: ret_gpio = (uint32_t *) gpio_init_info->gpio1_base_addr; break; case GPIO_1: ret_gpio = (uint32_t *) gpio_init_info->gpio2_base_addr; break; case GPIO_2: ret_gpio = (uint32_t *) gpio_init_info->gpio3_base_addr; break; case GPIO_3: ret_gpio = (uint32_t *) gpio_init_info->gpio4_base_addr; break; default: ret_gpio = NULL; } if (ret_gpio == NULL) { INFO("GPIO_NUM = %d doesn't exist.\n", gpio_num); } return ret_gpio; }