/* generated pin source file - do not edit */
#include "bsp_api.h"
#include "r_ioport_api.h"

const ioport_pin_cfg_t g_bsp_pin_cfg_data[] =
{
    { .pin = BSP_IO_PORT_00_PIN_00, .pin_cfg = ((uint32_t)IOPORT_CFG_ANALOG_ENABLE) },
    { .pin = BSP_IO_PORT_00_PIN_01, .pin_cfg = ((uint32_t)IOPORT_CFG_ANALOG_ENABLE) },
    { .pin = BSP_IO_PORT_00_PIN_02, .pin_cfg = ((uint32_t)IOPORT_CFG_ANALOG_ENABLE) },
    { .pin = BSP_IO_PORT_00_PIN_04, .pin_cfg = ((uint32_t)IOPORT_CFG_ANALOG_ENABLE) },
    { .pin = BSP_IO_PORT_00_PIN_05, .pin_cfg = ((uint32_t)IOPORT_CFG_ANALOG_ENABLE) },
    { .pin = BSP_IO_PORT_00_PIN_06, .pin_cfg = ((uint32_t)IOPORT_CFG_ANALOG_ENABLE) },
    { .pin = BSP_IO_PORT_00_PIN_14, .pin_cfg = ((uint32_t)IOPORT_CFG_ANALOG_ENABLE) },
    { .pin = BSP_IO_PORT_00_PIN_15, .pin_cfg = ((uint32_t)IOPORT_CFG_ANALOG_ENABLE) },
    { .pin = BSP_IO_PORT_01_PIN_00, .pin_cfg = ((uint32_t)IOPORT_CFG_PERIPHERAL_PIN
        | (uint32_t)IOPORT_PERIPHERAL_SPI) },
    { .pin = BSP_IO_PORT_01_PIN_01, .pin_cfg = ((uint32_t)IOPORT_CFG_PERIPHERAL_PIN
        | (uint32_t)IOPORT_PERIPHERAL_SPI) },
    { .pin = BSP_IO_PORT_01_PIN_02, .pin_cfg = ((uint32_t)IOPORT_CFG_PERIPHERAL_PIN
        | (uint32_t)IOPORT_PERIPHERAL_SPI) },
    { .pin = BSP_IO_PORT_01_PIN_04, .pin_cfg = ((uint32_t)IOPORT_CFG_PERIPHERAL_PIN
        | (uint32_t)IOPORT_PERIPHERAL_SPI) },
    { .pin = BSP_IO_PORT_01_PIN_08, .pin_cfg = ((uint32_t)IOPORT_CFG_PERIPHERAL_PIN
        | (uint32_t)IOPORT_PERIPHERAL_DEBUG) },
    { .pin = BSP_IO_PORT_01_PIN_10, .pin_cfg = ((uint32_t)IOPORT_CFG_PERIPHERAL_PIN
        | (uint32_t)IOPORT_PERIPHERAL_SCI1_3_5_7_9) },
    { .pin = BSP_IO_PORT_03_PIN_00, .pin_cfg = ((uint32_t)IOPORT_CFG_PERIPHERAL_PIN
        | (uint32_t)IOPORT_PERIPHERAL_DEBUG) },
    { .pin = BSP_IO_PORT_04_PIN_07, .pin_cfg = ((uint32_t)IOPORT_CFG_DRIVE_MID
        | (uint32_t)IOPORT_CFG_PERIPHERAL_PIN | (uint32_t)IOPORT_PERIPHERAL_IIC) },
    { .pin = BSP_IO_PORT_04_PIN_08, .pin_cfg = ((uint32_t)IOPORT_CFG_DRIVE_MID
        | (uint32_t)IOPORT_CFG_PERIPHERAL_PIN | (uint32_t)IOPORT_PERIPHERAL_IIC) },
    { .pin = BSP_IO_PORT_06_PIN_02, .pin_cfg = ((uint32_t)IOPORT_CFG_PERIPHERAL_PIN
        | (uint32_t)IOPORT_PERIPHERAL_SCI1_3_5_7_9) },
    { .pin = BSP_IO_PORT_06_PIN_07, .pin_cfg = ((uint32_t)IOPORT_CFG_PERIPHERAL_PIN
        | (uint32_t)IOPORT_PERIPHERAL_SCI0_2_4_6_8) },
    { .pin = BSP_IO_PORT_10_PIN_00, .pin_cfg = ((uint32_t)IOPORT_CFG_PERIPHERAL_PIN
        | (uint32_t)IOPORT_PERIPHERAL_SCI0_2_4_6_8) },
};

const ioport_cfg_t g_bsp_pin_cfg =
{ .number_of_pins = sizeof(g_bsp_pin_cfg_data) / sizeof(ioport_pin_cfg_t), .p_pin_cfg_data = &g_bsp_pin_cfg_data[0], };

#if BSP_TZ_SECURE_BUILD

void R_BSP_PinCfgSecurityInit(void);

/* Initialize SAR registers for secure pins. */
void R_BSP_PinCfgSecurityInit(void) {
    #if (2U == BSP_FEATURE_IOPORT_VERSION)
    uint32_t pmsar[BSP_FEATURE_BSP_NUM_PMSAR];
    #else
    uint16_t pmsar[BSP_FEATURE_BSP_NUM_PMSAR];
    #endif
    memset(pmsar, 0xFF, BSP_FEATURE_BSP_NUM_PMSAR * sizeof(R_PMISC->PMSAR[0]));


    for (uint32_t i = 0; i < g_bsp_pin_cfg.number_of_pins; i++)
    {
        uint32_t port_pin = g_bsp_pin_cfg.p_pin_cfg_data[i].pin;
        uint32_t port = port_pin >> 8U;
        uint32_t pin = port_pin & 0xFFU;
        pmsar[port] &= (uint16_t) ~(1U << pin);
    }

    for (uint32_t i = 0; i < BSP_FEATURE_BSP_NUM_PMSAR; i++)
    {
        #if (2U == BSP_FEATURE_IOPORT_VERSION)
        R_PMISC->PMSAR[i].PMSAR = (uint16_t)pmsar[i];
        #else
        R_PMISC->PMSAR[i].PMSAR = pmsar[i];
        #endif
    }

}
#endif