/* * Copyright 2017 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef _FSL_PORT_H_ #define _FSL_PORT_H_ #include "fsl_common.h" /*! * @addtogroup port * @{ */ /******************************************************************************* * Definitions ******************************************************************************/ /*! @name Driver version */ /*@{*/ /*! Version 2.0.2. */ #define FSL_PORT_DRIVER_VERSION (MAKE_VERSION(2, 0, 2)) /*@}*/ #define PORT_MODULEPS_BITWIDTH_OFFSET (5U) /* The bit width offset in the module enum type . */ #define PORT_MODULEPS_BITWIDTH_MASK (0x7U) /* The bit width mask */ #define PORT_PINSEL_REG_OFFSET (0x20000U) /* The offset to identify the modules in different pin selection register. */ #define PORT_FILTER_REG_OFFSET (0x1000000U) /* The offset to identify the filter part in different filter register. */\ /*! @brief Module or peripheral for port pin selection */ typedef enum _port_module_t { kPORT_NMI = SIM_SOPT0_NMIE_SHIFT, /*!< NMI port pin select. */ kPORT_RESET = SIM_SOPT0_RSTPE_SHIFT, /*!< RESET pin select. */ kPORT_SWDE = SIM_SOPT0_SWDE_SHIFT, /*!< Single wire debug port pin. */ kPORT_IRQ = (SIM_PINSEL0_IRQPS_SHIFT | (3 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< IRQ port pin select. */ kPORT_RTC = (SIM_PINSEL0_RTCPS_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< RTC port pin select. */ kPORT_I2C0 = (SIM_PINSEL0_I2C0PS_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< I2C0 Port pin select. */ kPORT_SPI0 = (SIM_PINSEL0_SPI0PS_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< SPI0 port pin select. */ kPORT_UART0 = (SIM_PINSEL0_UART0PS_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< UART0 port pin select. */ kPORT_FTM0CH0 = (SIM_PINSEL0_FTM0PS0_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< FTM0_CH0 port pin select. */ kPORT_FTM0CH1 = (SIM_PINSEL0_FTM0PS1_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< FTM0_CH1 port pin select. */ kPORT_FTM1CH0 = (SIM_PINSEL0_FTM1PS0_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< FTM1_CH0 port pin select. */ kPORT_FTM1CH1 = (SIM_PINSEL0_FTM1PS1_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< FTM1_CH1 port pin select. */ kPORT_FTM0CLK = (SIM_PINSEL0_FTM0CLKPS_SHIFT | (2 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< FTM0 Clock pin select. */ kPORT_FTM1CLK = (SIM_PINSEL0_FTM1CLKPS_SHIFT | (2 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< FTM1 Clock pin select. */ kPORT_FTM2CLK = (SIM_PINSEL0_FTM2CLKPS_SHIFT | (2 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< FTM2 Clock pin select. */ kPORT_PWTCLK = (SIM_PINSEL0_PWTCLKPS_SHIFT | (2 << PORT_MODULEPS_BITWIDTH_OFFSET)), /*!< PWT Clock pin select. */ kPORT_FTM2CH0 = (SIM_PINSEL1_FTM2PS0_SHIFT | (2 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< FTM2_CH0 port pin select. */ kPORT_FTM2CH1 = (SIM_PINSEL1_FTM2PS1_SHIFT | (2 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< FTM2_CH1 port pin select. */ kPORT_FTM2CH2 = (SIM_PINSEL1_FTM2PS2_SHIFT | (2 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< FTM2_CH2 port pin select. */ kPORT_FTM2CH3 = (SIM_PINSEL1_FTM2PS3_SHIFT | (2 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< FTM2_CH3 port pin select. */ kPORT_FTM2CH4 = (SIM_PINSEL1_FTM2PS4_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< FTM2_CH4 port pin select. */ kPORT_FTM2CH5 = (SIM_PINSEL1_FTM2PS5_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< FTM2_CH5 port pin select. */ kPORT_I2C1 = (SIM_PINSEL1_I2C1PS_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< I2C1 port pin select. */ kPORT_SPI1 = (SIM_PINSEL1_SPI1PS_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< SPI1 port pin select. */ kPORT_UART1 = (SIM_PINSEL1_UART1PS_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< UART1 port pin select. */ kPORT_UART2 = (SIM_PINSEL1_UART2PS_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< UART2 port pin select. */ kPORT_PWTIN0 = (SIM_PINSEL1_PWTIN0PS_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< PWT_IN0 port pin select. */ kPORT_PWTIN1 = (SIM_PINSEL1_PWTIN1PS_SHIFT | (1 << PORT_MODULEPS_BITWIDTH_OFFSET) | PORT_PINSEL_REG_OFFSET), /*!< PWT_IN1 port pin select. */ } port_module_t; /*! @brief Port type */ typedef enum _port_type_t { kPORT_PTA = 0U, /*!< PORT PTA. */ kPORT_PTB = 1U, /*!< PORT PTB. */ kPORT_PTC = 2U, /*!< PORT PTC. */ kPORT_PTD = 3U, /*!< PORT PTD. */ kPORT_PTE = 4U, /*!< PORT PTE. */ kPORT_PTF = 5U, /*!< PORT PTF. */ kPORT_PTG = 6U, /*!< PORT PTG. */ kPORT_PTH = 7U, /*!< PORT PTH. */ kPORT_PTI = 8U /*!< PORT PTI. */ } port_type_t; /*! @brief Pin number, Notice this index enum has been deprecated and it will be removed in the next release. */ typedef enum _port_pin_index_t { kPORT_PinIdx0 = 0U, /*!< PORT PIN index 0. */ kPORT_PinIdx1 = 1U, /*!< PORT PIN index 1. */ kPORT_PinIdx2 = 2U, /*!< PORT PIN index 2. */ kPORT_PinIdx3 = 3U, /*!< PORT PIN index 3. */ kPORT_PinIdx4 = 4U, /*!< PORT PIN index 4. */ kPORT_PinIdx5 = 5U, /*!< PORT PIN index 5. */ kPORT_PinIdx6 = 6U, /*!< PORT PIN index 6. */ kPORT_PinIdx7 = 7U /*!< PORT PIN index 7. */ } port_pin_index_t; /*! @brief Pin selection */ typedef enum _port_pin_select_t { kPORT_NMI_OTHERS = 0U, /*!< PTB4/FTM2_CH4 etc function as PTB4/FTM2_CH4 etc */ kPORT_NMI_NMIE = 1U, /*!< PTB4/FTM2_CH4 etc function as NMI. */ kPORT_RST_OTHERS = 0U, /*!< PTA5/IRQ etc function as PTA5/IRQ etc. */ kPORT_RST_RSTPE = 1U, /*!< PTA5/IRQ etc function as REST. */ kPORT_SWDE_OTHERS = 0U, /*!< PTA4/ACMP0 etc function as PTA4/ACMP0 etc. */ kPORT_SWDE_SWDE = 1U, /*!< PTA4/ACMP0 etc function as SWD. */ kPORT_IRQ_PTA5 = 0U, /*!< IRQ is mapped to PTA5. */ kPORT_IRQ_PTI0 = 1U, /*!< IRQ is mapped to PTI0. */ kPORT_IRQ_PTI1 = 2U, /*!< IRQ is mapped to PTI1. */ kPORT_IRQ_PTI2 = 3U, /*!< IRQ is mapped to PTI2. */ kPORT_IRQ_PTI3 = 4U, /*!< IRQ is mapped to PTI3. */ kPORT_IRQ_PTI4 = 5U, /*!< IRQ is mapped to PTI4. */ kPORT_IRQ_PTI5 = 6U, /*!< IRQ is mapped to PTI5. */ kPORT_IRQ_PTI6 = 7U, /*!< IRQ is mapped to PTI6. */ kPORT_RTCO_PTC4 = 0U, /*!< RTCO is mapped to PTC4. */ kPORT_RTCO_PTC5 = 1U, /*!< RTCO is mapped to RTC5. */ kPORT_I2C0_SCLPTA3_SDAPTA2 = 0U, /*!< I2C0_SCL and I2C0_SDA are mapped on PTA3 and PTA2, respectively. */ kPORT_I2C0_SCLPTB7_SDAPTB6 = 1U, /*!< I2C0_SCL and I2C0_SDA are mapped on PTB7 and PTB6, respectively. */ kPORT_SPI0_SCKPTB2_MOSIPTB3_MISOPTB4_PCSPTB5 = 0U, /*!< SPI0_SCK/MOSI/MISO/PCS0 are mapped on PTB2/PTB3/PTB4/PTB5.*/ kPORT_SPI0_SCKPTE0_MOSIPTE1_MISOPTE2_PCSPTE3 = 1U, /*!< SPI0_SCK/MOSI/MISO/PCS0 are mapped on PTE0/PTE1/PTE2/PTE3. */ kPORT_UART0_RXPTB0_TXPTB1 = 0U, /*!< UART0_RX and UART0_TX are mapped on PTB0 and PTB1. */ kPORT_UART0_RXPTA2_TXPTA3 = 1U, /*!< UART0_RX and UART0_TX are mapped on PTA2 and PTA3. */ kPORT_FTM0_CH0_PTA0 = 0U, /*!< FTM0_CH0 channels are mapped on PTA0. */ kPORT_FTM0_CH0_PTB2 = 1U, /*!< FTM0_CH0 channels are mapped on PTB2. */ kPORT_FTM0_CH1_PTA1 = 0U, /*!< FTM0_CH1 channels are mapped on PTA1. */ kPORT_FTM0_CH1_PTB3 = 1U, /*!< FTM0_CH1 channels are mapped on PTB3. */ kPORT_FTM0CLK_TCLK0 = 0U, /*!< FTM0 CLK using the TCLK0 pin. */ kPORT_FTM0CLK_TCLK1 = 1U, /*!< FTM0 CLK using the TCLK1 pin. */ kPORT_FTM0CLK_TCLK2 = 2U, /*!< FTM0 CLK using the TCLK2 pin. */ kPORT_FTM1CLK_TCLK0 = 0U, /*!< FTM1 CLK using the TCLK0 pin. */ kPORT_FTM1CLK_TCLK1 = 1U, /*!< FTM1 CLK using the TCLK1 pin. */ kPORT_FTM1CLK_TCLK2 = 2U, /*!< FTM1 CLK using the TCLK2 pin. */ kPORT_FTM2CLK_TCLK0 = 0U, /*!< FTM2 CLK using the TCLK0 pin. */ kPORT_FTM2CLK_TCLK1 = 1U, /*!< FTM2 CLK using the TCLK1 pin. */ kPORT_FTM2CLK_TCLK2 = 2U, /*!< FTM2 CLK using the TCLK2 pin. */ kPORT_PWTCLK_TCLK0 = 0U, /*!< PWT CLK using the TCLK0 pin. */ kPORT_PWTCLK_TCLK1 = 1U, /*!< PWT CLK using the TCLK1 pin. */ kPORT_PWTCLK_TCLK2 = 2U, /*!< PWT CLK using the TCLK2 pin. */ kPORT_FTM1_CH0_PTC4 = 0U, /*!< FTM1_CH0 channels are mapped on PTC4. */ kPORT_FTM1_CH0_PTH2 = 1U, /*!< FTM1_CH0 channels are mapped on PTH2. */ kPORT_FTM1_CH1_PTC5 = 0U, /*!< FTM1_CH1 channels are mapped on PTC5. */ kPORT_FTM1_CH1_PTE7 = 1U, /*!< FTM1_CH1 channels are mapped on PTE7. */ kPORT_FTM2_CH0_PTC0 = 0U, /*!< FTM2_CH0 channels are mapped on PTC0. */ kPORT_FTM2_CH0_PTH0 = 1U, /*!< FTM2_CH0 channels are mapped on PTH0. */ kPORT_FTM2_CH0_PTF0 = 2U, /*!< FTM2_CH0 channels are mapped on PTF0. */ kPORT_FTM2_CH1_PTC1 = 0U, /*!< FTM2_CH1 channels are mapped on PTC1. */ kPORT_FTM2_CH1_PTH1 = 1U, /*!< FTM2_CH1 channels are mapped on PTH1. */ kPORT_FTM2_CH1_PTF1 = 2U, /*!< FTM2_CH1 channels are mapped on PTF1. */ kPORT_FTM2_CH2_PTC2 = 0U, /*!< FTM2_CH2 channels are mapped on PTC2. */ kPORT_FTM2_CH2_PTD0 = 1U, /*!< FTM2_CH2 channels are mapped on PTD0. */ kPORT_FTM2_CH2_PTG4 = 2U, /*!< FTM2_CH2 channels are mapped on PTG4. */ kPORT_FTM2_CH3_PTC3 = 0U, /*!< FTM2_CH3 channels are mapped on PTC3. */ kPORT_FTM2_CH3_PTD1 = 1U, /*!< FTM2_CH3 channels are mapped on PTD1. */ kPORT_FTM2_CH3_PTG5 = 2U, /*!< FTM2_CH3 channels are mapped on PTG5. */ kPORT_FTM2_CH4_PTB4 = 0U, /*!< FTM2_CH4 channels are mapped on PTB4. */ kPORT_FTM2_CH4_PTG6 = 1U, /*!< FTM2_CH4 channels are mapped on PTG6. */ kPORT_FTM2_CH5_PTB5 = 0U, /*!< FTM2_CH5 channels are mapped on PTB5. */ kPORT_FTM2_CH5_PTG7 = 1U, /*!< FTM2_CH5 channels are mapped on PTG7. */ kPORT_I2C1_SCLPTE1_SDAPTE0 = 0U, /*!< I2C1_SCL and I2C1_SDA are mapped on PTE1 and PTE0, respectively. */ kPORT_I2C1_SCLPTH4_SDAPTH3 = 1U, /*!< I2C1_SCL and I2C1_SDA are mapped on PTH4 and PTH3, respectively. */ kPORT_SPI1_SCKPTD0_MOSIPTD1_MISOPTD2_PCSPTD3 = 0U, /*!< SPI1_SCK/MOSI/MISO/PCS0 are mapped on PTD0/PTD1/PTD2/PTD3.*/ kPORT_SPI1_SCKPTG4_MOSIPTG5_MISOPTG6_PCSPTG7 = 1U, /*!< SPI1_SCK/MOSI/MISO/PCS0 are mapped on PTG4/PTG5/PTG6/PTG7. */ kPORT_UART1_RXPTC7_TXPTC6 = 0U, /*!< UART1_RX and UART1_TX are mapped on PTC7 and PTC6. */ kPORT_UART1_RXPTF3_TXPTF2 = 1U, /*!< UART1_RX and UART1_TX are mapped on PTF3 and PTF2. */ kPORT_UART2_RXPTD7_TXPTD6 = 0U, /*!< UART2_RX and UART2_TX are mapped on PTD7 and PTD6. */ kPORT_UART2_RXPTI1_TXPTI0 = 1U, /*!< UART2_RX and UART2_TX are mapped on PTI1 and PTI0. */ kPORT_PWTIN0_PTD5 = 0U, /*!< PWTIN0 is mapped to PTD5. */ kPORT_PWTIN0_PTE2 = 1U, /*!< PWTIN0 is mapped to PTE2. */ kPORT_PWTIN1_PTB0 = 0U, /*!< PWTIN0 is mapped to PTB0. */ kPORT_PWTIN1_PTH7 = 1U, /*!< PWTIN0 is mapped to PTH7. */ kPORT_MSCAN_TXPTC7_RXPTC6 = 0U, /*!< CAN_TX, RXis mapped to PTC7, PTC6. */ kPORT_MSCAN_TXPTE7_RXPTH2 = 1U /*!< CAN_TX, RXis mapped to PTE7, PTH2. */ } port_pin_select_t; /*! @brief The PORT pins for input glitch filter configure */ typedef enum _port_filter_pin_t { kPORT_FilterPTA = PORT_IOFLT0_FLTA_SHIFT, /*!< Filter for input from PTA. */ kPORT_FilterPTB = PORT_IOFLT0_FLTB_SHIFT, /*!< Filter for input from PTB. */ kPORT_FilterPTC = PORT_IOFLT0_FLTC_SHIFT, /*!< Filter for input from PTC. */ kPORT_FilterPTD = PORT_IOFLT0_FLTD_SHIFT, /*!< Filter for input from PTD. */ kPORT_FilterPTE = PORT_IOFLT0_FLTE_SHIFT, /*!< Filter for input from PTE. */ kPORT_FilterPTF = PORT_IOFLT0_FLTF_SHIFT, /*!< Filter for input from PTF. */ kPORT_FilterPTG = PORT_IOFLT0_FLTG_SHIFT, /*!< Filter for input from PTG. */ kPORT_FilterPTH = PORT_IOFLT0_FLTH_SHIFT, /*!< Filter for input from PTH. */ kPORT_FilterRST = PORT_IOFLT0_FLTRST_SHIFT, /*!< Filter for input from RESET/IRQ. */ kPORT_FilterKBI0 = PORT_IOFLT0_FLTKBI0_SHIFT, /*!< Filter for input from KBI0. */ kPORT_FilterKBI1 = PORT_IOFLT0_FLTKBI1_SHIFT, /*!< Filter for input from KBI1. */ kPORT_FilterNMI = PORT_IOFLT0_FLTNMI_SHIFT, /*!< Filter for input from NMI. */ KPORT_Filter0MAX = PORT_IOFLT0_FLTNMI_SHIFT + 1U, /*!< The max shift for Filter0 */ kPORT_FilterPTI = PORT_IOFLT1_FLTI_SHIFT + PORT_FILTER_REG_OFFSET, /*!< Filter for input from PTI. */ kPORT_FilterIRQ = PORT_IOFLT1_FLTIRQ_SHIFT + PORT_FILTER_REG_OFFSET, /*!< Filter for input from IRQ. */ kPORT_FilterFTM0 = PORT_IOFLT1_FLTFTM0_SHIFT + PORT_FILTER_REG_OFFSET, /*!< Filter for input from FTM0. */ kPORT_FilterFTM1 = PORT_IOFLT1_FLTFTM1_SHIFT + PORT_FILTER_REG_OFFSET, /*!< Filter for input form FTM1. */ kPORT_FilterPWT = PORT_IOFLT1_FLTPWT_SHIFT + PORT_FILTER_REG_OFFSET, /*!< Filter for input from PWT. */ kPORT_FilterI2C0 = PORT_IOFLT1_FLTI2C0_SHIFT + PORT_FILTER_REG_OFFSET, /*!< Filter for input form I2C0. */ kPORT_FilterI2C1 = PORT_IOFLT1_FLTI2C1_SHIFT + PORT_FILTER_REG_OFFSET /*!< Filter for input from I2C1. */ } port_filter_pin_t; /*! @brief The Filter selection for input pins */ typedef enum _port_filter_select_t { kPORT_BUSCLK_OR_NOFILTER = 0U, /*!< Filter section BUSCLK for PTA~PTH,= or no filter for REST/KBI0/KBI1/NMI/IRQ/FTM0/FTM1/PWT/I2C0/I2C1. */ kPORT_FILTERDIV1 = 1U, /*!< Filter Division Set 1. */ kPORT_FILTERDIV2 = 2U, /*!< Filter Division Set 2. */ kPORT_FILTERDIV3_OR_BUSCLK = 3U /*!< Filter Division Set 3 for NMI/KBI1/KNI0/IRQ/PTA~PTH/PWT/FTM0/FTM1/IRQ/PTI or BUSCLK for I2C0/I2C1/ */ } port_filter_select_t; /*! @brief Port pin for high driver enable/disable control. */ typedef enum _port_highdrive_pin_t { kPORT_HighDrive_PTB4 = PORT_HDRVE_PTB4_MASK, /*!< PTB4. */ kPORT_HighDrive_PTB5 = PORT_HDRVE_PTB5_MASK, /*!< PTB5. */ kPORT_HighDrive_PTD0 = PORT_HDRVE_PTD0_MASK, /*!< PTD0. */ kPORT_HighDrive_PTD1 = PORT_HDRVE_PTD1_MASK, /*!< PTD1. */ kPORT_HighDrive_PTE0 = PORT_HDRVE_PTE0_MASK, /*!< PTE0. */ kPORT_HighDrive_PTE1 = PORT_HDRVE_PTE1_MASK, /*!< PTE1. */ kPORT_HighDrive_PTH0 = PORT_HDRVE_PTH0_MASK, /*!< PTH0. */ kPORT_HighDrive_PTH1 = PORT_HDRVE_PTH1_MASK /*!< PTH1. */ } port_highdrive_pin_t; /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /*! @name Configuration */ /*@{*/ /*! * @brief Selects pin for modules. * * This API is used to select the port pin for the module with multiple port pin * selection. For example the FTM Channel 0 can be mapped to ether PTA0 or PTB2. * Select FTM channel 0 map to PTA0 port pin as: * @code * PORT_SetPinSelect(kPORT_FTM0CH0, kPORT_FTM0_CH0_PTA0); * @endcode * * @Note: This API doesn't support to select specified ALT for a given port pin. * The ALT feature is automatically selected by hardware according to the * ALT priority: * Low -----> high: * Alt1, Alt2, … * when peripheral modules has been enabled. * * If you want to select a specified ALT for a given port pin, please add two more * steps after calling PORT_SetPinSelect: * 1. Enable module or the port control in the module for the ALT you want to select. * For I2C ALT feature:all port enable is controlled by the module enable, so * set IICEN in I2CX_C1 to enable the port pins for I2C feature. * For KBI ALT feature:each port pin is controlled independently by each bit in KBIx_PE. * set related bit in this register to enable the KBI feature in the port pin. * 2. Make sure there is no module enabled with higher priority than the ALT module feature * you want to select. * * @param module Modules for pin selection. * For NMI/RST module are write-once attribute after reset. * @param pin Port pin selection for modules. * */ void PORT_SetPinSelect(port_module_t module, port_pin_select_t pin); /*! * @brief Selects the glitch filter for input pins. * * @param base PORT peripheral base pointer. * @param port PORT pin, see "port_filter_pin_t". * @param filter Filter select, see "port_filter_select_t". */ void PORT_SetFilterSelect(PORT_Type *base, port_filter_pin_t port, port_filter_select_t filter); /*! * @brief Sets the width threshold for glitch filter division set 1. *` * @param base PORT peripheral base pointer. * @param threshold PORT glitch filter width threshold, take refer to reference manual for detail information. * 0 - LPOCLK * 1 - LPOCLK/2 * 2 - LPOCLK/4 * 3 - LPOCLK/8 * 4 - LPOCLK/16 * 5 - LPOCLK/32 * 6 - LPOCLK/64 * 7 - LPOCLK/128 */ static inline void PORT_SetFilterDIV1WidthThreshold(PORT_Type *base, uint8_t threshold) { uint32_t fltReg; fltReg = base->IOFLT0 & ~PORT_IOFLT0_FLTDIV1_MASK; base->IOFLT0 = fltReg | PORT_IOFLT0_FLTDIV1(threshold); } /*! * @brief Sets the width threshold for glitch filter division set 2. *` * @param base PORT peripheral base pointer. * @param threshold PORT glitch filter width threshold, take refer to reference manual for detail information. * 0 - BUSCLK/32 * 1 - BUSCLK/64 * 2 - BUSCLK/128 * 3 - BUSCLK/256 * 4 - BUSCLK/512 * 5 - BUSCLK/1024 * 6 - BUSCLK/2048 * 7 - BUSCLK/4096 */ static inline void PORT_SetFilterDIV2WidthThreshold(PORT_Type *base, uint8_t threshold) { uint32_t fltReg; fltReg = base->IOFLT0 & ~PORT_IOFLT0_FLTDIV2_MASK; base->IOFLT0 = fltReg | PORT_IOFLT0_FLTDIV2(threshold); } /*! * @brief Sets the width threshold for glitch filter division set 3. *` * @param base PORT peripheral base pointer. * @param threshold PORT glitch filter width threshold, take refer to reference manual for detail information. * 0 - BUSCLK/2 * 1 - BUSCLK/4 * 2 - BUSCLK/8 * 3 - BUSCLK/16 */ static inline void PORT_SetFilterDIV3WidthThreshold(PORT_Type *base, uint8_t threshold) { uint32_t fltReg; fltReg = base->IOFLT0 & ~PORT_IOFLT0_FLTDIV3_MASK; base->IOFLT0 = fltReg | PORT_IOFLT0_FLTDIV3(threshold); } /*! * @brief Enables or disables the port pull up. * * @param base PORT peripheral base pointer. * @param port PORT type, such as PTA/PTB/PTC etc, see "port_type_t". * @param num PORT pin number, such as 0, 1, 2... * For PTI, only PTI0 ~ PTI6 pins are supported. so when set pull * up feature for PTI, please don't set number 7. see reference manual for more details. * @param enable Enable or disable the pull up feature switch. */ void PORT_SetPinPullUpEnable(PORT_Type *base, port_type_t port, uint8_t num, bool enable); /*! * @brief Set High drive for port pins. * * @param base PORT peripheral base pointer. * @param pin PORT pin support high drive. * @param enable Enable or disable the high driver feature switch. */ static inline void PORT_SetHighDriveEnable(PORT_Type *base, port_highdrive_pin_t pin, bool enable) { if (enable) { base->HDRVE |= (uint32_t)pin; } else { base->HDRVE &= ~(uint32_t)pin; } } /*@}*/ #if defined(__cplusplus) } #endif /*! @}*/ #endif /* _FSL_PORT_H_ */