/** * @file gpio.h * @brief * @author @zh-jieli.com * @version 1.0.0 * @date 2018-10-11 */ #ifndef __GPIO_H__ #define __GPIO_H__ #include "typedef.h" enum { CH0_UT0_TX, CH0_UT1_TX, CH0_T0_PWM_OUT, CH0_T1_PWM_OUT, CH0_RTOSH_CLK, CH0_BTOSC_CLK, CH0_PLL_12M, CH0_UT2_TX, CH0_CH0_PWM_H, CH0_CH0_PWM_L, CH0_CH1_PWM_H, CH0_CH1_PWM_L, CH0_CH2_PWM_H, CH0_CH2_PWM_L, CH0_T2_PWM_OUT, CH0_T3_PWM_OUT, CH1_UT0_TX = 0x10, CH1_UT1_TX, CH1_T0_PWM_OUT, CH1_T1_PWM_OUT, CH1_RTOSL_CLK, CH1_BTOSC_CLK, CH1_PLL_24M, CH1_UT2_TX, CH1_CH0_PWM_H, CH1_CH0_PWM_L, CH1_CH1_PWM_H, CH1_CH1_PWM_L, CH1_CH2_PWM_H, CH1_CH2_PWM_L, CH1_T2_PWM_OUT, CH1_T3_PWM_OUT, CH2_UT0_RTS = 0x20, CH2_UT1_TX, CH2_T0_PWM_OUT, CH2_T1_PWM_OUT, CH2_PLNK_SCLK, CH2_BTOSC_CLK, CH2_PLL_24M, CH2_UT2_TX, CH2_CH0_PWM_H, CH2_CH0_PWM_L, CH2_CH1_PWM_H, CH2_CH1_PWM_L, CH2_CH2_PWM_H, CH2_CH2_PWM_L, CH2_T2_PWM_OUT, CH2_T3_PWM_OUT, }; #define IO_GROUP_NUM 16 #define IO_PORTA_00 (IO_GROUP_NUM * 0 + 0) #define IO_PORTA_01 (IO_GROUP_NUM * 0 + 1) #define IO_PORTA_02 (IO_GROUP_NUM * 0 + 2) #define IO_PORTA_03 (IO_GROUP_NUM * 0 + 3) #define IO_PORTA_04 (IO_GROUP_NUM * 0 + 4) #define IO_PORTA_05 (IO_GROUP_NUM * 0 + 5) #define IO_PORTA_06 (IO_GROUP_NUM * 0 + 6) #define IO_PORTA_07 (IO_GROUP_NUM * 0 + 7) #define IO_PORTA_08 (IO_GROUP_NUM * 0 + 8) #define IO_PORTA_09 (IO_GROUP_NUM * 0 + 9) #define IO_PORTB_00 (IO_GROUP_NUM * 1 + 0) #define IO_PORTB_01 (IO_GROUP_NUM * 1 + 1) #define IO_PORTB_02 (IO_GROUP_NUM * 1 + 2) #define IO_PORTB_03 (IO_GROUP_NUM * 1 + 3) #define IO_PORTB_04 (IO_GROUP_NUM * 1 + 4) #define IO_PORTB_05 (IO_GROUP_NUM * 1 + 5) #define IO_PORTB_06 (IO_GROUP_NUM * 1 + 6) #define IO_PORTB_07 (IO_GROUP_NUM * 1 + 7) #define IO_PORTB_08 (IO_GROUP_NUM * 1 + 8) #define IO_PORTB_09 (IO_GROUP_NUM * 1 + 9) #define IO_PORTD_00 (IO_GROUP_NUM * 2 + 0) #define IO_PORTD_01 (IO_GROUP_NUM * 2 + 1) #define IO_PORTD_02 (IO_GROUP_NUM * 2 + 2) #define IO_PORTD_03 (IO_GROUP_NUM * 2 + 3) #define IO_PORTD_04 (IO_GROUP_NUM * 2 + 4) #define IO_PORTP_00 (IO_GROUP_NUM * 3 + 0) #define IO_MAX_NUM (IO_PORTP_00 + 1) #define USB_IO_OFFSET 0 #define IO_PORT_DP (IO_MAX_NUM + USB_IO_OFFSET) #define IO_PORT_DM (IO_MAX_NUM + USB_IO_OFFSET + 1) #define USB1_IO_OFFSET 2 #define IO_PORT_DP1 (IO_MAX_NUM + USB1_IO_OFFSET) #define IO_PORT_DM1 (IO_MAX_NUM + USB1_IO_OFFSET + 1) #define P33_IO_OFFSET 4 #define IO_CHGFL_DET (IO_MAX_NUM + P33_IO_OFFSET + 0) #define IO_VBGOK_DET (IO_MAX_NUM + P33_IO_OFFSET + 1) #define IO_VBTCH_DET (IO_MAX_NUM + P33_IO_OFFSET + 2) #define IO_LDOIN_DET (IO_MAX_NUM + P33_IO_OFFSET + 3) #define IO_PORT_MAX (IO_LDOIN_DET + 1) #define GPIOA (IO_GROUP_NUM * 0) #define GPIOB (IO_GROUP_NUM * 1) #define GPIOD (IO_GROUP_NUM * 2) #define GPIOP (IO_GROUP_NUM * 3) #define GPIOUSB (IO_MAX_NUM + USB_IO_OFFSET) #define GPIOUSB1 (IO_MAX_NUM + USB1_IO_OFFSET) #define GPIOP33 (IO_MAX_NUM + P33_IO_OFFSET) enum { INPUT_CH0, INPUT_CH1, INPUT_CH2, INPUT_CH3, }; enum gpio_op_mode { GPIO_SET = 1, GPIO_AND, GPIO_OR, GPIO_XOR, }; enum gpio_direction { GPIO_OUT = 0, GPIO_IN = 1, }; struct gpio_reg { volatile unsigned int out; volatile unsigned int in; volatile unsigned int dir; volatile unsigned int die; volatile unsigned int pu; volatile unsigned int pd; volatile unsigned int hd0; volatile unsigned int hd; volatile unsigned int dieh; }; struct gpio_reg *gpio2reg(u32 gpio); struct gpio_platform_data { unsigned int gpio; }; #define GPIO_PLATFORM_DATA_BEGIN(data) \ static const struct gpio_platform_data data = { \ #define GPIO_PLATFORM_DATA_END() \ }; #if 0 #define IO_DEBUG_0(i,x) {JL_PORT##i->DIR &= ~BIT(x), JL_PORT##i->OUT &= ~BIT(x);} #define IO_DEBUG_1(i,x) {JL_PORT##i->DIR &= ~BIT(x), JL_PORT##i->OUT |= BIT(x);} #define IO_DEBUG_TOGGLE(i,x) {JL_PORT##i->DIR &= ~BIT(x), JL_PORT##i->OUT ^= BIT(x);} #else #define IO_DEBUG_0(i,x) {} #define IO_DEBUG_1(i,x) {} #define IO_DEBUG_TOGGLE(i,x) {} #endif /** * @brief usb_iomode * * @param enable 1,使能;0,关闭 */ void usb_iomode(u32 enable); void usb1_iomode(u32 enable); /** * @brief gpio_direction_input * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param dir 1,输入;0,输出 * * @return */ int gpio_set_direction(u32 gpio, u32 dir); /** * @brief gpio_direction_input * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param value 1,输出1, 0,输出0 * * @return */ int gpio_set_output_value(u32 gpio, u32 dir); /** * @brief gpio_dir * * @param gpio [GPIOA GPIOB GPIOC GPIOD GPIOR GPIOUSB] * @param start [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param len [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param dat 1,输入;0,输出 * * @return */ u32 gpio_dir(u32 gpio, u32 start, u32 len, u32 dat, enum gpio_op_mode op); /** * @brief gpio_direction_output * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param value 1,输出1;0,输出0 * * @return */ int gpio_direction_output(u32 gpio, int value); /** * @brief gpio_out * * @param gpio [GPIOA GPIOB GPIOC GPIOD GPIOR GPIOUSB] * @param start [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param len [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param dat 1,输入;0,输出 * * @return */ u32 gpio_out(u32 gpio, u32 start, u32 len, u32 dat); /** * @brief gpio_set_pull_up * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param value 1,上拉;0,不上拉 * * @return */ int gpio_set_pull_up(u32 gpio, int value); /** * @brief gpio_set_pu * * @param gpio [GPIOA GPIOB GPIOC GPIOD GPIOR GPIOUSB] * @param start [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param len [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param dat 1,上拉;0,不上拉 * * @return */ u32 gpio_set_pu(u32 gpio, u32 start, u32 len, u32 dat, enum gpio_op_mode op); /** * @brief gpio_set_pull_down * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param value 1,下拉;0,不下拉 * * @return */ int gpio_set_pull_down(u32 gpio, int value); /** * @brief gpio_set_pd * * @param gpio [GPIOA GPIOB GPIOC GPIOD GPIOR GPIOUSB] * @param start [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param len [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param dat 1,下拉;0,不下拉 * * @return */ u32 gpio_set_pd(u32 gpio, u32 start, u32 len, u32 dat, enum gpio_op_mode op); /** * @brief gpio_set_hd0 * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param value 1,增强输出;0,不增强输出 * * @return */ u32 gpio_set_hd0(u32 gpio, u32 value); /** * @brief gpio_set_hd * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param value 1,增强输出;0,不增强输出 * * @return */ int gpio_set_hd(u32 gpio, int value); /** * @brief gpio_set_die * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param value 1,IO普通输入;0,IO模拟输入 * * @return */ int gpio_set_die(u32 gpio, int value); /** * @brief gpio_set_dieh * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param value 1,IO普通输入;0,IO模拟输入 * * @return */ u32 gpio_set_dieh(u32 gpio, u32 value); /** * @brief gpio_die * * @param gpio [GPIOA GPIOB GPIOC GPIOD GPIOR GPIOUSB] * @param start [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param len [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param dat 1,IO普通输入;0,IO模拟输入 * * @return */ u32 gpio_die(u32 gpio, u32 start, u32 len, u32 dat, enum gpio_op_mode op); /** * @brief gpio_dieh * * @param gpio [GPIOA GPIOB GPIOC GPIOD GPIOR GPIOUSB] * @param start [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param len [0-15],GPIOR[0-3],GPIOUSB[0-1] * @param dat 1,IO普通输入;0,IO模拟输入 * * @return */ u32 gpio_dieh(u32 gpio, u32 start, u32 len, u32 dat, enum gpio_op_mode op); /** * @brief gpio_set_output_channle * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param clk 参考枚举CHx_UTx_TX,如CH0_UT0_TX * * @return */ u32 gpio_output_channle(u32 gpio, u32 clk); /** * @brief gpio_read * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * * @return */ int gpio_read(u32 gpio); /** * @brief gpio_in * * @param gpio [GPIOA GPIOB GPIOC GPIOD GPIOR GPIOUSB] * * @return */ u32 gpio_in(u32 gpio); /** * @brief gpio_write * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * @param value 1,输出1;0,输出0 * * @return */ u32 gpio_write(u32 gpio, u32 value); /** * @brief gpio_wakeup0 use IN_CHNL0_SEL * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * * @return */ u32 gpio_wakeup0(u32 gpio); /** * @brief gpio_irflt_in use IN_CHNL1_SEL * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * * @return */ u32 gpio_irflt_in(u32 gpio); /** * @brief gpio_cap_mux use IN_CHNL2_SEL * * @param gpio 参考宏IO_PORTx_xx,如IO_PORTA_00 * * @return */ u32 gpio_cap_mux(u32 gpio); /** * @brief gpio_uart_rx_input * * @param gpio * @param ut * @param ch * * @return */ u32 gpio_uart_rx_input(u32 gpio, u32 ut, u32 ch); /** * @brief * * @return */ u32 gpio_close_uart0(void); /** * @brief * * @return */ u32 gpio_close_uart1(void); /** * @brief * * @return */ u32 gpio_close_uart2(void); /** * @brief gpio_set_uart0 * * @param ch 0:3 选择对应IO br22 * |ch|tx|rx| * |- |- |- | * |0|PA5_TX|PA6_RX| * |1|PB7_TX|PB8_RX| * |2|PA7_TX|PA8_RX| * |3|预留|预留| * |-1|关闭对应的IO口串口功能|no| * * @return */ u32 gpio_set_uart0(u32 ch); /** * @brief gpio_set_uart1 * * @param ch 0:3 选择对应IO br22 * |ch|tx|rx| * |- |- |- | * |0|PB5_TX|PB6_RX| * |1|预留|预留| * |2|PA1_TX|PA2_RX| * |3|USBDP |USBDM | * |-1|关闭对应的IO口串口功能|no| * * @return */ u32 gpio_set_uart1(u32 ch); /** * @brief gpio_set_uart2 * * @param ch 0:3 选择对应IO br22 * |ch|tx|rx| * |- |- |- | * |0|PA3_TX|PA4_RX| * |1|预留|预留| * |2|预留|预留| * |3|PA9_TX|PA10_RX| * |-1|关闭对应的IO口串口功能|no| * * @return */ u32 gpio_set_uart2(u32 ch); enum { IRFLT_LSB, IRFLT_RC, IRFLT_OSC, IRFLT_PLL48M, }; enum { IRFLT_DIV1, IRFLT_DIV2, IRFLT_DIV4, IRFLT_DIV8, IRFLT_DIV16, IRFLT_DIV32, IRFLT_DIV64, IRFLT_DIV128, IRFLT_DIV256, IRFLT_DIV512, IRFLT_DIV1024, IRFLT_DIV2048, IRFLT_DIV4096, IRFLT_DIV8192, IRFLT_DIV16384, IRFLT_DIV32768, }; /* u32 irflt_config(u32 osc, u32 div); */ /** * @brief gpio_irflt_to_timer * * @param t: [0-3] * * @return */ u32 gpio_irflt_to_timer(u32 t); u32 get_gpio(const char *p); //===================================================// // BR30 Crossbar API //===================================================// enum PFI_TABLE { PFI_GP_ICH0 = ((u32)(&(JL_IMAP->FI_GP_ICH0))), PFI_GP_ICH1 = ((u32)(&(JL_IMAP->FI_GP_ICH1))), PFI_GP_ICH2 = ((u32)(&(JL_IMAP->FI_GP_ICH2))), PFI_GP_ICH3 = ((u32)(&(JL_IMAP->FI_GP_ICH3))), PFI_GP_ICH4 = ((u32)(&(JL_IMAP->FI_GP_ICH4))), PFI_GP_ICH5 = ((u32)(&(JL_IMAP->FI_GP_ICH5))), PFI_GP_ICH6 = ((u32)(&(JL_IMAP->FI_GP_ICH6))), PFI_GP_ICH7 = ((u32)(&(JL_IMAP->FI_GP_ICH7))), PFI_TMR0_CIN = ((u32)(&(JL_IMAP->FI_TMR0_CIN))), PFI_TMR0_CAP = ((u32)(&(JL_IMAP->FI_TMR0_CAP))), PFI_TMR1_CIN = ((u32)(&(JL_IMAP->FI_TMR1_CIN))), PFI_TMR1_CAP = ((u32)(&(JL_IMAP->FI_TMR1_CAP))), PFI_TMR2_CIN = ((u32)(&(JL_IMAP->FI_TMR2_CIN))), PFI_TMR2_CAP = ((u32)(&(JL_IMAP->FI_TMR2_CAP))), PFI_TMR3_CIN = ((u32)(&(JL_IMAP->FI_TMR3_CIN))), PFI_TMR3_CAP = ((u32)(&(JL_IMAP->FI_TMR3_CAP))), // PFI_TMR4_CIN = ((u32)(&(JL_IMAP->FI_TMR4_CIN))), // PFI_TMR4_CAP = ((u32)(&(JL_IMAP->FI_TMR4_CAP))), // PFI_TMR5_CIN = ((u32)(&(JL_IMAP->FI_TMR5_CIN))), // PFI_TMR5_CAP = ((u32)(&(JL_IMAP->FI_TMR5_CAP))), PFI_SPI0_CLK = ((u32)(&(JL_IMAP->FI_SPI0_CLK))), PFI_SPI0_DA0 = ((u32)(&(JL_IMAP->FI_SPI0_DA0))), PFI_SPI0_DA1 = ((u32)(&(JL_IMAP->FI_SPI0_DA1))), PFI_SPI0_DA2 = ((u32)(&(JL_IMAP->FI_SPI0_DA2))), PFI_SPI0_DA3 = ((u32)(&(JL_IMAP->FI_SPI0_DA3))), PFI_SPI1_CLK = ((u32)(&(JL_IMAP->FI_SPI1_CLK))), PFI_SPI1_DA0 = ((u32)(&(JL_IMAP->FI_SPI1_DA0))), PFI_SPI1_DA1 = ((u32)(&(JL_IMAP->FI_SPI1_DA1))), PFI_SPI1_DA2 = ((u32)(&(JL_IMAP->FI_SPI1_DA2))), PFI_SPI1_DA3 = ((u32)(&(JL_IMAP->FI_SPI1_DA3))), PFI_SPI2_CLK = ((u32)(&(JL_IMAP->FI_SPI2_CLK))), PFI_SPI2_DA0 = ((u32)(&(JL_IMAP->FI_SPI2_DA0))), PFI_SPI2_DA1 = ((u32)(&(JL_IMAP->FI_SPI2_DA1))), PFI_SPI2_DA2 = ((u32)(&(JL_IMAP->FI_SPI2_DA2))), PFI_SPI2_DA3 = ((u32)(&(JL_IMAP->FI_SPI2_DA3))), PFI_MCPWM_FPIN_A = ((u32)(&(JL_IMAP->FI_MCPWM_FPIN_A))), PFI_MCPWM_FPIN_B = ((u32)(&(JL_IMAP->FI_MCPWM_FPIN_B))), PFI_MCPWM_FPIN_C = ((u32)(&(JL_IMAP->FI_MCPWM_FPIN_C))), PFI_MCPWM_FPIN_D = ((u32)(&(JL_IMAP->FI_MCPWM_FPIN_D))), // PFI_SD0_CMD = ((u32)(&(JL_IMAP->FI_SD0_CMD))), // PFI_SD0_DA0 = ((u32)(&(JL_IMAP->FI_SD0_DA0))), // PFI_SD0_DA1 = ((u32)(&(JL_IMAP->FI_SD0_DA1))), // PFI_SD0_DA2 = ((u32)(&(JL_IMAP->FI_SD0_DA2))), // PFI_SD0_DA3 = ((u32)(&(JL_IMAP->FI_SD0_DA3))), PFI_IIC_SCL = ((u32)(&(JL_IMAP->FI_IIC_SCL))), PFI_IIC_SDA = ((u32)(&(JL_IMAP->FI_IIC_SDA))), PFI_UART0_RX = ((u32)(&(JL_IMAP->FI_UART0_RX))), PFI_UART1_RX = ((u32)(&(JL_IMAP->FI_UART1_RX))), PFI_UART1_CTS = ((u32)(&(JL_IMAP->FI_UART1_CTS))), PFI_UART2_RX = ((u32)(&(JL_IMAP->FI_UART2_RX))), PFI_RDEC0_DAT0 = ((u32)(&(JL_IMAP->FI_RDEC0_DAT0))), PFI_RDEC0_DAT1 = ((u32)(&(JL_IMAP->FI_RDEC0_DAT1))), PFI_RDEC1_DAT0 = ((u32)(&(JL_IMAP->FI_RDEC1_DAT0))), PFI_RDEC1_DAT1 = ((u32)(&(JL_IMAP->FI_RDEC1_DAT1))), PFI_RDEC2_DAT0 = ((u32)(&(JL_IMAP->FI_RDEC2_DAT0))), PFI_RDEC2_DAT1 = ((u32)(&(JL_IMAP->FI_RDEC2_DAT1))), // PFI_ALNK0_MCLK = ((u32)(&(JL_IMAP->FI_ALNK0_MCLK))), // PFI_ALNK0_LRCK = ((u32)(&(JL_IMAP->FI_ALNK0_LRCK))), // PFI_ALNK0_SCLK = ((u32)(&(JL_IMAP->FI_ALNK0_SCLK))), // PFI_ALNK0_DAT0 = ((u32)(&(JL_IMAP->FI_ALNK0_DAT0))), // PFI_ALNK0_DAT1 = ((u32)(&(JL_IMAP->FI_ALNK0_DAT1))), // PFI_ALNK0_DAT2 = ((u32)(&(JL_IMAP->FI_ALNK0_DAT2))), // PFI_ALNK0_DAT3 = ((u32)(&(JL_IMAP->FI_ALNK0_DAT3))), // PFI_PLNK_DAT0 = ((u32)(&(JL_IMAP->FI_PLNK_DAT0))), // PFI_PLNK_DAT1 = ((u32)(&(JL_IMAP->FI_PLNK_DAT1))), PFI_TOTAl = ((u32)(&(JL_IMAP->FI_TOTAL))), }; //=================================================================================// //@brief: CrossBar 获取某IO的输出映射寄存器 //@input: // gpio: 需要输出外设信号的IO口; 如IO_PORTA_00 //@return: // 输出映射寄存器地址; 如&(JL_OMAP->PA0_OUT) //=================================================================================// u32 *gpio2crossbar_outreg(u32 gpio); //=================================================================================// //@brief: CrossBar 获取某IO的输入映射序号 //@input: // gpio: 需要输出外设信号的IO口; 如IO_PORTA_00 //@return: // 输出映射序号; 如PA0_IN //=================================================================================// u32 gpio2crossbar_inport(u32 gpio); //=================================================================================// //@brief: CrossBar 输出设置 API, 将指定IO口设置为某个外设的输出 //@input: // gpio: 需要输出外设信号的IO口; // fun_index: 需要输出到指定IO口的外设信号; // dir_ctl: IO口方向由外设控制使能, 常设为1; // data_ctl: IO口电平状态由外设控制使能, 常设为1; //@return: int //@note: //=================================================================================// int gpio_set_fun_output_port(u32 gpio, u32 fun_index, u8 dir_ctl, u8 data_ctl); //=================================================================================// //@brief: CrossBar 输出设置 API, 将指定IO释放外设控制, 变为普通IO; //@input: // gpio: 需要释放外设控制IO口; //@return: int //@note: //=================================================================================// int gpio_disable_fun_output_port(u32 gpio); //=================================================================================// //@brief: CrossBar 输入设置 API, 将某个外设的输入设置为从某个IO输入 //@input: // gpio: 需要输入外设信号的IO口; // pfun: 需要从指定IO输入的外设信号; //@return: int //@note: //=================================================================================// int gpio_set_fun_input_port(u32 gpio, enum PFI_TABLE pfun); //=================================================================================// //@brief: CrossBar 输入设置 API, 将某个外设信号释放IO口控制, 变为普通IO; //@input: // pfun: 需要释放IO口控制的外设信号; //@return: int //@note: //=================================================================================// int gpio_disable_fun_input_port(enum PFI_TABLE pfun); /** * @brief gpio_longpress_pin0_reset_config * * @param pin 任意GPIO * @param level 0(下降沿触发) 1(上升沿触发) * @param time 0(disable) 1 2 4 8 16单位为秒 */ void gpio_longpress_pin0_reset_config(u32 pin, u32 level, u32 time); /** * @brief gpio_longpress_pin1_reset_config * * @param pin IO_LDOIN_DET IO_VBTCH_DET * @param level 0(下降沿触发) 1(上升沿触发) * @param time 0(disable) 1 2 4 8 16单位为秒 */ void gpio_longpress_pin1_reset_config(u32 pin, u32 level, u32 time); /** * @brief gpio_shortpress_reset_config * @param enable 0(disalbe) 1(enable) */ void gpio_shortpress_reset_config(u32 enable); #endif /*GPIO_H*/