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wangyz1997 2024-02-27 00:49:30 +08:00
commit 43be993923
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.gitignore vendored Normal file
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# Output folders
obj/
# IDE setting folders
.settings
.vscode
# MRS IDE files
*.launch

156
ch32v307_lvgl_ili9341/.cproject Normal file
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ch32v307_lvgl_ili9341/.project Normal file
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17
ch32v307_lvgl_ili9341/.template Normal file
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Mcu Type=CH32V30x
Target Path=obj\ch32v307_lvgl_ili9341.hex
Address=0x08000000
Erase All=true
Program=true
Verify=true
Reset=true
Vendor=WCH
Link=WCH-Link
Toolchain=RISC-V
Series=CH32V307
RTOS=NoneOS
Description=Website: http://www.wch.cn/products/CH32V307.html?\nROM(byte): 288K, SRAM(byte): 32K, CHIP PINS: 100, GPIO PORTS: 80.\nWCH CH32V3 series of mainstream MCUs covers the needs of a large variety of applications in the industrial,medical and consumer markets. High performance with first-class peripherals and low-power,low-voltage operation is paired with a high level of integration at accessible prices with a simple architecture and easy-to-use tools.
PeripheralVersion=2.2
MCU=CH32V307VCT6

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ch32v307_lvgl_ili9341/Core/core_riscv.c Normal file
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/********************************** (C) COPYRIGHT *******************************
* File Name : core_riscv.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : RISC-V Core Peripheral Access Layer Source File
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include <stdint.h>
/* define compiler specific symbols */
#if defined ( __CC_ARM )
#define __ASM __asm /*!< asm keyword for ARM Compiler */
#define __INLINE __inline /*!< inline keyword for ARM Compiler */
#elif defined ( __ICCARM__ )
#define __ASM __asm /*!< asm keyword for IAR Compiler */
#define __INLINE inline /*!< inline keyword for IAR Compiler. Only avaiable in High optimization mode! */
#elif defined ( __GNUC__ )
#define __ASM __asm /*!< asm keyword for GNU Compiler */
#define __INLINE inline /*!< inline keyword for GNU Compiler */
#elif defined ( __TASKING__ )
#define __ASM __asm /*!< asm keyword for TASKING Compiler */
#define __INLINE inline /*!< inline keyword for TASKING Compiler */
#endif
/*********************************************************************
* @fn __get_FFLAGS
*
* @brief Return the Floating-Point Accrued Exceptions
*
* @return fflags value
*/
uint32_t __get_FFLAGS(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "fflags" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __set_FFLAGS
*
* @brief Set the Floating-Point Accrued Exceptions
*
* @param value - set FFLAGS value
*
* @return none
*/
void __set_FFLAGS(uint32_t value)
{
__ASM volatile ("csrw fflags, %0" : : "r" (value) );
}
/*********************************************************************
* @fn __get_FRM
*
* @brief Return the Floating-Point Dynamic Rounding Mode
*
* @return frm value
*/
uint32_t __get_FRM(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "frm" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __set_FRM
*
* @brief Set the Floating-Point Dynamic Rounding Mode
*
* @param value - set frm value
*
* @return none
*/
void __set_FRM(uint32_t value)
{
__ASM volatile ("csrw frm, %0" : : "r" (value) );
}
/*********************************************************************
* @fn __get_FCSR
*
* @brief Return the Floating-Point Control and Status Register
*
* @return fcsr value
*/
uint32_t __get_FCSR(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "fcsr" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __set_FCSR
*
* @brief Set the Floating-Point Dynamic Rounding Mode
*
* @param value - set fcsr value
*
* @return none
*/
void __set_FCSR(uint32_t value)
{
__ASM volatile ("csrw fcsr, %0" : : "r" (value) );
}
/*********************************************************************
* @fn __get_MSTATUS
*
* @brief Return the Machine Status Register
*
* @return mstatus value
*/
uint32_t __get_MSTATUS(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "mstatus" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __set_MSTATUS
*
* @brief Set the Machine Status Register
*
* @param value - set mstatus value
*
* @return none
*/
void __set_MSTATUS(uint32_t value)
{
__ASM volatile ("csrw mstatus, %0" : : "r" (value) );
}
/*********************************************************************
* @fn __get_MISA
*
* @brief Return the Machine ISA Register
*
* @return misa value
*/
uint32_t __get_MISA(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "misa" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __set_MISA
*
* @brief Set the Machine ISA Register
*
* @param value - set misa value
*
* @return none
*/
void __set_MISA(uint32_t value)
{
__ASM volatile ("csrw misa, %0" : : "r" (value) );
}
/*********************************************************************
* @fn __get_MTVEC
*
* @brief Return the Machine Trap-Vector Base-Address Register
*
* @return mtvec value
*/
uint32_t __get_MTVEC(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "mtvec" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __set_MTVEC
*
* @brief Set the Machine Trap-Vector Base-Address Register
*
* @param value - set mtvec value
*
* @return none
*/
void __set_MTVEC(uint32_t value)
{
__ASM volatile ("csrw mtvec, %0" : : "r" (value) );
}
/*********************************************************************
* @fn __get_MSCRATCH
*
* @brief Return the Machine Seratch Register
*
* @return mscratch value
*/
uint32_t __get_MSCRATCH(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "mscratch" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __set_MSCRATCH
*
* @brief Set the Machine Seratch Register
*
* @param value - set mscratch value
*
* @return none
*/
void __set_MSCRATCH(uint32_t value)
{
__ASM volatile ("csrw mscratch, %0" : : "r" (value) );
}
/*********************************************************************
* @fn __get_MEPC
*
* @brief Return the Machine Exception Program Register
*
* @return mepc value
*/
uint32_t __get_MEPC(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "mepc" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __set_MEPC
*
* @brief Set the Machine Exception Program Register
*
* @return mepc value
*/
void __set_MEPC(uint32_t value)
{
__ASM volatile ("csrw mepc, %0" : : "r" (value) );
}
/*********************************************************************
* @fn __get_MCAUSE
*
* @brief Return the Machine Cause Register
*
* @return mcause value
*/
uint32_t __get_MCAUSE(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "mcause" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __set_MEPC
*
* @brief Set the Machine Cause Register
*
* @return mcause value
*/
void __set_MCAUSE(uint32_t value)
{
__ASM volatile ("csrw mcause, %0" : : "r" (value) );
}
/*********************************************************************
* @fn __get_MTVAL
*
* @brief Return the Machine Trap Value Register
*
* @return mtval value
*/
uint32_t __get_MTVAL(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "mtval" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __set_MTVAL
*
* @brief Set the Machine Trap Value Register
*
* @return mtval value
*/
void __set_MTVAL(uint32_t value)
{
__ASM volatile ("csrw mtval, %0" : : "r" (value) );
}
/*********************************************************************
* @fn __get_MVENDORID
*
* @brief Return Vendor ID Register
*
* @return mvendorid value
*/
uint32_t __get_MVENDORID(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "mvendorid" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __get_MARCHID
*
* @brief Return Machine Architecture ID Register
*
* @return marchid value
*/
uint32_t __get_MARCHID(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "marchid" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __get_MIMPID
*
* @brief Return Machine Implementation ID Register
*
* @return mimpid value
*/
uint32_t __get_MIMPID(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "mimpid" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __get_MHARTID
*
* @brief Return Hart ID Register
*
* @return mhartid value
*/
uint32_t __get_MHARTID(void)
{
uint32_t result;
__ASM volatile ( "csrr %0," "mhartid" : "=r" (result) );
return (result);
}
/*********************************************************************
* @fn __get_SP
*
* @brief Return SP Register
*
* @return SP value
*/
uint32_t __get_SP(void)
{
uint32_t result;
__ASM volatile ( "mv %0," "sp" : "=r"(result) : );
return (result);
}

582
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/********************************** (C) COPYRIGHT *******************************
* File Name : core_riscv.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : RISC-V Core Peripheral Access Layer Header File for CH32V30x
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CORE_RISCV_H__
#define __CORE_RISCV_H__
#ifdef __cplusplus
extern "C" {
#endif
/* IO definitions */
#ifdef __cplusplus
#define __I volatile /* defines 'read only' permissions */
#else
#define __I volatile const /* defines 'read only' permissions */
#endif
#define __O volatile /* defines 'write only' permissions */
#define __IO volatile /* defines 'read / write' permissions */
/* Standard Peripheral Library old types (maintained for legacy purpose) */
typedef __I uint64_t vuc64; /* Read Only */
typedef __I uint32_t vuc32; /* Read Only */
typedef __I uint16_t vuc16; /* Read Only */
typedef __I uint8_t vuc8; /* Read Only */
typedef const uint64_t uc64; /* Read Only */
typedef const uint32_t uc32; /* Read Only */
typedef const uint16_t uc16; /* Read Only */
typedef const uint8_t uc8; /* Read Only */
typedef __I int64_t vsc64; /* Read Only */
typedef __I int32_t vsc32; /* Read Only */
typedef __I int16_t vsc16; /* Read Only */
typedef __I int8_t vsc8; /* Read Only */
typedef const int64_t sc64; /* Read Only */
typedef const int32_t sc32; /* Read Only */
typedef const int16_t sc16; /* Read Only */
typedef const int8_t sc8; /* Read Only */
typedef __IO uint64_t vu64;
typedef __IO uint32_t vu32;
typedef __IO uint16_t vu16;
typedef __IO uint8_t vu8;
typedef uint64_t u64;
typedef uint32_t u32;
typedef uint16_t u16;
typedef uint8_t u8;
typedef __IO int64_t vs64;
typedef __IO int32_t vs32;
typedef __IO int16_t vs16;
typedef __IO int8_t vs8;
typedef int64_t s64;
typedef int32_t s32;
typedef int16_t s16;
typedef int8_t s8;
typedef enum {NoREADY = 0, READY = !NoREADY} ErrorStatus;
typedef enum {DISABLE = 0, ENABLE = !DISABLE} FunctionalState;
typedef enum {RESET = 0, SET = !RESET} FlagStatus, ITStatus;
#define RV_STATIC_INLINE static inline
/* memory mapped structure for Program Fast Interrupt Controller (PFIC) */
typedef struct{
__I uint32_t ISR[8];
__I uint32_t IPR[8];
__IO uint32_t ITHRESDR;
__IO uint32_t RESERVED;
__IO uint32_t CFGR;
__I uint32_t GISR;
__IO uint8_t VTFIDR[4];
uint8_t RESERVED0[12];
__IO uint32_t VTFADDR[4];
uint8_t RESERVED1[0x90];
__O uint32_t IENR[8];
uint8_t RESERVED2[0x60];
__O uint32_t IRER[8];
uint8_t RESERVED3[0x60];
__O uint32_t IPSR[8];
uint8_t RESERVED4[0x60];
__O uint32_t IPRR[8];
uint8_t RESERVED5[0x60];
__IO uint32_t IACTR[8];
uint8_t RESERVED6[0xE0];
__IO uint8_t IPRIOR[256];
uint8_t RESERVED7[0x810];
__IO uint32_t SCTLR;
}PFIC_Type;
/* memory mapped structure for SysTick */
typedef struct
{
__IO u32 CTLR;
__IO u32 SR;
__IO u64 CNT;
__IO u64 CMP;
}SysTick_Type;
#define PFIC ((PFIC_Type *) 0xE000E000 )
#define NVIC PFIC
#define NVIC_KEY1 ((uint32_t)0xFA050000)
#define NVIC_KEY2 ((uint32_t)0xBCAF0000)
#define NVIC_KEY3 ((uint32_t)0xBEEF0000)
#define SysTick ((SysTick_Type *) 0xE000F000)
/*********************************************************************
* @fn __enable_irq
*
* @brief Enable Global Interrupt
*
* @return none
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void __enable_irq()
{
__asm volatile ("csrw 0x800, %0" : : "r" (0x6088) );
}
/*********************************************************************
* @fn __disable_irq
*
* @brief Disable Global Interrupt
*
* @return none
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void __disable_irq()
{
__asm volatile ("csrw 0x800, %0" : : "r" (0x6000) );
}
/*********************************************************************
* @fn __NOP
*
* @brief nop
*
* @return none
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void __NOP()
{
__asm volatile ("nop");
}
/*********************************************************************
* @fn NVIC_EnableIRQ
*
* @brief Enable Interrupt
*
* @param IRQn: Interrupt Numbers
*
* @return none
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void NVIC_EnableIRQ(IRQn_Type IRQn)
{
NVIC->IENR[((uint32_t)(IRQn) >> 5)] = (1 << ((uint32_t)(IRQn) & 0x1F));
}
/*********************************************************************
* @fn NVIC_DisableIRQ
*
* @brief Disable Interrupt
*
* @param IRQn: Interrupt Numbers
*
* @return none
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void NVIC_DisableIRQ(IRQn_Type IRQn)
{
NVIC->IRER[((uint32_t)(IRQn) >> 5)] = (1 << ((uint32_t)(IRQn) & 0x1F));
}
/*********************************************************************
* @fn NVIC_GetStatusIRQ
*
* @brief Get Interrupt Enable State
*
* @param IRQn: Interrupt Numbers
*
* @return 1 - Interrupt Enable
* 0 - Interrupt Disable
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE uint32_t NVIC_GetStatusIRQ(IRQn_Type IRQn)
{
return((uint32_t) ((NVIC->ISR[(uint32_t)(IRQn) >> 5] & (1 << ((uint32_t)(IRQn) & 0x1F)))?1:0));
}
/*********************************************************************
* @fn NVIC_GetPendingIRQ
*
* @brief Get Interrupt Pending State
*
* @param IRQn: Interrupt Numbers
*
* @return 1 - Interrupt Pending Enable
* 0 - Interrupt Pending Disable
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE uint32_t NVIC_GetPendingIRQ(IRQn_Type IRQn)
{
return((uint32_t) ((NVIC->IPR[(uint32_t)(IRQn) >> 5] & (1 << ((uint32_t)(IRQn) & 0x1F)))?1:0));
}
/*********************************************************************
* @fn NVIC_SetPendingIRQ
*
* @brief Set Interrupt Pending
*
* @param IRQn: Interrupt Numbers
*
* @return None
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void NVIC_SetPendingIRQ(IRQn_Type IRQn)
{
NVIC->IPSR[((uint32_t)(IRQn) >> 5)] = (1 << ((uint32_t)(IRQn) & 0x1F));
}
/*********************************************************************
* @fn NVIC_ClearPendingIRQ
*
* @brief Clear Interrupt Pending
*
* @param IRQn: Interrupt Numbers
*
* @return None
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void NVIC_ClearPendingIRQ(IRQn_Type IRQn)
{
NVIC->IPRR[((uint32_t)(IRQn) >> 5)] = (1 << ((uint32_t)(IRQn) & 0x1F));
}
/*********************************************************************
* @fn NVIC_GetActive
*
* @brief Get Interrupt Active State
*
* @param IRQn: Interrupt Numbers
*
* @return 1 - Interrupt Active
* 0 - Interrupt No Active
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE uint32_t NVIC_GetActive(IRQn_Type IRQn)
{
return((uint32_t)((NVIC->IACTR[(uint32_t)(IRQn) >> 5] & (1 << ((uint32_t)(IRQn) & 0x1F)))?1:0));
}
/*********************************************************************
* @fn NVIC_SetPriority
*
* @brief Set Interrupt Priority
*
* @param IRQn - Interrupt Numbers
* priority -
* bit[7] - pre-emption priority
* bit[6:5] - subpriority
* @return None
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void NVIC_SetPriority(IRQn_Type IRQn, uint8_t priority)
{
NVIC->IPRIOR[(uint32_t)(IRQn)] = priority;
}
/*********************************************************************
* @fn __WFI
*
* @brief Wait for Interrupt
*
* @return None
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void __WFI(void)
{
NVIC->SCTLR &= ~(1<<3); // wfi
asm volatile ("wfi");
}
/*********************************************************************
* @fn _SEV
*
* @brief Set Event
*
* @return none
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void _SEV(void)
{
uint32_t t;
t = NVIC->SCTLR;
NVIC->SCTLR |= (1<<3)|(1<<5);
NVIC->SCTLR = (NVIC->SCTLR & ~(1<<5)) | ( t & (1<<5));
}
/*********************************************************************
* @fn _WFE
*
* @brief Wait for Events
*
* @return none
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void _WFE(void)
{
NVIC->SCTLR |= (1<<3);
asm volatile ("wfi");
}
/*********************************************************************
* @fn __WFE
*
* @brief Wait for Events
*
* @return None
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void __WFE(void)
{
_SEV();
_WFE();
_WFE();
}
/*********************************************************************
* @fn SetVTFIRQ
*
* @brief Set VTF Interrupt
*
* @param add - VTF interrupt service function base address.
* IRQn -Interrupt Numbers
* num - VTF Interrupt Numbers
* NewState - DISABLE or ENABLE
* @return None
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void SetVTFIRQ(uint32_t addr, IRQn_Type IRQn, uint8_t num, FunctionalState NewState){
if(num > 3) return ;
if (NewState != DISABLE)
{
NVIC->VTFIDR[num] = IRQn;
NVIC->VTFADDR[num] = ((addr&0xFFFFFFFE)|0x1);
}
else{
NVIC->VTFIDR[num] = IRQn;
NVIC->VTFADDR[num] = ((addr&0xFFFFFFFE)&(~0x1));
}
}
/*********************************************************************
* @fn NVIC_SystemReset
*
* @brief Initiate a system reset request
*
* @return None
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE void NVIC_SystemReset(void)
{
NVIC->CFGR = NVIC_KEY3|(1<<7);
}
/*********************************************************************
* @fn __AMOADD_W
*
* @brief Atomic Add with 32bit value
* Atomically ADD 32bit value with value in memory using amoadd.d.
*
* @param addr - Address pointer to data, address need to be 4byte aligned
* value - value to be ADDed
*
* @return return memory value + add value
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE int32_t __AMOADD_W(volatile int32_t *addr, int32_t value)
{
int32_t result;
__asm volatile ("amoadd.w %0, %2, %1" : \
"=r"(result), "+A"(*addr) : "r"(value) : "memory");
return *addr;
}
/*********************************************************************
* @fn __AMOAND_W
*
* @brief Atomic And with 32bit value
* Atomically AND 32bit value with value in memory using amoand.d.
*
* @param addr - Address pointer to data, address need to be 4byte aligned
* value - value to be ANDed
*
* @return return memory value & and value
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE int32_t __AMOAND_W(volatile int32_t *addr, int32_t value)
{
int32_t result;
__asm volatile ("amoand.w %0, %2, %1" : \
"=r"(result), "+A"(*addr) : "r"(value) : "memory");
return *addr;
}
/*********************************************************************
* @fn __AMOMAX_W
*
* @brief Atomic signed MAX with 32bit value
* Atomically signed max compare 32bit value with value in memory using amomax.d.
* @param addr - Address pointer to data, address need to be 4byte aligned
* value - value to be compared
*
* @return return the bigger value
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE int32_t __AMOMAX_W(volatile int32_t *addr, int32_t value)
{
int32_t result;
__asm volatile ("amomax.w %0, %2, %1" : \
"=r"(result), "+A"(*addr) : "r"(value) : "memory");
return *addr;
}
/*********************************************************************
* @fn __AMOMAXU_W
*
* @brief Atomic unsigned MAX with 32bit value
* Atomically unsigned max compare 32bit value with value in memory using amomaxu.d.
*
* @param addr - Address pointer to data, address need to be 4byte aligned
* value - value to be compared
*
* @return return the bigger value
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE uint32_t __AMOMAXU_W(volatile uint32_t *addr, uint32_t value)
{
uint32_t result;
__asm volatile ("amomaxu.w %0, %2, %1" : \
"=r"(result), "+A"(*addr) : "r"(value) : "memory");
return *addr;
}
/*********************************************************************
* @fn __AMOMIN_W
*
* @brief Atomic signed MIN with 32bit value
* Atomically signed min compare 32bit value with value in memory using amomin.d.
*
* @param addr - Address pointer to data, address need to be 4byte aligned
* value - value to be compared
*
* @return return the smaller value
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE int32_t __AMOMIN_W(volatile int32_t *addr, int32_t value)
{
int32_t result;
__asm volatile ("amomin.w %0, %2, %1" : \
"=r"(result), "+A"(*addr) : "r"(value) : "memory");
return *addr;
}
/*********************************************************************
* @fn __AMOMINU_W
*
* @brief Atomic unsigned MIN with 32bit value
* Atomically unsigned min compare 32bit value with value in memory using amominu.d.
*
* @param addr - Address pointer to data, address need to be 4byte aligned
* value - value to be compared
*
* @return return the smaller value
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE uint32_t __AMOMINU_W(volatile uint32_t *addr, uint32_t value)
{
uint32_t result;
__asm volatile ("amominu.w %0, %2, %1" : \
"=r"(result), "+A"(*addr) : "r"(value) : "memory");
return *addr;
}
/*********************************************************************
* @fn __AMOOR_W
*
* @brief Atomic OR with 32bit value
* Atomically OR 32bit value with value in memory using amoor.d.
*
* @param addr - Address pointer to data, address need to be 4byte aligned
* value - value to be ORed
*
* @return return memory value | and value
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE int32_t __AMOOR_W(volatile int32_t *addr, int32_t value)
{
int32_t result;
__asm volatile ("amoor.w %0, %2, %1" : \
"=r"(result), "+A"(*addr) : "r"(value) : "memory");
return *addr;
}
/*********************************************************************
* @fn __AMOSWAP_W
*
* @brief Atomically swap new 32bit value into memory using amoswap.d.
*
* @param addr - Address pointer to data, address need to be 4byte aligned
* newval - New value to be stored into the address
*
* @return return the original value in memory
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE uint32_t __AMOSWAP_W(volatile uint32_t *addr, uint32_t newval)
{
uint32_t result;
__asm volatile ("amoswap.w %0, %2, %1" : \
"=r"(result), "+A"(*addr) : "r"(newval) : "memory");
return result;
}
/*********************************************************************
* @fn __AMOXOR_W
*
* @brief Atomic XOR with 32bit value
* Atomically XOR 32bit value with value in memory using amoxor.d.
*
* @param addr - Address pointer to data, address need to be 4byte aligned
* value - value to be XORed
*
* @return return memory value ^ and value
*/
__attribute__( ( always_inline ) ) RV_STATIC_INLINE int32_t __AMOXOR_W(volatile int32_t *addr, int32_t value)
{
int32_t result;
__asm volatile ("amoxor.w %0, %2, %1" : \
"=r"(result), "+A"(*addr) : "r"(value) : "memory");
return *addr;
}
/* Core_Exported_Functions */
extern uint32_t __get_FFLAGS(void);
extern void __set_FFLAGS(uint32_t value);
extern uint32_t __get_FRM(void);
extern void __set_FRM(uint32_t value);
extern uint32_t __get_FCSR(void);
extern void __set_FCSR(uint32_t value);
extern uint32_t __get_MSTATUS(void);
extern void __set_MSTATUS(uint32_t value);
extern uint32_t __get_MISA(void);
extern void __set_MISA(uint32_t value);
extern uint32_t __get_MTVEC(void);
extern void __set_MTVEC(uint32_t value);
extern uint32_t __get_MSCRATCH(void);
extern void __set_MSCRATCH(uint32_t value);
extern uint32_t __get_MEPC(void);
extern void __set_MEPC(uint32_t value);
extern uint32_t __get_MCAUSE(void);
extern void __set_MCAUSE(uint32_t value);
extern uint32_t __get_MTVAL(void);
extern void __set_MTVAL(uint32_t value);
extern uint32_t __get_MVENDORID(void);
extern uint32_t __get_MARCHID(void);
extern uint32_t __get_MIMPID(void);
extern uint32_t __get_MHARTID(void);
extern uint32_t __get_SP(void);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : debug.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for UART
* Printf , Delay functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "debug.h"
static uint8_t p_us = 0;
static uint16_t p_ms = 0;
/*********************************************************************
* @fn Delay_Init
*
* @brief Initializes Delay Funcation.
*
* @return none
*/
void Delay_Init(void)
{
p_us = SystemCoreClock / 8000000;
p_ms = (uint16_t)p_us * 1000;
}
/*********************************************************************
* @fn Delay_Us
*
* @brief Microsecond Delay Time.
*
* @param n - Microsecond number.
*
* @return None
*/
void Delay_Us(uint32_t n)
{
uint32_t i;
SysTick->SR &= ~(1 << 0);
i = (uint32_t)n * p_us;
SysTick->CMP = i;
SysTick->CTLR |= (1 << 4);
SysTick->CTLR |= (1 << 5) | (1 << 0);
while((SysTick->SR & (1 << 0)) != (1 << 0))
;
SysTick->CTLR &= ~(1 << 0);
}
/*********************************************************************
* @fn Delay_Ms
*
* @brief Millisecond Delay Time.
*
* @param n - Millisecond number.
*
* @return None
*/
void Delay_Ms(uint32_t n)
{
uint32_t i;
SysTick->SR &= ~(1 << 0);
i = (uint32_t)n * p_ms;
SysTick->CMP = i;
SysTick->CTLR |= (1 << 4);
SysTick->CTLR |= (1 << 5) | (1 << 0);
while((SysTick->SR & (1 << 0)) != (1 << 0))
;
SysTick->CTLR &= ~(1 << 0);
}
/*********************************************************************
* @fn USART_Printf_Init
*
* @brief Initializes the USARTx peripheral.
*
* @param baudrate - USART communication baud rate.
*
* @return None
*/
void USART_Printf_Init(uint32_t baudrate)
{
GPIO_InitTypeDef GPIO_InitStructure;
USART_InitTypeDef USART_InitStructure;
#if(DEBUG == DEBUG_UART1)
RCC_APB2PeriphClockCmd(RCC_APB2Periph_USART1 | RCC_APB2Periph_GPIOA, ENABLE);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_9;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF_PP;
GPIO_Init(GPIOA, &GPIO_InitStructure);
#elif(DEBUG == DEBUG_UART2)
RCC_APB1PeriphClockCmd(RCC_APB1Periph_USART2, ENABLE);
RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOA, ENABLE);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_2;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF_PP;
GPIO_Init(GPIOA, &GPIO_InitStructure);
#elif(DEBUG == DEBUG_UART3)
RCC_APB1PeriphClockCmd(RCC_APB1Periph_USART3, ENABLE);
RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOB, ENABLE);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_10;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF_PP;
GPIO_Init(GPIOB, &GPIO_InitStructure);
#endif
USART_InitStructure.USART_BaudRate = baudrate;
USART_InitStructure.USART_WordLength = USART_WordLength_8b;
USART_InitStructure.USART_StopBits = USART_StopBits_1;
USART_InitStructure.USART_Parity = USART_Parity_No;
USART_InitStructure.USART_HardwareFlowControl = USART_HardwareFlowControl_None;
USART_InitStructure.USART_Mode = USART_Mode_Tx;
#if(DEBUG == DEBUG_UART1)
USART_Init(USART1, &USART_InitStructure);
USART_Cmd(USART1, ENABLE);
#elif(DEBUG == DEBUG_UART2)
USART_Init(USART2, &USART_InitStructure);
USART_Cmd(USART2, ENABLE);
#elif(DEBUG == DEBUG_UART3)
USART_Init(USART3, &USART_InitStructure);
USART_Cmd(USART3, ENABLE);
#endif
}
/*********************************************************************
* @fn _write
*
* @brief Support Printf Function
*
* @param *buf - UART send Data.
* size - Data length
*
* @return size: Data length
*/
__attribute__((used)) int _write(int fd, char *buf, int size)
{
int i;
for(i = 0; i < size; i++)
{
#if(DEBUG == DEBUG_UART1)
while(USART_GetFlagStatus(USART1, USART_FLAG_TC) == RESET);
USART_SendData(USART1, *buf++);
#elif(DEBUG == DEBUG_UART2)
while(USART_GetFlagStatus(USART2, USART_FLAG_TC) == RESET);
USART_SendData(USART2, *buf++);
#elif(DEBUG == DEBUG_UART3)
while(USART_GetFlagStatus(USART3, USART_FLAG_TC) == RESET);
USART_SendData(USART3, *buf++);
#endif
}
return size;
}
/*********************************************************************
* @fn _sbrk
*
* @brief Change the spatial position of data segment.
*
* @return size: Data length
*/
__attribute__((used)) void *_sbrk(ptrdiff_t incr)
{
extern char _end[];
extern char _heap_end[];
static char *curbrk = _end;
if ((curbrk + incr < _end) || (curbrk + incr > _heap_end))
return NULL - 1;
curbrk += incr;
return curbrk - incr;
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : debug.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for UART
* Printf , Delay functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __DEBUG_H
#define __DEBUG_H
#ifdef __cplusplus
extern "C" {
#endif
#include "stdio.h"
#include "ch32v30x.h"
/* UART Printf Definition */
#define DEBUG_UART1 1
#define DEBUG_UART2 2
#define DEBUG_UART3 3
/* DEBUG UATR Definition */
#ifndef DEBUG
#define DEBUG DEBUG_UART1
#endif
void Delay_Init(void);
void Delay_Us (uint32_t n);
void Delay_Ms (uint32_t n);
void USART_Printf_Init(uint32_t baudrate);
#ifdef __cplusplus
}
#endif
#endif

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ch32v307_lvgl_ili9341/Ld/Link.ld Normal file
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ENTRY( _start ) __stack_size = 4096; PROVIDE( _stack_size = __stack_size ); MEMORY { /* CH32V30x_D8C - CH32V305RB-CH32V305FB CH32V30x_D8 - CH32V303CB-CH32V303RB */ /* FLASH (rx) : ORIGIN = 0x00000000, LENGTH = 128K RAM (xrw) : ORIGIN = 0x20000000, LENGTH = 32K */ /* CH32V30x_D8C - CH32V307VC-CH32V307WC-CH32V307RC CH32V30x_D8 - CH32V303VC-CH32V303RC FLASH + RAM supports the following configuration FLASH-192K + RAM-128K FLASH-224K + RAM-96K FLASH-256K + RAM-64K FLASH-288K + RAM-32K */ FLASH (rx) : ORIGIN = 0x00000000, LENGTH = 256K RAM (xrw) : ORIGIN = 0x20000000, LENGTH = 64K } SECTIONS { .init : { _sinit = .; . = ALIGN(4); KEEP(*(SORT_NONE(.init))) . = ALIGN(4); _einit = .; } >FLASH AT>FLASH .vector : { *(.vector); . = ALIGN(64); } >FLASH AT>FLASH .text : { . = ALIGN(4); *(.text) *(.text.*) *(.rodata) *(.rodata*) *(.gnu.linkonce.t.*) . = ALIGN(4); } >FLASH AT>FLASH .fini : { KEEP(*(SORT_NONE(.fini))) . = ALIGN(4); } >FLASH AT>FLASH PROVIDE( _etext = . ); PROVIDE( _eitcm = . ); .preinit_array : { PROVIDE_HIDDEN (__preinit_array_start = .); KEEP (*(.preinit_array)) PROVIDE_HIDDEN (__preinit_array_end = .); } >FLASH AT>FLASH .init_array : { PROVIDE_HIDDEN (__init_array_start = .); KEEP (*(SORT_BY_INIT_PRIORITY(.init_array.*) SORT_BY_INIT_PRIORITY(.ctors.*))) KEEP (*(.init_array EXCLUDE_FILE (*crtbegin.o *crtbegin?.o *crtend.o *crtend?.o ) .ctors)) PROVIDE_HIDDEN (__init_array_end = .); } >FLASH AT>FLASH .fini_array : { PROVIDE_HIDDEN (__fini_array_start = .); KEEP (*(SORT_BY_INIT_PRIORITY(.fini_array.*) SORT_BY_INIT_PRIORITY(.dtors.*))) KEEP (*(.fini_array EXCLUDE_FILE (*crtbegin.o *crtbegin?.o *crtend.o *crtend?.o ) .dtors)) PROVIDE_HIDDEN (__fini_array_end = .); } >FLASH AT>FLASH .ctors : { /* gcc uses crtbegin.o to find the start of the constructors, so we make sure it is first. Because this is a wildcard, it doesn't matter if the user does not actually link against crtbegin.o; the linker won't look for a file to match a wildcard. The wildcard also means that it doesn't matter which directory crtbegin.o is in. */ KEEP (*crtbegin.o(.ctors)) KEEP (*crtbegin?.o(.ctors)) /* We don't want to include the .ctor section from the crtend.o file until after the sorted ctors. The .ctor section from the crtend file contains the end of ctors marker and it must be last */ KEEP (*(EXCLUDE_FILE (*crtend.o *crtend?.o ) .ctors)) KEEP (*(SORT(.ctors.*))) KEEP (*(.ctors)) } >FLASH AT>FLASH .dtors : { KEEP (*crtbegin.o(.dtors)) KEEP (*crtbegin?.o(.dtors)) KEEP (*(EXCLUDE_FILE (*crtend.o *crtend?.o ) .dtors)) KEEP (*(SORT(.dtors.*))) KEEP (*(.dtors)) } >FLASH AT>FLASH .dalign : { . = ALIGN(4); PROVIDE(_data_vma = .); } >RAM AT>FLASH .dlalign : { . = ALIGN(4); PROVIDE(_data_lma = .); } >FLASH AT>FLASH .data : { *(.gnu.linkonce.r.*) *(.data .data.*) *(.gnu.linkonce.d.*) . = ALIGN(8); PROVIDE( __global_pointer$ = . + 0x800 ); *(.sdata .sdata.*) *(.sdata2.*) *(.gnu.linkonce.s.*) . = ALIGN(8); *(.srodata.cst16) *(.srodata.cst8) *(.srodata.cst4) *(.srodata.cst2) *(.srodata .srodata.*) . = ALIGN(4); PROVIDE( _edata = .); } >RAM AT>FLASH .bss : { . = ALIGN(4); PROVIDE( _sbss = .); *(.sbss*) *(.gnu.linkonce.sb.*) *(.bss*) *(.gnu.linkonce.b.*) *(COMMON*) . = ALIGN(4); PROVIDE( _ebss = .); } >RAM AT>FLASH PROVIDE( _end = _ebss); PROVIDE( end = . ); .stack ORIGIN(RAM) + LENGTH(RAM) - __stack_size : { PROVIDE( _heap_end = . ); . = ALIGN(4); PROVIDE(_susrstack = . ); . = . + __stack_size; PROVIDE( _eusrstack = .); } >RAM }

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ch32v307_lvgl_ili9341/Peripheral/inc/ch32v30x.h Normal file
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ch32v307_lvgl_ili9341/Peripheral/inc/ch32v30x_adc.h Normal file
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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_adc.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* ADC firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_ADC_H
#define __CH32V30x_ADC_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* ADC Init structure definition */
typedef struct
{
uint32_t ADC_Mode; /* Configures the ADC to operate in independent or
dual mode.
This parameter can be a value of @ref ADC_mode */
FunctionalState ADC_ScanConvMode; /* Specifies whether the conversion is performed in
Scan (multichannels) or Single (one channel) mode.
This parameter can be set to ENABLE or DISABLE */
FunctionalState ADC_ContinuousConvMode; /* Specifies whether the conversion is performed in
Continuous or Single mode.
This parameter can be set to ENABLE or DISABLE. */
uint32_t ADC_ExternalTrigConv; /* Defines the external trigger used to start the analog
to digital conversion of regular channels. This parameter
can be a value of @ref ADC_external_trigger_sources_for_regular_channels_conversion */
uint32_t ADC_DataAlign; /* Specifies whether the ADC data alignment is left or right.
This parameter can be a value of @ref ADC_data_align */
uint8_t ADC_NbrOfChannel; /* Specifies the number of ADC channels that will be converted
using the sequencer for regular channel group.
This parameter must range from 1 to 16. */
uint32_t ADC_OutputBuffer; /* Specifies whether the ADC channel output buffer is enabled or disabled.
This parameter can be a value of @ref ADC_OutputBuffer */
uint32_t ADC_Pga; /* Specifies the PGA gain multiple.
This parameter can be a value of @ref ADC_Pga */
}ADC_InitTypeDef;
/* ADC_mode */
#define ADC_Mode_Independent ((uint32_t)0x00000000)
#define ADC_Mode_RegInjecSimult ((uint32_t)0x00010000)
#define ADC_Mode_RegSimult_AlterTrig ((uint32_t)0x00020000)
#define ADC_Mode_InjecSimult_FastInterl ((uint32_t)0x00030000)
#define ADC_Mode_InjecSimult_SlowInterl ((uint32_t)0x00040000)
#define ADC_Mode_InjecSimult ((uint32_t)0x00050000)
#define ADC_Mode_RegSimult ((uint32_t)0x00060000)
#define ADC_Mode_FastInterl ((uint32_t)0x00070000)
#define ADC_Mode_SlowInterl ((uint32_t)0x00080000)
#define ADC_Mode_AlterTrig ((uint32_t)0x00090000)
/* ADC_external_trigger_sources_for_regular_channels_conversion */
#define ADC_ExternalTrigConv_T1_CC1 ((uint32_t)0x00000000)
#define ADC_ExternalTrigConv_T1_CC2 ((uint32_t)0x00020000)
#define ADC_ExternalTrigConv_T2_CC2 ((uint32_t)0x00060000)
#define ADC_ExternalTrigConv_T3_TRGO ((uint32_t)0x00080000)
#define ADC_ExternalTrigConv_T4_CC4 ((uint32_t)0x000A0000)
#define ADC_ExternalTrigConv_Ext_IT11_TIM8_TRGO ((uint32_t)0x000C0000)
#define ADC_ExternalTrigConv_T1_CC3 ((uint32_t)0x00040000)
#define ADC_ExternalTrigConv_None ((uint32_t)0x000E0000)
#define ADC_ExternalTrigConv_T3_CC1 ((uint32_t)0x00000000)
#define ADC_ExternalTrigConv_T2_CC3 ((uint32_t)0x00020000)
#define ADC_ExternalTrigConv_T8_CC1 ((uint32_t)0x00060000)
#define ADC_ExternalTrigConv_T8_TRGO ((uint32_t)0x00080000)
#define ADC_ExternalTrigConv_T5_CC1 ((uint32_t)0x000A0000)
#define ADC_ExternalTrigConv_T5_CC3 ((uint32_t)0x000C0000)
/* ADC_data_align */
#define ADC_DataAlign_Right ((uint32_t)0x00000000)
#define ADC_DataAlign_Left ((uint32_t)0x00000800)
/* ADC_channels */
#define ADC_Channel_0 ((uint8_t)0x00)
#define ADC_Channel_1 ((uint8_t)0x01)
#define ADC_Channel_2 ((uint8_t)0x02)
#define ADC_Channel_3 ((uint8_t)0x03)
#define ADC_Channel_4 ((uint8_t)0x04)
#define ADC_Channel_5 ((uint8_t)0x05)
#define ADC_Channel_6 ((uint8_t)0x06)
#define ADC_Channel_7 ((uint8_t)0x07)
#define ADC_Channel_8 ((uint8_t)0x08)
#define ADC_Channel_9 ((uint8_t)0x09)
#define ADC_Channel_10 ((uint8_t)0x0A)
#define ADC_Channel_11 ((uint8_t)0x0B)
#define ADC_Channel_12 ((uint8_t)0x0C)
#define ADC_Channel_13 ((uint8_t)0x0D)
#define ADC_Channel_14 ((uint8_t)0x0E)
#define ADC_Channel_15 ((uint8_t)0x0F)
#define ADC_Channel_16 ((uint8_t)0x10)
#define ADC_Channel_17 ((uint8_t)0x11)
#define ADC_Channel_TempSensor ((uint8_t)ADC_Channel_16)
#define ADC_Channel_Vrefint ((uint8_t)ADC_Channel_17)
/*ADC_output_buffer*/
#define ADC_OutputBuffer_Enable ((uint32_t)0x04000000)
#define ADC_OutputBuffer_Disable ((uint32_t)0x00000000)
/*ADC_pga*/
#define ADC_Pga_1 ((uint32_t)0x00000000)
#define ADC_Pga_4 ((uint32_t)0x08000000)
#define ADC_Pga_16 ((uint32_t)0x10000000)
#define ADC_Pga_64 ((uint32_t)0x18000000)
/* ADC_sampling_time */
#define ADC_SampleTime_1Cycles5 ((uint8_t)0x00)
#define ADC_SampleTime_7Cycles5 ((uint8_t)0x01)
#define ADC_SampleTime_13Cycles5 ((uint8_t)0x02)
#define ADC_SampleTime_28Cycles5 ((uint8_t)0x03)
#define ADC_SampleTime_41Cycles5 ((uint8_t)0x04)
#define ADC_SampleTime_55Cycles5 ((uint8_t)0x05)
#define ADC_SampleTime_71Cycles5 ((uint8_t)0x06)
#define ADC_SampleTime_239Cycles5 ((uint8_t)0x07)
/* ADC_external_trigger_sources_for_injected_channels_conversion */
#define ADC_ExternalTrigInjecConv_T2_TRGO ((uint32_t)0x00002000)
#define ADC_ExternalTrigInjecConv_T2_CC1 ((uint32_t)0x00003000)
#define ADC_ExternalTrigInjecConv_T3_CC4 ((uint32_t)0x00004000)
#define ADC_ExternalTrigInjecConv_T4_TRGO ((uint32_t)0x00005000)
#define ADC_ExternalTrigInjecConv_Ext_IT15_TIM8_CC4 ((uint32_t)0x00006000)
#define ADC_ExternalTrigInjecConv_T1_TRGO ((uint32_t)0x00000000)
#define ADC_ExternalTrigInjecConv_T1_CC4 ((uint32_t)0x00001000)
#define ADC_ExternalTrigInjecConv_None ((uint32_t)0x00007000)
#define ADC_ExternalTrigInjecConv_T4_CC3 ((uint32_t)0x00002000)
#define ADC_ExternalTrigInjecConv_T8_CC2 ((uint32_t)0x00003000)
#define ADC_ExternalTrigInjecConv_T8_CC4 ((uint32_t)0x00004000)
#define ADC_ExternalTrigInjecConv_T5_TRGO ((uint32_t)0x00005000)
#define ADC_ExternalTrigInjecConv_T5_CC4 ((uint32_t)0x00006000)
/* ADC_injected_channel_selection */
#define ADC_InjectedChannel_1 ((uint8_t)0x14)
#define ADC_InjectedChannel_2 ((uint8_t)0x18)
#define ADC_InjectedChannel_3 ((uint8_t)0x1C)
#define ADC_InjectedChannel_4 ((uint8_t)0x20)
/* ADC_analog_watchdog_selection */
#define ADC_AnalogWatchdog_SingleRegEnable ((uint32_t)0x00800200)
#define ADC_AnalogWatchdog_SingleInjecEnable ((uint32_t)0x00400200)
#define ADC_AnalogWatchdog_SingleRegOrInjecEnable ((uint32_t)0x00C00200)
#define ADC_AnalogWatchdog_AllRegEnable ((uint32_t)0x00800000)
#define ADC_AnalogWatchdog_AllInjecEnable ((uint32_t)0x00400000)
#define ADC_AnalogWatchdog_AllRegAllInjecEnable ((uint32_t)0x00C00000)
#define ADC_AnalogWatchdog_None ((uint32_t)0x00000000)
/* ADC_interrupts_definition */
#define ADC_IT_EOC ((uint16_t)0x0220)
#define ADC_IT_AWD ((uint16_t)0x0140)
#define ADC_IT_JEOC ((uint16_t)0x0480)
/* ADC_flags_definition */
#define ADC_FLAG_AWD ((uint8_t)0x01)
#define ADC_FLAG_EOC ((uint8_t)0x02)
#define ADC_FLAG_JEOC ((uint8_t)0x04)
#define ADC_FLAG_JSTRT ((uint8_t)0x08)
#define ADC_FLAG_STRT ((uint8_t)0x10)
void ADC_DeInit(ADC_TypeDef* ADCx);
void ADC_Init(ADC_TypeDef* ADCx, ADC_InitTypeDef* ADC_InitStruct);
void ADC_StructInit(ADC_InitTypeDef* ADC_InitStruct);
void ADC_Cmd(ADC_TypeDef* ADCx, FunctionalState NewState);
void ADC_DMACmd(ADC_TypeDef* ADCx, FunctionalState NewState);
void ADC_ITConfig(ADC_TypeDef* ADCx, uint16_t ADC_IT, FunctionalState NewState);
void ADC_ResetCalibration(ADC_TypeDef* ADCx);
FlagStatus ADC_GetResetCalibrationStatus(ADC_TypeDef* ADCx);
void ADC_StartCalibration(ADC_TypeDef* ADCx);
FlagStatus ADC_GetCalibrationStatus(ADC_TypeDef* ADCx);
void ADC_SoftwareStartConvCmd(ADC_TypeDef* ADCx, FunctionalState NewState);
FlagStatus ADC_GetSoftwareStartConvStatus(ADC_TypeDef* ADCx);
void ADC_DiscModeChannelCountConfig(ADC_TypeDef* ADCx, uint8_t Number);
void ADC_DiscModeCmd(ADC_TypeDef* ADCx, FunctionalState NewState);
void ADC_RegularChannelConfig(ADC_TypeDef* ADCx, uint8_t ADC_Channel, uint8_t Rank, uint8_t ADC_SampleTime);
void ADC_ExternalTrigConvCmd(ADC_TypeDef* ADCx, FunctionalState NewState);
uint16_t ADC_GetConversionValue(ADC_TypeDef* ADCx);
uint32_t ADC_GetDualModeConversionValue(void);
void ADC_AutoInjectedConvCmd(ADC_TypeDef* ADCx, FunctionalState NewState);
void ADC_InjectedDiscModeCmd(ADC_TypeDef* ADCx, FunctionalState NewState);
void ADC_ExternalTrigInjectedConvConfig(ADC_TypeDef* ADCx, uint32_t ADC_ExternalTrigInjecConv);
void ADC_ExternalTrigInjectedConvCmd(ADC_TypeDef* ADCx, FunctionalState NewState);
void ADC_SoftwareStartInjectedConvCmd(ADC_TypeDef* ADCx, FunctionalState NewState);
FlagStatus ADC_GetSoftwareStartInjectedConvCmdStatus(ADC_TypeDef* ADCx);
void ADC_InjectedChannelConfig(ADC_TypeDef* ADCx, uint8_t ADC_Channel, uint8_t Rank, uint8_t ADC_SampleTime);
void ADC_InjectedSequencerLengthConfig(ADC_TypeDef* ADCx, uint8_t Length);
void ADC_SetInjectedOffset(ADC_TypeDef* ADCx, uint8_t ADC_InjectedChannel, uint16_t Offset);
uint16_t ADC_GetInjectedConversionValue(ADC_TypeDef* ADCx, uint8_t ADC_InjectedChannel);
void ADC_AnalogWatchdogCmd(ADC_TypeDef* ADCx, uint32_t ADC_AnalogWatchdog);
void ADC_AnalogWatchdogThresholdsConfig(ADC_TypeDef* ADCx, uint16_t HighThreshold, uint16_t LowThreshold);
void ADC_AnalogWatchdogSingleChannelConfig(ADC_TypeDef* ADCx, uint8_t ADC_Channel);
void ADC_TempSensorVrefintCmd(FunctionalState NewState);
FlagStatus ADC_GetFlagStatus(ADC_TypeDef* ADCx, uint8_t ADC_FLAG);
void ADC_ClearFlag(ADC_TypeDef* ADCx, uint8_t ADC_FLAG);
ITStatus ADC_GetITStatus(ADC_TypeDef* ADCx, uint16_t ADC_IT);
void ADC_ClearITPendingBit(ADC_TypeDef* ADCx, uint16_t ADC_IT);
s32 TempSensor_Volt_To_Temper(s32 Value);
void ADC_BufferCmd(ADC_TypeDef* ADCx, FunctionalState NewState);
int16_t Get_CalibrationValue(ADC_TypeDef* ADCx);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_bkp.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* BKP firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_BKP_H
#define __CH32V30x_BKP_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* Tamper_Pin_active_level */
#define BKP_TamperPinLevel_High ((uint16_t)0x0000)
#define BKP_TamperPinLevel_Low ((uint16_t)0x0001)
/* RTC_output_source_to_output_on_the_Tamper_pin */
#define BKP_RTCOutputSource_None ((uint16_t)0x0000)
#define BKP_RTCOutputSource_CalibClock ((uint16_t)0x0080)
#define BKP_RTCOutputSource_Alarm ((uint16_t)0x0100)
#define BKP_RTCOutputSource_Second ((uint16_t)0x0300)
/* Data_Backup_Register */
#define BKP_DR1 ((uint16_t)0x0004)
#define BKP_DR2 ((uint16_t)0x0008)
#define BKP_DR3 ((uint16_t)0x000C)
#define BKP_DR4 ((uint16_t)0x0010)
#define BKP_DR5 ((uint16_t)0x0014)
#define BKP_DR6 ((uint16_t)0x0018)
#define BKP_DR7 ((uint16_t)0x001C)
#define BKP_DR8 ((uint16_t)0x0020)
#define BKP_DR9 ((uint16_t)0x0024)
#define BKP_DR10 ((uint16_t)0x0028)
#define BKP_DR11 ((uint16_t)0x0040)
#define BKP_DR12 ((uint16_t)0x0044)
#define BKP_DR13 ((uint16_t)0x0048)
#define BKP_DR14 ((uint16_t)0x004C)
#define BKP_DR15 ((uint16_t)0x0050)
#define BKP_DR16 ((uint16_t)0x0054)
#define BKP_DR17 ((uint16_t)0x0058)
#define BKP_DR18 ((uint16_t)0x005C)
#define BKP_DR19 ((uint16_t)0x0060)
#define BKP_DR20 ((uint16_t)0x0064)
#define BKP_DR21 ((uint16_t)0x0068)
#define BKP_DR22 ((uint16_t)0x006C)
#define BKP_DR23 ((uint16_t)0x0070)
#define BKP_DR24 ((uint16_t)0x0074)
#define BKP_DR25 ((uint16_t)0x0078)
#define BKP_DR26 ((uint16_t)0x007C)
#define BKP_DR27 ((uint16_t)0x0080)
#define BKP_DR28 ((uint16_t)0x0084)
#define BKP_DR29 ((uint16_t)0x0088)
#define BKP_DR30 ((uint16_t)0x008C)
#define BKP_DR31 ((uint16_t)0x0090)
#define BKP_DR32 ((uint16_t)0x0094)
#define BKP_DR33 ((uint16_t)0x0098)
#define BKP_DR34 ((uint16_t)0x009C)
#define BKP_DR35 ((uint16_t)0x00A0)
#define BKP_DR36 ((uint16_t)0x00A4)
#define BKP_DR37 ((uint16_t)0x00A8)
#define BKP_DR38 ((uint16_t)0x00AC)
#define BKP_DR39 ((uint16_t)0x00B0)
#define BKP_DR40 ((uint16_t)0x00B4)
#define BKP_DR41 ((uint16_t)0x00B8)
#define BKP_DR42 ((uint16_t)0x00BC)
void BKP_DeInit(void);
void BKP_TamperPinLevelConfig(uint16_t BKP_TamperPinLevel);
void BKP_TamperPinCmd(FunctionalState NewState);
void BKP_ITConfig(FunctionalState NewState);
void BKP_RTCOutputConfig(uint16_t BKP_RTCOutputSource);
void BKP_SetRTCCalibrationValue(uint8_t CalibrationValue);
void BKP_WriteBackupRegister(uint16_t BKP_DR, uint16_t Data);
uint16_t BKP_ReadBackupRegister(uint16_t BKP_DR);
FlagStatus BKP_GetFlagStatus(void);
void BKP_ClearFlag(void);
ITStatus BKP_GetITStatus(void);
void BKP_ClearITPendingBit(void);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_can.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* CAN firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_CAN_H
#define __CH32V30x_CAN_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* CAN init structure definition */
typedef struct
{
uint16_t CAN_Prescaler; /* Specifies the length of a time quantum.
It ranges from 1 to 1024. */
uint8_t CAN_Mode; /* Specifies the CAN operating mode.
This parameter can be a value of
@ref CAN_operating_mode */
uint8_t CAN_SJW; /* Specifies the maximum number of time quanta
the CAN hardware is allowed to lengthen or
shorten a bit to perform resynchronization.
This parameter can be a value of
@ref CAN_synchronisation_jump_width */
uint8_t CAN_BS1; /* Specifies the number of time quanta in Bit
Segment 1. This parameter can be a value of
@ref CAN_time_quantum_in_bit_segment_1 */
uint8_t CAN_BS2; /* Specifies the number of time quanta in Bit
Segment 2.
This parameter can be a value of
@ref CAN_time_quantum_in_bit_segment_2 */
FunctionalState CAN_TTCM; /* Enable or disable the time triggered
communication mode. This parameter can be set
either to ENABLE or DISABLE. */
FunctionalState CAN_ABOM; /* Enable or disable the automatic bus-off
management. This parameter can be set either
to ENABLE or DISABLE. */
FunctionalState CAN_AWUM; /* Enable or disable the automatic wake-up mode.
This parameter can be set either to ENABLE or
DISABLE. */
FunctionalState CAN_NART; /* Enable or disable the no-automatic
retransmission mode. This parameter can be
set either to ENABLE or DISABLE. */
FunctionalState CAN_RFLM; /* Enable or disable the Receive FIFO Locked mode.
This parameter can be set either to ENABLE
or DISABLE. */
FunctionalState CAN_TXFP; /* Enable or disable the transmit FIFO priority.
This parameter can be set either to ENABLE
or DISABLE. */
} CAN_InitTypeDef;
/* CAN filter init structure definition */
typedef struct
{
uint16_t CAN_FilterIdHigh; /* Specifies the filter identification number (MSBs for a 32-bit
configuration, first one for a 16-bit configuration).
This parameter can be a value between 0x0000 and 0xFFFF */
uint16_t CAN_FilterIdLow; /* Specifies the filter identification number (LSBs for a 32-bit
configuration, second one for a 16-bit configuration).
This parameter can be a value between 0x0000 and 0xFFFF */
uint16_t CAN_FilterMaskIdHigh; /* Specifies the filter mask number or identification number,
according to the mode (MSBs for a 32-bit configuration,
first one for a 16-bit configuration).
This parameter can be a value between 0x0000 and 0xFFFF */
uint16_t CAN_FilterMaskIdLow; /* Specifies the filter mask number or identification number,
according to the mode (LSBs for a 32-bit configuration,
second one for a 16-bit configuration).
This parameter can be a value between 0x0000 and 0xFFFF */
uint16_t CAN_FilterFIFOAssignment; /* Specifies the FIFO (0 or 1) which will be assigned to the filter.
This parameter can be a value of @ref CAN_filter_FIFO */
uint8_t CAN_FilterNumber; /* Specifies the filter which will be initialized. It ranges from 0 to 13. */
uint8_t CAN_FilterMode; /* Specifies the filter mode to be initialized.
This parameter can be a value of @ref CAN_filter_mode */
uint8_t CAN_FilterScale; /* Specifies the filter scale.
This parameter can be a value of @ref CAN_filter_scale */
FunctionalState CAN_FilterActivation; /* Enable or disable the filter.
This parameter can be set either to ENABLE or DISABLE. */
} CAN_FilterInitTypeDef;
/* CAN Tx message structure definition */
typedef struct
{
uint32_t StdId; /* Specifies the standard identifier.
This parameter can be a value between 0 to 0x7FF. */
uint32_t ExtId; /* Specifies the extended identifier.
This parameter can be a value between 0 to 0x1FFFFFFF. */
uint8_t IDE; /* Specifies the type of identifier for the message that
will be transmitted. This parameter can be a value
of @ref CAN_identifier_type */
uint8_t RTR; /* Specifies the type of frame for the message that will
be transmitted. This parameter can be a value of
@ref CAN_remote_transmission_request */
uint8_t DLC; /* Specifies the length of the frame that will be
transmitted. This parameter can be a value between
0 to 8 */
uint8_t Data[8]; /* Contains the data to be transmitted. It ranges from 0
to 0xFF. */
} CanTxMsg;
/* CAN Rx message structure definition */
typedef struct
{
uint32_t StdId; /* Specifies the standard identifier.
This parameter can be a value between 0 to 0x7FF. */
uint32_t ExtId; /* Specifies the extended identifier.
This parameter can be a value between 0 to 0x1FFFFFFF. */
uint8_t IDE; /* Specifies the type of identifier for the message that
will be received. This parameter can be a value of
@ref CAN_identifier_type */
uint8_t RTR; /* Specifies the type of frame for the received message.
This parameter can be a value of
@ref CAN_remote_transmission_request */
uint8_t DLC; /* Specifies the length of the frame that will be received.
This parameter can be a value between 0 to 8 */
uint8_t Data[8]; /* Contains the data to be received. It ranges from 0 to
0xFF. */
uint8_t FMI; /* Specifies the index of the filter the message stored in
the mailbox passes through. This parameter can be a
value between 0 to 0xFF */
} CanRxMsg;
/* CAN_sleep_constants */
#define CAN_InitStatus_Failed ((uint8_t)0x00) /* CAN initialization failed */
#define CAN_InitStatus_Success ((uint8_t)0x01) /* CAN initialization OK */
/* CAN_Mode */
#define CAN_Mode_Normal ((uint8_t)0x00) /* normal mode */
#define CAN_Mode_LoopBack ((uint8_t)0x01) /* loopback mode */
#define CAN_Mode_Silent ((uint8_t)0x02) /* silent mode */
#define CAN_Mode_Silent_LoopBack ((uint8_t)0x03) /* loopback combined with silent mode */
/* CAN_Operating_Mode */
#define CAN_OperatingMode_Initialization ((uint8_t)0x00) /* Initialization mode */
#define CAN_OperatingMode_Normal ((uint8_t)0x01) /* Normal mode */
#define CAN_OperatingMode_Sleep ((uint8_t)0x02) /* sleep mode */
/* CAN_Mode_Status */
#define CAN_ModeStatus_Failed ((uint8_t)0x00) /* CAN entering the specific mode failed */
#define CAN_ModeStatus_Success ((uint8_t)!CAN_ModeStatus_Failed) /* CAN entering the specific mode Succeed */
/* CAN_synchronisation_jump_width */
#define CAN_SJW_1tq ((uint8_t)0x00) /* 1 time quantum */
#define CAN_SJW_2tq ((uint8_t)0x01) /* 2 time quantum */
#define CAN_SJW_3tq ((uint8_t)0x02) /* 3 time quantum */
#define CAN_SJW_4tq ((uint8_t)0x03) /* 4 time quantum */
/* CAN_time_quantum_in_bit_segment_1 */
#define CAN_BS1_1tq ((uint8_t)0x00) /* 1 time quantum */
#define CAN_BS1_2tq ((uint8_t)0x01) /* 2 time quantum */
#define CAN_BS1_3tq ((uint8_t)0x02) /* 3 time quantum */
#define CAN_BS1_4tq ((uint8_t)0x03) /* 4 time quantum */
#define CAN_BS1_5tq ((uint8_t)0x04) /* 5 time quantum */
#define CAN_BS1_6tq ((uint8_t)0x05) /* 6 time quantum */
#define CAN_BS1_7tq ((uint8_t)0x06) /* 7 time quantum */
#define CAN_BS1_8tq ((uint8_t)0x07) /* 8 time quantum */
#define CAN_BS1_9tq ((uint8_t)0x08) /* 9 time quantum */
#define CAN_BS1_10tq ((uint8_t)0x09) /* 10 time quantum */
#define CAN_BS1_11tq ((uint8_t)0x0A) /* 11 time quantum */
#define CAN_BS1_12tq ((uint8_t)0x0B) /* 12 time quantum */
#define CAN_BS1_13tq ((uint8_t)0x0C) /* 13 time quantum */
#define CAN_BS1_14tq ((uint8_t)0x0D) /* 14 time quantum */
#define CAN_BS1_15tq ((uint8_t)0x0E) /* 15 time quantum */
#define CAN_BS1_16tq ((uint8_t)0x0F) /* 16 time quantum */
/* CAN_time_quantum_in_bit_segment_2 */
#define CAN_BS2_1tq ((uint8_t)0x00) /* 1 time quantum */
#define CAN_BS2_2tq ((uint8_t)0x01) /* 2 time quantum */
#define CAN_BS2_3tq ((uint8_t)0x02) /* 3 time quantum */
#define CAN_BS2_4tq ((uint8_t)0x03) /* 4 time quantum */
#define CAN_BS2_5tq ((uint8_t)0x04) /* 5 time quantum */
#define CAN_BS2_6tq ((uint8_t)0x05) /* 6 time quantum */
#define CAN_BS2_7tq ((uint8_t)0x06) /* 7 time quantum */
#define CAN_BS2_8tq ((uint8_t)0x07) /* 8 time quantum */
/* CAN_filter_mode */
#define CAN_FilterMode_IdMask ((uint8_t)0x00) /* identifier/mask mode */
#define CAN_FilterMode_IdList ((uint8_t)0x01) /* identifier list mode */
/* CAN_filter_scale */
#define CAN_FilterScale_16bit ((uint8_t)0x00) /* Two 16-bit filters */
#define CAN_FilterScale_32bit ((uint8_t)0x01) /* One 32-bit filter */
/* CAN_filter_FIFO */
#define CAN_Filter_FIFO0 ((uint8_t)0x00) /* Filter FIFO 0 assignment for filter x */
#define CAN_Filter_FIFO1 ((uint8_t)0x01) /* Filter FIFO 1 assignment for filter x */
/* CAN_identifier_type */
#define CAN_Id_Standard ((uint32_t)0x00000000) /* Standard Id */
#define CAN_Id_Extended ((uint32_t)0x00000004) /* Extended Id */
/* CAN_remote_transmission_request */
#define CAN_RTR_Data ((uint32_t)0x00000000) /* Data frame */
#define CAN_RTR_Remote ((uint32_t)0x00000002) /* Remote frame */
/* CAN_transmit_constants */
#define CAN_TxStatus_Failed ((uint8_t)0x00)/* CAN transmission failed */
#define CAN_TxStatus_Ok ((uint8_t)0x01) /* CAN transmission succeeded */
#define CAN_TxStatus_Pending ((uint8_t)0x02) /* CAN transmission pending */
#define CAN_TxStatus_NoMailBox ((uint8_t)0x04) /* CAN cell did not provide an empty mailbox */
/* CAN_receive_FIFO_number_constants */
#define CAN_FIFO0 ((uint8_t)0x00) /* CAN FIFO 0 used to receive */
#define CAN_FIFO1 ((uint8_t)0x01) /* CAN FIFO 1 used to receive */
/* CAN_sleep_constants */
#define CAN_Sleep_Failed ((uint8_t)0x00) /* CAN did not enter the sleep mode */
#define CAN_Sleep_Ok ((uint8_t)0x01) /* CAN entered the sleep mode */
/* CAN_wake_up_constants */
#define CAN_WakeUp_Failed ((uint8_t)0x00) /* CAN did not leave the sleep mode */
#define CAN_WakeUp_Ok ((uint8_t)0x01) /* CAN leaved the sleep mode */
/* CAN_Error_Code_constants */
#define CAN_ErrorCode_NoErr ((uint8_t)0x00) /* No Error */
#define CAN_ErrorCode_StuffErr ((uint8_t)0x10) /* Stuff Error */
#define CAN_ErrorCode_FormErr ((uint8_t)0x20) /* Form Error */
#define CAN_ErrorCode_ACKErr ((uint8_t)0x30) /* Acknowledgment Error */
#define CAN_ErrorCode_BitRecessiveErr ((uint8_t)0x40) /* Bit Recessive Error */
#define CAN_ErrorCode_BitDominantErr ((uint8_t)0x50) /* Bit Dominant Error */
#define CAN_ErrorCode_CRCErr ((uint8_t)0x60) /* CRC Error */
#define CAN_ErrorCode_SoftwareSetErr ((uint8_t)0x70) /* Software Set Error */
/* CAN_flags */
/* If the flag is 0x3XXXXXXX, it means that it can be used with CAN_GetFlagStatus()
* and CAN_ClearFlag() functions.
* If the flag is 0x1XXXXXXX, it means that it can only be used with CAN_GetFlagStatus() function.
*/
/* Transmit Flags */
#define CAN_FLAG_RQCP0 ((uint32_t)0x38000001) /* Request MailBox0 Flag */
#define CAN_FLAG_RQCP1 ((uint32_t)0x38000100) /* Request MailBox1 Flag */
#define CAN_FLAG_RQCP2 ((uint32_t)0x38010000) /* Request MailBox2 Flag */
/* Receive Flags */
#define CAN_FLAG_FMP0 ((uint32_t)0x12000003) /* FIFO 0 Message Pending Flag */
#define CAN_FLAG_FF0 ((uint32_t)0x32000008) /* FIFO 0 Full Flag */
#define CAN_FLAG_FOV0 ((uint32_t)0x32000010) /* FIFO 0 Overrun Flag */
#define CAN_FLAG_FMP1 ((uint32_t)0x14000003) /* FIFO 1 Message Pending Flag */
#define CAN_FLAG_FF1 ((uint32_t)0x34000008) /* FIFO 1 Full Flag */
#define CAN_FLAG_FOV1 ((uint32_t)0x34000010) /* FIFO 1 Overrun Flag */
/* Operating Mode Flags */
#define CAN_FLAG_WKU ((uint32_t)0x31000008) /* Wake up Flag */
#define CAN_FLAG_SLAK ((uint32_t)0x31000012) /* Sleep acknowledge Flag */
/* Note:
*When SLAK intterupt is disabled (SLKIE=0), no polling on SLAKI is possible.
*In this case the SLAK bit can be polled.
*/
/* Error Flags */
#define CAN_FLAG_EWG ((uint32_t)0x10F00001) /* Error Warning Flag */
#define CAN_FLAG_EPV ((uint32_t)0x10F00002) /* Error Passive Flag */
#define CAN_FLAG_BOF ((uint32_t)0x10F00004) /* Bus-Off Flag */
#define CAN_FLAG_LEC ((uint32_t)0x30F00070) /* Last error code Flag */
/* CAN_interrupts */
#define CAN_IT_TME ((uint32_t)0x00000001) /* Transmit mailbox empty Interrupt*/
/* Receive Interrupts */
#define CAN_IT_FMP0 ((uint32_t)0x00000002) /* FIFO 0 message pending Interrupt*/
#define CAN_IT_FF0 ((uint32_t)0x00000004) /* FIFO 0 full Interrupt*/
#define CAN_IT_FOV0 ((uint32_t)0x00000008) /* FIFO 0 overrun Interrupt*/
#define CAN_IT_FMP1 ((uint32_t)0x00000010) /* FIFO 1 message pending Interrupt*/
#define CAN_IT_FF1 ((uint32_t)0x00000020) /* FIFO 1 full Interrupt*/
#define CAN_IT_FOV1 ((uint32_t)0x00000040) /* FIFO 1 overrun Interrupt*/
/* Operating Mode Interrupts */
#define CAN_IT_WKU ((uint32_t)0x00010000) /* Wake-up Interrupt*/
#define CAN_IT_SLK ((uint32_t)0x00020000) /* Sleep acknowledge Interrupt*/
/* Error Interrupts */
#define CAN_IT_EWG ((uint32_t)0x00000100) /* Error warning Interrupt*/
#define CAN_IT_EPV ((uint32_t)0x00000200) /* Error passive Interrupt*/
#define CAN_IT_BOF ((uint32_t)0x00000400) /* Bus-off Interrupt*/
#define CAN_IT_LEC ((uint32_t)0x00000800) /* Last error code Interrupt*/
#define CAN_IT_ERR ((uint32_t)0x00008000) /* Error Interrupt*/
/* Flags named as Interrupts : kept only for FW compatibility */
#define CAN_IT_RQCP0 CAN_IT_TME
#define CAN_IT_RQCP1 CAN_IT_TME
#define CAN_IT_RQCP2 CAN_IT_TME
/* CAN_Legacy */
#define CANINITFAILED CAN_InitStatus_Failed
#define CANINITOK CAN_InitStatus_Success
#define CAN_FilterFIFO0 CAN_Filter_FIFO0
#define CAN_FilterFIFO1 CAN_Filter_FIFO1
#define CAN_ID_STD CAN_Id_Standard
#define CAN_ID_EXT CAN_Id_Extended
#define CAN_RTR_DATA CAN_RTR_Data
#define CAN_RTR_REMOTE CAN_RTR_Remote
#define CANTXFAILE CAN_TxStatus_Failed
#define CANTXOK CAN_TxStatus_Ok
#define CANTXPENDING CAN_TxStatus_Pending
#define CAN_NO_MB CAN_TxStatus_NoMailBox
#define CANSLEEPFAILED CAN_Sleep_Failed
#define CANSLEEPOK CAN_Sleep_Ok
#define CANWAKEUPFAILED CAN_WakeUp_Failed
#define CANWAKEUPOK CAN_WakeUp_Ok
void CAN_DeInit(CAN_TypeDef* CANx);
uint8_t CAN_Init(CAN_TypeDef* CANx, CAN_InitTypeDef* CAN_InitStruct);
void CAN_FilterInit(CAN_FilterInitTypeDef* CAN_FilterInitStruct);
void CAN_StructInit(CAN_InitTypeDef* CAN_InitStruct);
void CAN_SlaveStartBank(uint8_t CAN_BankNumber);
void CAN_DBGFreeze(CAN_TypeDef* CANx, FunctionalState NewState);
void CAN_TTComModeCmd(CAN_TypeDef* CANx, FunctionalState NewState);
uint8_t CAN_Transmit(CAN_TypeDef* CANx, CanTxMsg* TxMessage);
uint8_t CAN_TransmitStatus(CAN_TypeDef* CANx, uint8_t TransmitMailbox);
void CAN_CancelTransmit(CAN_TypeDef* CANx, uint8_t Mailbox);
void CAN_Receive(CAN_TypeDef* CANx, uint8_t FIFONumber, CanRxMsg* RxMessage);
void CAN_FIFORelease(CAN_TypeDef* CANx, uint8_t FIFONumber);
uint8_t CAN_MessagePending(CAN_TypeDef* CANx, uint8_t FIFONumber);
uint8_t CAN_OperatingModeRequest(CAN_TypeDef* CANx, uint8_t CAN_OperatingMode);
uint8_t CAN_Sleep(CAN_TypeDef* CANx);
uint8_t CAN_WakeUp(CAN_TypeDef* CANx);
uint8_t CAN_GetLastErrorCode(CAN_TypeDef* CANx);
uint8_t CAN_GetReceiveErrorCounter(CAN_TypeDef* CANx);
uint8_t CAN_GetLSBTransmitErrorCounter(CAN_TypeDef* CANx);
void CAN_ITConfig(CAN_TypeDef* CANx, uint32_t CAN_IT, FunctionalState NewState);
FlagStatus CAN_GetFlagStatus(CAN_TypeDef* CANx, uint32_t CAN_FLAG);
void CAN_ClearFlag(CAN_TypeDef* CANx, uint32_t CAN_FLAG);
ITStatus CAN_GetITStatus(CAN_TypeDef* CANx, uint32_t CAN_IT);
void CAN_ClearITPendingBit(CAN_TypeDef* CANx, uint32_t CAN_IT);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_crc.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* CRC firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_CRC_H
#define __CH32V30x_CRC_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
void CRC_ResetDR(void);
uint32_t CRC_CalcCRC(uint32_t Data);
uint32_t CRC_CalcBlockCRC(uint32_t pBuffer[], uint32_t BufferLength);
uint32_t CRC_GetCRC(void);
void CRC_SetIDRegister(uint8_t IDValue);
uint8_t CRC_GetIDRegister(void);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_dac.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* DAC firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_DAC_H
#define __CH32V30x_DAC_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* DAC Init structure definition */
typedef struct
{
uint32_t DAC_Trigger; /* Specifies the external trigger for the selected DAC channel.
This parameter can be a value of @ref DAC_trigger_selection */
uint32_t DAC_WaveGeneration; /* Specifies whether DAC channel noise waves or triangle waves
are generated, or whether no wave is generated.
This parameter can be a value of @ref DAC_wave_generation */
uint32_t DAC_LFSRUnmask_TriangleAmplitude; /* Specifies the LFSR mask for noise wave generation or
the maximum amplitude triangle generation for the DAC channel.
This parameter can be a value of @ref DAC_lfsrunmask_triangleamplitude */
uint32_t DAC_OutputBuffer; /* Specifies whether the DAC channel output buffer is enabled or disabled.
This parameter can be a value of @ref DAC_output_buffer */
}DAC_InitTypeDef;
/* DAC_trigger_selection */
#define DAC_Trigger_None ((uint32_t)0x00000000) /* Conversion is automatic once the DAC1_DHRxxxx register
has been loaded, and not by external trigger */
#define DAC_Trigger_T6_TRGO ((uint32_t)0x00000004) /* TIM6 TRGO selected as external conversion trigger for DAC channel */
#define DAC_Trigger_T8_TRGO ((uint32_t)0x0000000C) /* TIM8 TRGO selected as external conversion trigger for DAC channel
only in High-density devices*/
#define DAC_Trigger_T7_TRGO ((uint32_t)0x00000014) /* TIM7 TRGO selected as external conversion trigger for DAC channel */
#define DAC_Trigger_T5_TRGO ((uint32_t)0x0000001C) /* TIM5 TRGO selected as external conversion trigger for DAC channel */
#define DAC_Trigger_T2_TRGO ((uint32_t)0x00000024) /* TIM2 TRGO selected as external conversion trigger for DAC channel */
#define DAC_Trigger_T4_TRGO ((uint32_t)0x0000002C) /* TIM4 TRGO selected as external conversion trigger for DAC channel */
#define DAC_Trigger_Ext_IT9 ((uint32_t)0x00000034) /* EXTI Line9 event selected as external conversion trigger for DAC channel */
#define DAC_Trigger_Software ((uint32_t)0x0000003C) /* Conversion started by software trigger for DAC channel */
/* DAC_wave_generation */
#define DAC_WaveGeneration_None ((uint32_t)0x00000000)
#define DAC_WaveGeneration_Noise ((uint32_t)0x00000040)
#define DAC_WaveGeneration_Triangle ((uint32_t)0x00000080)
/* DAC_lfsrunmask_triangleamplitude */
#define DAC_LFSRUnmask_Bit0 ((uint32_t)0x00000000) /* Unmask DAC channel LFSR bit0 for noise wave generation */
#define DAC_LFSRUnmask_Bits1_0 ((uint32_t)0x00000100) /* Unmask DAC channel LFSR bit[1:0] for noise wave generation */
#define DAC_LFSRUnmask_Bits2_0 ((uint32_t)0x00000200) /* Unmask DAC channel LFSR bit[2:0] for noise wave generation */
#define DAC_LFSRUnmask_Bits3_0 ((uint32_t)0x00000300) /* Unmask DAC channel LFSR bit[3:0] for noise wave generation */
#define DAC_LFSRUnmask_Bits4_0 ((uint32_t)0x00000400) /* Unmask DAC channel LFSR bit[4:0] for noise wave generation */
#define DAC_LFSRUnmask_Bits5_0 ((uint32_t)0x00000500) /* Unmask DAC channel LFSR bit[5:0] for noise wave generation */
#define DAC_LFSRUnmask_Bits6_0 ((uint32_t)0x00000600) /* Unmask DAC channel LFSR bit[6:0] for noise wave generation */
#define DAC_LFSRUnmask_Bits7_0 ((uint32_t)0x00000700) /* Unmask DAC channel LFSR bit[7:0] for noise wave generation */
#define DAC_LFSRUnmask_Bits8_0 ((uint32_t)0x00000800) /* Unmask DAC channel LFSR bit[8:0] for noise wave generation */
#define DAC_LFSRUnmask_Bits9_0 ((uint32_t)0x00000900) /* Unmask DAC channel LFSR bit[9:0] for noise wave generation */
#define DAC_LFSRUnmask_Bits10_0 ((uint32_t)0x00000A00) /* Unmask DAC channel LFSR bit[10:0] for noise wave generation */
#define DAC_LFSRUnmask_Bits11_0 ((uint32_t)0x00000B00) /* Unmask DAC channel LFSR bit[11:0] for noise wave generation */
#define DAC_TriangleAmplitude_1 ((uint32_t)0x00000000) /* Select max triangle amplitude of 1 */
#define DAC_TriangleAmplitude_3 ((uint32_t)0x00000100) /* Select max triangle amplitude of 3 */
#define DAC_TriangleAmplitude_7 ((uint32_t)0x00000200) /* Select max triangle amplitude of 7 */
#define DAC_TriangleAmplitude_15 ((uint32_t)0x00000300) /* Select max triangle amplitude of 15 */
#define DAC_TriangleAmplitude_31 ((uint32_t)0x00000400) /* Select max triangle amplitude of 31 */
#define DAC_TriangleAmplitude_63 ((uint32_t)0x00000500) /* Select max triangle amplitude of 63 */
#define DAC_TriangleAmplitude_127 ((uint32_t)0x00000600) /* Select max triangle amplitude of 127 */
#define DAC_TriangleAmplitude_255 ((uint32_t)0x00000700) /* Select max triangle amplitude of 255 */
#define DAC_TriangleAmplitude_511 ((uint32_t)0x00000800) /* Select max triangle amplitude of 511 */
#define DAC_TriangleAmplitude_1023 ((uint32_t)0x00000900) /* Select max triangle amplitude of 1023 */
#define DAC_TriangleAmplitude_2047 ((uint32_t)0x00000A00) /* Select max triangle amplitude of 2047 */
#define DAC_TriangleAmplitude_4095 ((uint32_t)0x00000B00) /* Select max triangle amplitude of 4095 */
/* DAC_output_buffer */
#define DAC_OutputBuffer_Enable ((uint32_t)0x00000000)
#define DAC_OutputBuffer_Disable ((uint32_t)0x00000002)
/* DAC_Channel_selection */
#define DAC_Channel_1 ((uint32_t)0x00000000)
#define DAC_Channel_2 ((uint32_t)0x00000010)
/* DAC_data_alignment */
#define DAC_Align_12b_R ((uint32_t)0x00000000)
#define DAC_Align_12b_L ((uint32_t)0x00000004)
#define DAC_Align_8b_R ((uint32_t)0x00000008)
/* DAC_wave_generation */
#define DAC_Wave_Noise ((uint32_t)0x00000040)
#define DAC_Wave_Triangle ((uint32_t)0x00000080)
void DAC_DeInit(void);
void DAC_Init(uint32_t DAC_Channel, DAC_InitTypeDef* DAC_InitStruct);
void DAC_StructInit(DAC_InitTypeDef* DAC_InitStruct);
void DAC_Cmd(uint32_t DAC_Channel, FunctionalState NewState);
void DAC_DMACmd(uint32_t DAC_Channel, FunctionalState NewState);
void DAC_SoftwareTriggerCmd(uint32_t DAC_Channel, FunctionalState NewState);
void DAC_DualSoftwareTriggerCmd(FunctionalState NewState);
void DAC_WaveGenerationCmd(uint32_t DAC_Channel, uint32_t DAC_Wave, FunctionalState NewState);
void DAC_SetChannel1Data(uint32_t DAC_Align, uint16_t Data);
void DAC_SetChannel2Data(uint32_t DAC_Align, uint16_t Data);
void DAC_SetDualChannelData(uint32_t DAC_Align, uint16_t Data2, uint16_t Data1);
uint16_t DAC_GetDataOutputValue(uint32_t DAC_Channel);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_dbgmcu.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* DBGMCU firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_DBGMCU_H
#define __CH32V30x_DBGMCU_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
#define DBGMCU_SLEEP ((uint32_t)0x00000001)
#define DBGMCU_STOP ((uint32_t)0x00000002)
#define DBGMCU_STANDBY ((uint32_t)0x00000004)
#define DBGMCU_IWDG_STOP ((uint32_t)0x00000100)
#define DBGMCU_WWDG_STOP ((uint32_t)0x00000200)
#define DBGMCU_I2C1_SMBUS_TIMEOUT ((uint32_t)0x00000400)
#define DBGMCU_I2C2_SMBUS_TIMEOUT ((uint32_t)0x00000800)
#define DBGMCU_TIM1_STOP ((uint32_t)0x00001000)
#define DBGMCU_TIM2_STOP ((uint32_t)0x00002000)
#define DBGMCU_TIM3_STOP ((uint32_t)0x00004000)
#define DBGMCU_TIM4_STOP ((uint32_t)0x00008000)
#define DBGMCU_TIM5_STOP ((uint32_t)0x00010000)
#define DBGMCU_TIM6_STOP ((uint32_t)0x00020000)
#define DBGMCU_TIM7_STOP ((uint32_t)0x00040000)
#define DBGMCU_TIM8_STOP ((uint32_t)0x00080000)
#define DBGMCU_CAN1_STOP ((uint32_t)0x00100000)
#define DBGMCU_CAN2_STOP ((uint32_t)0x00200000)
#define DBGMCU_TIM9_STOP ((uint32_t)0x00400000)
#define DBGMCU_TIM10_STOP ((uint32_t)0x00800000)
uint32_t DBGMCU_GetREVID(void);
uint32_t DBGMCU_GetDEVID(void);
uint32_t __get_DEBUG_CR(void);
void __set_DEBUG_CR(uint32_t value);
void DBGMCU_Config(uint32_t DBGMCU_Periph, FunctionalState NewState);
uint32_t DBGMCU_GetCHIPID( void );
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_dma.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* DMA firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_DMA_H
#define __CH32V30x_DMA_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* DMA Init structure definition */
typedef struct
{
uint32_t DMA_PeripheralBaseAddr; /* Specifies the peripheral base address for DMAy Channelx. */
uint32_t DMA_MemoryBaseAddr; /* Specifies the memory base address for DMAy Channelx. */
uint32_t DMA_DIR; /* Specifies if the peripheral is the source or destination.
This parameter can be a value of @ref DMA_data_transfer_direction */
uint32_t DMA_BufferSize; /* Specifies the buffer size, in data unit, of the specified Channel.
The data unit is equal to the configuration set in DMA_PeripheralDataSize
or DMA_MemoryDataSize members depending in the transfer direction. */
uint32_t DMA_PeripheralInc; /* Specifies whether the Peripheral address register is incremented or not.
This parameter can be a value of @ref DMA_peripheral_incremented_mode */
uint32_t DMA_MemoryInc; /* Specifies whether the memory address register is incremented or not.
This parameter can be a value of @ref DMA_memory_incremented_mode */
uint32_t DMA_PeripheralDataSize; /* Specifies the Peripheral data width.
This parameter can be a value of @ref DMA_peripheral_data_size */
uint32_t DMA_MemoryDataSize; /* Specifies the Memory data width.
This parameter can be a value of @ref DMA_memory_data_size */
uint32_t DMA_Mode; /* Specifies the operation mode of the DMAy Channelx.
This parameter can be a value of @ref DMA_circular_normal_mode.
@note: The circular buffer mode cannot be used if the memory-to-memory
data transfer is configured on the selected Channel */
uint32_t DMA_Priority; /* Specifies the software priority for the DMAy Channelx.
This parameter can be a value of @ref DMA_priority_level */
uint32_t DMA_M2M; /* Specifies if the DMAy Channelx will be used in memory-to-memory transfer.
This parameter can be a value of @ref DMA_memory_to_memory */
}DMA_InitTypeDef;
/* DMA_data_transfer_direction */
#define DMA_DIR_PeripheralDST ((uint32_t)0x00000010)
#define DMA_DIR_PeripheralSRC ((uint32_t)0x00000000)
/* DMA_peripheral_incremented_mode */
#define DMA_PeripheralInc_Enable ((uint32_t)0x00000040)
#define DMA_PeripheralInc_Disable ((uint32_t)0x00000000)
/* DMA_memory_incremented_mode */
#define DMA_MemoryInc_Enable ((uint32_t)0x00000080)
#define DMA_MemoryInc_Disable ((uint32_t)0x00000000)
/* DMA_peripheral_data_size */
#define DMA_PeripheralDataSize_Byte ((uint32_t)0x00000000)
#define DMA_PeripheralDataSize_HalfWord ((uint32_t)0x00000100)
#define DMA_PeripheralDataSize_Word ((uint32_t)0x00000200)
/* DMA_memory_data_size */
#define DMA_MemoryDataSize_Byte ((uint32_t)0x00000000)
#define DMA_MemoryDataSize_HalfWord ((uint32_t)0x00000400)
#define DMA_MemoryDataSize_Word ((uint32_t)0x00000800)
/* DMA_circular_normal_mode */
#define DMA_Mode_Circular ((uint32_t)0x00000020)
#define DMA_Mode_Normal ((uint32_t)0x00000000)
/* DMA_priority_level */
#define DMA_Priority_VeryHigh ((uint32_t)0x00003000)
#define DMA_Priority_High ((uint32_t)0x00002000)
#define DMA_Priority_Medium ((uint32_t)0x00001000)
#define DMA_Priority_Low ((uint32_t)0x00000000)
/* DMA_memory_to_memory */
#define DMA_M2M_Enable ((uint32_t)0x00004000)
#define DMA_M2M_Disable ((uint32_t)0x00000000)
/* DMA_interrupts_definition */
#define DMA_IT_TC ((uint32_t)0x00000002)
#define DMA_IT_HT ((uint32_t)0x00000004)
#define DMA_IT_TE ((uint32_t)0x00000008)
#define DMA1_IT_GL1 ((uint32_t)0x00000001)
#define DMA1_IT_TC1 ((uint32_t)0x00000002)
#define DMA1_IT_HT1 ((uint32_t)0x00000004)
#define DMA1_IT_TE1 ((uint32_t)0x00000008)
#define DMA1_IT_GL2 ((uint32_t)0x00000010)
#define DMA1_IT_TC2 ((uint32_t)0x00000020)
#define DMA1_IT_HT2 ((uint32_t)0x00000040)
#define DMA1_IT_TE2 ((uint32_t)0x00000080)
#define DMA1_IT_GL3 ((uint32_t)0x00000100)
#define DMA1_IT_TC3 ((uint32_t)0x00000200)
#define DMA1_IT_HT3 ((uint32_t)0x00000400)
#define DMA1_IT_TE3 ((uint32_t)0x00000800)
#define DMA1_IT_GL4 ((uint32_t)0x00001000)
#define DMA1_IT_TC4 ((uint32_t)0x00002000)
#define DMA1_IT_HT4 ((uint32_t)0x00004000)
#define DMA1_IT_TE4 ((uint32_t)0x00008000)
#define DMA1_IT_GL5 ((uint32_t)0x00010000)
#define DMA1_IT_TC5 ((uint32_t)0x00020000)
#define DMA1_IT_HT5 ((uint32_t)0x00040000)
#define DMA1_IT_TE5 ((uint32_t)0x00080000)
#define DMA1_IT_GL6 ((uint32_t)0x00100000)
#define DMA1_IT_TC6 ((uint32_t)0x00200000)
#define DMA1_IT_HT6 ((uint32_t)0x00400000)
#define DMA1_IT_TE6 ((uint32_t)0x00800000)
#define DMA1_IT_GL7 ((uint32_t)0x01000000)
#define DMA1_IT_TC7 ((uint32_t)0x02000000)
#define DMA1_IT_HT7 ((uint32_t)0x04000000)
#define DMA1_IT_TE7 ((uint32_t)0x08000000)
#define DMA2_IT_GL1 ((uint32_t)0x10000001)
#define DMA2_IT_TC1 ((uint32_t)0x10000002)
#define DMA2_IT_HT1 ((uint32_t)0x10000004)
#define DMA2_IT_TE1 ((uint32_t)0x10000008)
#define DMA2_IT_GL2 ((uint32_t)0x10000010)
#define DMA2_IT_TC2 ((uint32_t)0x10000020)
#define DMA2_IT_HT2 ((uint32_t)0x10000040)
#define DMA2_IT_TE2 ((uint32_t)0x10000080)
#define DMA2_IT_GL3 ((uint32_t)0x10000100)
#define DMA2_IT_TC3 ((uint32_t)0x10000200)
#define DMA2_IT_HT3 ((uint32_t)0x10000400)
#define DMA2_IT_TE3 ((uint32_t)0x10000800)
#define DMA2_IT_GL4 ((uint32_t)0x10001000)
#define DMA2_IT_TC4 ((uint32_t)0x10002000)
#define DMA2_IT_HT4 ((uint32_t)0x10004000)
#define DMA2_IT_TE4 ((uint32_t)0x10008000)
#define DMA2_IT_GL5 ((uint32_t)0x10010000)
#define DMA2_IT_TC5 ((uint32_t)0x10020000)
#define DMA2_IT_HT5 ((uint32_t)0x10040000)
#define DMA2_IT_TE5 ((uint32_t)0x10080000)
#define DMA2_IT_GL6 ((uint32_t)0x10100000)
#define DMA2_IT_TC6 ((uint32_t)0x10200000)
#define DMA2_IT_HT6 ((uint32_t)0x10400000)
#define DMA2_IT_TE6 ((uint32_t)0x10800000)
#define DMA2_IT_GL7 ((uint32_t)0x11000000)
#define DMA2_IT_TC7 ((uint32_t)0x12000000)
#define DMA2_IT_HT7 ((uint32_t)0x14000000)
#define DMA2_IT_TE7 ((uint32_t)0x18000000)
#define DMA2_IT_GL8 ((uint32_t)0x20000001)
#define DMA2_IT_TC8 ((uint32_t)0x20000002)
#define DMA2_IT_HT8 ((uint32_t)0x20000004)
#define DMA2_IT_TE8 ((uint32_t)0x20000008)
#define DMA2_IT_GL9 ((uint32_t)0x20000010)
#define DMA2_IT_TC9 ((uint32_t)0x20000020)
#define DMA2_IT_HT9 ((uint32_t)0x20000040)
#define DMA2_IT_TE9 ((uint32_t)0x20000080)
#define DMA2_IT_GL10 ((uint32_t)0x20000100)
#define DMA2_IT_TC10 ((uint32_t)0x20000200)
#define DMA2_IT_HT10 ((uint32_t)0x20000400)
#define DMA2_IT_TE10 ((uint32_t)0x20000800)
#define DMA2_IT_GL11 ((uint32_t)0x20001000)
#define DMA2_IT_TC11 ((uint32_t)0x20002000)
#define DMA2_IT_HT11 ((uint32_t)0x20004000)
#define DMA2_IT_TE11 ((uint32_t)0x20008000)
/* DMA_flags_definition */
#define DMA1_FLAG_GL1 ((uint32_t)0x00000001)
#define DMA1_FLAG_TC1 ((uint32_t)0x00000002)
#define DMA1_FLAG_HT1 ((uint32_t)0x00000004)
#define DMA1_FLAG_TE1 ((uint32_t)0x00000008)
#define DMA1_FLAG_GL2 ((uint32_t)0x00000010)
#define DMA1_FLAG_TC2 ((uint32_t)0x00000020)
#define DMA1_FLAG_HT2 ((uint32_t)0x00000040)
#define DMA1_FLAG_TE2 ((uint32_t)0x00000080)
#define DMA1_FLAG_GL3 ((uint32_t)0x00000100)
#define DMA1_FLAG_TC3 ((uint32_t)0x00000200)
#define DMA1_FLAG_HT3 ((uint32_t)0x00000400)
#define DMA1_FLAG_TE3 ((uint32_t)0x00000800)
#define DMA1_FLAG_GL4 ((uint32_t)0x00001000)
#define DMA1_FLAG_TC4 ((uint32_t)0x00002000)
#define DMA1_FLAG_HT4 ((uint32_t)0x00004000)
#define DMA1_FLAG_TE4 ((uint32_t)0x00008000)
#define DMA1_FLAG_GL5 ((uint32_t)0x00010000)
#define DMA1_FLAG_TC5 ((uint32_t)0x00020000)
#define DMA1_FLAG_HT5 ((uint32_t)0x00040000)
#define DMA1_FLAG_TE5 ((uint32_t)0x00080000)
#define DMA1_FLAG_GL6 ((uint32_t)0x00100000)
#define DMA1_FLAG_TC6 ((uint32_t)0x00200000)
#define DMA1_FLAG_HT6 ((uint32_t)0x00400000)
#define DMA1_FLAG_TE6 ((uint32_t)0x00800000)
#define DMA1_FLAG_GL7 ((uint32_t)0x01000000)
#define DMA1_FLAG_TC7 ((uint32_t)0x02000000)
#define DMA1_FLAG_HT7 ((uint32_t)0x04000000)
#define DMA1_FLAG_TE7 ((uint32_t)0x08000000)
#define DMA2_FLAG_GL1 ((uint32_t)0x10000001)
#define DMA2_FLAG_TC1 ((uint32_t)0x10000002)
#define DMA2_FLAG_HT1 ((uint32_t)0x10000004)
#define DMA2_FLAG_TE1 ((uint32_t)0x10000008)
#define DMA2_FLAG_GL2 ((uint32_t)0x10000010)
#define DMA2_FLAG_TC2 ((uint32_t)0x10000020)
#define DMA2_FLAG_HT2 ((uint32_t)0x10000040)
#define DMA2_FLAG_TE2 ((uint32_t)0x10000080)
#define DMA2_FLAG_GL3 ((uint32_t)0x10000100)
#define DMA2_FLAG_TC3 ((uint32_t)0x10000200)
#define DMA2_FLAG_HT3 ((uint32_t)0x10000400)
#define DMA2_FLAG_TE3 ((uint32_t)0x10000800)
#define DMA2_FLAG_GL4 ((uint32_t)0x10001000)
#define DMA2_FLAG_TC4 ((uint32_t)0x10002000)
#define DMA2_FLAG_HT4 ((uint32_t)0x10004000)
#define DMA2_FLAG_TE4 ((uint32_t)0x10008000)
#define DMA2_FLAG_GL5 ((uint32_t)0x10010000)
#define DMA2_FLAG_TC5 ((uint32_t)0x10020000)
#define DMA2_FLAG_HT5 ((uint32_t)0x10040000)
#define DMA2_FLAG_TE5 ((uint32_t)0x10080000)
#define DMA2_FLAG_GL6 ((uint32_t)0x10100000)
#define DMA2_FLAG_TC6 ((uint32_t)0x10200000)
#define DMA2_FLAG_HT6 ((uint32_t)0x10400000)
#define DMA2_FLAG_TE6 ((uint32_t)0x10800000)
#define DMA2_FLAG_GL7 ((uint32_t)0x11000000)
#define DMA2_FLAG_TC7 ((uint32_t)0x12000000)
#define DMA2_FLAG_HT7 ((uint32_t)0x14000000)
#define DMA2_FLAG_TE7 ((uint32_t)0x18000000)
#define DMA2_FLAG_GL8 ((uint32_t)0x20000001)
#define DMA2_FLAG_TC8 ((uint32_t)0x20000002)
#define DMA2_FLAG_HT8 ((uint32_t)0x20000004)
#define DMA2_FLAG_TE8 ((uint32_t)0x20000008)
#define DMA2_FLAG_GL9 ((uint32_t)0x20000010)
#define DMA2_FLAG_TC9 ((uint32_t)0x20000020)
#define DMA2_FLAG_HT9 ((uint32_t)0x20000040)
#define DMA2_FLAG_TE9 ((uint32_t)0x20000080)
#define DMA2_FLAG_GL10 ((uint32_t)0x20000100)
#define DMA2_FLAG_TC10 ((uint32_t)0x20000200)
#define DMA2_FLAG_HT10 ((uint32_t)0x20000400)
#define DMA2_FLAG_TE10 ((uint32_t)0x20000800)
#define DMA2_FLAG_GL11 ((uint32_t)0x20001000)
#define DMA2_FLAG_TC11 ((uint32_t)0x20002000)
#define DMA2_FLAG_HT11 ((uint32_t)0x20004000)
#define DMA2_FLAG_TE11 ((uint32_t)0x20008000)
void DMA_DeInit(DMA_Channel_TypeDef* DMAy_Channelx);
void DMA_Init(DMA_Channel_TypeDef* DMAy_Channelx, DMA_InitTypeDef* DMA_InitStruct);
void DMA_StructInit(DMA_InitTypeDef* DMA_InitStruct);
void DMA_Cmd(DMA_Channel_TypeDef* DMAy_Channelx, FunctionalState NewState);
void DMA_ITConfig(DMA_Channel_TypeDef* DMAy_Channelx, uint32_t DMA_IT, FunctionalState NewState);
void DMA_SetCurrDataCounter(DMA_Channel_TypeDef* DMAy_Channelx, uint16_t DataNumber);
uint16_t DMA_GetCurrDataCounter(DMA_Channel_TypeDef* DMAy_Channelx);
FlagStatus DMA_GetFlagStatus(uint32_t DMAy_FLAG);
void DMA_ClearFlag(uint32_t DMAy_FLAG);
ITStatus DMA_GetITStatus(uint32_t DMAy_IT);
void DMA_ClearITPendingBit(uint32_t DMAy_IT);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_dvp.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* DVP firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_DVP_H
#define __CH32V30x_DVP_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* DVP Data Mode */
typedef enum
{
Video_Mode = 0,
JPEG_Mode,
}DVP_Data_ModeTypeDef;
/* DVP DMA */
typedef enum
{
DVP_DMA_Disable = 0,
DVP_DMA_Enable,
}DVP_DMATypeDef;
/* DVP FLAG and FIFO Reset */
typedef enum
{
DVP_FLAG_FIFO_RESET_Disable = 0,
DVP_FLAG_FIFO_RESET_Enable,
}DVP_FLAG_FIFO_RESETTypeDef;
/* DVP RX Reset */
typedef enum
{
DVP_RX_RESET_Disable = 0,
DVP_RX_RESET_Enable,
}DVP_RX_RESETTypeDef;
void DVP_INTCfg( uint8_t s, uint8_t i );
void DVP_Mode( uint8_t s, DVP_Data_ModeTypeDef i);
void DVP_Cfg( DVP_DMATypeDef s, DVP_FLAG_FIFO_RESETTypeDef i, DVP_RX_RESETTypeDef j);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_exti.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* EXTI firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_EXTI_H
#define __CH32V30x_EXTI_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* EXTI mode enumeration */
typedef enum
{
EXTI_Mode_Interrupt = 0x00,
EXTI_Mode_Event = 0x04
}EXTIMode_TypeDef;
/* EXTI Trigger enumeration */
typedef enum
{
EXTI_Trigger_Rising = 0x08,
EXTI_Trigger_Falling = 0x0C,
EXTI_Trigger_Rising_Falling = 0x10
}EXTITrigger_TypeDef;
/* EXTI Init Structure definition */
typedef struct
{
uint32_t EXTI_Line; /* Specifies the EXTI lines to be enabled or disabled.
This parameter can be any combination of @ref EXTI_Lines */
EXTIMode_TypeDef EXTI_Mode; /* Specifies the mode for the EXTI lines.
This parameter can be a value of @ref EXTIMode_TypeDef */
EXTITrigger_TypeDef EXTI_Trigger; /* Specifies the trigger signal active edge for the EXTI lines.
This parameter can be a value of @ref EXTIMode_TypeDef */
FunctionalState EXTI_LineCmd; /* Specifies the new state of the selected EXTI lines.
This parameter can be set either to ENABLE or DISABLE */
}EXTI_InitTypeDef;
/* EXTI_Lines */
#define EXTI_Line0 ((uint32_t)0x00001) /* External interrupt line 0 */
#define EXTI_Line1 ((uint32_t)0x00002) /* External interrupt line 1 */
#define EXTI_Line2 ((uint32_t)0x00004) /* External interrupt line 2 */
#define EXTI_Line3 ((uint32_t)0x00008) /* External interrupt line 3 */
#define EXTI_Line4 ((uint32_t)0x00010) /* External interrupt line 4 */
#define EXTI_Line5 ((uint32_t)0x00020) /* External interrupt line 5 */
#define EXTI_Line6 ((uint32_t)0x00040) /* External interrupt line 6 */
#define EXTI_Line7 ((uint32_t)0x00080) /* External interrupt line 7 */
#define EXTI_Line8 ((uint32_t)0x00100) /* External interrupt line 8 */
#define EXTI_Line9 ((uint32_t)0x00200) /* External interrupt line 9 */
#define EXTI_Line10 ((uint32_t)0x00400) /* External interrupt line 10 */
#define EXTI_Line11 ((uint32_t)0x00800) /* External interrupt line 11 */
#define EXTI_Line12 ((uint32_t)0x01000) /* External interrupt line 12 */
#define EXTI_Line13 ((uint32_t)0x02000) /* External interrupt line 13 */
#define EXTI_Line14 ((uint32_t)0x04000) /* External interrupt line 14 */
#define EXTI_Line15 ((uint32_t)0x08000) /* External interrupt line 15 */
#define EXTI_Line16 ((uint32_t)0x10000) /* External interrupt line 16 Connected to the PVD Output */
#define EXTI_Line17 ((uint32_t)0x20000) /* External interrupt line 17 Connected to the RTC Alarm event */
#define EXTI_Line18 ((uint32_t)0x40000) /* External interrupt line 18 Connected to the USBD/USBFS OTG
Wakeup from suspend event */
#define EXTI_Line19 ((uint32_t)0x80000) /* External interrupt line 19 Connected to the Ethernet Wakeup event */
#define EXTI_Line20 ((uint32_t)0x100000) /* External interrupt line 20 Connected to the USBHS Wakeup event */
void EXTI_DeInit(void);
void EXTI_Init(EXTI_InitTypeDef* EXTI_InitStruct);
void EXTI_StructInit(EXTI_InitTypeDef* EXTI_InitStruct);
void EXTI_GenerateSWInterrupt(uint32_t EXTI_Line);
FlagStatus EXTI_GetFlagStatus(uint32_t EXTI_Line);
void EXTI_ClearFlag(uint32_t EXTI_Line);
ITStatus EXTI_GetITStatus(uint32_t EXTI_Line);
void EXTI_ClearITPendingBit(uint32_t EXTI_Line);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_flash.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the FLASH
* firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_FLASH_H
#define __CH32V30x_FLASH_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* FLASH Status */
typedef enum
{
FLASH_BUSY = 1,
FLASH_ERROR_PG,
FLASH_ERROR_WRP,
FLASH_COMPLETE,
FLASH_TIMEOUT
}FLASH_Status;
/* Write Protect */
#define FLASH_WRProt_Sectors0 ((uint32_t)0x00000001) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors1 ((uint32_t)0x00000002) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors2 ((uint32_t)0x00000004) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors3 ((uint32_t)0x00000008) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors4 ((uint32_t)0x00000010) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors5 ((uint32_t)0x00000020) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors6 ((uint32_t)0x00000040) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors7 ((uint32_t)0x00000080) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors8 ((uint32_t)0x00000100) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors9 ((uint32_t)0x00000200) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors10 ((uint32_t)0x00000400) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors11 ((uint32_t)0x00000800) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors12 ((uint32_t)0x00001000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors13 ((uint32_t)0x00002000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors14 ((uint32_t)0x00004000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors15 ((uint32_t)0x00008000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors16 ((uint32_t)0x00010000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors17 ((uint32_t)0x00020000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors18 ((uint32_t)0x00040000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors19 ((uint32_t)0x00080000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors20 ((uint32_t)0x00100000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors21 ((uint32_t)0x00200000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors22 ((uint32_t)0x00400000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors23 ((uint32_t)0x00800000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors24 ((uint32_t)0x01000000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors25 ((uint32_t)0x02000000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors26 ((uint32_t)0x04000000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors27 ((uint32_t)0x08000000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors28 ((uint32_t)0x10000000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors29 ((uint32_t)0x20000000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors30 ((uint32_t)0x40000000) /* Write protection of setor 0 */
#define FLASH_WRProt_Sectors31to127 ((uint32_t)0x80000000) /* Write protection of page 62 to 255 */
#define FLASH_WRProt_AllSectors ((uint32_t)0xFFFFFFFF) /* Write protection of all Sectors */
/* Option_Bytes_IWatchdog */
#define OB_IWDG_SW ((uint16_t)0x0001) /* Software IWDG selected */
#define OB_IWDG_HW ((uint16_t)0x0000) /* Hardware IWDG selected */
/* Option_Bytes_nRST_STOP */
#define OB_STOP_NoRST ((uint16_t)0x0002) /* No reset generated when entering in STOP */
#define OB_STOP_RST ((uint16_t)0x0000) /* Reset generated when entering in STOP */
/* Option_Bytes_nRST_STDBY */
#define OB_STDBY_NoRST ((uint16_t)0x0004) /* No reset generated when entering in STANDBY */
#define OB_STDBY_RST ((uint16_t)0x0000) /* Reset generated when entering in STANDBY */
/* FLASH_Interrupts */
#define FLASH_IT_ERROR ((uint32_t)0x00000400) /* FPEC error interrupt source */
#define FLASH_IT_EOP ((uint32_t)0x00001000) /* End of FLASH Operation Interrupt source */
#define FLASH_IT_BANK1_ERROR FLASH_IT_ERROR /* FPEC BANK1 error interrupt source */
#define FLASH_IT_BANK1_EOP FLASH_IT_EOP /* End of FLASH BANK1 Operation Interrupt source */
/* FLASH_Flags */
#define FLASH_FLAG_BSY ((uint32_t)0x00000001) /* FLASH Busy flag */
#define FLASH_FLAG_EOP ((uint32_t)0x00000020) /* FLASH End of Operation flag */
#define FLASH_FLAG_WRPRTERR ((uint32_t)0x00000010) /* FLASH Write protected error flag */
#define FLASH_FLAG_OPTERR ((uint32_t)0x00000001) /* FLASH Option Byte error flag */
#define FLASH_FLAG_BANK1_BSY FLASH_FLAG_BSY /* FLASH BANK1 Busy flag*/
#define FLASH_FLAG_BANK1_EOP FLASH_FLAG_EOP /* FLASH BANK1 End of Operation flag */
#define FLASH_FLAG_BANK1_WRPRTERR FLASH_FLAG_WRPRTERR /* FLASH BANK1 Write protected error flag */
/* FLASH_Access_CLK */
#define FLASH_Access_SYSTEM_HALF ((uint32_t)0x00000000) /* FLASH Access Clock = SYSTEM/2 */
#define FLASH_Access_SYSTEM ((uint32_t)0x02000000) /* FLASH Access Clock = SYSTEM */
/*Functions used for all devices*/
void FLASH_Unlock(void);
void FLASH_Lock(void);
FLASH_Status FLASH_ErasePage(uint32_t Page_Address);
FLASH_Status FLASH_EraseAllPages(void);
FLASH_Status FLASH_EraseOptionBytes(void);
FLASH_Status FLASH_ProgramWord(uint32_t Address, uint32_t Data);
FLASH_Status FLASH_ProgramHalfWord(uint32_t Address, uint16_t Data);
FLASH_Status FLASH_ProgramOptionByteData(uint32_t Address, uint8_t Data);
FLASH_Status FLASH_EnableWriteProtection(uint32_t FLASH_Sectors);
FLASH_Status FLASH_ReadOutProtection(FunctionalState NewState);
FLASH_Status FLASH_UserOptionByteConfig(uint16_t OB_IWDG, uint16_t OB_STOP, uint16_t OB_STDBY);
uint32_t FLASH_GetUserOptionByte(void);
uint32_t FLASH_GetWriteProtectionOptionByte(void);
FlagStatus FLASH_GetReadOutProtectionStatus(void);
void FLASH_ITConfig(uint32_t FLASH_IT, FunctionalState NewState);
FlagStatus FLASH_GetFlagStatus(uint32_t FLASH_FLAG);
void FLASH_ClearFlag(uint32_t FLASH_FLAG);
FLASH_Status FLASH_GetStatus(void);
FLASH_Status FLASH_WaitForLastOperation(uint32_t Timeout);
void FLASH_Unlock_Fast(void);
void FLASH_Lock_Fast(void);
void FLASH_ErasePage_Fast(uint32_t Page_Address);
void FLASH_EraseBlock_32K_Fast(uint32_t Block_Address);
void FLASH_EraseBlock_64K_Fast(uint32_t Block_Address);
void FLASH_ProgramPage_Fast(uint32_t Page_Address, uint32_t* pbuf);
void FLASH_Access_Clock_Cfg(uint32_t FLASH_Access_CLK);
void FLASH_Enhance_Mode(FunctionalState NewState);
/* New function used for all devices */
void FLASH_UnlockBank1(void);
void FLASH_LockBank1(void);
FLASH_Status FLASH_EraseAllBank1Pages(void);
FLASH_Status FLASH_GetBank1Status(void);
FLASH_Status FLASH_WaitForLastBank1Operation(uint32_t Timeout);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_fsmc.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the FSMC
* firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_FSMC_H
#define __CH32V30x_FSMC_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* FSMC Init structure definition */
typedef struct
{
uint32_t FSMC_AddressSetupTime; /* Defines the number of HCLK cycles to configure
the duration of the address setup time.
This parameter can be a value between 0 and 0xF.
@note: It is not used with synchronous NOR Flash memories. */
uint32_t FSMC_AddressHoldTime; /* Defines the number of HCLK cycles to configure
the duration of the address hold time.
This parameter can be a value between 0 and 0xF.
@note: It is not used with synchronous NOR Flash memories.*/
uint32_t FSMC_DataSetupTime; /* Defines the number of HCLK cycles to configure
the duration of the data setup time.
This parameter can be a value between 0 and 0xFF.
@note: It is used for SRAMs, ROMs and asynchronous multiplexed NOR Flash memories. */
uint32_t FSMC_BusTurnAroundDuration; /* Defines the number of HCLK cycles to configure
the duration of the bus turnaround.
This parameter can be a value between 0 and 0xF.
@note: It is only used for multiplexed NOR Flash memories. */
uint32_t FSMC_CLKDivision; /* Defines the period of CLK clock output signal, expressed in number of HCLK cycles.
This parameter can be a value between 1 and 0xF.
@note: This parameter is not used for asynchronous NOR Flash, SRAM or ROM accesses. */
uint32_t FSMC_DataLatency; /* Defines the number of memory clock cycles to issue
to the memory before getting the first data.
The value of this parameter depends on the memory type as shown below:
- It must be set to 0 in case of a CRAM
- It is don't care in asynchronous NOR, SRAM or ROM accesses
- It may assume a value between 0 and 0xF in NOR Flash memories
with synchronous burst mode enable */
uint32_t FSMC_AccessMode; /* Specifies the asynchronous access mode.
This parameter can be a value of @ref FSMC_Access_Mode */
}FSMC_NORSRAMTimingInitTypeDef;
typedef struct
{
uint32_t FSMC_Bank; /* Specifies the NOR/SRAM memory bank that will be used.
This parameter can be a value of @ref FSMC_NORSRAM_Bank */
uint32_t FSMC_DataAddressMux; /* Specifies whether the address and data values are
multiplexed on the databus or not.
This parameter can be a value of @ref FSMC_Data_Address_Bus_Multiplexing */
uint32_t FSMC_MemoryType; /* Specifies the type of external memory attached to
the corresponding memory bank.
This parameter can be a value of @ref FSMC_Memory_Type */
uint32_t FSMC_MemoryDataWidth; /* Specifies the external memory device width.
This parameter can be a value of @ref FSMC_Data_Width */
uint32_t FSMC_BurstAccessMode; /* Enables or disables the burst access mode for Flash memory,
valid only with synchronous burst Flash memories.
This parameter can be a value of @ref FSMC_Burst_Access_Mode */
uint32_t FSMC_AsynchronousWait; /* Enables or disables wait signal during asynchronous transfers,
valid only with asynchronous Flash memories.
This parameter can be a value of @ref FSMC_AsynchronousWait */
uint32_t FSMC_WaitSignalPolarity; /* Specifies the wait signal polarity, valid only when accessing
the Flash memory in burst mode.
This parameter can be a value of @ref FSMC_Wait_Signal_Polarity */
uint32_t FSMC_WrapMode; /* Enables or disables the Wrapped burst access mode for Flash
memory, valid only when accessing Flash memories in burst mode.
This parameter can be a value of @ref FSMC_Wrap_Mode */
uint32_t FSMC_WaitSignalActive; /* Specifies if the wait signal is asserted by the memory one
clock cycle before the wait state or during the wait state,
valid only when accessing memories in burst mode.
This parameter can be a value of @ref FSMC_Wait_Timing */
uint32_t FSMC_WriteOperation; /* Enables or disables the write operation in the selected bank by the FSMC.
This parameter can be a value of @ref FSMC_Write_Operation */
uint32_t FSMC_WaitSignal; /* Enables or disables the wait-state insertion via wait
signal, valid for Flash memory access in burst mode.
This parameter can be a value of @ref FSMC_Wait_Signal */
uint32_t FSMC_ExtendedMode; /* Enables or disables the extended mode.
This parameter can be a value of @ref FSMC_Extended_Mode */
uint32_t FSMC_WriteBurst; /* Enables or disables the write burst operation.
This parameter can be a value of @ref FSMC_Write_Burst */
FSMC_NORSRAMTimingInitTypeDef* FSMC_ReadWriteTimingStruct; /* Timing Parameters for write and read access if the ExtendedMode is not used*/
FSMC_NORSRAMTimingInitTypeDef* FSMC_WriteTimingStruct; /* Timing Parameters for write access if the ExtendedMode is used*/
}FSMC_NORSRAMInitTypeDef;
typedef struct
{
uint32_t FSMC_SetupTime; /* Defines the number of HCLK cycles to setup address before
the command assertion for NAND-Flash read or write access
to common/Attribute or I/O memory space (depending on
the memory space timing to be configured).
This parameter can be a value between 0 and 0xFF.*/
uint32_t FSMC_WaitSetupTime; /* Defines the minimum number of HCLK cycles to assert the
command for NAND-Flash read or write access to
common/Attribute or I/O memory space (depending on the
memory space timing to be configured).
This parameter can be a number between 0x00 and 0xFF */
uint32_t FSMC_HoldSetupTime; /* Defines the number of HCLK clock cycles to hold address
(and data for write access) after the command deassertion
for NAND-Flash read or write access to common/Attribute
or I/O memory space (depending on the memory space timing
to be configured).
This parameter can be a number between 0x00 and 0xFF */
uint32_t FSMC_HiZSetupTime; /* Defines the number of HCLK clock cycles during which the
databus is kept in HiZ after the start of a NAND-Flash
write access to common/Attribute or I/O memory space (depending
on the memory space timing to be configured).
This parameter can be a number between 0x00 and 0xFF */
}FSMC_NAND_PCCARDTimingInitTypeDef;
typedef struct
{
uint32_t FSMC_Bank; /* Specifies the NAND memory bank that will be used.
This parameter can be a value of @ref FSMC_NAND_Bank */
uint32_t FSMC_Waitfeature; /* Enables or disables the Wait feature for the NAND Memory Bank.
This parameter can be any value of @ref FSMC_Wait_feature */
uint32_t FSMC_MemoryDataWidth; /* Specifies the external memory device width.
This parameter can be any value of @ref FSMC_Data_Width */
uint32_t FSMC_ECC; /* Enables or disables the ECC computation.
This parameter can be any value of @ref FSMC_ECC */
uint32_t FSMC_ECCPageSize; /* Defines the page size for the extended ECC.
This parameter can be any value of @ref FSMC_ECC_Page_Size */
uint32_t FSMC_TCLRSetupTime; /* Defines the number of HCLK cycles to configure the
delay between CLE low and RE low.
This parameter can be a value between 0 and 0xFF. */
uint32_t FSMC_TARSetupTime; /* Defines the number of HCLK cycles to configure the
delay between ALE low and RE low.
This parameter can be a number between 0x0 and 0xFF */
FSMC_NAND_PCCARDTimingInitTypeDef* FSMC_CommonSpaceTimingStruct; /* FSMC Common Space Timing */
FSMC_NAND_PCCARDTimingInitTypeDef* FSMC_AttributeSpaceTimingStruct; /* FSMC Attribute Space Timing */
}FSMC_NANDInitTypeDef;
/* FSMC_NORSRAM_Bank */
#define FSMC_Bank1_NORSRAM1 ((uint32_t)0x00000000)
/* FSMC_NAND_Bank */
#define FSMC_Bank2_NAND ((uint32_t)0x00000010)
/* FSMC_Data_Address_Bus_Multiplexing */
#define FSMC_DataAddressMux_Disable ((uint32_t)0x00000000)
#define FSMC_DataAddressMux_Enable ((uint32_t)0x00000002)
/* FSMC_Memory_Type */
#define FSMC_MemoryType_SRAM ((uint32_t)0x00000000)
#define FSMC_MemoryType_PSRAM ((uint32_t)0x00000004)
#define FSMC_MemoryType_NOR ((uint32_t)0x00000008)
/* FSMC_Data_Width */
#define FSMC_MemoryDataWidth_8b ((uint32_t)0x00000000)
#define FSMC_MemoryDataWidth_16b ((uint32_t)0x00000010)
/* FSMC_Burst_Access_Mode */
#define FSMC_BurstAccessMode_Disable ((uint32_t)0x00000000)
#define FSMC_BurstAccessMode_Enable ((uint32_t)0x00000100)
/* FSMC_AsynchronousWait */
#define FSMC_AsynchronousWait_Disable ((uint32_t)0x00000000)
#define FSMC_AsynchronousWait_Enable ((uint32_t)0x00008000)
/* FSMC_Wait_Signal_Polarity */
#define FSMC_WaitSignalPolarity_Low ((uint32_t)0x00000000)
#define FSMC_WaitSignalPolarity_High ((uint32_t)0x00000200)
/* FSMC_Wrap_Mode */
#define FSMC_WrapMode_Disable ((uint32_t)0x00000000)
#define FSMC_WrapMode_Enable ((uint32_t)0x00000400)
/* FSMC_Wait_Timing */
#define FSMC_WaitSignalActive_BeforeWaitState ((uint32_t)0x00000000)
#define FSMC_WaitSignalActive_DuringWaitState ((uint32_t)0x00000800)
/* FSMC_Write_Operation */
#define FSMC_WriteOperation_Disable ((uint32_t)0x00000000)
#define FSMC_WriteOperation_Enable ((uint32_t)0x00001000)
/* FSMC_Wait_Signal */
#define FSMC_WaitSignal_Disable ((uint32_t)0x00000000)
#define FSMC_WaitSignal_Enable ((uint32_t)0x00002000)
/* FSMC_Extended_Mode */
#define FSMC_ExtendedMode_Disable ((uint32_t)0x00000000)
#define FSMC_ExtendedMode_Enable ((uint32_t)0x00004000)
/* FSMC_Write_Burst */
#define FSMC_WriteBurst_Disable ((uint32_t)0x00000000)
#define FSMC_WriteBurst_Enable ((uint32_t)0x00080000)
/* FSMC_Access_Mode */
#define FSMC_AccessMode_A ((uint32_t)0x00000000)
#define FSMC_AccessMode_B ((uint32_t)0x10000000)
#define FSMC_AccessMode_C ((uint32_t)0x20000000)
#define FSMC_AccessMode_D ((uint32_t)0x30000000)
/* FSMC_Wait_feature */
#define FSMC_Waitfeature_Disable ((uint32_t)0x00000000)
#define FSMC_Waitfeature_Enable ((uint32_t)0x00000002)
/* FSMC_ECC */
#define FSMC_ECC_Disable ((uint32_t)0x00000000)
#define FSMC_ECC_Enable ((uint32_t)0x00000040)
/* FSMC_ECC_Page_Size */
#define FSMC_ECCPageSize_256Bytes ((uint32_t)0x00000000)
#define FSMC_ECCPageSize_512Bytes ((uint32_t)0x00020000)
#define FSMC_ECCPageSize_1024Bytes ((uint32_t)0x00040000)
#define FSMC_ECCPageSize_2048Bytes ((uint32_t)0x00060000)
#define FSMC_ECCPageSize_4096Bytes ((uint32_t)0x00080000)
#define FSMC_ECCPageSize_8192Bytes ((uint32_t)0x000A0000)
/* FSMC_Interrupt_sources */
#define FSMC_IT_RisingEdge ((uint32_t)0x00000008)
#define FSMC_IT_Level ((uint32_t)0x00000010)
#define FSMC_IT_FallingEdge ((uint32_t)0x00000020)
/* FSMC_Flags */
#define FSMC_FLAG_RisingEdge ((uint32_t)0x00000001)
#define FSMC_FLAG_Level ((uint32_t)0x00000002)
#define FSMC_FLAG_FallingEdge ((uint32_t)0x00000004)
#define FSMC_FLAG_FEMPT ((uint32_t)0x00000040)
void FSMC_NORSRAMDeInit(uint32_t FSMC_Bank);
void FSMC_NANDDeInit(uint32_t FSMC_Bank);
void FSMC_NORSRAMInit(FSMC_NORSRAMInitTypeDef* FSMC_NORSRAMInitStruct);
void FSMC_NANDInit(FSMC_NANDInitTypeDef* FSMC_NANDInitStruct);
void FSMC_NORSRAMStructInit(FSMC_NORSRAMInitTypeDef* FSMC_NORSRAMInitStruct);
void FSMC_NANDStructInit(FSMC_NANDInitTypeDef* FSMC_NANDInitStruct);
void FSMC_NORSRAMCmd(uint32_t FSMC_Bank, FunctionalState NewState);
void FSMC_NANDCmd(uint32_t FSMC_Bank, FunctionalState NewState);
void FSMC_NANDECCCmd(uint32_t FSMC_Bank, FunctionalState NewState);
uint32_t FSMC_GetECC(uint32_t FSMC_Bank);
void FSMC_ITConfig(uint32_t FSMC_Bank, uint32_t FSMC_IT, FunctionalState NewState);
FlagStatus FSMC_GetFlagStatus(uint32_t FSMC_Bank, uint32_t FSMC_FLAG);
void FSMC_ClearFlag(uint32_t FSMC_Bank, uint32_t FSMC_FLAG);
ITStatus FSMC_GetITStatus(uint32_t FSMC_Bank, uint32_t FSMC_IT);
void FSMC_ClearITPendingBit(uint32_t FSMC_Bank, uint32_t FSMC_IT);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_gpio.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* GPIO firmware library.
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_GPIO_H
#define __CH32V30x_GPIO_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* Output Maximum frequency selection */
typedef enum
{
GPIO_Speed_10MHz = 1,
GPIO_Speed_2MHz,
GPIO_Speed_50MHz
}GPIOSpeed_TypeDef;
/* Configuration Mode enumeration */
typedef enum
{ GPIO_Mode_AIN = 0x0,
GPIO_Mode_IN_FLOATING = 0x04,
GPIO_Mode_IPD = 0x28,
GPIO_Mode_IPU = 0x48,
GPIO_Mode_Out_OD = 0x14,
GPIO_Mode_Out_PP = 0x10,
GPIO_Mode_AF_OD = 0x1C,
GPIO_Mode_AF_PP = 0x18
}GPIOMode_TypeDef;
/* GPIO Init structure definition */
typedef struct
{
uint16_t GPIO_Pin; /* Specifies the GPIO pins to be configured.
This parameter can be any value of @ref GPIO_pins_define */
GPIOSpeed_TypeDef GPIO_Speed; /* Specifies the speed for the selected pins.
This parameter can be a value of @ref GPIOSpeed_TypeDef */
GPIOMode_TypeDef GPIO_Mode; /* Specifies the operating mode for the selected pins.
This parameter can be a value of @ref GPIOMode_TypeDef */
}GPIO_InitTypeDef;
/* Bit_SET and Bit_RESET enumeration */
typedef enum
{
Bit_RESET = 0,
Bit_SET
}BitAction;
/* GPIO_pins_define */
#define GPIO_Pin_0 ((uint16_t)0x0001) /* Pin 0 selected */
#define GPIO_Pin_1 ((uint16_t)0x0002) /* Pin 1 selected */
#define GPIO_Pin_2 ((uint16_t)0x0004) /* Pin 2 selected */
#define GPIO_Pin_3 ((uint16_t)0x0008) /* Pin 3 selected */
#define GPIO_Pin_4 ((uint16_t)0x0010) /* Pin 4 selected */
#define GPIO_Pin_5 ((uint16_t)0x0020) /* Pin 5 selected */
#define GPIO_Pin_6 ((uint16_t)0x0040) /* Pin 6 selected */
#define GPIO_Pin_7 ((uint16_t)0x0080) /* Pin 7 selected */
#define GPIO_Pin_8 ((uint16_t)0x0100) /* Pin 8 selected */
#define GPIO_Pin_9 ((uint16_t)0x0200) /* Pin 9 selected */
#define GPIO_Pin_10 ((uint16_t)0x0400) /* Pin 10 selected */
#define GPIO_Pin_11 ((uint16_t)0x0800) /* Pin 11 selected */
#define GPIO_Pin_12 ((uint16_t)0x1000) /* Pin 12 selected */
#define GPIO_Pin_13 ((uint16_t)0x2000) /* Pin 13 selected */
#define GPIO_Pin_14 ((uint16_t)0x4000) /* Pin 14 selected */
#define GPIO_Pin_15 ((uint16_t)0x8000) /* Pin 15 selected */
#define GPIO_Pin_All ((uint16_t)0xFFFF) /* All pins selected */
/* GPIO_Remap_define */
/* PCFR1 */
#define GPIO_Remap_SPI1 ((uint32_t)0x00000001) /* SPI1 Alternate Function mapping */
#define GPIO_Remap_I2C1 ((uint32_t)0x00000002) /* I2C1 Alternate Function mapping */
#define GPIO_Remap_USART1 ((uint32_t)0x00000004) /* USART1 Alternate Function mapping low bit */
#define GPIO_Remap_USART2 ((uint32_t)0x00000008) /* USART2 Alternate Function mapping */
#define GPIO_PartialRemap_USART3 ((uint32_t)0x00140010) /* USART3 Partial Alternate Function mapping */
#define GPIO_PartialRemap1_USART3 ((uint32_t)0x00140020) /* USART3 Partial1 Alternate Function mapping */
#define GPIO_FullRemap_USART3 ((uint32_t)0x00140030) /* USART3 Full Alternate Function mapping */
#define GPIO_PartialRemap_TIM1 ((uint32_t)0x00160040) /* TIM1 Partial Alternate Function mapping */
#define GPIO_FullRemap_TIM1 ((uint32_t)0x001600C0) /* TIM1 Full Alternate Function mapping */
#define GPIO_PartialRemap1_TIM2 ((uint32_t)0x00180100) /* TIM2 Partial1 Alternate Function mapping */
#define GPIO_PartialRemap2_TIM2 ((uint32_t)0x00180200) /* TIM2 Partial2 Alternate Function mapping */
#define GPIO_FullRemap_TIM2 ((uint32_t)0x00180300) /* TIM2 Full Alternate Function mapping */
#define GPIO_PartialRemap_TIM3 ((uint32_t)0x001A0800) /* TIM3 Partial Alternate Function mapping */
#define GPIO_FullRemap_TIM3 ((uint32_t)0x001A0C00) /* TIM3 Full Alternate Function mapping */
#define GPIO_Remap_TIM4 ((uint32_t)0x00001000) /* TIM4 Alternate Function mapping */
#define GPIO_Remap1_CAN1 ((uint32_t)0x001D4000) /* CAN1 Alternate Function mapping */
#define GPIO_Remap2_CAN1 ((uint32_t)0x001D6000) /* CAN1 Alternate Function mapping */
#define GPIO_Remap_PD01 ((uint32_t)0x00008000) /* PD01 Alternate Function mapping */
#define GPIO_Remap_TIM5CH4_LSI ((uint32_t)0x00200001) /* LSI connected to TIM5 Channel4 input capture for calibration */
#define GPIO_Remap_ADC1_ETRGINJ ((uint32_t)0x00200002) /* ADC1 External Trigger Injected Conversion remapping */
#define GPIO_Remap_ADC1_ETRGREG ((uint32_t)0x00200004) /* ADC1 External Trigger Regular Conversion remapping */
#define GPIO_Remap_ADC2_ETRGINJ ((uint32_t)0x00200008) /* ADC2 External Trigger Injected Conversion remapping */
#define GPIO_Remap_ADC2_ETRGREG ((uint32_t)0x00200010) /* ADC2 External Trigger Regular Conversion remapping */
#define GPIO_Remap_ETH ((uint32_t)0x00200020) /* Ethernet remapping (only for Connectivity line devices) */
#define GPIO_Remap_CAN2 ((uint32_t)0x00200040) /* CAN2 remapping (only for Connectivity line devices) */
#define GPIO_Remap_MII_RMII_SEL ((uint32_t)0x00200080) /* MII or RMII selection */
#define GPIO_Remap_SWJ_Disable ((uint32_t)0x00300400) /* Full SWJ Disabled (JTAG-DP + SW-DP) */
#define GPIO_Remap_SPI3 ((uint32_t)0x00201000) /* SPI3/I2S3 Alternate Function mapping (only for Connectivity line devices) */
#define GPIO_Remap_TIM2ITR1_PTP_SOF ((uint32_t)0x00202000) /* Ethernet PTP output or USB OTG SOF (Start of Frame) connected
to TIM2 Internal Trigger 1 for calibration
(only for Connectivity line devices) */
#define GPIO_Remap_PTP_PPS ((uint32_t)0x00204000) /* Ethernet MAC PPS_PTS output on PB05 (only for Connectivity line devices) */
/* PCFR2 */
#define GPIO_Remap_TIM8 ((uint32_t)0x80000004) /* TIM8 Alternate Function mapping */
#define GPIO_PartialRemap_TIM9 ((uint32_t)0x80130008) /* TIM9 Partial Alternate Function mapping */
#define GPIO_FullRemap_TIM9 ((uint32_t)0x80130010) /* TIM9 Full Alternate Function mapping */
#define GPIO_PartialRemap_TIM10 ((uint32_t)0x80150020) /* TIM10 Partial Alternate Function mapping */
#define GPIO_FullRemap_TIM10 ((uint32_t)0x80150040) /* TIM10 Full Alternate Function mapping */
#define GPIO_Remap_FSMC_NADV ((uint32_t)0x80000400) /* FSMC_NADV Alternate Function mapping */
#define GPIO_PartialRemap_USART4 ((uint32_t)0x80300001) /* USART4 Partial Alternate Function mapping */
#define GPIO_FullRemap_USART4 ((uint32_t)0x80300002) /* USART4 Full Alternate Function mapping */
#define GPIO_PartialRemap_USART5 ((uint32_t)0x80320004) /* USART5 Partial Alternate Function mapping */
#define GPIO_FullRemap_USART5 ((uint32_t)0x80320008) /* USART5 Full Alternate Function mapping */
#define GPIO_PartialRemap_USART6 ((uint32_t)0x80340010) /* USART6 Partial Alternate Function mapping */
#define GPIO_FullRemap_USART6 ((uint32_t)0x80340020) /* USART6 Full Alternate Function mapping */
#define GPIO_PartialRemap_USART7 ((uint32_t)0x80360040) /* USART7 Partial Alternate Function mapping */
#define GPIO_FullRemap_USART7 ((uint32_t)0x80360080) /* USART7 Full Alternate Function mapping */
#define GPIO_PartialRemap_USART8 ((uint32_t)0x80380100) /* USART8 Partial Alternate Function mapping */
#define GPIO_FullRemap_USART8 ((uint32_t)0x80380200) /* USART8 Full Alternate Function mapping */
#define GPIO_Remap_USART1_HighBit ((uint32_t)0x80200400) /* USART1 Alternate Function mapping high bit */
/* GPIO_Port_Sources */
#define GPIO_PortSourceGPIOA ((uint8_t)0x00)
#define GPIO_PortSourceGPIOB ((uint8_t)0x01)
#define GPIO_PortSourceGPIOC ((uint8_t)0x02)
#define GPIO_PortSourceGPIOD ((uint8_t)0x03)
#define GPIO_PortSourceGPIOE ((uint8_t)0x04)
#define GPIO_PortSourceGPIOF ((uint8_t)0x05)
#define GPIO_PortSourceGPIOG ((uint8_t)0x06)
/* GPIO_Pin_sources */
#define GPIO_PinSource0 ((uint8_t)0x00)
#define GPIO_PinSource1 ((uint8_t)0x01)
#define GPIO_PinSource2 ((uint8_t)0x02)
#define GPIO_PinSource3 ((uint8_t)0x03)
#define GPIO_PinSource4 ((uint8_t)0x04)
#define GPIO_PinSource5 ((uint8_t)0x05)
#define GPIO_PinSource6 ((uint8_t)0x06)
#define GPIO_PinSource7 ((uint8_t)0x07)
#define GPIO_PinSource8 ((uint8_t)0x08)
#define GPIO_PinSource9 ((uint8_t)0x09)
#define GPIO_PinSource10 ((uint8_t)0x0A)
#define GPIO_PinSource11 ((uint8_t)0x0B)
#define GPIO_PinSource12 ((uint8_t)0x0C)
#define GPIO_PinSource13 ((uint8_t)0x0D)
#define GPIO_PinSource14 ((uint8_t)0x0E)
#define GPIO_PinSource15 ((uint8_t)0x0F)
/* Ethernet_Media_Interface */
#define GPIO_ETH_MediaInterface_MII ((u32)0x00000000)
#define GPIO_ETH_MediaInterface_RMII ((u32)0x00000001)
void GPIO_DeInit(GPIO_TypeDef* GPIOx);
void GPIO_AFIODeInit(void);
void GPIO_Init(GPIO_TypeDef* GPIOx, GPIO_InitTypeDef* GPIO_InitStruct);
void GPIO_StructInit(GPIO_InitTypeDef* GPIO_InitStruct);
uint8_t GPIO_ReadInputDataBit(GPIO_TypeDef* GPIOx, uint16_t GPIO_Pin);
uint16_t GPIO_ReadInputData(GPIO_TypeDef* GPIOx);
uint8_t GPIO_ReadOutputDataBit(GPIO_TypeDef* GPIOx, uint16_t GPIO_Pin);
uint16_t GPIO_ReadOutputData(GPIO_TypeDef* GPIOx);
void GPIO_SetBits(GPIO_TypeDef* GPIOx, uint16_t GPIO_Pin);
void GPIO_ResetBits(GPIO_TypeDef* GPIOx, uint16_t GPIO_Pin);
void GPIO_WriteBit(GPIO_TypeDef* GPIOx, uint16_t GPIO_Pin, BitAction BitVal);
void GPIO_Write(GPIO_TypeDef* GPIOx, uint16_t PortVal);
void GPIO_PinLockConfig(GPIO_TypeDef* GPIOx, uint16_t GPIO_Pin);
void GPIO_EventOutputConfig(uint8_t GPIO_PortSource, uint8_t GPIO_PinSource);
void GPIO_EventOutputCmd(FunctionalState NewState);
void GPIO_PinRemapConfig(uint32_t GPIO_Remap, FunctionalState NewState);
void GPIO_EXTILineConfig(uint8_t GPIO_PortSource, uint8_t GPIO_PinSource);
void GPIO_ETH_MediaInterfaceConfig(uint32_t GPIO_ETH_MediaInterface);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_i2c.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* I2C firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_I2C_H
#define __CH32V30x_I2C_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* I2C Init structure definition */
typedef struct
{
uint32_t I2C_ClockSpeed; /* Specifies the clock frequency.
This parameter must be set to a value lower than 400kHz */
uint16_t I2C_Mode; /* Specifies the I2C mode.
This parameter can be a value of @ref I2C_mode */
uint16_t I2C_DutyCycle; /* Specifies the I2C fast mode duty cycle.
This parameter can be a value of @ref I2C_duty_cycle_in_fast_mode */
uint16_t I2C_OwnAddress1; /* Specifies the first device own address.
This parameter can be a 7-bit or 10-bit address. */
uint16_t I2C_Ack; /* Enables or disables the acknowledgement.
This parameter can be a value of @ref I2C_acknowledgement */
uint16_t I2C_AcknowledgedAddress; /* Specifies if 7-bit or 10-bit address is acknowledged.
This parameter can be a value of @ref I2C_acknowledged_address */
}I2C_InitTypeDef;
/* I2C_mode */
#define I2C_Mode_I2C ((uint16_t)0x0000)
#define I2C_Mode_SMBusDevice ((uint16_t)0x0002)
#define I2C_Mode_SMBusHost ((uint16_t)0x000A)
/* I2C_duty_cycle_in_fast_mode */
#define I2C_DutyCycle_16_9 ((uint16_t)0x4000) /* I2C fast mode Tlow/Thigh = 16/9 */
#define I2C_DutyCycle_2 ((uint16_t)0xBFFF) /* I2C fast mode Tlow/Thigh = 2 */
/* I2C_acknowledgement */
#define I2C_Ack_Enable ((uint16_t)0x0400)
#define I2C_Ack_Disable ((uint16_t)0x0000)
/* I2C_transfer_direction */
#define I2C_Direction_Transmitter ((uint8_t)0x00)
#define I2C_Direction_Receiver ((uint8_t)0x01)
/* I2C_acknowledged_address */
#define I2C_AcknowledgedAddress_7bit ((uint16_t)0x4000)
#define I2C_AcknowledgedAddress_10bit ((uint16_t)0xC000)
/* I2C_registers */
#define I2C_Register_CTLR1 ((uint8_t)0x00)
#define I2C_Register_CTLR2 ((uint8_t)0x04)
#define I2C_Register_OADDR1 ((uint8_t)0x08)
#define I2C_Register_OADDR2 ((uint8_t)0x0C)
#define I2C_Register_DATAR ((uint8_t)0x10)
#define I2C_Register_STAR1 ((uint8_t)0x14)
#define I2C_Register_STAR2 ((uint8_t)0x18)
#define I2C_Register_CKCFGR ((uint8_t)0x1C)
#define I2C_Register_RTR ((uint8_t)0x20)
/* I2C_SMBus_alert_pin_level */
#define I2C_SMBusAlert_Low ((uint16_t)0x2000)
#define I2C_SMBusAlert_High ((uint16_t)0xDFFF)
/* I2C_PEC_position */
#define I2C_PECPosition_Next ((uint16_t)0x0800)
#define I2C_PECPosition_Current ((uint16_t)0xF7FF)
/* I2C_NACK_position */
#define I2C_NACKPosition_Next ((uint16_t)0x0800)
#define I2C_NACKPosition_Current ((uint16_t)0xF7FF)
/* I2C_interrupts_definition */
#define I2C_IT_BUF ((uint16_t)0x0400)
#define I2C_IT_EVT ((uint16_t)0x0200)
#define I2C_IT_ERR ((uint16_t)0x0100)
/* I2C_interrupts_definition */
#define I2C_IT_SMBALERT ((uint32_t)0x01008000)
#define I2C_IT_TIMEOUT ((uint32_t)0x01004000)
#define I2C_IT_PECERR ((uint32_t)0x01001000)
#define I2C_IT_OVR ((uint32_t)0x01000800)
#define I2C_IT_AF ((uint32_t)0x01000400)
#define I2C_IT_ARLO ((uint32_t)0x01000200)
#define I2C_IT_BERR ((uint32_t)0x01000100)
#define I2C_IT_TXE ((uint32_t)0x06000080)
#define I2C_IT_RXNE ((uint32_t)0x06000040)
#define I2C_IT_STOPF ((uint32_t)0x02000010)
#define I2C_IT_ADD10 ((uint32_t)0x02000008)
#define I2C_IT_BTF ((uint32_t)0x02000004)
#define I2C_IT_ADDR ((uint32_t)0x02000002)
#define I2C_IT_SB ((uint32_t)0x02000001)
/* SR2 register flags */
#define I2C_FLAG_DUALF ((uint32_t)0x00800000)
#define I2C_FLAG_SMBHOST ((uint32_t)0x00400000)
#define I2C_FLAG_SMBDEFAULT ((uint32_t)0x00200000)
#define I2C_FLAG_GENCALL ((uint32_t)0x00100000)
#define I2C_FLAG_TRA ((uint32_t)0x00040000)
#define I2C_FLAG_BUSY ((uint32_t)0x00020000)
#define I2C_FLAG_MSL ((uint32_t)0x00010000)
/* SR1 register flags */
#define I2C_FLAG_SMBALERT ((uint32_t)0x10008000)
#define I2C_FLAG_TIMEOUT ((uint32_t)0x10004000)
#define I2C_FLAG_PECERR ((uint32_t)0x10001000)
#define I2C_FLAG_OVR ((uint32_t)0x10000800)
#define I2C_FLAG_AF ((uint32_t)0x10000400)
#define I2C_FLAG_ARLO ((uint32_t)0x10000200)
#define I2C_FLAG_BERR ((uint32_t)0x10000100)
#define I2C_FLAG_TXE ((uint32_t)0x10000080)
#define I2C_FLAG_RXNE ((uint32_t)0x10000040)
#define I2C_FLAG_STOPF ((uint32_t)0x10000010)
#define I2C_FLAG_ADD10 ((uint32_t)0x10000008)
#define I2C_FLAG_BTF ((uint32_t)0x10000004)
#define I2C_FLAG_ADDR ((uint32_t)0x10000002)
#define I2C_FLAG_SB ((uint32_t)0x10000001)
/****************I2C Master Events (Events grouped in order of communication)********************/
/********************************************************************************************************************
* @brief Start communicate
*
* After master use I2C_GenerateSTART() function sending the START condition,the master
* has to wait for event 5(the Start condition has been correctly
* released on the I2C bus ).
*
*/
/* EVT5 */
#define I2C_EVENT_MASTER_MODE_SELECT ((uint32_t)0x00030001) /* BUSY, MSL and SB flag */
/********************************************************************************************************************
* @brief Address Acknowledge
*
* When start condition correctly released on the bus(check EVT5), the
* master use I2C_Send7bitAddress() function sends the address of the slave(s) with which it will communicate
* it also determines master as transmitter or Receiver. Then the master has to wait that a slave acknowledges
* his address. If an acknowledge is sent on the bus, one of the following events will be set:
*
*
*
* 1) In case of Master Receiver (7-bit addressing): the I2C_EVENT_MASTER_RECEIVER_MODE_SELECTED
* event is set.
*
* 2) In case of Master Transmitter (7-bit addressing): the I2C_EVENT_MASTER_TRANSMITTER_MODE_SELECTED
* is set
*
* 3) In case of 10-Bit addressing mode, the master (after generating the START
* and checking on EVT5) use I2C_SendData() function send the header of 10-bit addressing mode.
* Then master wait EVT9. EVT9 means that the 10-bit addressing header has been correctly sent
* on the bus. Then master should use the function I2C_Send7bitAddress() to send the second part
* of the 10-bit address (LSB) . Then master should wait for event 6.
*
*
*/
/* EVT6 */
#define I2C_EVENT_MASTER_TRANSMITTER_MODE_SELECTED ((uint32_t)0x00070082) /* BUSY, MSL, ADDR, TXE and TRA flags */
#define I2C_EVENT_MASTER_RECEIVER_MODE_SELECTED ((uint32_t)0x00030002) /* BUSY, MSL and ADDR flags */
/*EVT9 */
#define I2C_EVENT_MASTER_MODE_ADDRESS10 ((uint32_t)0x00030008) /* BUSY, MSL and ADD10 flags */
/********************************************************************************************************************
* @brief Communication events
*
* If START condition has generated and slave address
* been acknowledged. then the master has to check one of the following events for
* communication procedures:
*
* 1) Master Receiver mode: The master has to wait on the event EVT7 then use
* I2C_ReceiveData() function to read the data received from the slave .
*
* 2) Master Transmitter mode: The master use I2C_SendData() function to send data
* then to wait on event EVT8 or EVT8_2.
* These two events are similar:
* - EVT8 means that the data has been written in the data register and is
* being shifted out.
* - EVT8_2 means that the data has been physically shifted out and output
* on the bus.
* In most cases, using EVT8 is sufficient for the application.
* Using EVT8_2 will leads to a slower communication speed but will more reliable .
* EVT8_2 is also more suitable than EVT8 for testing on the last data transmission
*
*
* Note:
* In case the user software does not guarantee that this event EVT7 is managed before
* the current byte end of transfer, then user may check on I2C_EVENT_MASTER_BYTE_RECEIVED
* and I2C_FLAG_BTF flag at the same time .But in this case the communication may be slower.
*
*
*/
/* Master Receive mode */
/* EVT7 */
#define I2C_EVENT_MASTER_BYTE_RECEIVED ((uint32_t)0x00030040) /* BUSY, MSL and RXNE flags */
/* Master Transmitter mode*/
/* EVT8 */
#define I2C_EVENT_MASTER_BYTE_TRANSMITTING ((uint32_t)0x00070080) /* TRA, BUSY, MSL, TXE flags */
/* EVT8_2 */
#define I2C_EVENT_MASTER_BYTE_TRANSMITTED ((uint32_t)0x00070084) /* TRA, BUSY, MSL, TXE and BTF flags */
/******************I2C Slave Events (Events grouped in order of communication)******************/
/********************************************************************************************************************
* @brief Start Communicate events
*
* Wait on one of these events at the start of the communication. It means that
* the I2C peripheral detected a start condition of master device generate on the bus.
* If the acknowledge feature is enabled through function I2C_AcknowledgeConfig()),The peripheral generates an ACK condition on the bus.
*
*
*
* a) In normal case (only one address managed by the slave), when the address
* sent by the master matches the own address of the peripheral (configured by
* I2C_OwnAddress1 field) the I2C_EVENT_SLAVE_XXX_ADDRESS_MATCHED event is set
* (where XXX could be TRANSMITTER or RECEIVER).
*
* b) In case the address sent by the master matches the second address of the
* peripheral (configured by the function I2C_OwnAddress2Config() and enabled
* by the function I2C_DualAddressCmd()) the events I2C_EVENT_SLAVE_XXX_SECONDADDRESS_MATCHED
* (where XXX could be TRANSMITTER or RECEIVER) are set.
*
* c) In case the address sent by the master is General Call (address 0x00) and
* if the General Call is enabled for the peripheral (using function I2C_GeneralCallCmd())
* the following event is set I2C_EVENT_SLAVE_GENERALCALLADDRESS_MATCHED.
*
*/
/* EVT1 */
/* a) Case of One Single Address managed by the slave */
#define I2C_EVENT_SLAVE_RECEIVER_ADDRESS_MATCHED ((uint32_t)0x00020002) /* BUSY and ADDR flags */
#define I2C_EVENT_SLAVE_TRANSMITTER_ADDRESS_MATCHED ((uint32_t)0x00060082) /* TRA, BUSY, TXE and ADDR flags */
/* b) Case of Dual address managed by the slave */
#define I2C_EVENT_SLAVE_RECEIVER_SECONDADDRESS_MATCHED ((uint32_t)0x00820000) /* DUALF and BUSY flags */
#define I2C_EVENT_SLAVE_TRANSMITTER_SECONDADDRESS_MATCHED ((uint32_t)0x00860080) /* DUALF, TRA, BUSY and TXE flags */
/* c) Case of General Call enabled for the slave */
#define I2C_EVENT_SLAVE_GENERALCALLADDRESS_MATCHED ((uint32_t)0x00120000) /* GENCALL and BUSY flags */
/********************************************************************************************************************
* @brief Communication events
*
* Wait on one of these events when EVT1 has already been checked :
*
* - Slave Receiver mode:
* - EVT2--The device is expecting to receive a data byte .
* - EVT4--The device is expecting the end of the communication: master
* sends a stop condition and data transmission is stopped.
*
* - Slave Transmitter mode:
* - EVT3--When a byte has been transmitted by the slave and the Master is expecting
* the end of the byte transmission. The two events I2C_EVENT_SLAVE_BYTE_TRANSMITTED and
* I2C_EVENT_SLAVE_BYTE_TRANSMITTING are similar. If the user software doesn't guarantee
* the EVT3 is managed before the current byte end of transfer The second one can optionally
* be used.
* - EVT3_2--When the master sends a NACK to tell slave device that data transmission
* shall end . The slave device has to stop sending
* data bytes and wait a Stop condition from bus.
*
* Note:
* If the user software does not guarantee that the event 2 is
* managed before the current byte end of transfer, User may check on I2C_EVENT_SLAVE_BYTE_RECEIVED
* and I2C_FLAG_BTF flag at the same time .
* In this case the communication will be slower.
*
*/
/* Slave Receiver mode*/
/* EVT2 */
#define I2C_EVENT_SLAVE_BYTE_RECEIVED ((uint32_t)0x00020040) /* BUSY and RXNE flags */
/* EVT4 */
#define I2C_EVENT_SLAVE_STOP_DETECTED ((uint32_t)0x00000010) /* STOPF flag */
/* Slave Transmitter mode*/
/* EVT3 */
#define I2C_EVENT_SLAVE_BYTE_TRANSMITTED ((uint32_t)0x00060084) /* TRA, BUSY, TXE and BTF flags */
#define I2C_EVENT_SLAVE_BYTE_TRANSMITTING ((uint32_t)0x00060080) /* TRA, BUSY and TXE flags */
/*EVT3_2 */
#define I2C_EVENT_SLAVE_ACK_FAILURE ((uint32_t)0x00000400) /* AF flag */
void I2C_DeInit(I2C_TypeDef* I2Cx);
void I2C_Init(I2C_TypeDef* I2Cx, I2C_InitTypeDef* I2C_InitStruct);
void I2C_StructInit(I2C_InitTypeDef* I2C_InitStruct);
void I2C_Cmd(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_DMACmd(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_DMALastTransferCmd(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_GenerateSTART(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_GenerateSTOP(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_AcknowledgeConfig(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_OwnAddress2Config(I2C_TypeDef* I2Cx, uint8_t Address);
void I2C_DualAddressCmd(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_GeneralCallCmd(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_ITConfig(I2C_TypeDef* I2Cx, uint16_t I2C_IT, FunctionalState NewState);
void I2C_SendData(I2C_TypeDef* I2Cx, uint8_t Data);
uint8_t I2C_ReceiveData(I2C_TypeDef* I2Cx);
void I2C_Send7bitAddress(I2C_TypeDef* I2Cx, uint8_t Address, uint8_t I2C_Direction);
uint16_t I2C_ReadRegister(I2C_TypeDef* I2Cx, uint8_t I2C_Register);
void I2C_SoftwareResetCmd(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_NACKPositionConfig(I2C_TypeDef* I2Cx, uint16_t I2C_NACKPosition);
void I2C_SMBusAlertConfig(I2C_TypeDef* I2Cx, uint16_t I2C_SMBusAlert);
void I2C_TransmitPEC(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_PECPositionConfig(I2C_TypeDef* I2Cx, uint16_t I2C_PECPosition);
void I2C_CalculatePEC(I2C_TypeDef* I2Cx, FunctionalState NewState);
uint8_t I2C_GetPEC(I2C_TypeDef* I2Cx);
void I2C_ARPCmd(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_StretchClockCmd(I2C_TypeDef* I2Cx, FunctionalState NewState);
void I2C_FastModeDutyCycleConfig(I2C_TypeDef* I2Cx, uint16_t I2C_DutyCycle);
/*****************************************************************************************
*
* I2C State Monitoring Functions
*
****************************************************************************************
* This I2C driver provides three different ways for I2C state monitoring
* profit the application requirements and constraints:
*
*
* a) First way:
* Using I2C_CheckEvent() function:
* It compares the status registers (STARR1 and STAR2) content to a given event
* (can be the combination of more flags).
* If the current status registers includes the given flags will return SUCCESS.
* and if the current status registers miss flags will returns ERROR.
* - When to use:
* - This function is suitable for most applications as well as for startup
* activity since the events are fully described in the product reference manual
* (CH32FV2x-V3xRM).
* - It is also suitable for users who need to define their own events.
* - Limitations:
* - If an error occurs besides to the monitored error,
* the I2C_CheckEvent() function may return SUCCESS despite the communication
* in corrupted state. it is suggeted to use error interrupts to monitor the error
* events and handle them in IRQ handler.
*
*
* Note:
* The following functions are recommended for error management: :
* - I2C_ITConfig() main function of configure and enable the error interrupts.
* - I2Cx_ER_IRQHandler() will be called when the error interrupt happen.
* Where x is the peripheral instance (I2C1, I2C2 ...)
* - I2Cx_ER_IRQHandler() will call I2C_GetFlagStatus() or I2C_GetITStatus() functions
* to determine which error occurred.
* - I2C_ClearFlag() \ I2C_ClearITPendingBit() \ I2C_SoftwareResetCmd()
* \ I2C_GenerateStop() will be use to clear the error flag and source,
* and return to correct communication status.
*
*
* b) Second way:
* Using the function to get a single word(uint32_t) composed of status register 1 and register 2.
* (Status Register 2 value is shifted left by 16 bits and concatenated to Status Register 1).
* - When to use:
*
* - This function is suitable for the same applications above but it
* don't have the limitations of I2C_GetFlagStatus() function .
* The returned value could be compared to events already defined in the
* library (CH32V30x_i2c.h) or to custom values defined by user.
* - This function can be used to monitor the status of multiple flags simultaneously.
* - Contrary to the I2C_CheckEvent () function, this function can choose the time to
* accept the event according to the user's needs (when all event flags are set and
* no other flags are set, or only when the required flags are set)
*
* - Limitations:
* - User may need to define his own events.
* - Same remark concerning the error management is applicable for this
* function if user decides to check only regular communication flags (and
* ignores error flags).
*
*
* c) Third way:
* Using the function I2C_GetFlagStatus() get the status of
* one single flag .
* - When to use:
* - This function could be used for specific applications or in debug phase.
* - It is suitable when only one flag checking is needed .
*
* - Limitations:
* - Call this function to access the status register. Some flag bits may be cleared.
* - Function may need to be called twice or more in order to monitor one single event.
*/
/*********************************************************
*
* a) Basic state monitoring(First way)
********************************************************
*/
ErrorStatus I2C_CheckEvent(I2C_TypeDef* I2Cx, uint32_t I2C_EVENT);
/*********************************************************
*
* b) Advanced state monitoring(Second way:)
********************************************************
*/
uint32_t I2C_GetLastEvent(I2C_TypeDef* I2Cx);
/*********************************************************
*
* c) Flag-based state monitoring(Third way)
*********************************************************
*/
FlagStatus I2C_GetFlagStatus(I2C_TypeDef* I2Cx, uint32_t I2C_FLAG);
void I2C_ClearFlag(I2C_TypeDef* I2Cx, uint32_t I2C_FLAG);
ITStatus I2C_GetITStatus(I2C_TypeDef* I2Cx, uint32_t I2C_IT);
void I2C_ClearITPendingBit(I2C_TypeDef* I2Cx, uint32_t I2C_IT);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_iwdg.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* IWDG firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_IWDG_H
#define __CH32V30x_IWDG_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* IWDG_WriteAccess */
#define IWDG_WriteAccess_Enable ((uint16_t)0x5555)
#define IWDG_WriteAccess_Disable ((uint16_t)0x0000)
/* IWDG_prescaler */
#define IWDG_Prescaler_4 ((uint8_t)0x00)
#define IWDG_Prescaler_8 ((uint8_t)0x01)
#define IWDG_Prescaler_16 ((uint8_t)0x02)
#define IWDG_Prescaler_32 ((uint8_t)0x03)
#define IWDG_Prescaler_64 ((uint8_t)0x04)
#define IWDG_Prescaler_128 ((uint8_t)0x05)
#define IWDG_Prescaler_256 ((uint8_t)0x06)
/* IWDG_Flag */
#define IWDG_FLAG_PVU ((uint16_t)0x0001)
#define IWDG_FLAG_RVU ((uint16_t)0x0002)
void IWDG_WriteAccessCmd(uint16_t IWDG_WriteAccess);
void IWDG_SetPrescaler(uint8_t IWDG_Prescaler);
void IWDG_SetReload(uint16_t Reload);
void IWDG_ReloadCounter(void);
void IWDG_Enable(void);
FlagStatus IWDG_GetFlagStatus(uint16_t IWDG_FLAG);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_misc.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* miscellaneous firmware library functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30X_MISC_H
#define __CH32V30X_MISC_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* NVIC Init Structure definition */
typedef struct
{
uint8_t NVIC_IRQChannel;
uint8_t NVIC_IRQChannelPreemptionPriority;
uint8_t NVIC_IRQChannelSubPriority;
FunctionalState NVIC_IRQChannelCmd;
} NVIC_InitTypeDef;
/* Preemption_Priority_Group */
#define NVIC_PriorityGroup_0 ((uint32_t)0x00)
#define NVIC_PriorityGroup_1 ((uint32_t)0x01)
#define NVIC_PriorityGroup_2 ((uint32_t)0x02)
#define NVIC_PriorityGroup_3 ((uint32_t)0x03)
#define NVIC_PriorityGroup_4 ((uint32_t)0x04)
void NVIC_PriorityGroupConfig(uint32_t NVIC_PriorityGroup);
void NVIC_Init(NVIC_InitTypeDef* NVIC_InitStruct);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_opa.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* OPA firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_OPA_H
#define __CH32V30x_OPA_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
#define OPA_PSEL_OFFSET 3
#define OPA_NSEL_OFFSET 2
#define OPA_MODE_OFFSET 1
/* OPA member enumeration */
typedef enum
{
OPA1=0,
OPA2,
OPA3,
OPA4
}OPA_Num_TypeDef;
/* OPA PSEL enumeration */
typedef enum
{
CHP0=0,
CHP1
}OPA_PSEL_TypeDef;
/* OPA NSEL enumeration */
typedef enum
{
CHN0=0,
CHN1
}OPA_NSEL_TypeDef;
/* OPA out channel enumeration */
typedef enum
{
OUT_IO_OUT0=0,
OUT_IO_OUT1
}OPA_Mode_TypeDef;
/* OPA Init Structure definition */
typedef struct
{
OPA_Num_TypeDef OPA_NUM; /* Specifies the members of OPA */
OPA_PSEL_TypeDef PSEL; /* Specifies the positive channel of OPA */
OPA_NSEL_TypeDef NSEL; /* Specifies the negative channel of OPA */
OPA_Mode_TypeDef Mode; /* Specifies the mode of OPA */
}OPA_InitTypeDef;
void OPA_DeInit(void);
void OPA_Init(OPA_InitTypeDef* OPA_InitStruct);
void OPA_StructInit(OPA_InitTypeDef* OPA_InitStruct);
void OPA_Cmd(OPA_Num_TypeDef OPA_NUM, FunctionalState NewState);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_pwr.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the PWR
* firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_PWR_H
#define __CH32V30x_PWR_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* PVD_detection_level */
#define PWR_PVDLevel_2V2 ((uint32_t)0x00000000)
#define PWR_PVDLevel_2V3 ((uint32_t)0x00000020)
#define PWR_PVDLevel_2V4 ((uint32_t)0x00000040)
#define PWR_PVDLevel_2V5 ((uint32_t)0x00000060)
#define PWR_PVDLevel_2V6 ((uint32_t)0x00000080)
#define PWR_PVDLevel_2V7 ((uint32_t)0x000000A0)
#define PWR_PVDLevel_2V8 ((uint32_t)0x000000C0)
#define PWR_PVDLevel_2V9 ((uint32_t)0x000000E0)
/* Regulator_state_is_STOP_mode */
#define PWR_Regulator_ON ((uint32_t)0x00000000)
#define PWR_Regulator_LowPower ((uint32_t)0x00000001)
/* STOP_mode_entry */
#define PWR_STOPEntry_WFI ((uint8_t)0x01)
#define PWR_STOPEntry_WFE ((uint8_t)0x02)
/* PWR_Flag */
#define PWR_FLAG_WU ((uint32_t)0x00000001)
#define PWR_FLAG_SB ((uint32_t)0x00000002)
#define PWR_FLAG_PVDO ((uint32_t)0x00000004)
void PWR_DeInit(void);
void PWR_BackupAccessCmd(FunctionalState NewState);
void PWR_PVDCmd(FunctionalState NewState);
void PWR_PVDLevelConfig(uint32_t PWR_PVDLevel);
void PWR_WakeUpPinCmd(FunctionalState NewState);
void PWR_EnterSTOPMode(uint32_t PWR_Regulator, uint8_t PWR_STOPEntry);
void PWR_EnterSTANDBYMode(void);
FlagStatus PWR_GetFlagStatus(uint32_t PWR_FLAG);
void PWR_ClearFlag(uint32_t PWR_FLAG);
void PWR_EnterSTANDBYMode_RAM(void);
void PWR_EnterSTANDBYMode_RAM_LV(void);
void PWR_EnterSTANDBYMode_RAM_VBAT_EN(void);
void PWR_EnterSTANDBYMode_RAM_LV_VBAT_EN(void);
void PWR_EnterSTOPMode_RAM_LV(uint32_t PWR_Regulator, uint8_t PWR_STOPEntry);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_rcc.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the RCC firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_RCC_H
#define __CH32V30x_RCC_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* RCC_Exported_Types */
typedef struct
{
uint32_t SYSCLK_Frequency; /* returns SYSCLK clock frequency expressed in Hz */
uint32_t HCLK_Frequency; /* returns HCLK clock frequency expressed in Hz */
uint32_t PCLK1_Frequency; /* returns PCLK1 clock frequency expressed in Hz */
uint32_t PCLK2_Frequency; /* returns PCLK2 clock frequency expressed in Hz */
uint32_t ADCCLK_Frequency; /* returns ADCCLK clock frequency expressed in Hz */
}RCC_ClocksTypeDef;
/* HSE_configuration */
#define RCC_HSE_OFF ((uint32_t)0x00000000)
#define RCC_HSE_ON ((uint32_t)0x00010000)
#define RCC_HSE_Bypass ((uint32_t)0x00040000)
/* PLL_entry_clock_source */
#define RCC_PLLSource_HSI_Div2 ((uint32_t)0x00000000)
#ifdef CH32V30x_D8
#define RCC_PLLSource_HSE_Div1 ((uint32_t)0x00010000)
#define RCC_PLLSource_HSE_Div2 ((uint32_t)0x00030000)
#else
#define RCC_PLLSource_PREDIV1 ((uint32_t)0x00010000)
#endif
/* PLL_multiplication_factor */
#ifdef CH32V30x_D8
#define RCC_PLLMul_2 ((uint32_t)0x00000000)
#define RCC_PLLMul_3 ((uint32_t)0x00040000)
#define RCC_PLLMul_4 ((uint32_t)0x00080000)
#define RCC_PLLMul_5 ((uint32_t)0x000C0000)
#define RCC_PLLMul_6 ((uint32_t)0x00100000)
#define RCC_PLLMul_7 ((uint32_t)0x00140000)
#define RCC_PLLMul_8 ((uint32_t)0x00180000)
#define RCC_PLLMul_9 ((uint32_t)0x001C0000)
#define RCC_PLLMul_10 ((uint32_t)0x00200000)
#define RCC_PLLMul_11 ((uint32_t)0x00240000)
#define RCC_PLLMul_12 ((uint32_t)0x00280000)
#define RCC_PLLMul_13 ((uint32_t)0x002C0000)
#define RCC_PLLMul_14 ((uint32_t)0x00300000)
#define RCC_PLLMul_15 ((uint32_t)0x00340000)
#define RCC_PLLMul_16 ((uint32_t)0x00380000)
#define RCC_PLLMul_18 ((uint32_t)0x003C0000)
#else
#define RCC_PLLMul_18_EXTEN ((uint32_t)0x00000000)
#define RCC_PLLMul_3_EXTEN ((uint32_t)0x00040000)
#define RCC_PLLMul_4_EXTEN ((uint32_t)0x00080000)
#define RCC_PLLMul_5_EXTEN ((uint32_t)0x000C0000)
#define RCC_PLLMul_6_EXTEN ((uint32_t)0x00100000)
#define RCC_PLLMul_7_EXTEN ((uint32_t)0x00140000)
#define RCC_PLLMul_8_EXTEN ((uint32_t)0x00180000)
#define RCC_PLLMul_9_EXTEN ((uint32_t)0x001C0000)
#define RCC_PLLMul_10_EXTEN ((uint32_t)0x00200000)
#define RCC_PLLMul_11_EXTEN ((uint32_t)0x00240000)
#define RCC_PLLMul_12_EXTEN ((uint32_t)0x00280000)
#define RCC_PLLMul_13_EXTEN ((uint32_t)0x002C0000)
#define RCC_PLLMul_14_EXTEN ((uint32_t)0x00300000)
#define RCC_PLLMul_6_5_EXTEN ((uint32_t)0x00340000)
#define RCC_PLLMul_15_EXTEN ((uint32_t)0x00380000)
#define RCC_PLLMul_16_EXTEN ((uint32_t)0x003C0000)
#endif
/* PREDIV1_division_factor */
#ifdef CH32V30x_D8C
#define RCC_PREDIV1_Div1 ((uint32_t)0x00000000)
#define RCC_PREDIV1_Div2 ((uint32_t)0x00000001)
#define RCC_PREDIV1_Div3 ((uint32_t)0x00000002)
#define RCC_PREDIV1_Div4 ((uint32_t)0x00000003)
#define RCC_PREDIV1_Div5 ((uint32_t)0x00000004)
#define RCC_PREDIV1_Div6 ((uint32_t)0x00000005)
#define RCC_PREDIV1_Div7 ((uint32_t)0x00000006)
#define RCC_PREDIV1_Div8 ((uint32_t)0x00000007)
#define RCC_PREDIV1_Div9 ((uint32_t)0x00000008)
#define RCC_PREDIV1_Div10 ((uint32_t)0x00000009)
#define RCC_PREDIV1_Div11 ((uint32_t)0x0000000A)
#define RCC_PREDIV1_Div12 ((uint32_t)0x0000000B)
#define RCC_PREDIV1_Div13 ((uint32_t)0x0000000C)
#define RCC_PREDIV1_Div14 ((uint32_t)0x0000000D)
#define RCC_PREDIV1_Div15 ((uint32_t)0x0000000E)
#define RCC_PREDIV1_Div16 ((uint32_t)0x0000000F)
#endif
/* PREDIV1_clock_source */
#ifdef CH32V30x_D8C
#define RCC_PREDIV1_Source_HSE ((uint32_t)0x00000000)
#define RCC_PREDIV1_Source_PLL2 ((uint32_t)0x00010000)
#endif
/* PREDIV2_division_factor */
#ifdef CH32V30x_D8C
#define RCC_PREDIV2_Div1 ((uint32_t)0x00000000)
#define RCC_PREDIV2_Div2 ((uint32_t)0x00000010)
#define RCC_PREDIV2_Div3 ((uint32_t)0x00000020)
#define RCC_PREDIV2_Div4 ((uint32_t)0x00000030)
#define RCC_PREDIV2_Div5 ((uint32_t)0x00000040)
#define RCC_PREDIV2_Div6 ((uint32_t)0x00000050)
#define RCC_PREDIV2_Div7 ((uint32_t)0x00000060)
#define RCC_PREDIV2_Div8 ((uint32_t)0x00000070)
#define RCC_PREDIV2_Div9 ((uint32_t)0x00000080)
#define RCC_PREDIV2_Div10 ((uint32_t)0x00000090)
#define RCC_PREDIV2_Div11 ((uint32_t)0x000000A0)
#define RCC_PREDIV2_Div12 ((uint32_t)0x000000B0)
#define RCC_PREDIV2_Div13 ((uint32_t)0x000000C0)
#define RCC_PREDIV2_Div14 ((uint32_t)0x000000D0)
#define RCC_PREDIV2_Div15 ((uint32_t)0x000000E0)
#define RCC_PREDIV2_Div16 ((uint32_t)0x000000F0)
#endif
/* PLL2_multiplication_factor */
#ifdef CH32V30x_D8C
#define RCC_PLL2Mul_2_5 ((uint32_t)0x00000000)
#define RCC_PLL2Mul_12_5 ((uint32_t)0x00000100)
#define RCC_PLL2Mul_4 ((uint32_t)0x00000200)
#define RCC_PLL2Mul_5 ((uint32_t)0x00000300)
#define RCC_PLL2Mul_6 ((uint32_t)0x00000400)
#define RCC_PLL2Mul_7 ((uint32_t)0x00000500)
#define RCC_PLL2Mul_8 ((uint32_t)0x00000600)
#define RCC_PLL2Mul_9 ((uint32_t)0x00000700)
#define RCC_PLL2Mul_10 ((uint32_t)0x00000800)
#define RCC_PLL2Mul_11 ((uint32_t)0x00000900)
#define RCC_PLL2Mul_12 ((uint32_t)0x00000A00)
#define RCC_PLL2Mul_13 ((uint32_t)0x00000B00)
#define RCC_PLL2Mul_14 ((uint32_t)0x00000C00)
#define RCC_PLL2Mul_15 ((uint32_t)0x00000D00)
#define RCC_PLL2Mul_16 ((uint32_t)0x00000E00)
#define RCC_PLL2Mul_20 ((uint32_t)0x00000F00)
#endif
/* PLL3_multiplication_factor */
#ifdef CH32V30x_D8C
#define RCC_PLL3Mul_2_5 ((uint32_t)0x00000000)
#define RCC_PLL3Mul_12_5 ((uint32_t)0x00001000)
#define RCC_PLL3Mul_4 ((uint32_t)0x00002000)
#define RCC_PLL3Mul_5 ((uint32_t)0x00003000)
#define RCC_PLL3Mul_6 ((uint32_t)0x00004000)
#define RCC_PLL3Mul_7 ((uint32_t)0x00005000)
#define RCC_PLL3Mul_8 ((uint32_t)0x00006000)
#define RCC_PLL3Mul_9 ((uint32_t)0x00007000)
#define RCC_PLL3Mul_10 ((uint32_t)0x00008000)
#define RCC_PLL3Mul_11 ((uint32_t)0x00009000)
#define RCC_PLL3Mul_12 ((uint32_t)0x0000A000)
#define RCC_PLL3Mul_13 ((uint32_t)0x0000B000)
#define RCC_PLL3Mul_14 ((uint32_t)0x0000C000)
#define RCC_PLL3Mul_15 ((uint32_t)0x0000D000)
#define RCC_PLL3Mul_16 ((uint32_t)0x0000E000)
#define RCC_PLL3Mul_20 ((uint32_t)0x0000F000)
#endif
/* System_clock_source */
#define RCC_SYSCLKSource_HSI ((uint32_t)0x00000000)
#define RCC_SYSCLKSource_HSE ((uint32_t)0x00000001)
#define RCC_SYSCLKSource_PLLCLK ((uint32_t)0x00000002)
/* AHB_clock_source */
#define RCC_SYSCLK_Div1 ((uint32_t)0x00000000)
#define RCC_SYSCLK_Div2 ((uint32_t)0x00000080)
#define RCC_SYSCLK_Div4 ((uint32_t)0x00000090)
#define RCC_SYSCLK_Div8 ((uint32_t)0x000000A0)
#define RCC_SYSCLK_Div16 ((uint32_t)0x000000B0)
#define RCC_SYSCLK_Div64 ((uint32_t)0x000000C0)
#define RCC_SYSCLK_Div128 ((uint32_t)0x000000D0)
#define RCC_SYSCLK_Div256 ((uint32_t)0x000000E0)
#define RCC_SYSCLK_Div512 ((uint32_t)0x000000F0)
/* APB1_APB2_clock_source */
#define RCC_HCLK_Div1 ((uint32_t)0x00000000)
#define RCC_HCLK_Div2 ((uint32_t)0x00000400)
#define RCC_HCLK_Div4 ((uint32_t)0x00000500)
#define RCC_HCLK_Div8 ((uint32_t)0x00000600)
#define RCC_HCLK_Div16 ((uint32_t)0x00000700)
/* RCC_Interrupt_source */
#define RCC_IT_LSIRDY ((uint8_t)0x01)
#define RCC_IT_LSERDY ((uint8_t)0x02)
#define RCC_IT_HSIRDY ((uint8_t)0x04)
#define RCC_IT_HSERDY ((uint8_t)0x08)
#define RCC_IT_PLLRDY ((uint8_t)0x10)
#define RCC_IT_CSS ((uint8_t)0x80)
#ifdef CH32V30x_D8C
#define RCC_IT_PLL2RDY ((uint8_t)0x20)
#define RCC_IT_PLL3RDY ((uint8_t)0x40)
#endif
/* USB_OTG_FS_clock_source */
#define RCC_OTGFSCLKSource_PLLCLK_Div1 ((uint8_t)0x00)
#define RCC_OTGFSCLKSource_PLLCLK_Div2 ((uint8_t)0x01)
#define RCC_OTGFSCLKSource_PLLCLK_Div3 ((uint8_t)0x02)
/* I2S2_clock_source */
#ifdef CH32V30x_D8C
#define RCC_I2S2CLKSource_SYSCLK ((uint8_t)0x00)
#define RCC_I2S2CLKSource_PLL3_VCO ((uint8_t)0x01)
#endif
/* I2S3_clock_source */
#ifdef CH32V30x_D8C
#define RCC_I2S3CLKSource_SYSCLK ((uint8_t)0x00)
#define RCC_I2S3CLKSource_PLL3_VCO ((uint8_t)0x01)
#endif
/* ADC_clock_source */
#define RCC_PCLK2_Div2 ((uint32_t)0x00000000)
#define RCC_PCLK2_Div4 ((uint32_t)0x00004000)
#define RCC_PCLK2_Div6 ((uint32_t)0x00008000)
#define RCC_PCLK2_Div8 ((uint32_t)0x0000C000)
/* LSE_configuration */
#define RCC_LSE_OFF ((uint8_t)0x00)
#define RCC_LSE_ON ((uint8_t)0x01)
#define RCC_LSE_Bypass ((uint8_t)0x04)
/* RTC_clock_source */
#define RCC_RTCCLKSource_LSE ((uint32_t)0x00000100)
#define RCC_RTCCLKSource_LSI ((uint32_t)0x00000200)
#define RCC_RTCCLKSource_HSE_Div128 ((uint32_t)0x00000300)
/* AHB_peripheral */
#define RCC_AHBPeriph_DMA1 ((uint32_t)0x00000001)
#define RCC_AHBPeriph_DMA2 ((uint32_t)0x00000002)
#define RCC_AHBPeriph_SRAM ((uint32_t)0x00000004)
#define RCC_AHBPeriph_CRC ((uint32_t)0x00000040)
#define RCC_AHBPeriph_FSMC ((uint32_t)0x00000100)
#define RCC_AHBPeriph_RNG ((uint32_t)0x00000200)
#define RCC_AHBPeriph_SDIO ((uint32_t)0x00000400)
#define RCC_AHBPeriph_USBHS ((uint32_t)0x00000800)
#define RCC_AHBPeriph_OTG_FS ((uint32_t)0x00001000)
#define RCC_AHBPeriph_DVP ((uint32_t)0x00002000)
#define RCC_AHBPeriph_ETH_MAC ((uint32_t)0x00004000)
#define RCC_AHBPeriph_ETH_MAC_Tx ((uint32_t)0x00008000)
#define RCC_AHBPeriph_ETH_MAC_Rx ((uint32_t)0x00010000)
/* APB2_peripheral */
#define RCC_APB2Periph_AFIO ((uint32_t)0x00000001)
#define RCC_APB2Periph_GPIOA ((uint32_t)0x00000004)
#define RCC_APB2Periph_GPIOB ((uint32_t)0x00000008)
#define RCC_APB2Periph_GPIOC ((uint32_t)0x00000010)
#define RCC_APB2Periph_GPIOD ((uint32_t)0x00000020)
#define RCC_APB2Periph_GPIOE ((uint32_t)0x00000040)
#define RCC_APB2Periph_ADC1 ((uint32_t)0x00000200)
#define RCC_APB2Periph_ADC2 ((uint32_t)0x00000400)
#define RCC_APB2Periph_TIM1 ((uint32_t)0x00000800)
#define RCC_APB2Periph_SPI1 ((uint32_t)0x00001000)
#define RCC_APB2Periph_TIM8 ((uint32_t)0x00002000)
#define RCC_APB2Periph_USART1 ((uint32_t)0x00004000)
#define RCC_APB2Periph_TIM9 ((uint32_t)0x00080000)
#define RCC_APB2Periph_TIM10 ((uint32_t)0x00100000)
/* APB1_peripheral */
#define RCC_APB1Periph_TIM2 ((uint32_t)0x00000001)
#define RCC_APB1Periph_TIM3 ((uint32_t)0x00000002)
#define RCC_APB1Periph_TIM4 ((uint32_t)0x00000004)
#define RCC_APB1Periph_TIM5 ((uint32_t)0x00000008)
#define RCC_APB1Periph_TIM6 ((uint32_t)0x00000010)
#define RCC_APB1Periph_TIM7 ((uint32_t)0x00000020)
#define RCC_APB1Periph_UART6 ((uint32_t)0x00000040)
#define RCC_APB1Periph_UART7 ((uint32_t)0x00000080)
#define RCC_APB1Periph_UART8 ((uint32_t)0x00000100)
#define RCC_APB1Periph_WWDG ((uint32_t)0x00000800)
#define RCC_APB1Periph_SPI2 ((uint32_t)0x00004000)
#define RCC_APB1Periph_SPI3 ((uint32_t)0x00008000)
#define RCC_APB1Periph_USART2 ((uint32_t)0x00020000)
#define RCC_APB1Periph_USART3 ((uint32_t)0x00040000)
#define RCC_APB1Periph_UART4 ((uint32_t)0x00080000)
#define RCC_APB1Periph_UART5 ((uint32_t)0x00100000)
#define RCC_APB1Periph_I2C1 ((uint32_t)0x00200000)
#define RCC_APB1Periph_I2C2 ((uint32_t)0x00400000)
#define RCC_APB1Periph_USB ((uint32_t)0x00800000)
#define RCC_APB1Periph_CAN1 ((uint32_t)0x02000000)
#define RCC_APB1Periph_CAN2 ((uint32_t)0x04000000)
#define RCC_APB1Periph_BKP ((uint32_t)0x08000000)
#define RCC_APB1Periph_PWR ((uint32_t)0x10000000)
#define RCC_APB1Periph_DAC ((uint32_t)0x20000000)
/* Clock_source_to_output_on_MCO_pin */
#define RCC_MCO_NoClock ((uint8_t)0x00)
#define RCC_MCO_SYSCLK ((uint8_t)0x04)
#define RCC_MCO_HSI ((uint8_t)0x05)
#define RCC_MCO_HSE ((uint8_t)0x06)
#define RCC_MCO_PLLCLK_Div2 ((uint8_t)0x07)
#ifdef CH32V30x_D8C
#define RCC_MCO_PLL2CLK ((uint8_t)0x08)
#define RCC_MCO_PLL3CLK_Div2 ((uint8_t)0x09)
#define RCC_MCO_XT1 ((uint8_t)0x0A)
#define RCC_MCO_PLL3CLK ((uint8_t)0x0B)
#endif
/* RCC_Flag */
#define RCC_FLAG_HSIRDY ((uint8_t)0x21)
#define RCC_FLAG_HSERDY ((uint8_t)0x31)
#define RCC_FLAG_PLLRDY ((uint8_t)0x39)
#define RCC_FLAG_LSERDY ((uint8_t)0x41)
#define RCC_FLAG_LSIRDY ((uint8_t)0x61)
#define RCC_FLAG_PINRST ((uint8_t)0x7A)
#define RCC_FLAG_PORRST ((uint8_t)0x7B)
#define RCC_FLAG_SFTRST ((uint8_t)0x7C)
#define RCC_FLAG_IWDGRST ((uint8_t)0x7D)
#define RCC_FLAG_WWDGRST ((uint8_t)0x7E)
#define RCC_FLAG_LPWRRST ((uint8_t)0x7F)
#ifdef CH32V30x_D8C
#define RCC_FLAG_PLL2RDY ((uint8_t)0x3B)
#define RCC_FLAG_PLL3RDY ((uint8_t)0x3D)
#endif
/* SysTick_clock_source */
#define SysTick_CLKSource_HCLK_Div8 ((uint32_t)0xFFFFFFFB)
#define SysTick_CLKSource_HCLK ((uint32_t)0x00000004)
/* RNG_clock_source */
#ifdef CH32V30x_D8C
#define RCC_RNGCLKSource_SYSCLK ((uint32_t)0x00)
#define RCC_RNGCLKSource_PLL3_VCO ((uint32_t)0x01)
#endif
/* ETH1G_clock_source */
#ifdef CH32V30x_D8C
#define RCC_ETH1GCLKSource_PLL2_VCO ((uint32_t)0x00)
#define RCC_ETH1GCLKSource_PLL3_VCO ((uint32_t)0x01)
#define RCC_ETH1GCLKSource_PB1_IN ((uint32_t)0x02)
#endif
/* USBFS_clock_source */
#ifdef CH32V30x_D8C
#define RCC_USBPLL_Div1 ((uint32_t)0x00)
#define RCC_USBPLL_Div2 ((uint32_t)0x01)
#define RCC_USBPLL_Div3 ((uint32_t)0x02)
#define RCC_USBPLL_Div4 ((uint32_t)0x03)
#define RCC_USBPLL_Div5 ((uint32_t)0x04)
#define RCC_USBPLL_Div6 ((uint32_t)0x05)
#define RCC_USBPLL_Div7 ((uint32_t)0x06)
#define RCC_USBPLL_Div8 ((uint32_t)0x07)
#endif
/* USBHSPLL_clock_source */
#ifdef CH32V30x_D8C
#define RCC_HSBHSPLLCLKSource_HSE ((uint32_t)0x00)
#define RCC_HSBHSPLLCLKSource_HSI ((uint32_t)0x01)
#endif
/* USBHSPLLCKREF_clock_select */
#ifdef CH32V30x_D8C
#define RCC_USBHSPLLCKREFCLK_3M ((uint32_t)0x00)
#define RCC_USBHSPLLCKREFCLK_4M ((uint32_t)0x01)
#define RCC_USBHSPLLCKREFCLK_8M ((uint32_t)0x02)
#define RCC_USBHSPLLCKREFCLK_5M ((uint32_t)0x03)
#endif
/* OTGUSBCLK48M_clock_source */
#define RCC_USBCLK48MCLKSource_PLLCLK ((uint32_t)0x00)
#define RCC_USBCLK48MCLKSource_USBPHY ((uint32_t)0x01)
void RCC_DeInit(void);
void RCC_HSEConfig(uint32_t RCC_HSE);
ErrorStatus RCC_WaitForHSEStartUp(void);
void RCC_AdjustHSICalibrationValue(uint8_t HSICalibrationValue);
void RCC_HSICmd(FunctionalState NewState);
void RCC_PLLConfig(uint32_t RCC_PLLSource, uint32_t RCC_PLLMul);
void RCC_PLLCmd(FunctionalState NewState);
void RCC_SYSCLKConfig(uint32_t RCC_SYSCLKSource);
uint8_t RCC_GetSYSCLKSource(void);
void RCC_HCLKConfig(uint32_t RCC_SYSCLK);
void RCC_PCLK1Config(uint32_t RCC_HCLK);
void RCC_PCLK2Config(uint32_t RCC_HCLK);
void RCC_ITConfig(uint8_t RCC_IT, FunctionalState NewState);
void RCC_ADCCLKConfig(uint32_t RCC_PCLK2);
void RCC_LSEConfig(uint8_t RCC_LSE);
void RCC_LSICmd(FunctionalState NewState);
void RCC_RTCCLKConfig(uint32_t RCC_RTCCLKSource);
void RCC_RTCCLKCmd(FunctionalState NewState);
void RCC_GetClocksFreq(RCC_ClocksTypeDef* RCC_Clocks);
void RCC_AHBPeriphClockCmd(uint32_t RCC_AHBPeriph, FunctionalState NewState);
void RCC_APB2PeriphClockCmd(uint32_t RCC_APB2Periph, FunctionalState NewState);
void RCC_APB1PeriphClockCmd(uint32_t RCC_APB1Periph, FunctionalState NewState);
void RCC_APB2PeriphResetCmd(uint32_t RCC_APB2Periph, FunctionalState NewState);
void RCC_APB1PeriphResetCmd(uint32_t RCC_APB1Periph, FunctionalState NewState);
void RCC_BackupResetCmd(FunctionalState NewState);
void RCC_ClockSecuritySystemCmd(FunctionalState NewState);
void RCC_MCOConfig(uint8_t RCC_MCO);
FlagStatus RCC_GetFlagStatus(uint8_t RCC_FLAG);
void RCC_ClearFlag(void);
ITStatus RCC_GetITStatus(uint8_t RCC_IT);
void RCC_ClearITPendingBit(uint8_t RCC_IT);
void RCC_ADCCLKADJcmd(FunctionalState NewState);
void RCC_OTGFSCLKConfig(uint32_t RCC_OTGFSCLKSource);
void RCC_USBCLK48MConfig(uint32_t RCC_USBCLK48MSource);
#ifdef CH32V30x_D8C
void RCC_PREDIV1Config(uint32_t RCC_PREDIV1_Source, uint32_t RCC_PREDIV1_Div);
void RCC_PREDIV2Config(uint32_t RCC_PREDIV2_Div);
void RCC_PLL2Config(uint32_t RCC_PLL2Mul);
void RCC_PLL2Cmd(FunctionalState NewState);
void RCC_PLL3Config(uint32_t RCC_PLL3Mul);
void RCC_PLL3Cmd(FunctionalState NewState);
void RCC_I2S2CLKConfig(uint32_t RCC_I2S2CLKSource);
void RCC_I2S3CLKConfig(uint32_t RCC_I2S3CLKSource);
void RCC_AHBPeriphResetCmd(uint32_t RCC_AHBPeriph, FunctionalState NewState);
void RCC_RNGCLKConfig(uint32_t RCC_RNGCLKSource);
void RCC_ETH1GCLKConfig(uint32_t RCC_ETH1GCLKSource);
void RCC_ETH1G_125Mcmd(FunctionalState NewState);
void RCC_USBHSConfig(uint32_t RCC_USBHS);
void RCC_USBHSPLLCLKConfig(uint32_t RCC_USBHSPLLCLKSource);
void RCC_USBHSPLLCKREFCLKConfig(uint32_t RCC_USBHSPLLCKREFCLKSource);
void RCC_USBHSPHYPLLALIVEcmd(FunctionalState NewState);
#endif
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_rng.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* RNG firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_RNG_H
#define __CH32V30x_RNG_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* RNG_flags_definition*/
#define RNG_FLAG_DRDY ((uint8_t)0x0001) /* Data ready */
#define RNG_FLAG_CECS ((uint8_t)0x0002) /* Clock error current status */
#define RNG_FLAG_SECS ((uint8_t)0x0004) /* Seed error current status */
/* RNG_interrupts_definition */
#define RNG_IT_CEI ((uint8_t)0x20) /* Clock error interrupt */
#define RNG_IT_SEI ((uint8_t)0x40) /* Seed error interrupt */
void RNG_Cmd(FunctionalState NewState);
uint32_t RNG_GetRandomNumber(void);
void RNG_ITConfig(FunctionalState NewState);
FlagStatus RNG_GetFlagStatus(uint8_t RNG_FLAG);
void RNG_ClearFlag(uint8_t RNG_FLAG);
ITStatus RNG_GetITStatus(uint8_t RNG_IT);
void RNG_ClearITPendingBit(uint8_t RNG_IT);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_rtc.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the RTC
* firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_RTC_H
#define __CH32V30x_RTC_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* RTC_interrupts_define */
#define RTC_IT_OW ((uint16_t)0x0004) /* Overflow interrupt */
#define RTC_IT_ALR ((uint16_t)0x0002) /* Alarm interrupt */
#define RTC_IT_SEC ((uint16_t)0x0001) /* Second interrupt */
/* RTC_interrupts_flags */
#define RTC_FLAG_RTOFF ((uint16_t)0x0020) /* RTC Operation OFF flag */
#define RTC_FLAG_RSF ((uint16_t)0x0008) /* Registers Synchronized flag */
#define RTC_FLAG_OW ((uint16_t)0x0004) /* Overflow flag */
#define RTC_FLAG_ALR ((uint16_t)0x0002) /* Alarm flag */
#define RTC_FLAG_SEC ((uint16_t)0x0001) /* Second flag */
void RTC_ITConfig(uint16_t RTC_IT, FunctionalState NewState);
void RTC_EnterConfigMode(void);
void RTC_ExitConfigMode(void);
uint32_t RTC_GetCounter(void);
void RTC_SetCounter(uint32_t CounterValue);
void RTC_SetPrescaler(uint32_t PrescalerValue);
void RTC_SetAlarm(uint32_t AlarmValue);
uint32_t RTC_GetDivider(void);
void RTC_WaitForLastTask(void);
void RTC_WaitForSynchro(void);
FlagStatus RTC_GetFlagStatus(uint16_t RTC_FLAG);
void RTC_ClearFlag(uint16_t RTC_FLAG);
ITStatus RTC_GetITStatus(uint16_t RTC_IT);
void RTC_ClearITPendingBit(uint16_t RTC_IT);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_sdio.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the SDIO
* firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_SDIO_H
#define __CH32V30x_SDIO_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* SDIO Init structure definition */
typedef struct
{
uint32_t SDIO_ClockEdge; /* Specifies the clock transition on which the bit capture is made.
This parameter can be a value of @ref SDIO_Clock_Edge */
uint32_t SDIO_ClockBypass; /* Specifies whether the SDIO Clock divider bypass is
enabled or disabled.
This parameter can be a value of @ref SDIO_Clock_Bypass */
uint32_t SDIO_ClockPowerSave; /* Specifies whether SDIO Clock output is enabled or
disabled when the bus is idle.
This parameter can be a value of @ref SDIO_Clock_Power_Save */
uint32_t SDIO_BusWide; /* Specifies the SDIO bus width.
This parameter can be a value of @ref SDIO_Bus_Wide */
uint32_t SDIO_HardwareFlowControl; /* Specifies whether the SDIO hardware flow control is enabled or disabled.
This parameter can be a value of @ref SDIO_Hardware_Flow_Control */
uint8_t SDIO_ClockDiv; /* Specifies the clock frequency of the SDIO controller.
This parameter can be a value between 0x00 and 0xFF. */
} SDIO_InitTypeDef;
typedef struct
{
uint32_t SDIO_Argument; /* Specifies the SDIO command argument which is sent
to a card as part of a command message. If a command
contains an argument, it must be loaded into this register
before writing the command to the command register */
uint32_t SDIO_CmdIndex; /* Specifies the SDIO command index. It must be lower than 0x40. */
uint32_t SDIO_Response; /* Specifies the SDIO response type.
This parameter can be a value of @ref SDIO_Response_Type */
uint32_t SDIO_Wait; /* Specifies whether SDIO wait-for-interrupt request is enabled or disabled.
This parameter can be a value of @ref SDIO_Wait_Interrupt_State */
uint32_t SDIO_CPSM; /* Specifies whether SDIO Command path state machine (CPSM)
is enabled or disabled.
This parameter can be a value of @ref SDIO_CPSM_State */
} SDIO_CmdInitTypeDef;
typedef struct
{
uint32_t SDIO_DataTimeOut; /* Specifies the data timeout period in card bus clock periods. */
uint32_t SDIO_DataLength; /* Specifies the number of data bytes to be transferred. */
uint32_t SDIO_DataBlockSize; /* Specifies the data block size for block transfer.
This parameter can be a value of @ref SDIO_Data_Block_Size */
uint32_t SDIO_TransferDir; /* Specifies the data transfer direction, whether the transfer
is a read or write.
This parameter can be a value of @ref SDIO_Transfer_Direction */
uint32_t SDIO_TransferMode; /* Specifies whether data transfer is in stream or block mode.
This parameter can be a value of @ref SDIO_Transfer_Type */
uint32_t SDIO_DPSM; /* Specifies whether SDIO Data path state machine (DPSM)
is enabled or disabled.
This parameter can be a value of @ref SDIO_DPSM_State */
} SDIO_DataInitTypeDef;
/* SDIO_Clock_Edge */
#define SDIO_ClockEdge_Rising ((uint32_t)0x00000000)
#define SDIO_ClockEdge_Falling ((uint32_t)0x00002000)
/* SDIO_Clock_Bypass */
#define SDIO_ClockBypass_Disable ((uint32_t)0x00000000)
#define SDIO_ClockBypass_Enable ((uint32_t)0x00000400)
/* SDIO_Clock_Power_Save */
#define SDIO_ClockPowerSave_Disable ((uint32_t)0x00000000)
#define SDIO_ClockPowerSave_Enable ((uint32_t)0x00000200)
/* SDIO_Bus_Wide */
#define SDIO_BusWide_1b ((uint32_t)0x00000000)
#define SDIO_BusWide_4b ((uint32_t)0x00000800)
#define SDIO_BusWide_8b ((uint32_t)0x00001000)
/* SDIO_Hardware_Flow_Control */
#define SDIO_HardwareFlowControl_Disable ((uint32_t)0x00000000)
#define SDIO_HardwareFlowControl_Enable ((uint32_t)0x00004000)
/* SDIO_Power_State */
#define SDIO_PowerState_OFF ((uint32_t)0x00000000)
#define SDIO_PowerState_ON ((uint32_t)0x00000003)
/* SDIO_Interrupt_sources */
#define SDIO_IT_CCRCFAIL ((uint32_t)0x00000001)
#define SDIO_IT_DCRCFAIL ((uint32_t)0x00000002)
#define SDIO_IT_CTIMEOUT ((uint32_t)0x00000004)
#define SDIO_IT_DTIMEOUT ((uint32_t)0x00000008)
#define SDIO_IT_TXUNDERR ((uint32_t)0x00000010)
#define SDIO_IT_RXOVERR ((uint32_t)0x00000020)
#define SDIO_IT_CMDREND ((uint32_t)0x00000040)
#define SDIO_IT_CMDSENT ((uint32_t)0x00000080)
#define SDIO_IT_DATAEND ((uint32_t)0x00000100)
#define SDIO_IT_STBITERR ((uint32_t)0x00000200)
#define SDIO_IT_DBCKEND ((uint32_t)0x00000400)
#define SDIO_IT_CMDACT ((uint32_t)0x00000800)
#define SDIO_IT_TXACT ((uint32_t)0x00001000)
#define SDIO_IT_RXACT ((uint32_t)0x00002000)
#define SDIO_IT_TXFIFOHE ((uint32_t)0x00004000)
#define SDIO_IT_RXFIFOHF ((uint32_t)0x00008000)
#define SDIO_IT_TXFIFOF ((uint32_t)0x00010000)
#define SDIO_IT_RXFIFOF ((uint32_t)0x00020000)
#define SDIO_IT_TXFIFOE ((uint32_t)0x00040000)
#define SDIO_IT_RXFIFOE ((uint32_t)0x00080000)
#define SDIO_IT_TXDAVL ((uint32_t)0x00100000)
#define SDIO_IT_RXDAVL ((uint32_t)0x00200000)
#define SDIO_IT_SDIOIT ((uint32_t)0x00400000)
#define SDIO_IT_CEATAEND ((uint32_t)0x00800000)
/* SDIO_Response_Type */
#define SDIO_Response_No ((uint32_t)0x00000000)
#define SDIO_Response_Short ((uint32_t)0x00000040)
#define SDIO_Response_Long ((uint32_t)0x000000C0)
/* SDIO_Wait_Interrupt_State */
#define SDIO_Wait_No ((uint32_t)0x00000000)
#define SDIO_Wait_IT ((uint32_t)0x00000100)
#define SDIO_Wait_Pend ((uint32_t)0x00000200)
/* SDIO_CPSM_State */
#define SDIO_CPSM_Disable ((uint32_t)0x00000000)
#define SDIO_CPSM_Enable ((uint32_t)0x00000400)
/* SDIO_Response_Registers */
#define SDIO_RESP1 ((uint32_t)0x00000000)
#define SDIO_RESP2 ((uint32_t)0x00000004)
#define SDIO_RESP3 ((uint32_t)0x00000008)
#define SDIO_RESP4 ((uint32_t)0x0000000C)
/* SDIO_Data_Block_Size */
#define SDIO_DataBlockSize_1b ((uint32_t)0x00000000)
#define SDIO_DataBlockSize_2b ((uint32_t)0x00000010)
#define SDIO_DataBlockSize_4b ((uint32_t)0x00000020)
#define SDIO_DataBlockSize_8b ((uint32_t)0x00000030)
#define SDIO_DataBlockSize_16b ((uint32_t)0x00000040)
#define SDIO_DataBlockSize_32b ((uint32_t)0x00000050)
#define SDIO_DataBlockSize_64b ((uint32_t)0x00000060)
#define SDIO_DataBlockSize_128b ((uint32_t)0x00000070)
#define SDIO_DataBlockSize_256b ((uint32_t)0x00000080)
#define SDIO_DataBlockSize_512b ((uint32_t)0x00000090)
#define SDIO_DataBlockSize_1024b ((uint32_t)0x000000A0)
#define SDIO_DataBlockSize_2048b ((uint32_t)0x000000B0)
#define SDIO_DataBlockSize_4096b ((uint32_t)0x000000C0)
#define SDIO_DataBlockSize_8192b ((uint32_t)0x000000D0)
#define SDIO_DataBlockSize_16384b ((uint32_t)0x000000E0)
/* SDIO_Transfer_Direction */
#define SDIO_TransferDir_ToCard ((uint32_t)0x00000000)
#define SDIO_TransferDir_ToSDIO ((uint32_t)0x00000002)
/* SDIO_Transfer_Type */
#define SDIO_TransferMode_Block ((uint32_t)0x00000000)
#define SDIO_TransferMode_Stream ((uint32_t)0x00000004)
/* SDIO_DPSM_State */
#define SDIO_DPSM_Disable ((uint32_t)0x00000000)
#define SDIO_DPSM_Enable ((uint32_t)0x00000001)
/* SDIO_Flags */
#define SDIO_FLAG_CCRCFAIL ((uint32_t)0x00000001)
#define SDIO_FLAG_DCRCFAIL ((uint32_t)0x00000002)
#define SDIO_FLAG_CTIMEOUT ((uint32_t)0x00000004)
#define SDIO_FLAG_DTIMEOUT ((uint32_t)0x00000008)
#define SDIO_FLAG_TXUNDERR ((uint32_t)0x00000010)
#define SDIO_FLAG_RXOVERR ((uint32_t)0x00000020)
#define SDIO_FLAG_CMDREND ((uint32_t)0x00000040)
#define SDIO_FLAG_CMDSENT ((uint32_t)0x00000080)
#define SDIO_FLAG_DATAEND ((uint32_t)0x00000100)
#define SDIO_FLAG_STBITERR ((uint32_t)0x00000200)
#define SDIO_FLAG_DBCKEND ((uint32_t)0x00000400)
#define SDIO_FLAG_CMDACT ((uint32_t)0x00000800)
#define SDIO_FLAG_TXACT ((uint32_t)0x00001000)
#define SDIO_FLAG_RXACT ((uint32_t)0x00002000)
#define SDIO_FLAG_TXFIFOHE ((uint32_t)0x00004000)
#define SDIO_FLAG_RXFIFOHF ((uint32_t)0x00008000)
#define SDIO_FLAG_TXFIFOF ((uint32_t)0x00010000)
#define SDIO_FLAG_RXFIFOF ((uint32_t)0x00020000)
#define SDIO_FLAG_TXFIFOE ((uint32_t)0x00040000)
#define SDIO_FLAG_RXFIFOE ((uint32_t)0x00080000)
#define SDIO_FLAG_TXDAVL ((uint32_t)0x00100000)
#define SDIO_FLAG_RXDAVL ((uint32_t)0x00200000)
#define SDIO_FLAG_SDIOIT ((uint32_t)0x00400000)
#define SDIO_FLAG_CEATAEND ((uint32_t)0x00800000)
/* SDIO_Read_Wait_Mode */
#define SDIO_ReadWaitMode_CLK ((uint32_t)0x00000001)
#define SDIO_ReadWaitMode_DATA2 ((uint32_t)0x00000000)
void SDIO_DeInit(void);
void SDIO_Init(SDIO_InitTypeDef* SDIO_InitStruct);
void SDIO_StructInit(SDIO_InitTypeDef* SDIO_InitStruct);
void SDIO_ClockCmd(FunctionalState NewState);
void SDIO_SetPowerState(uint32_t SDIO_PowerState);
uint32_t SDIO_GetPowerState(void);
void SDIO_ITConfig(uint32_t SDIO_IT, FunctionalState NewState);
void SDIO_DMACmd(FunctionalState NewState);
void SDIO_SendCommand(SDIO_CmdInitTypeDef *SDIO_CmdInitStruct);
void SDIO_CmdStructInit(SDIO_CmdInitTypeDef* SDIO_CmdInitStruct);
uint8_t SDIO_GetCommandResponse(void);
uint32_t SDIO_GetResponse(uint32_t SDIO_RESP);
void SDIO_DataConfig(SDIO_DataInitTypeDef* SDIO_DataInitStruct);
void SDIO_DataStructInit(SDIO_DataInitTypeDef* SDIO_DataInitStruct);
uint32_t SDIO_GetDataCounter(void);
uint32_t SDIO_ReadData(void);
void SDIO_WriteData(uint32_t Data);
uint32_t SDIO_GetFIFOCount(void);
void SDIO_StartSDIOReadWait(FunctionalState NewState);
void SDIO_StopSDIOReadWait(FunctionalState NewState);
void SDIO_SetSDIOReadWaitMode(uint32_t SDIO_ReadWaitMode);
void SDIO_SetSDIOOperation(FunctionalState NewState);
void SDIO_SendSDIOSuspendCmd(FunctionalState NewState);
void SDIO_CommandCompletionCmd(FunctionalState NewState);
void SDIO_CEATAITCmd(FunctionalState NewState);
void SDIO_SendCEATACmd(FunctionalState NewState);
FlagStatus SDIO_GetFlagStatus(uint32_t SDIO_FLAG);
void SDIO_ClearFlag(uint32_t SDIO_FLAG);
ITStatus SDIO_GetITStatus(uint32_t SDIO_IT);
void SDIO_ClearITPendingBit(uint32_t SDIO_IT);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_spi.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* SPI firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_SPI_H
#define __CH32V30x_SPI_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* SPI Init structure definition */
typedef struct
{
uint16_t SPI_Direction; /* Specifies the SPI unidirectional or bidirectional data mode.
This parameter can be a value of @ref SPI_data_direction */
uint16_t SPI_Mode; /* Specifies the SPI operating mode.
This parameter can be a value of @ref SPI_mode */
uint16_t SPI_DataSize; /* Specifies the SPI data size.
This parameter can be a value of @ref SPI_data_size */
uint16_t SPI_CPOL; /* Specifies the serial clock steady state.
This parameter can be a value of @ref SPI_Clock_Polarity */
uint16_t SPI_CPHA; /* Specifies the clock active edge for the bit capture.
This parameter can be a value of @ref SPI_Clock_Phase */
uint16_t SPI_NSS; /* Specifies whether the NSS signal is managed by
hardware (NSS pin) or by software using the SSI bit.
This parameter can be a value of @ref SPI_Slave_Select_management */
uint16_t SPI_BaudRatePrescaler; /* Specifies the Baud Rate prescaler value which will be
used to configure the transmit and receive SCK clock.
This parameter can be a value of @ref SPI_BaudRate_Prescaler.
@note The communication clock is derived from the master
clock. The slave clock does not need to be set. */
uint16_t SPI_FirstBit; /* Specifies whether data transfers start from MSB or LSB bit.
This parameter can be a value of @ref SPI_MSB_LSB_transmission */
uint16_t SPI_CRCPolynomial; /* Specifies the polynomial used for the CRC calculation. */
}SPI_InitTypeDef;
/* I2S Init structure definition */
typedef struct
{
uint16_t I2S_Mode; /* Specifies the I2S operating mode.
This parameter can be a value of @ref I2S_Mode */
uint16_t I2S_Standard; /* Specifies the standard used for the I2S communication.
This parameter can be a value of @ref I2S_Standard */
uint16_t I2S_DataFormat; /* Specifies the data format for the I2S communication.
This parameter can be a value of @ref I2S_Data_Format */
uint16_t I2S_MCLKOutput; /* Specifies whether the I2S MCLK output is enabled or not.
This parameter can be a value of @ref I2S_MCLK_Output */
uint32_t I2S_AudioFreq; /* Specifies the frequency selected for the I2S communication.
This parameter can be a value of @ref I2S_Audio_Frequency */
uint16_t I2S_CPOL; /* Specifies the idle state of the I2S clock.
This parameter can be a value of @ref I2S_Clock_Polarity */
}I2S_InitTypeDef;
/* SPI_data_direction */
#define SPI_Direction_2Lines_FullDuplex ((uint16_t)0x0000)
#define SPI_Direction_2Lines_RxOnly ((uint16_t)0x0400)
#define SPI_Direction_1Line_Rx ((uint16_t)0x8000)
#define SPI_Direction_1Line_Tx ((uint16_t)0xC000)
/* SPI_mode */
#define SPI_Mode_Master ((uint16_t)0x0104)
#define SPI_Mode_Slave ((uint16_t)0x0000)
/* SPI_data_size */
#define SPI_DataSize_16b ((uint16_t)0x0800)
#define SPI_DataSize_8b ((uint16_t)0x0000)
/* SPI_Clock_Polarity */
#define SPI_CPOL_Low ((uint16_t)0x0000)
#define SPI_CPOL_High ((uint16_t)0x0002)
/* SPI_Clock_Phase */
#define SPI_CPHA_1Edge ((uint16_t)0x0000)
#define SPI_CPHA_2Edge ((uint16_t)0x0001)
/* SPI_Slave_Select_management */
#define SPI_NSS_Soft ((uint16_t)0x0200)
#define SPI_NSS_Hard ((uint16_t)0x0000)
/* SPI_BaudRate_Prescaler */
#define SPI_BaudRatePrescaler_2 ((uint16_t)0x0000)
#define SPI_BaudRatePrescaler_4 ((uint16_t)0x0008)
#define SPI_BaudRatePrescaler_8 ((uint16_t)0x0010)
#define SPI_BaudRatePrescaler_16 ((uint16_t)0x0018)
#define SPI_BaudRatePrescaler_32 ((uint16_t)0x0020)
#define SPI_BaudRatePrescaler_64 ((uint16_t)0x0028)
#define SPI_BaudRatePrescaler_128 ((uint16_t)0x0030)
#define SPI_BaudRatePrescaler_256 ((uint16_t)0x0038)
/* SPI_MSB_LSB_transmission */
#define SPI_FirstBit_MSB ((uint16_t)0x0000)
#define SPI_FirstBit_LSB ((uint16_t)0x0080)
/* I2S_Mode */
#define I2S_Mode_SlaveTx ((uint16_t)0x0000)
#define I2S_Mode_SlaveRx ((uint16_t)0x0100)
#define I2S_Mode_MasterTx ((uint16_t)0x0200)
#define I2S_Mode_MasterRx ((uint16_t)0x0300)
/* I2S_Standard */
#define I2S_Standard_Phillips ((uint16_t)0x0000)
#define I2S_Standard_MSB ((uint16_t)0x0010)
#define I2S_Standard_LSB ((uint16_t)0x0020)
#define I2S_Standard_PCMShort ((uint16_t)0x0030)
#define I2S_Standard_PCMLong ((uint16_t)0x00B0)
/* I2S_Data_Format */
#define I2S_DataFormat_16b ((uint16_t)0x0000)
#define I2S_DataFormat_16bextended ((uint16_t)0x0001)
#define I2S_DataFormat_24b ((uint16_t)0x0003)
#define I2S_DataFormat_32b ((uint16_t)0x0005)
/* I2S_MCLK_Output */
#define I2S_MCLKOutput_Enable ((uint16_t)0x0200)
#define I2S_MCLKOutput_Disable ((uint16_t)0x0000)
/* I2S_Audio_Frequency */
#define I2S_AudioFreq_192k ((uint32_t)192000)
#define I2S_AudioFreq_96k ((uint32_t)96000)
#define I2S_AudioFreq_48k ((uint32_t)48000)
#define I2S_AudioFreq_44k ((uint32_t)44100)
#define I2S_AudioFreq_32k ((uint32_t)32000)
#define I2S_AudioFreq_22k ((uint32_t)22050)
#define I2S_AudioFreq_16k ((uint32_t)16000)
#define I2S_AudioFreq_11k ((uint32_t)11025)
#define I2S_AudioFreq_8k ((uint32_t)8000)
#define I2S_AudioFreq_Default ((uint32_t)2)
/* I2S_Clock_Polarity */
#define I2S_CPOL_Low ((uint16_t)0x0000)
#define I2S_CPOL_High ((uint16_t)0x0008)
/* SPI_I2S_DMA_transfer_requests */
#define SPI_I2S_DMAReq_Tx ((uint16_t)0x0002)
#define SPI_I2S_DMAReq_Rx ((uint16_t)0x0001)
/* SPI_NSS_internal_software_management */
#define SPI_NSSInternalSoft_Set ((uint16_t)0x0100)
#define SPI_NSSInternalSoft_Reset ((uint16_t)0xFEFF)
/* SPI_CRC_Transmit_Receive */
#define SPI_CRC_Tx ((uint8_t)0x00)
#define SPI_CRC_Rx ((uint8_t)0x01)
/* SPI_direction_transmit_receive */
#define SPI_Direction_Rx ((uint16_t)0xBFFF)
#define SPI_Direction_Tx ((uint16_t)0x4000)
/* SPI_I2S_interrupts_definition */
#define SPI_I2S_IT_TXE ((uint8_t)0x71)
#define SPI_I2S_IT_RXNE ((uint8_t)0x60)
#define SPI_I2S_IT_ERR ((uint8_t)0x50)
#define SPI_I2S_IT_OVR ((uint8_t)0x56)
#define SPI_IT_MODF ((uint8_t)0x55)
#define SPI_IT_CRCERR ((uint8_t)0x54)
#define I2S_IT_UDR ((uint8_t)0x53)
/* SPI_I2S_flags_definition */
#define SPI_I2S_FLAG_RXNE ((uint16_t)0x0001)
#define SPI_I2S_FLAG_TXE ((uint16_t)0x0002)
#define I2S_FLAG_CHSIDE ((uint16_t)0x0004)
#define I2S_FLAG_UDR ((uint16_t)0x0008)
#define SPI_FLAG_CRCERR ((uint16_t)0x0010)
#define SPI_FLAG_MODF ((uint16_t)0x0020)
#define SPI_I2S_FLAG_OVR ((uint16_t)0x0040)
#define SPI_I2S_FLAG_BSY ((uint16_t)0x0080)
void SPI_I2S_DeInit(SPI_TypeDef* SPIx);
void SPI_Init(SPI_TypeDef* SPIx, SPI_InitTypeDef* SPI_InitStruct);
void I2S_Init(SPI_TypeDef* SPIx, I2S_InitTypeDef* I2S_InitStruct);
void SPI_StructInit(SPI_InitTypeDef* SPI_InitStruct);
void I2S_StructInit(I2S_InitTypeDef* I2S_InitStruct);
void SPI_Cmd(SPI_TypeDef* SPIx, FunctionalState NewState);
void I2S_Cmd(SPI_TypeDef* SPIx, FunctionalState NewState);
void SPI_I2S_ITConfig(SPI_TypeDef* SPIx, uint8_t SPI_I2S_IT, FunctionalState NewState);
void SPI_I2S_DMACmd(SPI_TypeDef* SPIx, uint16_t SPI_I2S_DMAReq, FunctionalState NewState);
void SPI_I2S_SendData(SPI_TypeDef* SPIx, uint16_t Data);
uint16_t SPI_I2S_ReceiveData(SPI_TypeDef* SPIx);
void SPI_NSSInternalSoftwareConfig(SPI_TypeDef* SPIx, uint16_t SPI_NSSInternalSoft);
void SPI_SSOutputCmd(SPI_TypeDef* SPIx, FunctionalState NewState);
void SPI_DataSizeConfig(SPI_TypeDef* SPIx, uint16_t SPI_DataSize);
void SPI_TransmitCRC(SPI_TypeDef* SPIx);
void SPI_CalculateCRC(SPI_TypeDef* SPIx, FunctionalState NewState);
uint16_t SPI_GetCRC(SPI_TypeDef* SPIx, uint8_t SPI_CRC);
uint16_t SPI_GetCRCPolynomial(SPI_TypeDef* SPIx);
void SPI_BiDirectionalLineConfig(SPI_TypeDef* SPIx, uint16_t SPI_Direction);
FlagStatus SPI_I2S_GetFlagStatus(SPI_TypeDef* SPIx, uint16_t SPI_I2S_FLAG);
void SPI_I2S_ClearFlag(SPI_TypeDef* SPIx, uint16_t SPI_I2S_FLAG);
ITStatus SPI_I2S_GetITStatus(SPI_TypeDef* SPIx, uint8_t SPI_I2S_IT);
void SPI_I2S_ClearITPendingBit(SPI_TypeDef* SPIx, uint8_t SPI_I2S_IT);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_tim.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* TIM firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_TIM_H
#define __CH32V30x_TIM_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* TIM Time Base Init structure definition */
typedef struct
{
uint16_t TIM_Prescaler; /* Specifies the prescaler value used to divide the TIM clock.
This parameter can be a number between 0x0000 and 0xFFFF */
uint16_t TIM_CounterMode; /* Specifies the counter mode.
This parameter can be a value of @ref TIM_Counter_Mode */
uint16_t TIM_Period; /* Specifies the period value to be loaded into the active
Auto-Reload Register at the next update event.
This parameter must be a number between 0x0000 and 0xFFFF. */
uint16_t TIM_ClockDivision; /* Specifies the clock division.
This parameter can be a value of @ref TIM_Clock_Division_CKD */
uint8_t TIM_RepetitionCounter; /* Specifies the repetition counter value. Each time the RCR downcounter
reaches zero, an update event is generated and counting restarts
from the RCR value (N).
This means in PWM mode that (N+1) corresponds to:
- the number of PWM periods in edge-aligned mode
- the number of half PWM period in center-aligned mode
This parameter must be a number between 0x00 and 0xFF.
@note This parameter is valid only for TIM1 and TIM8. */
} TIM_TimeBaseInitTypeDef;
/* TIM Output Compare Init structure definition */
typedef struct
{
uint16_t TIM_OCMode; /* Specifies the TIM mode.
This parameter can be a value of @ref TIM_Output_Compare_and_PWM_modes */
uint16_t TIM_OutputState; /* Specifies the TIM Output Compare state.
This parameter can be a value of @ref TIM_Output_Compare_state */
uint16_t TIM_OutputNState; /* Specifies the TIM complementary Output Compare state.
This parameter can be a value of @ref TIM_Output_Compare_N_state
@note This parameter is valid only for TIM1 and TIM8. */
uint16_t TIM_Pulse; /* Specifies the pulse value to be loaded into the Capture Compare Register.
This parameter can be a number between 0x0000 and 0xFFFF */
uint16_t TIM_OCPolarity; /* Specifies the output polarity.
This parameter can be a value of @ref TIM_Output_Compare_Polarity */
uint16_t TIM_OCNPolarity; /* Specifies the complementary output polarity.
This parameter can be a value of @ref TIM_Output_Compare_N_Polarity
@note This parameter is valid only for TIM1 and TIM8. */
uint16_t TIM_OCIdleState; /* Specifies the TIM Output Compare pin state during Idle state.
This parameter can be a value of @ref TIM_Output_Compare_Idle_State
@note This parameter is valid only for TIM1 and TIM8. */
uint16_t TIM_OCNIdleState; /* Specifies the TIM Output Compare pin state during Idle state.
This parameter can be a value of @ref TIM_Output_Compare_N_Idle_State
@note This parameter is valid only for TIM1 and TIM8. */
} TIM_OCInitTypeDef;
/* TIM Input Capture Init structure definition */
typedef struct
{
uint16_t TIM_Channel; /* Specifies the TIM channel.
This parameter can be a value of @ref TIM_Channel */
uint16_t TIM_ICPolarity; /* Specifies the active edge of the input signal.
This parameter can be a value of @ref TIM_Input_Capture_Polarity */
uint16_t TIM_ICSelection; /* Specifies the input.
This parameter can be a value of @ref TIM_Input_Capture_Selection */
uint16_t TIM_ICPrescaler; /* Specifies the Input Capture Prescaler.
This parameter can be a value of @ref TIM_Input_Capture_Prescaler */
uint16_t TIM_ICFilter; /* Specifies the input capture filter.
This parameter can be a number between 0x0 and 0xF */
} TIM_ICInitTypeDef;
/* BDTR structure definition */
typedef struct
{
uint16_t TIM_OSSRState; /* Specifies the Off-State selection used in Run mode.
This parameter can be a value of @ref OSSR_Off_State_Selection_for_Run_mode_state */
uint16_t TIM_OSSIState; /* Specifies the Off-State used in Idle state.
This parameter can be a value of @ref OSSI_Off_State_Selection_for_Idle_mode_state */
uint16_t TIM_LOCKLevel; /* Specifies the LOCK level parameters.
This parameter can be a value of @ref Lock_level */
uint16_t TIM_DeadTime; /* Specifies the delay time between the switching-off and the
switching-on of the outputs.
This parameter can be a number between 0x00 and 0xFF */
uint16_t TIM_Break; /* Specifies whether the TIM Break input is enabled or not.
This parameter can be a value of @ref Break_Input_enable_disable */
uint16_t TIM_BreakPolarity; /* Specifies the TIM Break Input pin polarity.
This parameter can be a value of @ref Break_Polarity */
uint16_t TIM_AutomaticOutput; /* Specifies whether the TIM Automatic Output feature is enabled or not.
This parameter can be a value of @ref TIM_AOE_Bit_Set_Reset */
} TIM_BDTRInitTypeDef;
/* TIM_Output_Compare_and_PWM_modes */
#define TIM_OCMode_Timing ((uint16_t)0x0000)
#define TIM_OCMode_Active ((uint16_t)0x0010)
#define TIM_OCMode_Inactive ((uint16_t)0x0020)
#define TIM_OCMode_Toggle ((uint16_t)0x0030)
#define TIM_OCMode_PWM1 ((uint16_t)0x0060)
#define TIM_OCMode_PWM2 ((uint16_t)0x0070)
/* TIM_One_Pulse_Mode */
#define TIM_OPMode_Single ((uint16_t)0x0008)
#define TIM_OPMode_Repetitive ((uint16_t)0x0000)
/* TIM_Channel */
#define TIM_Channel_1 ((uint16_t)0x0000)
#define TIM_Channel_2 ((uint16_t)0x0004)
#define TIM_Channel_3 ((uint16_t)0x0008)
#define TIM_Channel_4 ((uint16_t)0x000C)
/* TIM_Clock_Division_CKD */
#define TIM_CKD_DIV1 ((uint16_t)0x0000)
#define TIM_CKD_DIV2 ((uint16_t)0x0100)
#define TIM_CKD_DIV4 ((uint16_t)0x0200)
/* TIM_Counter_Mode */
#define TIM_CounterMode_Up ((uint16_t)0x0000)
#define TIM_CounterMode_Down ((uint16_t)0x0010)
#define TIM_CounterMode_CenterAligned1 ((uint16_t)0x0020)
#define TIM_CounterMode_CenterAligned2 ((uint16_t)0x0040)
#define TIM_CounterMode_CenterAligned3 ((uint16_t)0x0060)
/* TIM_Output_Compare_Polarity */
#define TIM_OCPolarity_High ((uint16_t)0x0000)
#define TIM_OCPolarity_Low ((uint16_t)0x0002)
/* TIM_Output_Compare_N_Polarity */
#define TIM_OCNPolarity_High ((uint16_t)0x0000)
#define TIM_OCNPolarity_Low ((uint16_t)0x0008)
/* TIM_Output_Compare_state */
#define TIM_OutputState_Disable ((uint16_t)0x0000)
#define TIM_OutputState_Enable ((uint16_t)0x0001)
/* TIM_Output_Compare_N_state */
#define TIM_OutputNState_Disable ((uint16_t)0x0000)
#define TIM_OutputNState_Enable ((uint16_t)0x0004)
/* TIM_Capture_Compare_state */
#define TIM_CCx_Enable ((uint16_t)0x0001)
#define TIM_CCx_Disable ((uint16_t)0x0000)
/* TIM_Capture_Compare_N_state */
#define TIM_CCxN_Enable ((uint16_t)0x0004)
#define TIM_CCxN_Disable ((uint16_t)0x0000)
/* Break_Input_enable_disable */
#define TIM_Break_Enable ((uint16_t)0x1000)
#define TIM_Break_Disable ((uint16_t)0x0000)
/* Break_Polarity */
#define TIM_BreakPolarity_Low ((uint16_t)0x0000)
#define TIM_BreakPolarity_High ((uint16_t)0x2000)
/* TIM_AOE_Bit_Set_Reset */
#define TIM_AutomaticOutput_Enable ((uint16_t)0x4000)
#define TIM_AutomaticOutput_Disable ((uint16_t)0x0000)
/* Lock_level */
#define TIM_LOCKLevel_OFF ((uint16_t)0x0000)
#define TIM_LOCKLevel_1 ((uint16_t)0x0100)
#define TIM_LOCKLevel_2 ((uint16_t)0x0200)
#define TIM_LOCKLevel_3 ((uint16_t)0x0300)
/* OSSI_Off_State_Selection_for_Idle_mode_state */
#define TIM_OSSIState_Enable ((uint16_t)0x0400)
#define TIM_OSSIState_Disable ((uint16_t)0x0000)
/* OSSR_Off_State_Selection_for_Run_mode_state */
#define TIM_OSSRState_Enable ((uint16_t)0x0800)
#define TIM_OSSRState_Disable ((uint16_t)0x0000)
/* TIM_Output_Compare_Idle_State */
#define TIM_OCIdleState_Set ((uint16_t)0x0100)
#define TIM_OCIdleState_Reset ((uint16_t)0x0000)
/* TIM_Output_Compare_N_Idle_State */
#define TIM_OCNIdleState_Set ((uint16_t)0x0200)
#define TIM_OCNIdleState_Reset ((uint16_t)0x0000)
/* TIM_Input_Capture_Polarity */
#define TIM_ICPolarity_Rising ((uint16_t)0x0000)
#define TIM_ICPolarity_Falling ((uint16_t)0x0002)
#define TIM_ICPolarity_BothEdge ((uint16_t)0x000A)
/* TIM_Input_Capture_Selection */
#define TIM_ICSelection_DirectTI ((uint16_t)0x0001) /* TIM Input 1, 2, 3 or 4 is selected to be
connected to IC1, IC2, IC3 or IC4, respectively */
#define TIM_ICSelection_IndirectTI ((uint16_t)0x0002) /* TIM Input 1, 2, 3 or 4 is selected to be
connected to IC2, IC1, IC4 or IC3, respectively. */
#define TIM_ICSelection_TRC ((uint16_t)0x0003) /* TIM Input 1, 2, 3 or 4 is selected to be connected to TRC. */
/* TIM_Input_Capture_Prescaler */
#define TIM_ICPSC_DIV1 ((uint16_t)0x0000) /* Capture performed each time an edge is detected on the capture input. */
#define TIM_ICPSC_DIV2 ((uint16_t)0x0004) /* Capture performed once every 2 events. */
#define TIM_ICPSC_DIV4 ((uint16_t)0x0008) /* Capture performed once every 4 events. */
#define TIM_ICPSC_DIV8 ((uint16_t)0x000C) /* Capture performed once every 8 events. */
/* TIM_interrupt_sources */
#define TIM_IT_Update ((uint16_t)0x0001)
#define TIM_IT_CC1 ((uint16_t)0x0002)
#define TIM_IT_CC2 ((uint16_t)0x0004)
#define TIM_IT_CC3 ((uint16_t)0x0008)
#define TIM_IT_CC4 ((uint16_t)0x0010)
#define TIM_IT_COM ((uint16_t)0x0020)
#define TIM_IT_Trigger ((uint16_t)0x0040)
#define TIM_IT_Break ((uint16_t)0x0080)
/* TIM_DMA_Base_address */
#define TIM_DMABase_CR1 ((uint16_t)0x0000)
#define TIM_DMABase_CR2 ((uint16_t)0x0001)
#define TIM_DMABase_SMCR ((uint16_t)0x0002)
#define TIM_DMABase_DIER ((uint16_t)0x0003)
#define TIM_DMABase_SR ((uint16_t)0x0004)
#define TIM_DMABase_EGR ((uint16_t)0x0005)
#define TIM_DMABase_CCMR1 ((uint16_t)0x0006)
#define TIM_DMABase_CCMR2 ((uint16_t)0x0007)
#define TIM_DMABase_CCER ((uint16_t)0x0008)
#define TIM_DMABase_CNT ((uint16_t)0x0009)
#define TIM_DMABase_PSC ((uint16_t)0x000A)
#define TIM_DMABase_ARR ((uint16_t)0x000B)
#define TIM_DMABase_RCR ((uint16_t)0x000C)
#define TIM_DMABase_CCR1 ((uint16_t)0x000D)
#define TIM_DMABase_CCR2 ((uint16_t)0x000E)
#define TIM_DMABase_CCR3 ((uint16_t)0x000F)
#define TIM_DMABase_CCR4 ((uint16_t)0x0010)
#define TIM_DMABase_BDTR ((uint16_t)0x0011)
#define TIM_DMABase_DCR ((uint16_t)0x0012)
/* TIM_DMA_Burst_Length */
#define TIM_DMABurstLength_1Transfer ((uint16_t)0x0000)
#define TIM_DMABurstLength_2Transfers ((uint16_t)0x0100)
#define TIM_DMABurstLength_3Transfers ((uint16_t)0x0200)
#define TIM_DMABurstLength_4Transfers ((uint16_t)0x0300)
#define TIM_DMABurstLength_5Transfers ((uint16_t)0x0400)
#define TIM_DMABurstLength_6Transfers ((uint16_t)0x0500)
#define TIM_DMABurstLength_7Transfers ((uint16_t)0x0600)
#define TIM_DMABurstLength_8Transfers ((uint16_t)0x0700)
#define TIM_DMABurstLength_9Transfers ((uint16_t)0x0800)
#define TIM_DMABurstLength_10Transfers ((uint16_t)0x0900)
#define TIM_DMABurstLength_11Transfers ((uint16_t)0x0A00)
#define TIM_DMABurstLength_12Transfers ((uint16_t)0x0B00)
#define TIM_DMABurstLength_13Transfers ((uint16_t)0x0C00)
#define TIM_DMABurstLength_14Transfers ((uint16_t)0x0D00)
#define TIM_DMABurstLength_15Transfers ((uint16_t)0x0E00)
#define TIM_DMABurstLength_16Transfers ((uint16_t)0x0F00)
#define TIM_DMABurstLength_17Transfers ((uint16_t)0x1000)
#define TIM_DMABurstLength_18Transfers ((uint16_t)0x1100)
/* TIM_DMA_sources */
#define TIM_DMA_Update ((uint16_t)0x0100)
#define TIM_DMA_CC1 ((uint16_t)0x0200)
#define TIM_DMA_CC2 ((uint16_t)0x0400)
#define TIM_DMA_CC3 ((uint16_t)0x0800)
#define TIM_DMA_CC4 ((uint16_t)0x1000)
#define TIM_DMA_COM ((uint16_t)0x2000)
#define TIM_DMA_Trigger ((uint16_t)0x4000)
/* TIM_External_Trigger_Prescaler */
#define TIM_ExtTRGPSC_OFF ((uint16_t)0x0000)
#define TIM_ExtTRGPSC_DIV2 ((uint16_t)0x1000)
#define TIM_ExtTRGPSC_DIV4 ((uint16_t)0x2000)
#define TIM_ExtTRGPSC_DIV8 ((uint16_t)0x3000)
/* TIM_Internal_Trigger_Selection */
#define TIM_TS_ITR0 ((uint16_t)0x0000)
#define TIM_TS_ITR1 ((uint16_t)0x0010)
#define TIM_TS_ITR2 ((uint16_t)0x0020)
#define TIM_TS_ITR3 ((uint16_t)0x0030)
#define TIM_TS_TI1F_ED ((uint16_t)0x0040)
#define TIM_TS_TI1FP1 ((uint16_t)0x0050)
#define TIM_TS_TI2FP2 ((uint16_t)0x0060)
#define TIM_TS_ETRF ((uint16_t)0x0070)
/* TIM_TIx_External_Clock_Source */
#define TIM_TIxExternalCLK1Source_TI1 ((uint16_t)0x0050)
#define TIM_TIxExternalCLK1Source_TI2 ((uint16_t)0x0060)
#define TIM_TIxExternalCLK1Source_TI1ED ((uint16_t)0x0040)
/* TIM_External_Trigger_Polarity */
#define TIM_ExtTRGPolarity_Inverted ((uint16_t)0x8000)
#define TIM_ExtTRGPolarity_NonInverted ((uint16_t)0x0000)
/* TIM_Prescaler_Reload_Mode */
#define TIM_PSCReloadMode_Update ((uint16_t)0x0000)
#define TIM_PSCReloadMode_Immediate ((uint16_t)0x0001)
/* TIM_Forced_Action */
#define TIM_ForcedAction_Active ((uint16_t)0x0050)
#define TIM_ForcedAction_InActive ((uint16_t)0x0040)
/* TIM_Encoder_Mode */
#define TIM_EncoderMode_TI1 ((uint16_t)0x0001)
#define TIM_EncoderMode_TI2 ((uint16_t)0x0002)
#define TIM_EncoderMode_TI12 ((uint16_t)0x0003)
/* TIM_Event_Source */
#define TIM_EventSource_Update ((uint16_t)0x0001)
#define TIM_EventSource_CC1 ((uint16_t)0x0002)
#define TIM_EventSource_CC2 ((uint16_t)0x0004)
#define TIM_EventSource_CC3 ((uint16_t)0x0008)
#define TIM_EventSource_CC4 ((uint16_t)0x0010)
#define TIM_EventSource_COM ((uint16_t)0x0020)
#define TIM_EventSource_Trigger ((uint16_t)0x0040)
#define TIM_EventSource_Break ((uint16_t)0x0080)
/* TIM_Update_Source */
#define TIM_UpdateSource_Global ((uint16_t)0x0000) /* Source of update is the counter overflow/underflow
or the setting of UG bit, or an update generation
through the slave mode controller. */
#define TIM_UpdateSource_Regular ((uint16_t)0x0001) /* Source of update is counter overflow/underflow. */
/* TIM_Output_Compare_Preload_State */
#define TIM_OCPreload_Enable ((uint16_t)0x0008)
#define TIM_OCPreload_Disable ((uint16_t)0x0000)
/* TIM_Output_Compare_Fast_State */
#define TIM_OCFast_Enable ((uint16_t)0x0004)
#define TIM_OCFast_Disable ((uint16_t)0x0000)
/* TIM_Output_Compare_Clear_State */
#define TIM_OCClear_Enable ((uint16_t)0x0080)
#define TIM_OCClear_Disable ((uint16_t)0x0000)
/* TIM_Trigger_Output_Source */
#define TIM_TRGOSource_Reset ((uint16_t)0x0000)
#define TIM_TRGOSource_Enable ((uint16_t)0x0010)
#define TIM_TRGOSource_Update ((uint16_t)0x0020)
#define TIM_TRGOSource_OC1 ((uint16_t)0x0030)
#define TIM_TRGOSource_OC1Ref ((uint16_t)0x0040)
#define TIM_TRGOSource_OC2Ref ((uint16_t)0x0050)
#define TIM_TRGOSource_OC3Ref ((uint16_t)0x0060)
#define TIM_TRGOSource_OC4Ref ((uint16_t)0x0070)
/* TIM_Slave_Mode */
#define TIM_SlaveMode_Reset ((uint16_t)0x0004)
#define TIM_SlaveMode_Gated ((uint16_t)0x0005)
#define TIM_SlaveMode_Trigger ((uint16_t)0x0006)
#define TIM_SlaveMode_External1 ((uint16_t)0x0007)
/* TIM_Master_Slave_Mode */
#define TIM_MasterSlaveMode_Enable ((uint16_t)0x0080)
#define TIM_MasterSlaveMode_Disable ((uint16_t)0x0000)
/* TIM_Flags */
#define TIM_FLAG_Update ((uint16_t)0x0001)
#define TIM_FLAG_CC1 ((uint16_t)0x0002)
#define TIM_FLAG_CC2 ((uint16_t)0x0004)
#define TIM_FLAG_CC3 ((uint16_t)0x0008)
#define TIM_FLAG_CC4 ((uint16_t)0x0010)
#define TIM_FLAG_COM ((uint16_t)0x0020)
#define TIM_FLAG_Trigger ((uint16_t)0x0040)
#define TIM_FLAG_Break ((uint16_t)0x0080)
#define TIM_FLAG_CC1OF ((uint16_t)0x0200)
#define TIM_FLAG_CC2OF ((uint16_t)0x0400)
#define TIM_FLAG_CC3OF ((uint16_t)0x0800)
#define TIM_FLAG_CC4OF ((uint16_t)0x1000)
/* TIM_Legacy */
#define TIM_DMABurstLength_1Byte TIM_DMABurstLength_1Transfer
#define TIM_DMABurstLength_2Bytes TIM_DMABurstLength_2Transfers
#define TIM_DMABurstLength_3Bytes TIM_DMABurstLength_3Transfers
#define TIM_DMABurstLength_4Bytes TIM_DMABurstLength_4Transfers
#define TIM_DMABurstLength_5Bytes TIM_DMABurstLength_5Transfers
#define TIM_DMABurstLength_6Bytes TIM_DMABurstLength_6Transfers
#define TIM_DMABurstLength_7Bytes TIM_DMABurstLength_7Transfers
#define TIM_DMABurstLength_8Bytes TIM_DMABurstLength_8Transfers
#define TIM_DMABurstLength_9Bytes TIM_DMABurstLength_9Transfers
#define TIM_DMABurstLength_10Bytes TIM_DMABurstLength_10Transfers
#define TIM_DMABurstLength_11Bytes TIM_DMABurstLength_11Transfers
#define TIM_DMABurstLength_12Bytes TIM_DMABurstLength_12Transfers
#define TIM_DMABurstLength_13Bytes TIM_DMABurstLength_13Transfers
#define TIM_DMABurstLength_14Bytes TIM_DMABurstLength_14Transfers
#define TIM_DMABurstLength_15Bytes TIM_DMABurstLength_15Transfers
#define TIM_DMABurstLength_16Bytes TIM_DMABurstLength_16Transfers
#define TIM_DMABurstLength_17Bytes TIM_DMABurstLength_17Transfers
#define TIM_DMABurstLength_18Bytes TIM_DMABurstLength_18Transfers
void TIM_DeInit(TIM_TypeDef* TIMx);
void TIM_TimeBaseInit(TIM_TypeDef* TIMx, TIM_TimeBaseInitTypeDef* TIM_TimeBaseInitStruct);
void TIM_OC1Init(TIM_TypeDef* TIMx, TIM_OCInitTypeDef* TIM_OCInitStruct);
void TIM_OC2Init(TIM_TypeDef* TIMx, TIM_OCInitTypeDef* TIM_OCInitStruct);
void TIM_OC3Init(TIM_TypeDef* TIMx, TIM_OCInitTypeDef* TIM_OCInitStruct);
void TIM_OC4Init(TIM_TypeDef* TIMx, TIM_OCInitTypeDef* TIM_OCInitStruct);
void TIM_ICInit(TIM_TypeDef* TIMx, TIM_ICInitTypeDef* TIM_ICInitStruct);
void TIM_PWMIConfig(TIM_TypeDef* TIMx, TIM_ICInitTypeDef* TIM_ICInitStruct);
void TIM_BDTRConfig(TIM_TypeDef* TIMx, TIM_BDTRInitTypeDef *TIM_BDTRInitStruct);
void TIM_TimeBaseStructInit(TIM_TimeBaseInitTypeDef* TIM_TimeBaseInitStruct);
void TIM_OCStructInit(TIM_OCInitTypeDef* TIM_OCInitStruct);
void TIM_ICStructInit(TIM_ICInitTypeDef* TIM_ICInitStruct);
void TIM_BDTRStructInit(TIM_BDTRInitTypeDef* TIM_BDTRInitStruct);
void TIM_Cmd(TIM_TypeDef* TIMx, FunctionalState NewState);
void TIM_CtrlPWMOutputs(TIM_TypeDef* TIMx, FunctionalState NewState);
void TIM_ITConfig(TIM_TypeDef* TIMx, uint16_t TIM_IT, FunctionalState NewState);
void TIM_GenerateEvent(TIM_TypeDef* TIMx, uint16_t TIM_EventSource);
void TIM_DMAConfig(TIM_TypeDef* TIMx, uint16_t TIM_DMABase, uint16_t TIM_DMABurstLength);
void TIM_DMACmd(TIM_TypeDef* TIMx, uint16_t TIM_DMASource, FunctionalState NewState);
void TIM_InternalClockConfig(TIM_TypeDef* TIMx);
void TIM_ITRxExternalClockConfig(TIM_TypeDef* TIMx, uint16_t TIM_InputTriggerSource);
void TIM_TIxExternalClockConfig(TIM_TypeDef* TIMx, uint16_t TIM_TIxExternalCLKSource,
uint16_t TIM_ICPolarity, uint16_t ICFilter);
void TIM_ETRClockMode1Config(TIM_TypeDef* TIMx, uint16_t TIM_ExtTRGPrescaler, uint16_t TIM_ExtTRGPolarity,
uint16_t ExtTRGFilter);
void TIM_ETRClockMode2Config(TIM_TypeDef* TIMx, uint16_t TIM_ExtTRGPrescaler,
uint16_t TIM_ExtTRGPolarity, uint16_t ExtTRGFilter);
void TIM_ETRConfig(TIM_TypeDef* TIMx, uint16_t TIM_ExtTRGPrescaler, uint16_t TIM_ExtTRGPolarity,
uint16_t ExtTRGFilter);
void TIM_PrescalerConfig(TIM_TypeDef* TIMx, uint16_t Prescaler, uint16_t TIM_PSCReloadMode);
void TIM_CounterModeConfig(TIM_TypeDef* TIMx, uint16_t TIM_CounterMode);
void TIM_SelectInputTrigger(TIM_TypeDef* TIMx, uint16_t TIM_InputTriggerSource);
void TIM_EncoderInterfaceConfig(TIM_TypeDef* TIMx, uint16_t TIM_EncoderMode,
uint16_t TIM_IC1Polarity, uint16_t TIM_IC2Polarity);
void TIM_ForcedOC1Config(TIM_TypeDef* TIMx, uint16_t TIM_ForcedAction);
void TIM_ForcedOC2Config(TIM_TypeDef* TIMx, uint16_t TIM_ForcedAction);
void TIM_ForcedOC3Config(TIM_TypeDef* TIMx, uint16_t TIM_ForcedAction);
void TIM_ForcedOC4Config(TIM_TypeDef* TIMx, uint16_t TIM_ForcedAction);
void TIM_ARRPreloadConfig(TIM_TypeDef* TIMx, FunctionalState NewState);
void TIM_SelectCOM(TIM_TypeDef* TIMx, FunctionalState NewState);
void TIM_SelectCCDMA(TIM_TypeDef* TIMx, FunctionalState NewState);
void TIM_CCPreloadControl(TIM_TypeDef* TIMx, FunctionalState NewState);
void TIM_OC1PreloadConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPreload);
void TIM_OC2PreloadConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPreload);
void TIM_OC3PreloadConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPreload);
void TIM_OC4PreloadConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPreload);
void TIM_OC1FastConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCFast);
void TIM_OC2FastConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCFast);
void TIM_OC3FastConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCFast);
void TIM_OC4FastConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCFast);
void TIM_ClearOC1Ref(TIM_TypeDef* TIMx, uint16_t TIM_OCClear);
void TIM_ClearOC2Ref(TIM_TypeDef* TIMx, uint16_t TIM_OCClear);
void TIM_ClearOC3Ref(TIM_TypeDef* TIMx, uint16_t TIM_OCClear);
void TIM_ClearOC4Ref(TIM_TypeDef* TIMx, uint16_t TIM_OCClear);
void TIM_OC1PolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPolarity);
void TIM_OC1NPolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCNPolarity);
void TIM_OC2PolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPolarity);
void TIM_OC2NPolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCNPolarity);
void TIM_OC3PolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPolarity);
void TIM_OC3NPolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCNPolarity);
void TIM_OC4PolarityConfig(TIM_TypeDef* TIMx, uint16_t TIM_OCPolarity);
void TIM_CCxCmd(TIM_TypeDef* TIMx, uint16_t TIM_Channel, uint16_t TIM_CCx);
void TIM_CCxNCmd(TIM_TypeDef* TIMx, uint16_t TIM_Channel, uint16_t TIM_CCxN);
void TIM_SelectOCxM(TIM_TypeDef* TIMx, uint16_t TIM_Channel, uint16_t TIM_OCMode);
void TIM_UpdateDisableConfig(TIM_TypeDef* TIMx, FunctionalState NewState);
void TIM_UpdateRequestConfig(TIM_TypeDef* TIMx, uint16_t TIM_UpdateSource);
void TIM_SelectHallSensor(TIM_TypeDef* TIMx, FunctionalState NewState);
void TIM_SelectOnePulseMode(TIM_TypeDef* TIMx, uint16_t TIM_OPMode);
void TIM_SelectOutputTrigger(TIM_TypeDef* TIMx, uint16_t TIM_TRGOSource);
void TIM_SelectSlaveMode(TIM_TypeDef* TIMx, uint16_t TIM_SlaveMode);
void TIM_SelectMasterSlaveMode(TIM_TypeDef* TIMx, uint16_t TIM_MasterSlaveMode);
void TIM_SetCounter(TIM_TypeDef* TIMx, uint16_t Counter);
void TIM_SetAutoreload(TIM_TypeDef* TIMx, uint16_t Autoreload);
void TIM_SetCompare1(TIM_TypeDef* TIMx, uint16_t Compare1);
void TIM_SetCompare2(TIM_TypeDef* TIMx, uint16_t Compare2);
void TIM_SetCompare3(TIM_TypeDef* TIMx, uint16_t Compare3);
void TIM_SetCompare4(TIM_TypeDef* TIMx, uint16_t Compare4);
void TIM_SetIC1Prescaler(TIM_TypeDef* TIMx, uint16_t TIM_ICPSC);
void TIM_SetIC2Prescaler(TIM_TypeDef* TIMx, uint16_t TIM_ICPSC);
void TIM_SetIC3Prescaler(TIM_TypeDef* TIMx, uint16_t TIM_ICPSC);
void TIM_SetIC4Prescaler(TIM_TypeDef* TIMx, uint16_t TIM_ICPSC);
void TIM_SetClockDivision(TIM_TypeDef* TIMx, uint16_t TIM_CKD);
uint16_t TIM_GetCapture1(TIM_TypeDef* TIMx);
uint16_t TIM_GetCapture2(TIM_TypeDef* TIMx);
uint16_t TIM_GetCapture3(TIM_TypeDef* TIMx);
uint16_t TIM_GetCapture4(TIM_TypeDef* TIMx);
uint16_t TIM_GetCounter(TIM_TypeDef* TIMx);
uint16_t TIM_GetPrescaler(TIM_TypeDef* TIMx);
FlagStatus TIM_GetFlagStatus(TIM_TypeDef* TIMx, uint16_t TIM_FLAG);
void TIM_ClearFlag(TIM_TypeDef* TIMx, uint16_t TIM_FLAG);
ITStatus TIM_GetITStatus(TIM_TypeDef* TIMx, uint16_t TIM_IT);
void TIM_ClearITPendingBit(TIM_TypeDef* TIMx, uint16_t TIM_IT);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_usart.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the
* USART firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_USART_H
#define __CH32V30x_USART_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* USART Init Structure definition */
typedef struct
{
uint32_t USART_BaudRate; /* This member configures the USART communication baud rate.
The baud rate is computed using the following formula:
- IntegerDivider = ((PCLKx) / (16 * (USART_InitStruct->USART_BaudRate)))
- FractionalDivider = ((IntegerDivider - ((u32) IntegerDivider)) * 16) + 0.5 */
uint16_t USART_WordLength; /* Specifies the number of data bits transmitted or received in a frame.
This parameter can be a value of @ref USART_Word_Length */
uint16_t USART_StopBits; /* Specifies the number of stop bits transmitted.
This parameter can be a value of @ref USART_Stop_Bits */
uint16_t USART_Parity; /* Specifies the parity mode.
This parameter can be a value of @ref USART_Parity
@note When parity is enabled, the computed parity is inserted
at the MSB position of the transmitted data (9th bit when
the word length is set to 9 data bits; 8th bit when the
word length is set to 8 data bits). */
uint16_t USART_Mode; /* Specifies wether the Receive or Transmit mode is enabled or disabled.
This parameter can be a value of @ref USART_Mode */
uint16_t USART_HardwareFlowControl; /* Specifies wether the hardware flow control mode is enabled
or disabled.
This parameter can be a value of @ref USART_Hardware_Flow_Control */
} USART_InitTypeDef;
/* USART Clock Init Structure definition */
typedef struct
{
uint16_t USART_Clock; /* Specifies whether the USART clock is enabled or disabled.
This parameter can be a value of @ref USART_Clock */
uint16_t USART_CPOL; /* Specifies the steady state value of the serial clock.
This parameter can be a value of @ref USART_Clock_Polarity */
uint16_t USART_CPHA; /* Specifies the clock transition on which the bit capture is made.
This parameter can be a value of @ref USART_Clock_Phase */
uint16_t USART_LastBit; /* Specifies whether the clock pulse corresponding to the last transmitted
data bit (MSB) has to be output on the SCLK pin in synchronous mode.
This parameter can be a value of @ref USART_Last_Bit */
} USART_ClockInitTypeDef;
/* USART_Word_Length */
#define USART_WordLength_8b ((uint16_t)0x0000)
#define USART_WordLength_9b ((uint16_t)0x1000)
/* USART_Stop_Bits */
#define USART_StopBits_1 ((uint16_t)0x0000)
#define USART_StopBits_0_5 ((uint16_t)0x1000)
#define USART_StopBits_2 ((uint16_t)0x2000)
#define USART_StopBits_1_5 ((uint16_t)0x3000)
/* USART_Parity */
#define USART_Parity_No ((uint16_t)0x0000)
#define USART_Parity_Even ((uint16_t)0x0400)
#define USART_Parity_Odd ((uint16_t)0x0600)
/* USART_Mode */
#define USART_Mode_Rx ((uint16_t)0x0004)
#define USART_Mode_Tx ((uint16_t)0x0008)
/* USART_Hardware_Flow_Control */
#define USART_HardwareFlowControl_None ((uint16_t)0x0000)
#define USART_HardwareFlowControl_RTS ((uint16_t)0x0100)
#define USART_HardwareFlowControl_CTS ((uint16_t)0x0200)
#define USART_HardwareFlowControl_RTS_CTS ((uint16_t)0x0300)
/* USART_Clock */
#define USART_Clock_Disable ((uint16_t)0x0000)
#define USART_Clock_Enable ((uint16_t)0x0800)
/* USART_Clock_Polarity */
#define USART_CPOL_Low ((uint16_t)0x0000)
#define USART_CPOL_High ((uint16_t)0x0400)
/* USART_Clock_Phase */
#define USART_CPHA_1Edge ((uint16_t)0x0000)
#define USART_CPHA_2Edge ((uint16_t)0x0200)
/* USART_Last_Bit */
#define USART_LastBit_Disable ((uint16_t)0x0000)
#define USART_LastBit_Enable ((uint16_t)0x0100)
/* USART_Interrupt_definition */
#define USART_IT_PE ((uint16_t)0x0028)
#define USART_IT_TXE ((uint16_t)0x0727)
#define USART_IT_TC ((uint16_t)0x0626)
#define USART_IT_RXNE ((uint16_t)0x0525)
#define USART_IT_ORE_RX ((uint16_t)0x0325)
#define USART_IT_IDLE ((uint16_t)0x0424)
#define USART_IT_LBD ((uint16_t)0x0846)
#define USART_IT_CTS ((uint16_t)0x096A)
#define USART_IT_ERR ((uint16_t)0x0060)
#define USART_IT_ORE_ER ((uint16_t)0x0360)
#define USART_IT_NE ((uint16_t)0x0260)
#define USART_IT_FE ((uint16_t)0x0160)
#define USART_IT_ORE USART_IT_ORE_ER
/* USART_DMA_Requests */
#define USART_DMAReq_Tx ((uint16_t)0x0080)
#define USART_DMAReq_Rx ((uint16_t)0x0040)
/* USART_WakeUp_methods */
#define USART_WakeUp_IdleLine ((uint16_t)0x0000)
#define USART_WakeUp_AddressMark ((uint16_t)0x0800)
/* USART_LIN_Break_Detection_Length */
#define USART_LINBreakDetectLength_10b ((uint16_t)0x0000)
#define USART_LINBreakDetectLength_11b ((uint16_t)0x0020)
/* USART_IrDA_Low_Power */
#define USART_IrDAMode_LowPower ((uint16_t)0x0004)
#define USART_IrDAMode_Normal ((uint16_t)0x0000)
/* USART_Flags */
#define USART_FLAG_CTS ((uint16_t)0x0200)
#define USART_FLAG_LBD ((uint16_t)0x0100)
#define USART_FLAG_TXE ((uint16_t)0x0080)
#define USART_FLAG_TC ((uint16_t)0x0040)
#define USART_FLAG_RXNE ((uint16_t)0x0020)
#define USART_FLAG_IDLE ((uint16_t)0x0010)
#define USART_FLAG_ORE ((uint16_t)0x0008)
#define USART_FLAG_NE ((uint16_t)0x0004)
#define USART_FLAG_FE ((uint16_t)0x0002)
#define USART_FLAG_PE ((uint16_t)0x0001)
void USART_DeInit(USART_TypeDef* USARTx);
void USART_Init(USART_TypeDef* USARTx, USART_InitTypeDef* USART_InitStruct);
void USART_StructInit(USART_InitTypeDef* USART_InitStruct);
void USART_ClockInit(USART_TypeDef* USARTx, USART_ClockInitTypeDef* USART_ClockInitStruct);
void USART_ClockStructInit(USART_ClockInitTypeDef* USART_ClockInitStruct);
void USART_Cmd(USART_TypeDef* USARTx, FunctionalState NewState);
void USART_ITConfig(USART_TypeDef* USARTx, uint16_t USART_IT, FunctionalState NewState);
void USART_DMACmd(USART_TypeDef* USARTx, uint16_t USART_DMAReq, FunctionalState NewState);
void USART_SetAddress(USART_TypeDef* USARTx, uint8_t USART_Address);
void USART_WakeUpConfig(USART_TypeDef* USARTx, uint16_t USART_WakeUp);
void USART_ReceiverWakeUpCmd(USART_TypeDef* USARTx, FunctionalState NewState);
void USART_LINBreakDetectLengthConfig(USART_TypeDef* USARTx, uint16_t USART_LINBreakDetectLength);
void USART_LINCmd(USART_TypeDef* USARTx, FunctionalState NewState);
void USART_SendData(USART_TypeDef* USARTx, uint16_t Data);
uint16_t USART_ReceiveData(USART_TypeDef* USARTx);
void USART_SendBreak(USART_TypeDef* USARTx);
void USART_SetGuardTime(USART_TypeDef* USARTx, uint8_t USART_GuardTime);
void USART_SetPrescaler(USART_TypeDef* USARTx, uint8_t USART_Prescaler);
void USART_SmartCardCmd(USART_TypeDef* USARTx, FunctionalState NewState);
void USART_SmartCardNACKCmd(USART_TypeDef* USARTx, FunctionalState NewState);
void USART_HalfDuplexCmd(USART_TypeDef* USARTx, FunctionalState NewState);
void USART_OverSampling8Cmd(USART_TypeDef* USARTx, FunctionalState NewState);
void USART_OneBitMethodCmd(USART_TypeDef* USARTx, FunctionalState NewState);
void USART_IrDAConfig(USART_TypeDef* USARTx, uint16_t USART_IrDAMode);
void USART_IrDACmd(USART_TypeDef* USARTx, FunctionalState NewState);
FlagStatus USART_GetFlagStatus(USART_TypeDef* USARTx, uint16_t USART_FLAG);
void USART_ClearFlag(USART_TypeDef* USARTx, uint16_t USART_FLAG);
ITStatus USART_GetITStatus(USART_TypeDef* USARTx, uint16_t USART_IT);
void USART_ClearITPendingBit(USART_TypeDef* USARTx, uint16_t USART_IT);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_wwdg.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains all the functions prototypes for the WWDG
* firmware library.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_WWDG_H
#define __CH32V30x_WWDG_H
#ifdef __cplusplus
extern "C" {
#endif
#include "ch32v30x.h"
/* WWDG_Prescaler */
#define WWDG_Prescaler_1 ((uint32_t)0x00000000)
#define WWDG_Prescaler_2 ((uint32_t)0x00000080)
#define WWDG_Prescaler_4 ((uint32_t)0x00000100)
#define WWDG_Prescaler_8 ((uint32_t)0x00000180)
void WWDG_DeInit(void);
void WWDG_SetPrescaler(uint32_t WWDG_Prescaler);
void WWDG_SetWindowValue(uint8_t WindowValue);
void WWDG_EnableIT(void);
void WWDG_SetCounter(uint8_t Counter);
void WWDG_Enable(uint8_t Counter);
FlagStatus WWDG_GetFlagStatus(void);
void WWDG_ClearFlag(void);
#ifdef __cplusplus
}
#endif
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_bkp.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the BKP firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_bkp.h"
#include "ch32v30x_rcc.h"
/* BKP registers bit mask */
/* OCTLR register bit mask */
#define OCTLR_CAL_MASK ((uint16_t)0xFF80)
#define OCTLR_MASK ((uint16_t)0xFC7F)
/*********************************************************************
* @fn BKP_DeInit
*
* @brief Deinitializes the BKP peripheral registers to their default reset values.
*
* @return none
*/
void BKP_DeInit(void)
{
RCC_BackupResetCmd(ENABLE);
RCC_BackupResetCmd(DISABLE);
}
/*********************************************************************
* @fn BKP_TamperPinLevelConfig
*
* @brief Configures the Tamper Pin active level.
*
* @param BKP_TamperPinLevel: specifies the Tamper Pin active level.
* BKP_TamperPinLevel_High - Tamper pin active on high level.
* BKP_TamperPinLevel_Low - Tamper pin active on low level.
*
* @return none
*/
void BKP_TamperPinLevelConfig(uint16_t BKP_TamperPinLevel)
{
if(BKP_TamperPinLevel)
{
BKP->TPCTLR |= (1 << 1);
}
else
{
BKP->TPCTLR &= ~(1 << 1);
}
}
/*********************************************************************
* @fn BKP_TamperPinCmd
*
* @brief Enables or disables the Tamper Pin activation.
*
* @param NewState - ENABLE or DISABLE.
*
* @return none
*/
void BKP_TamperPinCmd(FunctionalState NewState)
{
if(NewState)
{
BKP->TPCTLR |= (1 << 0);
}
else
{
BKP->TPCTLR &= ~(1 << 0);
}
}
/*********************************************************************
* @fn BKP_ITConfig
*
* @brief Enables or disables the Tamper Pin Interrupt.
*
* @param NewState - ENABLE or DISABLE.
*
* @return none
*/
void BKP_ITConfig(FunctionalState NewState)
{
if(NewState)
{
BKP->TPCSR |= (1 << 2);
}
else
{
BKP->TPCSR &= ~(1 << 2);
}
}
/*********************************************************************
* @fn BKP_RTCOutputConfig
*
* @brief Select the RTC output source to output on the Tamper pin.
*
* @param BKP_RTCOutputSource - specifies the RTC output source.
* BKP_RTCOutputSource_None - no RTC output on the Tamper pin.
* BKP_RTCOutputSource_CalibClock - output the RTC clock with
* frequency divided by 64 on the Tamper pin.
* BKP_RTCOutputSource_Alarm - output the RTC Alarm pulse signal
* on the Tamper pin.
* BKP_RTCOutputSource_Second - output the RTC Second pulse
* signal on the Tamper pin.
*
* @return none
*/
void BKP_RTCOutputConfig(uint16_t BKP_RTCOutputSource)
{
uint16_t tmpreg = 0;
tmpreg = BKP->OCTLR;
tmpreg &= OCTLR_MASK;
tmpreg |= BKP_RTCOutputSource;
BKP->OCTLR = tmpreg;
}
/*********************************************************************
* @fn BKP_SetRTCCalibrationValue
*
* @brief Sets RTC Clock Calibration value.
*
* @param CalibrationValue - specifies the RTC Clock Calibration value.
* This parameter must be a number between 0 and 0x1F.
*
* @return none
*/
void BKP_SetRTCCalibrationValue(uint8_t CalibrationValue)
{
uint16_t tmpreg = 0;
tmpreg = BKP->OCTLR;
tmpreg &= OCTLR_CAL_MASK;
tmpreg |= CalibrationValue;
BKP->OCTLR = tmpreg;
}
/*********************************************************************
* @fn BKP_WriteBackupRegister
*
* @brief Writes user data to the specified Data Backup Register.
*
* @param BKP_DR - specifies the Data Backup Register.
* Data - data to write.
*
* @return none
*/
void BKP_WriteBackupRegister(uint16_t BKP_DR, uint16_t Data)
{
__IO uint32_t tmp = 0;
tmp = (uint32_t)BKP_BASE;
tmp += BKP_DR;
*(__IO uint32_t *)tmp = Data;
}
/*********************************************************************
* @fn BKP_ReadBackupRegister
*
* @brief Reads data from the specified Data Backup Register.
*
* @param BKP_DR - specifies the Data Backup Register.
* This parameter can be BKP_DRx where x=[1, 42].
*
* @return none
*/
uint16_t BKP_ReadBackupRegister(uint16_t BKP_DR)
{
__IO uint32_t tmp = 0;
tmp = (uint32_t)BKP_BASE;
tmp += BKP_DR;
return (*(__IO uint16_t *)tmp);
}
/*********************************************************************
* @fn BKP_GetFlagStatus
*
* @brief Checks whether the Tamper Pin Event flag is set or not.
*
* @return FlagStatus - SET or RESET.
*/
FlagStatus BKP_GetFlagStatus(void)
{
if(BKP->TPCSR & (1 << 8))
{
return SET;
}
else
{
return RESET;
}
}
/*********************************************************************
* @fn BKP_ClearFlag
*
* @brief Clears Tamper Pin Event pending flag.
*
* @return none
*/
void BKP_ClearFlag(void)
{
BKP->TPCSR |= BKP_CTE;
}
/*********************************************************************
* @fn BKP_GetITStatus
*
* @brief Checks whether the Tamper Pin Interrupt has occurred or not.
*
* @return ITStatus - SET or RESET.
*/
ITStatus BKP_GetITStatus(void)
{
if(BKP->TPCSR & (1 << 9))
{
return SET;
}
else
{
return RESET;
}
}
/*********************************************************************
* @fn BKP_ClearITPendingBit
*
* @brief Clears Tamper Pin Interrupt pending bit.
*
* @return none
*/
void BKP_ClearITPendingBit(void)
{
BKP->TPCSR |= BKP_CTI;
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_crc.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the CRC firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_crc.h"
/*********************************************************************
* @fn CRC_ResetDR
*
* @brief Resets the CRC Data register (DR).
*
* @return none
*/
void CRC_ResetDR(void)
{
CRC->CTLR = CRC_CTLR_RESET;
}
/*********************************************************************
* @fn CRC_CalcCRC
*
* @brief Computes the 32-bit CRC of a given data word(32-bit).
*
* @param Data - data word(32-bit) to compute its CRC.
*
* @return 32-bit CRC.
*/
uint32_t CRC_CalcCRC(uint32_t Data)
{
CRC->DATAR = Data;
return (CRC->DATAR);
}
/*********************************************************************
* @fn CRC_CalcBlockCRC
*
* @brief Computes the 32-bit CRC of a given buffer of data word(32-bit).
*
* @param pBuffer - pointer to the buffer containing the data to be computed.
* BufferLength - length of the buffer to be computed.
*
* @return 32-bit CRC.
*/
uint32_t CRC_CalcBlockCRC(uint32_t pBuffer[], uint32_t BufferLength)
{
uint32_t index = 0;
for(index = 0; index < BufferLength; index++)
{
CRC->DATAR = pBuffer[index];
}
return (CRC->DATAR);
}
/*********************************************************************
* @fn CRC_GetCRC
*
* @brief Returns the current CRC value.
*
* @return 32-bit CRC.
*/
uint32_t CRC_GetCRC(void)
{
return (CRC->DATAR);
}
/*********************************************************************
* @fn CRC_SetIDRegister
*
* @brief Stores a 8-bit data in the Independent Data(ID) register.
*
* @param IDValue - 8-bit value to be stored in the ID register.
*
* @return none
*/
void CRC_SetIDRegister(uint8_t IDValue)
{
CRC->IDATAR = IDValue;
}
/*********************************************************************
* @fn CRC_GetIDRegister
*
* @brief Returns the 8-bit data stored in the Independent Data(ID) register.
*
* @return 8-bit value of the ID register.
*/
uint8_t CRC_GetIDRegister(void)
{
return (CRC->IDATAR);
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_dac.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the DAC firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_dac.h"
#include "ch32v30x_rcc.h"
/* CTLR register Mask */
#define CTLR_CLEAR_MASK ((uint32_t)0x00000FFE)
/* DAC Dual Channels SWTR masks */
#define DUAL_SWTR_SET ((uint32_t)0x00000003)
#define DUAL_SWTR_RESET ((uint32_t)0xFFFFFFFC)
/* DHR registers offsets */
#define DHR12R1_OFFSET ((uint32_t)0x00000008)
#define DHR12R2_OFFSET ((uint32_t)0x00000014)
#define DHR12RD_OFFSET ((uint32_t)0x00000020)
/* DOR register offset */
#define DOR_OFFSET ((uint32_t)0x0000002C)
/*********************************************************************
* @fn DAC_DeInit
*
* @brief Deinitializes the DAC peripheral registers to their default reset values.
*
* @return none
*/
void DAC_DeInit(void)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_DAC, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_DAC, DISABLE);
}
/*********************************************************************
* @fn DAC_Init
*
* @brief Initializes the DAC peripheral according to the specified parameters in
* the DAC_InitStruct.
*
* @param DAC_Channel - the selected DAC channel.
* DAC_Channel_1 - DAC Channel1 selected
* DAC_Channel_2 - DAC Channel2 selected
* DAC_InitStruct - pointer to a DAC_InitTypeDef structure.
*
* @return none
*/
void DAC_Init(uint32_t DAC_Channel, DAC_InitTypeDef *DAC_InitStruct)
{
uint32_t tmpreg1 = 0, tmpreg2 = 0;
tmpreg1 = DAC->CTLR;
tmpreg1 &= ~(CTLR_CLEAR_MASK << DAC_Channel);
tmpreg2 = (DAC_InitStruct->DAC_Trigger | DAC_InitStruct->DAC_WaveGeneration |
DAC_InitStruct->DAC_LFSRUnmask_TriangleAmplitude | DAC_InitStruct->DAC_OutputBuffer);
tmpreg1 |= tmpreg2 << DAC_Channel;
DAC->CTLR = tmpreg1;
}
/*********************************************************************
* @fn DAC_StructInit
*
* @brief Fills each DAC_InitStruct member with its default value.
*
* @param DAC_InitStruct - pointer to a DAC_InitTypeDef structure which will be initialized.
*
* @return none
*/
void DAC_StructInit(DAC_InitTypeDef *DAC_InitStruct)
{
DAC_InitStruct->DAC_Trigger = DAC_Trigger_None;
DAC_InitStruct->DAC_WaveGeneration = DAC_WaveGeneration_None;
DAC_InitStruct->DAC_LFSRUnmask_TriangleAmplitude = DAC_LFSRUnmask_Bit0;
DAC_InitStruct->DAC_OutputBuffer = DAC_OutputBuffer_Enable;
}
/*********************************************************************
* @fn DAC_Cmd
*
* @brief Enables or disables the specified DAC channel.
*
* @param DAC_Channel - the selected DAC channel.
* DAC_Channel_1 - DAC Channel1 selected
* DAC_Channel_2 - DAC Channel2 selected
* NewState - new state of the DAC channel(ENABLE or DISABLE).
*
* @return none
*/
void DAC_Cmd(uint32_t DAC_Channel, FunctionalState NewState)
{
if(NewState != DISABLE)
{
DAC->CTLR |= (DAC_EN1 << DAC_Channel);
}
else
{
DAC->CTLR &= ~(DAC_EN1 << DAC_Channel);
}
}
/*********************************************************************
* @fn DAC_DMACmd
*
* @brief Enables or disables the specified DAC channel DMA request.
*
* @param DAC_Channel - the selected DAC channel.
* DAC_Channel_1 - DAC Channel1 selected
* DAC_Channel_2 - DAC Channel2 selected
* NewState - new state of the DAC channel(ENABLE or DISABLE).
*
* @return none
*/
void DAC_DMACmd(uint32_t DAC_Channel, FunctionalState NewState)
{
if(NewState != DISABLE)
{
DAC->CTLR |= (DAC_DMAEN1 << DAC_Channel);
}
else
{
DAC->CTLR &= ~(DAC_DMAEN1 << DAC_Channel);
}
}
/*********************************************************************
* @fn DAC_SoftwareTriggerCmd
*
* @brief Enables or disables the selected DAC channel software trigger.
*
* @param DAC_Channel - the selected DAC channel.
* DAC_Channel_1 - DAC Channel1 selected
* DAC_Channel_2 - DAC Channel2 selected
* NewState - new state of the DAC channel(ENABLE or DISABLE).
*
* @return none
*/
void DAC_SoftwareTriggerCmd(uint32_t DAC_Channel, FunctionalState NewState)
{
if(NewState != DISABLE)
{
DAC->SWTR |= (uint32_t)DAC_SWTRIG1 << (DAC_Channel >> 4);
}
else
{
DAC->SWTR &= ~((uint32_t)DAC_SWTRIG1 << (DAC_Channel >> 4));
}
}
/*********************************************************************
* @fn DAC_DualSoftwareTriggerCmd
*
* @brief Enables or disables the two DAC channel software trigger.
*
* @param NewState - new state of the DAC channel(ENABLE or DISABLE).
*
* @return none
*/
void DAC_DualSoftwareTriggerCmd(FunctionalState NewState)
{
if(NewState != DISABLE)
{
DAC->SWTR |= DUAL_SWTR_SET;
}
else
{
DAC->SWTR &= DUAL_SWTR_RESET;
}
}
/*********************************************************************
* @fn DAC_WaveGenerationCmd
*
* @brief Enables or disables the selected DAC channel wave generation.
*
* @param DAC_Channel - the selected DAC channel.
* DAC_Channel_1 - DAC Channel1 selected
* DAC_Channel_2 - DAC Channel2 selected
* DAC_Wave - Specifies the wave type to enable or disable.
* DAC_Wave_Noise - noise wave generation
* DAC_Wave_Triangle - triangle wave generation
* NewState - new state of the DAC channel(ENABLE or DISABLE).
*
* @return none
*/
void DAC_WaveGenerationCmd(uint32_t DAC_Channel, uint32_t DAC_Wave, FunctionalState NewState)
{
if(NewState != DISABLE)
{
DAC->CTLR |= DAC_Wave << DAC_Channel;
}
else
{
DAC->CTLR &= ~(DAC_Wave << DAC_Channel);
}
}
/*********************************************************************
* @fn DAC_SetChannel1Data
*
* @brief Set the specified data holding register value for DAC channel1.
*
* @param DAC_Align - Specifies the data alignment for DAC channel1.
* DAC_Align_8b_R - 8bit right data alignment selected
* DAC_Align_12b_L - 12bit left data alignment selected
* DAC_Align_12b_R - 12bit right data alignment selected
* Data - Data to be loaded in the selected data holding register.
*
* @return none
*/
void DAC_SetChannel1Data(uint32_t DAC_Align, uint16_t Data)
{
__IO uint32_t tmp = 0;
tmp = (uint32_t)DAC_BASE;
tmp += DHR12R1_OFFSET + DAC_Align;
*(__IO uint32_t *)tmp = Data;
}
/*********************************************************************
* @fn DAC_SetChannel2Data
*
* @brief Set the specified data holding register value for DAC channel2.
*
* @param DAC_Align - Specifies the data alignment for DAC channel1.
* DAC_Align_8b_R - 8bit right data alignment selected
* DAC_Align_12b_L - 12bit left data alignment selected
* DAC_Align_12b_R - 12bit right data alignment selected
* Data - Data to be loaded in the selected data holding register.
*
* @return none
*/
void DAC_SetChannel2Data(uint32_t DAC_Align, uint16_t Data)
{
__IO uint32_t tmp = 0;
tmp = (uint32_t)DAC_BASE;
tmp += DHR12R2_OFFSET + DAC_Align;
*(__IO uint32_t *)tmp = Data;
}
/*********************************************************************
* @fn DAC_SetDualChannelData
*
* @brief Set the specified data holding register value for two DAC.
*
* @param DAC_Align - Specifies the data alignment for DAC channel1.
* DAC_Align_8b_R - 8bit right data alignment selected
* DAC_Align_12b_L - 12bit left data alignment selected
* DAC_Align_12b_R - 12bit right data alignment selected
* Data - Data to be loaded in the selected data holding register.
* Data1 - Data for DAC Channel1.
* Data2 - Data for DAC Channel2
*
* @return none
*/
void DAC_SetDualChannelData(uint32_t DAC_Align, uint16_t Data2, uint16_t Data1)
{
uint32_t data = 0, tmp = 0;
if(DAC_Align == DAC_Align_8b_R)
{
data = ((uint32_t)Data2 << 8) | Data1;
}
else
{
data = ((uint32_t)Data2 << 16) | Data1;
}
tmp = (uint32_t)DAC_BASE;
tmp += DHR12RD_OFFSET + DAC_Align;
*(__IO uint32_t *)tmp = data;
}
/*********************************************************************
* @fn DAC_GetDataOutputValue
*
* @brief Returns the last data output value of the selected DAC channel.
*
* @param DAC_Channel - the selected DAC channel.
* DAC_Channel_1 - DAC Channel1 selected
* DAC_Channel_2 - DAC Channel2 selected
*
* @return none
*/
uint16_t DAC_GetDataOutputValue(uint32_t DAC_Channel)
{
__IO uint32_t tmp = 0;
tmp = (uint32_t)DAC_BASE;
tmp += DOR_OFFSET + ((uint32_t)DAC_Channel >> 2);
return (uint16_t)(*(__IO uint32_t *)tmp);
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_dbgmcu.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the DBGMCU firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_dbgmcu.h"
#define IDCODE_DEVID_MASK ((uint32_t)0x0000FFFF)
/*********************************************************************
* @fn DBGMCU_GetREVID
*
* @brief Returns the device revision identifier.
*
* @return Revision identifier.
*/
uint32_t DBGMCU_GetREVID(void)
{
return ((*(uint32_t *)0x1FFFF704) >> 16);
}
/*********************************************************************
* @fn DBGMCU_GetDEVID
*
* @brief Returns the device identifier.
*
* @return Device identifier.
*/
uint32_t DBGMCU_GetDEVID(void)
{
return ((*(uint32_t *)0x1FFFF704) & IDCODE_DEVID_MASK);
}
/*********************************************************************
* @fn __get_DEBUG_CR
*
* @brief Return the DEBUGE Control Register
*
* @return DEBUGE Control value
*/
uint32_t __get_DEBUG_CR(void)
{
uint32_t result;
__asm volatile("csrr %0,""0x7C0" : "=r"(result));
return (result);
}
/*********************************************************************
* @fn __set_DEBUG_CR
*
* @brief Set the DEBUGE Control Register
*
* @param value - set DEBUGE Control value
*
* @return none
*/
void __set_DEBUG_CR(uint32_t value)
{
__asm volatile("csrw 0x7C0, %0" : : "r"(value));
}
/*********************************************************************
* @fn DBGMCU_Config
*
* @brief Configures the specified peripheral and low power mode behavior
* when the MCU under Debug mode.
*
* @param DBGMCU_Periph - specifies the peripheral and low power mode.
* DBGMCU_IWDG_STOP - Debug IWDG stopped when Core is halted
* DBGMCU_WWDG_STOP - Debug WWDG stopped when Core is halted
* DBGMCU_TIM1_STOP - TIM1 counter stopped when Core is halted
* DBGMCU_TIM2_STOP - TIM2 counter stopped when Core is halted
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void DBGMCU_Config(uint32_t DBGMCU_Periph, FunctionalState NewState)
{
uint32_t val;
if(NewState != DISABLE)
{
__set_DEBUG_CR(DBGMCU_Periph);
}
else
{
val = __get_DEBUG_CR();
val &= ~(uint32_t)DBGMCU_Periph;
__set_DEBUG_CR(val);
}
}
/*********************************************************************
* @fn DBGMCU_GetCHIPID
*
* @brief Returns the CHIP identifier.
*
* @return Device identifier.
* ChipID List-
* CH32V303CBT6-0x303305x4
* CH32V303RBT6-0x303205x4
* CH32V303RCT6-0x303105x4
* CH32V303VCT6-0x303005x4
* CH32V305FBP6-0x305205x8
* CH32V305RBT6-0x305005x8
* CH32V305GBU6-0x305B05x8
* CH32V307WCU6-0x307305x8
* CH32V307FBP6-0x307205x8
* CH32V307RCT6-0x307105x8
* CH32V307VCT6-0x307005x8
*/
uint32_t DBGMCU_GetCHIPID( void )
{
return( *( uint32_t * )0x1FFFF704 );
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_dma.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the DMA firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_dma.h"
#include "ch32v30x_rcc.h"
/* DMA1 Channelx interrupt pending bit masks */
#define DMA1_Channel1_IT_Mask ((uint32_t)(DMA_GIF1 | DMA_TCIF1 | DMA_HTIF1 | DMA_TEIF1))
#define DMA1_Channel2_IT_Mask ((uint32_t)(DMA_GIF2 | DMA_TCIF2 | DMA_HTIF2 | DMA_TEIF2))
#define DMA1_Channel3_IT_Mask ((uint32_t)(DMA_GIF3 | DMA_TCIF3 | DMA_HTIF3 | DMA_TEIF3))
#define DMA1_Channel4_IT_Mask ((uint32_t)(DMA_GIF4 | DMA_TCIF4 | DMA_HTIF4 | DMA_TEIF4))
#define DMA1_Channel5_IT_Mask ((uint32_t)(DMA_GIF5 | DMA_TCIF5 | DMA_HTIF5 | DMA_TEIF5))
#define DMA1_Channel6_IT_Mask ((uint32_t)(DMA_GIF6 | DMA_TCIF6 | DMA_HTIF6 | DMA_TEIF6))
#define DMA1_Channel7_IT_Mask ((uint32_t)(DMA_GIF7 | DMA_TCIF7 | DMA_HTIF7 | DMA_TEIF7))
/* DMA2 Channelx interrupt pending bit masks */
#define DMA2_Channel1_IT_Mask ((uint32_t)(DMA_GIF1 | DMA_TCIF1 | DMA_HTIF1 | DMA_TEIF1))
#define DMA2_Channel2_IT_Mask ((uint32_t)(DMA_GIF2 | DMA_TCIF2 | DMA_HTIF2 | DMA_TEIF2))
#define DMA2_Channel3_IT_Mask ((uint32_t)(DMA_GIF3 | DMA_TCIF3 | DMA_HTIF3 | DMA_TEIF3))
#define DMA2_Channel4_IT_Mask ((uint32_t)(DMA_GIF4 | DMA_TCIF4 | DMA_HTIF4 | DMA_TEIF4))
#define DMA2_Channel5_IT_Mask ((uint32_t)(DMA_GIF5 | DMA_TCIF5 | DMA_HTIF5 | DMA_TEIF5))
#define DMA2_Channel6_IT_Mask ((uint32_t)(DMA_GIF6 | DMA_TCIF6 | DMA_HTIF6 | DMA_TEIF6))
#define DMA2_Channel7_IT_Mask ((uint32_t)(DMA_GIF7 | DMA_TCIF7 | DMA_HTIF7 | DMA_TEIF7))
#define DMA2_Channel8_IT_Mask ((uint32_t)(DMA_GIF8 | DMA_TCIF8 | DMA_HTIF8 | DMA_TEIF8))
#define DMA2_Channel9_IT_Mask ((uint32_t)(DMA_GIF9 | DMA_TCIF9 | DMA_HTIF9 | DMA_TEIF9))
#define DMA2_Channel10_IT_Mask ((uint32_t)(DMA_GIF10 | DMA_TCIF10 | DMA_HTIF10 | DMA_TEIF10))
#define DMA2_Channel11_IT_Mask ((uint32_t)(DMA_GIF11 | DMA_TCIF11 | DMA_HTIF11 | DMA_TEIF11))
/* DMA2 FLAG mask */
#define FLAG_Mask ((uint32_t)0x10000000)
#define DMA2_EXTEN_FLAG_Mask ((uint32_t)0x20000000)
/* DMA registers Masks */
#define CFGR_CLEAR_Mask ((uint32_t)0xFFFF800F)
/*********************************************************************
* @fn DMA_DeInit
*
* @brief Deinitializes the DMAy Channelx registers to their default
* reset values.
*
* @param DMAy_Channelx - here y can be 1 or 2 to select the DMA and x can be
* 1 to 7 for DMA1 and 1 to 11 for DMA2 to select the DMA Channel.
*
* @return none
*/
void DMA_DeInit(DMA_Channel_TypeDef *DMAy_Channelx)
{
DMAy_Channelx->CFGR &= (uint16_t)(~DMA_CFGR1_EN);
DMAy_Channelx->CFGR = 0;
DMAy_Channelx->CNTR = 0;
DMAy_Channelx->PADDR = 0;
DMAy_Channelx->MADDR = 0;
if(DMAy_Channelx == DMA1_Channel1)
{
DMA1->INTFCR |= DMA1_Channel1_IT_Mask;
}
else if(DMAy_Channelx == DMA1_Channel2)
{
DMA1->INTFCR |= DMA1_Channel2_IT_Mask;
}
else if(DMAy_Channelx == DMA1_Channel3)
{
DMA1->INTFCR |= DMA1_Channel3_IT_Mask;
}
else if(DMAy_Channelx == DMA1_Channel4)
{
DMA1->INTFCR |= DMA1_Channel4_IT_Mask;
}
else if(DMAy_Channelx == DMA1_Channel5)
{
DMA1->INTFCR |= DMA1_Channel5_IT_Mask;
}
else if(DMAy_Channelx == DMA1_Channel6)
{
DMA1->INTFCR |= DMA1_Channel6_IT_Mask;
}
else if(DMAy_Channelx == DMA1_Channel7)
{
DMA1->INTFCR |= DMA1_Channel7_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel1)
{
DMA2->INTFCR |= DMA2_Channel1_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel2)
{
DMA2->INTFCR |= DMA2_Channel2_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel3)
{
DMA2->INTFCR |= DMA2_Channel3_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel4)
{
DMA2->INTFCR |= DMA2_Channel4_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel5)
{
DMA2->INTFCR |= DMA2_Channel5_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel6)
{
DMA2->INTFCR |= DMA2_Channel6_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel7)
{
DMA2->INTFCR |= DMA2_Channel7_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel8)
{
DMA2_EXTEN->INTFCR |= DMA2_Channel8_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel9)
{
DMA2_EXTEN->INTFCR |= DMA2_Channel9_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel10)
{
DMA2_EXTEN->INTFCR |= DMA2_Channel10_IT_Mask;
}
else if(DMAy_Channelx == DMA2_Channel11)
{
DMA2_EXTEN->INTFCR |= DMA2_Channel11_IT_Mask;
}
}
/*********************************************************************
* @fn DMA_Init
*
* @brief Initializes the DMAy Channelx according to the specified
* parameters in the DMA_InitStruct.
*
* @param DMAy_Channelx - here y can be 1 or 2 to select the DMA and x can be
* 1 to 7 for DMA1 and 1 to 11 for DMA2 to select the DMA Channel.
* DMA_InitStruct - pointer to a DMA_InitTypeDef structure that contains
* contains the configuration information for the specified DMA Channel.
*
* @return none
*/
void DMA_Init(DMA_Channel_TypeDef *DMAy_Channelx, DMA_InitTypeDef *DMA_InitStruct)
{
uint32_t tmpreg = 0;
tmpreg = DMAy_Channelx->CFGR;
tmpreg &= CFGR_CLEAR_Mask;
tmpreg |= DMA_InitStruct->DMA_DIR | DMA_InitStruct->DMA_Mode |
DMA_InitStruct->DMA_PeripheralInc | DMA_InitStruct->DMA_MemoryInc |
DMA_InitStruct->DMA_PeripheralDataSize | DMA_InitStruct->DMA_MemoryDataSize |
DMA_InitStruct->DMA_Priority | DMA_InitStruct->DMA_M2M;
DMAy_Channelx->CFGR = tmpreg;
DMAy_Channelx->CNTR = DMA_InitStruct->DMA_BufferSize;
DMAy_Channelx->PADDR = DMA_InitStruct->DMA_PeripheralBaseAddr;
DMAy_Channelx->MADDR = DMA_InitStruct->DMA_MemoryBaseAddr;
}
/*********************************************************************
* @fn DMA_StructInit
*
* @brief Fills each DMA_InitStruct member with its default value.
*
* @param DMAy_Channelx - here y can be 1 or 2 to select the DMA and x can be
* 1 to 7 for DMA1 and 1 to 11 for DMA2 to select the DMA Channel.
* DMA_InitStruct - pointer to a DMA_InitTypeDef structure that contains
* contains the configuration information for the specified DMA Channel.
*
* @return none
*/
void DMA_StructInit(DMA_InitTypeDef *DMA_InitStruct)
{
DMA_InitStruct->DMA_PeripheralBaseAddr = 0;
DMA_InitStruct->DMA_MemoryBaseAddr = 0;
DMA_InitStruct->DMA_DIR = DMA_DIR_PeripheralSRC;
DMA_InitStruct->DMA_BufferSize = 0;
DMA_InitStruct->DMA_PeripheralInc = DMA_PeripheralInc_Disable;
DMA_InitStruct->DMA_MemoryInc = DMA_MemoryInc_Disable;
DMA_InitStruct->DMA_PeripheralDataSize = DMA_PeripheralDataSize_Byte;
DMA_InitStruct->DMA_MemoryDataSize = DMA_MemoryDataSize_Byte;
DMA_InitStruct->DMA_Mode = DMA_Mode_Normal;
DMA_InitStruct->DMA_Priority = DMA_Priority_Low;
DMA_InitStruct->DMA_M2M = DMA_M2M_Disable;
}
/*********************************************************************
* @fn DMA_Cmd
*
* @brief Enables or disables the specified DMAy Channelx.
*
* @param DMAy_Channelx - here y can be 1 or 2 to select the DMA and x can be
* 1 to 7 for DMA1 and 1 to 11 for DMA2 to select the DMA Channel.
* NewState - new state of the DMAy Channelx(ENABLE or DISABLE).
*
* @return none
*/
void DMA_Cmd(DMA_Channel_TypeDef *DMAy_Channelx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
DMAy_Channelx->CFGR |= DMA_CFGR1_EN;
}
else
{
DMAy_Channelx->CFGR &= (uint16_t)(~DMA_CFGR1_EN);
}
}
/*********************************************************************
* @fn DMA_ITConfig
*
* @brief Enables or disables the specified DMAy Channelx interrupts.
*
* @param DMAy_Channelx - here y can be 1 or 2 to select the DMA and x can be
* 1 to 7 for DMA1 and 1 to 11 for DMA2 to select the DMA Channel.
* DMA_IT - specifies the DMA interrupts sources to be enabled
* or disabled.
* DMA_IT_TC - Transfer complete interrupt mask
* DMA_IT_HT - Half transfer interrupt mask
* DMA_IT_TE - Transfer error interrupt mask
* NewState - new state of the DMAy Channelx(ENABLE or DISABLE).
*
* @return none
*/
void DMA_ITConfig(DMA_Channel_TypeDef *DMAy_Channelx, uint32_t DMA_IT, FunctionalState NewState)
{
if(NewState != DISABLE)
{
DMAy_Channelx->CFGR |= DMA_IT;
}
else
{
DMAy_Channelx->CFGR &= ~DMA_IT;
}
}
/*********************************************************************
* @fn DMA_SetCurrDataCounter
*
* @brief Sets the number of data units in the current DMAy Channelx transfer.
*
* @param DMAy_Channelx - here y can be 1 or 2 to select the DMA and x can be
* 1 to 7 for DMA1 and 1 to 11 for DMA2 to select the DMA Channel.
* DataNumber - The number of data units in the current DMAy Channelx
* transfer.
*
* @return none
*/
void DMA_SetCurrDataCounter(DMA_Channel_TypeDef *DMAy_Channelx, uint16_t DataNumber)
{
DMAy_Channelx->CNTR = DataNumber;
}
/*********************************************************************
* @fn DMA_GetCurrDataCounter
*
* @brief Returns the number of remaining data units in the current
* DMAy Channelx transfer.
*
* @param DMAy_Channelx - here y can be 1 or 2 to select the DMA and x can be
* 1 to 7 for DMA1 and 1 to 11 for DMA2 to select the DMA Channel.
*
* @return DataNumber - The number of remaining data units in the current
* DMAy Channelx transfer.
*/
uint16_t DMA_GetCurrDataCounter(DMA_Channel_TypeDef *DMAy_Channelx)
{
return ((uint16_t)(DMAy_Channelx->CNTR));
}
/*********************************************************************
* @fn DMA_GetFlagStatus
*
* @brief Checks whether the specified DMAy Channelx flag is set or not.
*
* @param DMAy_FLAG - specifies the flag to check.
* DMA1_FLAG_GL1 - DMA1 Channel1 global flag.
* DMA1_FLAG_TC1 - DMA1 Channel1 transfer complete flag.
* DMA1_FLAG_HT1 - DMA1 Channel1 half transfer flag.
* DMA1_FLAG_TE1 - DMA1 Channel1 transfer error flag.
* DMA1_FLAG_GL2 - DMA1 Channel2 global flag.
* DMA1_FLAG_TC2 - DMA1 Channel2 transfer complete flag.
* DMA1_FLAG_HT2 - DMA1 Channel2 half transfer flag.
* DMA1_FLAG_TE2 - DMA1 Channel2 transfer error flag.
* DMA1_FLAG_GL3 - DMA1 Channel3 global flag.
* DMA1_FLAG_TC3 - DMA1 Channel3 transfer complete flag.
* DMA1_FLAG_HT3 - DMA1 Channel3 half transfer flag.
* DMA1_FLAG_TE3 - DMA1 Channel3 transfer error flag.
* DMA1_FLAG_GL4 - DMA1 Channel4 global flag.
* DMA1_FLAG_TC4 - DMA1 Channel4 transfer complete flag.
* DMA1_FLAG_HT4 - DMA1 Channel4 half transfer flag.
* DMA1_FLAG_TE4 - DMA1 Channel4 transfer error flag.
* DMA1_FLAG_GL5 - DMA1 Channel5 global flag.
* DMA1_FLAG_TC5 - DMA1 Channel5 transfer complete flag.
* DMA1_FLAG_HT5 - DMA1 Channel5 half transfer flag.
* DMA1_FLAG_TE5 - DMA1 Channel5 transfer error flag.
* DMA1_FLAG_GL6 - DMA1 Channel6 global flag.
* DMA1_FLAG_TC6 - DMA1 Channel6 transfer complete flag.
* DMA1_FLAG_HT6 - DMA1 Channel6 half transfer flag.
* DMA1_FLAG_TE6 - DMA1 Channel6 transfer error flag.
* DMA1_FLAG_GL7 - DMA1 Channel7 global flag.
* DMA1_FLAG_TC7 - DMA1 Channel7 transfer complete flag.
* DMA1_FLAG_HT7 - DMA1 Channel7 half transfer flag.
* DMA1_FLAG_TE7 - DMA1 Channel7 transfer error flag.
* DMA2_FLAG_GL1 - DMA2 Channel1 global flag.
* DMA2_FLAG_TC1 - DMA2 Channel1 transfer complete flag.
* DMA2_FLAG_HT1 - DMA2 Channel1 half transfer flag.
* DMA2_FLAG_TE1 - DMA2 Channel1 transfer error flag.
* DMA2_FLAG_GL2 - DMA2 Channel2 global flag.
* DMA2_FLAG_TC2 - DMA2 Channel2 transfer complete flag.
* DMA2_FLAG_HT2 - DMA2 Channel2 half transfer flag.
* DMA2_FLAG_TE2 - DMA2 Channel2 transfer error flag.
* DMA2_FLAG_GL3 - DMA2 Channel3 global flag.
* DMA2_FLAG_TC3 - DMA2 Channel3 transfer complete flag.
* DMA2_FLAG_HT3 - DMA2 Channel3 half transfer flag.
* DMA2_FLAG_TE3 - DMA2 Channel3 transfer error flag.
* DMA2_FLAG_GL4 - DMA2 Channel4 global flag.
* DMA2_FLAG_TC4 - DMA2 Channel4 transfer complete flag.
* DMA2_FLAG_HT4 - DMA2 Channel4 half transfer flag.
* DMA2_FLAG_TE4 - DMA2 Channel4 transfer error flag.
* DMA2_FLAG_GL5 - DMA2 Channel5 global flag.
* DMA2_FLAG_TC5 - DMA2 Channel5 transfer complete flag.
* DMA2_FLAG_HT5 - DMA2 Channel5 half transfer flag.
* DMA2_FLAG_TE5 - DMA2 Channel5 transfer error flag.
* DMA2_FLAG_GL6 - DMA2 Channel6 global flag.
* DMA2_FLAG_TC6 - DMA2 Channel6 transfer complete flag.
* DMA2_FLAG_HT6 - DMA2 Channel6 half transfer flag.
* DMA2_FLAG_TE6 - DMA2 Channel6 transfer error flag.
* DMA2_FLAG_GL7 - DMA2 Channel7 global flag.
* DMA2_FLAG_TC7 - DMA2 Channel7 transfer complete flag.
* DMA2_FLAG_HT7 - DMA2 Channel7 half transfer flag.
* DMA2_FLAG_TE7 - DMA2 Channel7 transfer error flag.
* DMA2_FLAG_GL8 - DMA2 Channel8 global flag.
* DMA2_FLAG_TC8 - DMA2 Channel8 transfer complete flag.
* DMA2_FLAG_HT8 - DMA2 Channel8 half transfer flag.
* DMA2_FLAG_TE8 - DMA2 Channel8 transfer error flag.
* DMA2_FLAG_GL9 - DMA2 Channel9 global flag.
* DMA2_FLAG_TC9 - DMA2 Channel9 transfer complete flag.
* DMA2_FLAG_HT9 - DMA2 Channel9 half transfer flag.
* DMA2_FLAG_TE9 - DMA2 Channel9 transfer error flag.
* DMA2_FLAG_GL10 - DMA2 Channel10 global flag.
* DMA2_FLAG_TC10 - DMA2 Channel10 transfer complete flag.
* DMA2_FLAG_HT10 - DMA2 Channel10 half transfer flag.
* DMA2_FLAG_TE10 - DMA2 Channel10 transfer error flag.
* DMA2_FLAG_GL11 - DMA2 Channel11 global flag.
* DMA2_FLAG_TC11 - DMA2 Channel11 transfer complete flag.
* DMA2_FLAG_HT11 - DMA2 Channel11 half transfer flag.
* DMA2_FLAG_TE11 - DMA2 Channel11 transfer error flag.
*
* @return The new state of DMAy_FLAG (SET or RESET).
*/
FlagStatus DMA_GetFlagStatus(uint32_t DMAy_FLAG)
{
FlagStatus bitstatus = RESET;
uint32_t tmpreg = 0;
if((DMAy_FLAG & FLAG_Mask) == FLAG_Mask)
{
tmpreg = DMA2->INTFR;
}
else if((DMAy_FLAG & DMA2_EXTEN_FLAG_Mask) == DMA2_EXTEN_FLAG_Mask)
{
tmpreg = DMA2_EXTEN->INTFR;
}
else
{
tmpreg = DMA1->INTFR;
}
if((tmpreg & DMAy_FLAG) != (uint32_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn DMA_ClearFlag
*
* @brief Clears the DMAy Channelx's pending flags.
*
* @param DMAy_FLAG - specifies the flag to check.
* DMA1_FLAG_GL1 - DMA1 Channel1 global flag.
* DMA1_FLAG_TC1 - DMA1 Channel1 transfer complete flag.
* DMA1_FLAG_HT1 - DMA1 Channel1 half transfer flag.
* DMA1_FLAG_TE1 - DMA1 Channel1 transfer error flag.
* DMA1_FLAG_GL2 - DMA1 Channel2 global flag.
* DMA1_FLAG_TC2 - DMA1 Channel2 transfer complete flag.
* DMA1_FLAG_HT2 - DMA1 Channel2 half transfer flag.
* DMA1_FLAG_TE2 - DMA1 Channel2 transfer error flag.
* DMA1_FLAG_GL3 - DMA1 Channel3 global flag.
* DMA1_FLAG_TC3 - DMA1 Channel3 transfer complete flag.
* DMA1_FLAG_HT3 - DMA1 Channel3 half transfer flag.
* DMA1_FLAG_TE3 - DMA1 Channel3 transfer error flag.
* DMA1_FLAG_GL4 - DMA1 Channel4 global flag.
* DMA1_FLAG_TC4 - DMA1 Channel4 transfer complete flag.
* DMA1_FLAG_HT4 - DMA1 Channel4 half transfer flag.
* DMA1_FLAG_TE4 - DMA1 Channel4 transfer error flag.
* DMA1_FLAG_GL5 - DMA1 Channel5 global flag.
* DMA1_FLAG_TC5 - DMA1 Channel5 transfer complete flag.
* DMA1_FLAG_HT5 - DMA1 Channel5 half transfer flag.
* DMA1_FLAG_TE5 - DMA1 Channel5 transfer error flag.
* DMA1_FLAG_GL6 - DMA1 Channel6 global flag.
* DMA1_FLAG_TC6 - DMA1 Channel6 transfer complete flag.
* DMA1_FLAG_HT6 - DMA1 Channel6 half transfer flag.
* DMA1_FLAG_TE6 - DMA1 Channel6 transfer error flag.
* DMA1_FLAG_GL7 - DMA1 Channel7 global flag.
* DMA1_FLAG_TC7 - DMA1 Channel7 transfer complete flag.
* DMA1_FLAG_HT7 - DMA1 Channel7 half transfer flag.
* DMA1_FLAG_TE7 - DMA1 Channel7 transfer error flag.
* DMA2_FLAG_GL1 - DMA2 Channel1 global flag.
* DMA2_FLAG_TC1 - DMA2 Channel1 transfer complete flag.
* DMA2_FLAG_HT1 - DMA2 Channel1 half transfer flag.
* DMA2_FLAG_TE1 - DMA2 Channel1 transfer error flag.
* DMA2_FLAG_GL2 - DMA2 Channel2 global flag.
* DMA2_FLAG_TC2 - DMA2 Channel2 transfer complete flag.
* DMA2_FLAG_HT2 - DMA2 Channel2 half transfer flag.
* DMA2_FLAG_TE2 - DMA2 Channel2 transfer error flag.
* DMA2_FLAG_GL3 - DMA2 Channel3 global flag.
* DMA2_FLAG_TC3 - DMA2 Channel3 transfer complete flag.
* DMA2_FLAG_HT3 - DMA2 Channel3 half transfer flag.
* DMA2_FLAG_TE3 - DMA2 Channel3 transfer error flag.
* DMA2_FLAG_GL4 - DMA2 Channel4 global flag.
* DMA2_FLAG_TC4 - DMA2 Channel4 transfer complete flag.
* DMA2_FLAG_HT4 - DMA2 Channel4 half transfer flag.
* DMA2_FLAG_TE4 - DMA2 Channel4 transfer error flag.
* DMA2_FLAG_GL5 - DMA2 Channel5 global flag.
* DMA2_FLAG_TC5 - DMA2 Channel5 transfer complete flag.
* DMA2_FLAG_HT5 - DMA2 Channel5 half transfer flag.
* DMA2_FLAG_TE5 - DMA2 Channel5 transfer error flag.
* DMA2_FLAG_GL6 - DMA2 Channel6 global flag.
* DMA2_FLAG_TC6 - DMA2 Channel6 transfer complete flag.
* DMA2_FLAG_HT6 - DMA2 Channel6 half transfer flag.
* DMA2_FLAG_TE6 - DMA2 Channel6 transfer error flag.
* DMA2_FLAG_GL7 - DMA2 Channel7 global flag.
* DMA2_FLAG_TC7 - DMA2 Channel7 transfer complete flag.
* DMA2_FLAG_HT7 - DMA2 Channel7 half transfer flag.
* DMA2_FLAG_TE7 - DMA2 Channel7 transfer error flag.
* DMA2_FLAG_GL8 - DMA2 Channel8 global flag.
* DMA2_FLAG_TC8 - DMA2 Channel8 transfer complete flag.
* DMA2_FLAG_HT8 - DMA2 Channel8 half transfer flag.
* DMA2_FLAG_TE8 - DMA2 Channel8 transfer error flag.
* DMA2_FLAG_GL9 - DMA2 Channel9 global flag.
* DMA2_FLAG_TC9 - DMA2 Channel9 transfer complete flag.
* DMA2_FLAG_HT9 - DMA2 Channel9 half transfer flag.
* DMA2_FLAG_TE9 - DMA2 Channel9 transfer error flag.
* DMA2_FLAG_GL10 - DMA2 Channel10 global flag.
* DMA2_FLAG_TC10 - DMA2 Channel10 transfer complete flag.
* DMA2_FLAG_HT10 - DMA2 Channel10 half transfer flag.
* DMA2_FLAG_TE10 - DMA2 Channel10 transfer error flag.
* DMA2_FLAG_GL11 - DMA2 Channel11 global flag.
* DMA2_FLAG_TC11 - DMA2 Channel11 transfer complete flag.
* DMA2_FLAG_HT11 - DMA2 Channel11 half transfer flag.
* DMA2_FLAG_TE11 - DMA2 Channel11 transfer error flag.
*
* @return none
*/
void DMA_ClearFlag(uint32_t DMAy_FLAG)
{
if((DMAy_FLAG & FLAG_Mask) == FLAG_Mask)
{
DMA2->INTFCR = DMAy_FLAG;
}
else if((DMAy_FLAG & DMA2_EXTEN_FLAG_Mask) == DMA2_EXTEN_FLAG_Mask)
{
DMA2_EXTEN->INTFCR = DMAy_FLAG;
}
else
{
DMA1->INTFCR = DMAy_FLAG;
}
}
/*********************************************************************
* @fn DMA_GetITStatus
*
* @brief Checks whether the specified DMAy Channelx interrupt has
* occurred or not.
*
* @param DMAy_IT - specifies the DMAy interrupt source to check.
* DMA1_IT_GL1 - DMA1 Channel1 global flag.
* DMA1_IT_TC1 - DMA1 Channel1 transfer complete flag.
* DMA1_IT_HT1 - DMA1 Channel1 half transfer flag.
* DMA1_IT_TE1 - DMA1 Channel1 transfer error flag.
* DMA1_IT_GL2 - DMA1 Channel2 global flag.
* DMA1_IT_TC2 - DMA1 Channel2 transfer complete flag.
* DMA1_IT_HT2 - DMA1 Channel2 half transfer flag.
* DMA1_IT_TE2 - DMA1 Channel2 transfer error flag.
* DMA1_IT_GL3 - DMA1 Channel3 global flag.
* DMA1_IT_TC3 - DMA1 Channel3 transfer complete flag.
* DMA1_IT_HT3 - DMA1 Channel3 half transfer flag.
* DMA1_IT_TE3 - DMA1 Channel3 transfer error flag.
* DMA1_IT_GL4 - DMA1 Channel4 global flag.
* DMA1_IT_TC4 - DMA1 Channel4 transfer complete flag.
* DMA1_IT_HT4 - DMA1 Channel4 half transfer flag.
* DMA1_IT_TE4 - DMA1 Channel4 transfer error flag.
* DMA1_IT_GL5 - DMA1 Channel5 global flag.
* DMA1_IT_TC5 - DMA1 Channel5 transfer complete flag.
* DMA1_IT_HT5 - DMA1 Channel5 half transfer flag.
* DMA1_IT_TE5 - DMA1 Channel5 transfer error flag.
* DMA1_IT_GL6 - DMA1 Channel6 global flag.
* DMA1_IT_TC6 - DMA1 Channel6 transfer complete flag.
* DMA1_IT_HT6 - DMA1 Channel6 half transfer flag.
* DMA1_IT_TE6 - DMA1 Channel6 transfer error flag.
* DMA1_IT_GL7 - DMA1 Channel7 global flag.
* DMA1_IT_TC7 - DMA1 Channel7 transfer complete flag.
* DMA1_IT_HT7 - DMA1 Channel7 half transfer flag.
* DMA1_IT_TE7 - DMA1 Channel7 transfer error flag.
* DMA2_IT_GL1 - DMA2 Channel1 global flag.
* DMA2_IT_TC1 - DMA2 Channel1 transfer complete flag.
* DMA2_IT_HT1 - DMA2 Channel1 half transfer flag.
* DMA2_IT_TE1 - DMA2 Channel1 transfer error flag.
* DMA2_IT_GL2 - DMA2 Channel2 global flag.
* DMA2_IT_TC2 - DMA2 Channel2 transfer complete flag.
* DMA2_IT_HT2 - DMA2 Channel2 half transfer flag.
* DMA2_IT_TE2 - DMA2 Channel2 transfer error flag.
* DMA2_IT_GL3 - DMA2 Channel3 global flag.
* DMA2_IT_TC3 - DMA2 Channel3 transfer complete flag.
* DMA2_IT_HT3 - DMA2 Channel3 half transfer flag.
* DMA2_IT_TE3 - DMA2 Channel3 transfer error flag.
* DMA2_IT_GL4 - DMA2 Channel4 global flag.
* DMA2_IT_TC4 - DMA2 Channel4 transfer complete flag.
* DMA2_IT_HT4 - DMA2 Channel4 half transfer flag.
* DMA2_IT_TE4 - DMA2 Channel4 transfer error flag.
* DMA2_IT_GL5 - DMA2 Channel5 global flag.
* DMA2_IT_TC5 - DMA2 Channel5 transfer complete flag.
* DMA2_IT_HT5 - DMA2 Channel5 half transfer flag.
* DMA2_IT_TE5 - DMA2 Channel5 transfer error flag.
* DMA2_IT_GL6 - DMA2 Channel6 global flag.
* DMA2_IT_TC6 - DMA2 Channel6 transfer complete flag.
* DMA2_IT_HT6 - DMA2 Channel6 half transfer flag.
* DMA2_IT_TE6 - DMA2 Channel6 transfer error flag.
* DMA2_IT_GL7 - DMA2 Channel7 global flag.
* DMA2_IT_TC7 - DMA2 Channel7 transfer complete flag.
* DMA2_IT_HT7 - DMA2 Channel7 half transfer flag.
* DMA2_IT_TE7 - DMA2 Channel7 transfer error flag.
* DMA2_IT_GL8 - DMA2 Channel8 global flag.
* DMA2_IT_TC8 - DMA2 Channel8 transfer complete flag.
* DMA2_IT_HT8 - DMA2 Channel8 half transfer flag.
* DMA2_IT_TE8 - DMA2 Channel8 transfer error flag.
* DMA2_IT_GL9 - DMA2 Channel9 global flag.
* DMA2_IT_TC9 - DMA2 Channel9 transfer complete flag.
* DMA2_IT_HT9 - DMA2 Channel9 half transfer flag.
* DMA2_IT_TE9 - DMA2 Channel9 transfer error flag.
* DMA2_IT_GL10 - DMA2 Channel10 global flag.
* DMA2_IT_TC10 - DMA2 Channel10 transfer complete flag.
* DMA2_IT_HT10 - DMA2 Channel10 half transfer flag.
* DMA2_IT_TE10 - DMA2 Channel10 transfer error flag.
* DMA2_IT_GL11 - DMA2 Channel11 global flag.
* DMA2_IT_TC11 - DMA2 Channel11 transfer complete flag.
* DMA2_IT_HT11 - DMA2 Channel11 half transfer flag.
* DMA2_IT_TE11 - DMA2 Channel11 transfer error flag.
*
* @return The new state of DMAy_IT (SET or RESET).
*/
ITStatus DMA_GetITStatus(uint32_t DMAy_IT)
{
ITStatus bitstatus = RESET;
uint32_t tmpreg = 0;
if((DMAy_IT & FLAG_Mask) == FLAG_Mask)
{
tmpreg = DMA2->INTFR;
}
else if((DMAy_IT & DMA2_EXTEN_FLAG_Mask) == DMA2_EXTEN_FLAG_Mask)
{
tmpreg = DMA2_EXTEN->INTFR;
}
else
{
tmpreg = DMA1->INTFR;
}
if((tmpreg & DMAy_IT) != (uint32_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn DMA_ClearITPendingBit
*
* @brief Clears the DMAy Channelx's interrupt pending bits.
*
* @param DMAy_IT - specifies the DMAy interrupt source to check.
* DMA1_IT_GL1 - DMA1 Channel1 global flag.
* DMA1_IT_TC1 - DMA1 Channel1 transfer complete flag.
* DMA1_IT_HT1 - DMA1 Channel1 half transfer flag.
* DMA1_IT_TE1 - DMA1 Channel1 transfer error flag.
* DMA1_IT_GL2 - DMA1 Channel2 global flag.
* DMA1_IT_TC2 - DMA1 Channel2 transfer complete flag.
* DMA1_IT_HT2 - DMA1 Channel2 half transfer flag.
* DMA1_IT_TE2 - DMA1 Channel2 transfer error flag.
* DMA1_IT_GL3 - DMA1 Channel3 global flag.
* DMA1_IT_TC3 - DMA1 Channel3 transfer complete flag.
* DMA1_IT_HT3 - DMA1 Channel3 half transfer flag.
* DMA1_IT_TE3 - DMA1 Channel3 transfer error flag.
* DMA1_IT_GL4 - DMA1 Channel4 global flag.
* DMA1_IT_TC4 - DMA1 Channel4 transfer complete flag.
* DMA1_IT_HT4 - DMA1 Channel4 half transfer flag.
* DMA1_IT_TE4 - DMA1 Channel4 transfer error flag.
* DMA1_IT_GL5 - DMA1 Channel5 global flag.
* DMA1_IT_TC5 - DMA1 Channel5 transfer complete flag.
* DMA1_IT_HT5 - DMA1 Channel5 half transfer flag.
* DMA1_IT_TE5 - DMA1 Channel5 transfer error flag.
* DMA1_IT_GL6 - DMA1 Channel6 global flag.
* DMA1_IT_TC6 - DMA1 Channel6 transfer complete flag.
* DMA1_IT_HT6 - DMA1 Channel6 half transfer flag.
* DMA1_IT_TE6 - DMA1 Channel6 transfer error flag.
* DMA1_IT_GL7 - DMA1 Channel7 global flag.
* DMA1_IT_TC7 - DMA1 Channel7 transfer complete flag.
* DMA1_IT_HT7 - DMA1 Channel7 half transfer flag.
* DMA1_IT_TE7 - DMA1 Channel7 transfer error flag.
* DMA2_IT_GL1 - DMA2 Channel1 global flag.
* DMA2_IT_TC1 - DMA2 Channel1 transfer complete flag.
* DMA2_IT_HT1 - DMA2 Channel1 half transfer flag.
* DMA2_IT_TE1 - DMA2 Channel1 transfer error flag.
* DMA2_IT_GL2 - DMA2 Channel2 global flag.
* DMA2_IT_TC2 - DMA2 Channel2 transfer complete flag.
* DMA2_IT_HT2 - DMA2 Channel2 half transfer flag.
* DMA2_IT_TE2 - DMA2 Channel2 transfer error flag.
* DMA2_IT_GL3 - DMA2 Channel3 global flag.
* DMA2_IT_TC3 - DMA2 Channel3 transfer complete flag.
* DMA2_IT_HT3 - DMA2 Channel3 half transfer flag.
* DMA2_IT_TE3 - DMA2 Channel3 transfer error flag.
* DMA2_IT_GL4 - DMA2 Channel4 global flag.
* DMA2_IT_TC4 - DMA2 Channel4 transfer complete flag.
* DMA2_IT_HT4 - DMA2 Channel4 half transfer flag.
* DMA2_IT_TE4 - DMA2 Channel4 transfer error flag.
* DMA2_IT_GL5 - DMA2 Channel5 global flag.
* DMA2_IT_TC5 - DMA2 Channel5 transfer complete flag.
* DMA2_IT_HT5 - DMA2 Channel5 half transfer flag.
* DMA2_IT_TE5 - DMA2 Channel5 transfer error flag.
* DMA2_IT_GL6 - DMA2 Channel6 global flag.
* DMA2_IT_TC6 - DMA2 Channel6 transfer complete flag.
* DMA2_IT_HT6 - DMA2 Channel6 half transfer flag.
* DMA2_IT_TE6 - DMA2 Channel6 transfer error flag.
* DMA2_IT_GL7 - DMA2 Channel7 global flag.
* DMA2_IT_TC7 - DMA2 Channel7 transfer complete flag.
* DMA2_IT_HT7 - DMA2 Channel7 half transfer flag.
* DMA2_IT_TE7 - DMA2 Channel7 transfer error flag.
* DMA2_IT_GL8 - DMA2 Channel8 global flag.
* DMA2_IT_TC8 - DMA2 Channel8 transfer complete flag.
* DMA2_IT_HT8 - DMA2 Channel8 half transfer flag.
* DMA2_IT_TE8 - DMA2 Channel8 transfer error flag.
* DMA2_IT_GL9 - DMA2 Channel9 global flag.
* DMA2_IT_TC9 - DMA2 Channel9 transfer complete flag.
* DMA2_IT_HT9 - DMA2 Channel9 half transfer flag.
* DMA2_IT_TE9 - DMA2 Channel9 transfer error flag.
* DMA2_IT_GL10 - DMA2 Channel10 global flag.
* DMA2_IT_TC10 - DMA2 Channel10 transfer complete flag.
* DMA2_IT_HT10 - DMA2 Channel10 half transfer flag.
* DMA2_IT_TE10 - DMA2 Channel10 transfer error flag.
* DMA2_IT_GL11 - DMA2 Channel11 global flag.
* DMA2_IT_TC11 - DMA2 Channel11 transfer complete flag.
* DMA2_IT_HT11 - DMA2 Channel11 half transfer flag.
* DMA2_IT_TE11 - DMA2 Channel11 transfer error flag.
*
* @return none
*/
void DMA_ClearITPendingBit(uint32_t DMAy_IT)
{
if((DMAy_IT & FLAG_Mask) == FLAG_Mask)
{
DMA2->INTFCR = DMAy_IT;
}
else if((DMAy_IT & DMA2_EXTEN_FLAG_Mask) == DMA2_EXTEN_FLAG_Mask)
{
DMA2_EXTEN->INTFCR = DMAy_IT;
}
else
{
DMA1->INTFCR = DMAy_IT;
}
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_dvp.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the DVP firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_dvp.h"
/*********************************************************************
* @fn DVP_INTCfg
*
* @brief DVP interrupt configuration
*
* @param s - interrupt enable
* ENABLE
* DISABLE
* i - interrupt type
* RB_DVP_IE_STP_FRM
* RB_DVP_IE_FIFO_OV
* RB_DVP_IE_FRM_DONE
* RB_DVP_IE_ROW_DONE
* RB_DVP_IE_STR_FRM
*
* @return none
*/
void DVP_INTCfg(uint8_t s, uint8_t i)
{
if(s)
{
DVP->IER |= i;
}
else
{
DVP->IER &= ~i;
}
}
/*********************************************************************
* @fn DVP_Mode
*
* @brief DVP mode
*
* @param s - data bit width
* RB_DVP_D8_MOD
* RB_DVP_D10_MOD
* RB_DVP_D12_MOD
* i - interrupt type
* Video_Mode
* JPEG_Mode
*
* @return none
*/
void DVP_Mode(uint8_t s, DVP_Data_ModeTypeDef i)
{
DVP->CR0 &= ~RB_DVP_MSK_DAT_MOD;
if(s)
{
DVP->CR0 |= s;
}
else
{
DVP->CR0 &= ~(3 << 4);
}
if(i)
{
DVP->CR0 |= RB_DVP_JPEG;
}
else
{
DVP->CR0 &= ~RB_DVP_JPEG;
}
}
/*********************************************************************
* @fn DVP_Cfg
*
* @brief DVP configuration
*
* @param s - DMA enable control
* DVP_DMA_Enable
* DVP_DMA_Disable
* i - DVP all clear
* DVP_FLAG_FIFO_RESET_Enable
* DVP_FLAG_FIFO_RESET_Disable
* j - receive reset enable
* DVP_RX_RESET_Enable
* DVP_RX_RESET_Disable
*
* @return none
*/
void DVP_Cfg(DVP_DMATypeDef s, DVP_FLAG_FIFO_RESETTypeDef i, DVP_RX_RESETTypeDef j)
{
switch(s)
{
case DVP_DMA_Enable:
DVP->CR1 |= RB_DVP_DMA_EN;
break;
case DVP_DMA_Disable:
DVP->CR1 &= ~RB_DVP_DMA_EN;
break;
default:
break;
}
switch(i)
{
case DVP_RX_RESET_Enable:
DVP->CR1 |= RB_DVP_ALL_CLR;
break;
case DVP_RX_RESET_Disable:
DVP->CR1 &= ~RB_DVP_ALL_CLR;
break;
default:
break;
}
switch(j)
{
case DVP_RX_RESET_Enable:
DVP->CR1 |= RB_DVP_RCV_CLR;
break;
case DVP_RX_RESET_Disable:
DVP->CR1 &= ~RB_DVP_RCV_CLR;
break;
default:
break;
}
}

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ch32v307_lvgl_ili9341/Peripheral/src/ch32v30x_eth.c Normal file
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ch32v307_lvgl_ili9341/Peripheral/src/ch32v30x_exti.c Normal file
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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_exti.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the EXTI firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_exti.h"
/* No interrupt selected */
#define EXTI_LINENONE ((uint32_t)0x00000)
/*********************************************************************
* @fn EXTI_DeInit
*
* @brief Deinitializes the EXTI peripheral registers to their default
* reset values.
*
* @return none.
*/
void EXTI_DeInit(void)
{
EXTI->INTENR = 0x00000000;
EXTI->EVENR = 0x00000000;
EXTI->RTENR = 0x00000000;
EXTI->FTENR = 0x00000000;
EXTI->INTFR = 0x000FFFFF;
}
/*********************************************************************
* @fn EXTI_Init
*
* @brief Initializes the EXTI peripheral according to the specified
* parameters in the EXTI_InitStruct.
*
* @param EXTI_InitStruct - pointer to a EXTI_InitTypeDef structure
*
* @return none.
*/
void EXTI_Init(EXTI_InitTypeDef *EXTI_InitStruct)
{
uint32_t tmp = 0;
tmp = (uint32_t)EXTI_BASE;
if(EXTI_InitStruct->EXTI_LineCmd != DISABLE)
{
EXTI->INTENR &= ~EXTI_InitStruct->EXTI_Line;
EXTI->EVENR &= ~EXTI_InitStruct->EXTI_Line;
tmp += EXTI_InitStruct->EXTI_Mode;
*(__IO uint32_t *)tmp |= EXTI_InitStruct->EXTI_Line;
EXTI->RTENR &= ~EXTI_InitStruct->EXTI_Line;
EXTI->FTENR &= ~EXTI_InitStruct->EXTI_Line;
if(EXTI_InitStruct->EXTI_Trigger == EXTI_Trigger_Rising_Falling)
{
EXTI->RTENR |= EXTI_InitStruct->EXTI_Line;
EXTI->FTENR |= EXTI_InitStruct->EXTI_Line;
}
else
{
tmp = (uint32_t)EXTI_BASE;
tmp += EXTI_InitStruct->EXTI_Trigger;
*(__IO uint32_t *)tmp |= EXTI_InitStruct->EXTI_Line;
}
}
else
{
tmp += EXTI_InitStruct->EXTI_Mode;
*(__IO uint32_t *)tmp &= ~EXTI_InitStruct->EXTI_Line;
}
}
/*********************************************************************
* @fn EXTI_StructInit
*
* @brief Fills each EXTI_InitStruct member with its reset value.
*
* @param EXTI_InitStruct - pointer to a EXTI_InitTypeDef structure
*
* @return none.
*/
void EXTI_StructInit(EXTI_InitTypeDef *EXTI_InitStruct)
{
EXTI_InitStruct->EXTI_Line = EXTI_LINENONE;
EXTI_InitStruct->EXTI_Mode = EXTI_Mode_Interrupt;
EXTI_InitStruct->EXTI_Trigger = EXTI_Trigger_Falling;
EXTI_InitStruct->EXTI_LineCmd = DISABLE;
}
/*********************************************************************
* @fn EXTI_GenerateSWInterrupt
*
* @brief Generates a Software interrupt.
*
* @param EXTI_Line - specifies the EXTI lines to be enabled or disabled.
*
* @return none.
*/
void EXTI_GenerateSWInterrupt(uint32_t EXTI_Line)
{
EXTI->SWIEVR |= EXTI_Line;
}
/*********************************************************************
* @fn EXTI_GetFlagStatus
*
* @brief Checks whether the specified EXTI line flag is set or not.
*
* @param EXTI_Line - specifies the EXTI lines to be enabled or disabled.
*
* @return The new state of EXTI_Line (SET or RESET).
*/
FlagStatus EXTI_GetFlagStatus(uint32_t EXTI_Line)
{
FlagStatus bitstatus = RESET;
if((EXTI->INTFR & EXTI_Line) != (uint32_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn EXTI_ClearFlag
*
* @brief Clears the EXTI's line pending flags.
*
* @param EXTI_Line - specifies the EXTI lines to be enabled or disabled.
*
* @return None
*/
void EXTI_ClearFlag(uint32_t EXTI_Line)
{
EXTI->INTFR = EXTI_Line;
}
/*********************************************************************
* @fn EXTI_GetITStatus
*
* @brief Checks whether the specified EXTI line is asserted or not.
*
* @param EXTI_Line - specifies the EXTI lines to be enabled or disabled.
*
* @return The new state of EXTI_Line (SET or RESET).
*/
ITStatus EXTI_GetITStatus(uint32_t EXTI_Line)
{
ITStatus bitstatus = RESET;
uint32_t enablestatus = 0;
enablestatus = EXTI->INTENR & EXTI_Line;
if(((EXTI->INTFR & EXTI_Line) != (uint32_t)RESET) && (enablestatus != (uint32_t)RESET))
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn EXTI_ClearITPendingBit
*
* @brief Clears the EXTI's line pending bits.
*
* @param EXTI_Line - specifies the EXTI lines to be enabled or disabled.
*
* @return none
*/
void EXTI_ClearITPendingBit(uint32_t EXTI_Line)
{
EXTI->INTFR = EXTI_Line;
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_flash.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the FLASH firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_flash.h"
/* Flash Control Register bits */
#define CR_PG_Set ((uint32_t)0x00000001)
#define CR_PG_Reset ((uint32_t)0xFFFFFFFE)
#define CR_PER_Set ((uint32_t)0x00000002)
#define CR_PER_Reset ((uint32_t)0xFFFFFFFD)
#define CR_MER_Set ((uint32_t)0x00000004)
#define CR_MER_Reset ((uint32_t)0xFFFFFFFB)
#define CR_OPTPG_Set ((uint32_t)0x00000010)
#define CR_OPTPG_Reset ((uint32_t)0xFFFFFFEF)
#define CR_OPTER_Set ((uint32_t)0x00000020)
#define CR_OPTER_Reset ((uint32_t)0xFFFFFFDF)
#define CR_STRT_Set ((uint32_t)0x00000040)
#define CR_LOCK_Set ((uint32_t)0x00000080)
#define CR_FAST_LOCK_Set ((uint32_t)0x00008000)
#define CR_PAGE_PG ((uint32_t)0x00010000)
#define CR_PAGE_ER ((uint32_t)0x00020000)
#define CR_BER32 ((uint32_t)0x00040000)
#define CR_BER64 ((uint32_t)0x00080000)
#define CR_PG_STRT ((uint32_t)0x00200000)
/* FLASH Status Register bits */
#define SR_BSY ((uint32_t)0x00000001)
#define SR_WR_BSY ((uint32_t)0x00000002)
#define SR_WRPRTERR ((uint32_t)0x00000010)
#define SR_EOP ((uint32_t)0x00000020)
/* FLASH Mask */
#define RDPRT_Mask ((uint32_t)0x00000002)
#define WRP0_Mask ((uint32_t)0x000000FF)
#define WRP1_Mask ((uint32_t)0x0000FF00)
#define WRP2_Mask ((uint32_t)0x00FF0000)
#define WRP3_Mask ((uint32_t)0xFF000000)
#define OB_USER_BFB2 ((uint16_t)0x0008)
/* FLASH Keys */
#define RDP_Key ((uint16_t)0x00A5)
#define FLASH_KEY1 ((uint32_t)0x45670123)
#define FLASH_KEY2 ((uint32_t)0xCDEF89AB)
/* FLASH BANK address */
#define FLASH_BANK1_END_ADDRESS ((uint32_t)0x807FFFF)
/* Delay definition */
#define EraseTimeout ((uint32_t)0x000B0000)
#define ProgramTimeout ((uint32_t)0x00005000)
/*********************************************************************
* @fn FLASH_Unlock
*
* @brief Unlocks the FLASH Program Erase Controller.
*
* @return none
*/
void FLASH_Unlock(void)
{
/* Authorize the FPEC of Bank1 Access */
FLASH->KEYR = FLASH_KEY1;
FLASH->KEYR = FLASH_KEY2;
}
/*********************************************************************
* @fn FLASH_UnlockBank1
*
* @brief Unlocks the FLASH Bank1 Program Erase Controller.
* equivalent to FLASH_Unlock function.
*
* @return none
*/
void FLASH_UnlockBank1(void)
{
FLASH->KEYR = FLASH_KEY1;
FLASH->KEYR = FLASH_KEY2;
}
/*********************************************************************
* @fn FLASH_Lock
*
* @brief Locks the FLASH Program Erase Controller.
*
* @return none
*/
void FLASH_Lock(void)
{
FLASH->CTLR |= CR_LOCK_Set;
}
/*********************************************************************
* @fn FLASH_LockBank1
*
* @brief Locks the FLASH Bank1 Program Erase Controller.
*
* @return none
*/
void FLASH_LockBank1(void)
{
FLASH->CTLR |= CR_LOCK_Set;
}
/*********************************************************************
* @fn FLASH_ErasePage
*
* @brief Erases a specified FLASH page(page size 4KB).
*
* @param Page_Address - The page address to be erased.
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP, FLASH_COMPLETE or FLASH_TIMEOUT.
*/
FLASH_Status FLASH_ErasePage(uint32_t Page_Address)
{
FLASH_Status status = FLASH_COMPLETE;
status = FLASH_WaitForLastOperation(EraseTimeout);
if(status == FLASH_COMPLETE)
{
FLASH->CTLR |= CR_PER_Set;
FLASH->ADDR = Page_Address;
FLASH->CTLR |= CR_STRT_Set;
status = FLASH_WaitForLastOperation(EraseTimeout);
FLASH->CTLR &= CR_PER_Reset;
}
return status;
}
/*********************************************************************
* @fn FLASH_EraseAllPages
*
* @brief Erases all FLASH pages.
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP, FLASH_COMPLETE or FLASH_TIMEOUT.
*/
FLASH_Status FLASH_EraseAllPages(void)
{
FLASH_Status status = FLASH_COMPLETE;
status = FLASH_WaitForLastOperation(EraseTimeout);
if(status == FLASH_COMPLETE)
{
FLASH->CTLR |= CR_MER_Set;
FLASH->CTLR |= CR_STRT_Set;
status = FLASH_WaitForLastOperation(EraseTimeout);
FLASH->CTLR &= CR_MER_Reset;
}
return status;
}
/*********************************************************************
* @fn FLASH_EraseAllBank1Pages
*
* @brief Erases all Bank1 FLASH pages.
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP, FLASH_COMPLETE or FLASH_TIMEOUT.
*/
FLASH_Status FLASH_EraseAllBank1Pages(void)
{
FLASH_Status status = FLASH_COMPLETE;
status = FLASH_WaitForLastBank1Operation(EraseTimeout);
if(status == FLASH_COMPLETE)
{
FLASH->CTLR |= CR_MER_Set;
FLASH->CTLR |= CR_STRT_Set;
status = FLASH_WaitForLastBank1Operation(EraseTimeout);
FLASH->CTLR &= CR_MER_Reset;
}
return status;
}
/*********************************************************************
* @fn FLASH_EraseOptionBytes
*
* @brief Erases the FLASH option bytes.
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP, FLASH_COMPLETE or FLASH_TIMEOUT.
*/
FLASH_Status FLASH_EraseOptionBytes(void)
{
uint16_t rdptmp = RDP_Key;
uint32_t Address = 0x1FFFF800;
__IO uint8_t i;
FLASH_Status status = FLASH_COMPLETE;
if(FLASH_GetReadOutProtectionStatus() != RESET)
{
rdptmp = 0x00;
}
status = FLASH_WaitForLastOperation(EraseTimeout);
if(status == FLASH_COMPLETE)
{
FLASH->OBKEYR = FLASH_KEY1;
FLASH->OBKEYR = FLASH_KEY2;
FLASH->CTLR |= CR_OPTER_Set;
FLASH->CTLR |= CR_STRT_Set;
status = FLASH_WaitForLastOperation(EraseTimeout);
if(status == FLASH_COMPLETE)
{
FLASH->CTLR &= CR_OPTER_Reset;
FLASH->CTLR |= CR_OPTPG_Set;
OB->RDPR = (uint16_t)rdptmp;
status = FLASH_WaitForLastOperation(ProgramTimeout);
if(status != FLASH_TIMEOUT)
{
FLASH->CTLR &= CR_OPTPG_Reset;
}
}
else
{
if(status != FLASH_TIMEOUT)
{
FLASH->CTLR &= CR_OPTPG_Reset;
}
}
/* Write 0xFF */
FLASH->CTLR |= CR_OPTPG_Set;
for(i = 0; i < 8; i++)
{
*(uint16_t *)(Address + 2 * i) = 0x00FF;
while(FLASH->STATR & SR_BSY)
;
}
FLASH->CTLR &= ~CR_OPTPG_Set;
}
return status;
}
/*********************************************************************
* @fn FLASH_ProgramWord
*
* @brief Programs a word at a specified address.
*
* @param Address - specifies the address to be programmed.
* Data - specifies the data to be programmed.
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP, FLASH_COMPLETE or FLASH_TIMEOUT.
*/
FLASH_Status FLASH_ProgramWord(uint32_t Address, uint32_t Data)
{
FLASH_Status status = FLASH_COMPLETE;
__IO uint32_t tmp = 0;
status = FLASH_WaitForLastOperation(ProgramTimeout);
if(status == FLASH_COMPLETE)
{
FLASH->CTLR |= CR_PG_Set;
*(__IO uint16_t *)Address = (uint16_t)Data;
status = FLASH_WaitForLastOperation(ProgramTimeout);
if(status == FLASH_COMPLETE)
{
tmp = Address + 2;
*(__IO uint16_t *)tmp = Data >> 16;
status = FLASH_WaitForLastOperation(ProgramTimeout);
FLASH->CTLR &= CR_PG_Reset;
}
else
{
FLASH->CTLR &= CR_PG_Reset;
}
}
return status;
}
/*********************************************************************
* @fn FLASH_ProgramHalfWord
*
* @brief Programs a half word at a specified address.
*
* @param Address - specifies the address to be programmed.
* Data - specifies the data to be programmed.
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP, FLASH_COMPLETE or FLASH_TIMEOUT.
*/
FLASH_Status FLASH_ProgramHalfWord(uint32_t Address, uint16_t Data)
{
FLASH_Status status = FLASH_COMPLETE;
status = FLASH_WaitForLastOperation(ProgramTimeout);
if(status == FLASH_COMPLETE)
{
FLASH->CTLR |= CR_PG_Set;
*(__IO uint16_t *)Address = Data;
status = FLASH_WaitForLastOperation(ProgramTimeout);
FLASH->CTLR &= CR_PG_Reset;
}
return status;
}
/*********************************************************************
* @fn FLASH_ProgramOptionByteData
*
* @brief Programs a half word at a specified Option Byte Data address.
*
* @param Address - specifies the address to be programmed.
* Data - specifies the data to be programmed.
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP, FLASH_COMPLETE or FLASH_TIMEOUT.
*/
FLASH_Status FLASH_ProgramOptionByteData(uint32_t Address, uint8_t Data)
{
FLASH_Status status = FLASH_COMPLETE;
uint32_t Addr = 0x1FFFF800;
__IO uint8_t i;
uint16_t pbuf[8];
status = FLASH_WaitForLastOperation(ProgramTimeout);
if(status == FLASH_COMPLETE)
{
FLASH->OBKEYR = FLASH_KEY1;
FLASH->OBKEYR = FLASH_KEY2;
/* Read optionbytes */
for(i = 0; i < 8; i++)
{
pbuf[i] = *(uint16_t *)(Addr + 2 * i);
}
/* Erase optionbytes */
FLASH->CTLR |= CR_OPTER_Set;
FLASH->CTLR |= CR_STRT_Set;
while(FLASH->STATR & SR_BSY)
;
FLASH->CTLR &= ~CR_OPTER_Set;
/* Write optionbytes */
pbuf[((Address - 0x1FFFF800) / 2)] = ((((uint16_t) ~(Data)) << 8) | ((uint16_t)Data));
FLASH->CTLR |= CR_OPTPG_Set;
for(i = 0; i < 8; i++)
{
*(uint16_t *)(Addr + 2 * i) = pbuf[i];
while(FLASH->STATR & SR_BSY)
;
}
FLASH->CTLR &= ~CR_OPTPG_Set;
}
return status;
}
/*********************************************************************
* @fn FLASH_EnableWriteProtection
*
* @brief Write protects the desired sectors
*
* @param FLASH_Sectors - specifies the address of the pages to be write protected.
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP, FLASH_COMPLETE or FLASH_TIMEOUT.
*/
FLASH_Status FLASH_EnableWriteProtection(uint32_t FLASH_Sectors)
{
uint16_t WRP0_Data = 0xFFFF, WRP1_Data = 0xFFFF, WRP2_Data = 0xFFFF, WRP3_Data = 0xFFFF;
FLASH_Status status = FLASH_COMPLETE;
uint32_t Addr = 0x1FFFF800;
__IO uint8_t i;
uint16_t pbuf[8];
FLASH_Sectors = (uint32_t)(~FLASH_Sectors);
WRP0_Data = (uint16_t)(FLASH_Sectors & WRP0_Mask);
WRP1_Data = (uint16_t)((FLASH_Sectors & WRP1_Mask) >> 8);
WRP2_Data = (uint16_t)((FLASH_Sectors & WRP2_Mask) >> 16);
WRP3_Data = (uint16_t)((FLASH_Sectors & WRP3_Mask) >> 24);
status = FLASH_WaitForLastOperation(ProgramTimeout);
if(status == FLASH_COMPLETE)
{
FLASH->OBKEYR = FLASH_KEY1;
FLASH->OBKEYR = FLASH_KEY2;
/* Read optionbytes */
for(i = 0; i < 8; i++)
{
pbuf[i] = *(uint16_t *)(Addr + 2 * i);
}
/* Erase optionbytes */
FLASH->CTLR |= CR_OPTER_Set;
FLASH->CTLR |= CR_STRT_Set;
while(FLASH->STATR & SR_BSY)
;
FLASH->CTLR &= ~CR_OPTER_Set;
/* Write optionbytes */
pbuf[4] = WRP0_Data;
pbuf[5] = WRP1_Data;
pbuf[6] = WRP2_Data;
pbuf[7] = WRP3_Data;
FLASH->CTLR |= CR_OPTPG_Set;
for(i = 0; i < 8; i++)
{
*(uint16_t *)(Addr + 2 * i) = pbuf[i];
while(FLASH->STATR & SR_BSY)
;
}
FLASH->CTLR &= ~CR_OPTPG_Set;
}
return status;
}
/*********************************************************************
* @fn FLASH_ReadOutProtection
*
* @brief Enables or disables the read out protection.
*
* @param Newstate - new state of the ReadOut Protection(ENABLE or DISABLE).
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP, FLASH_COMPLETE or FLASH_TIMEOUT.
*/
FLASH_Status FLASH_ReadOutProtection(FunctionalState NewState)
{
FLASH_Status status = FLASH_COMPLETE;
uint32_t Addr = 0x1FFFF800;
__IO uint8_t i;
uint16_t pbuf[8];
status = FLASH_WaitForLastOperation(EraseTimeout);
if(status == FLASH_COMPLETE)
{
FLASH->OBKEYR = FLASH_KEY1;
FLASH->OBKEYR = FLASH_KEY2;
/* Read optionbytes */
for(i = 0; i < 8; i++)
{
pbuf[i] = *(uint16_t *)(Addr + 2 * i);
}
/* Erase optionbytes */
FLASH->CTLR |= CR_OPTER_Set;
FLASH->CTLR |= CR_STRT_Set;
while(FLASH->STATR & SR_BSY)
;
FLASH->CTLR &= ~CR_OPTER_Set;
/* Write optionbytes */
if(NewState == DISABLE)
pbuf[0] = 0x5AA5;
else
pbuf[0] = 0x00FF;
FLASH->CTLR |= CR_OPTPG_Set;
for(i = 0; i < 8; i++)
{
*(uint16_t *)(Addr + 2 * i) = pbuf[i];
while(FLASH->STATR & SR_BSY)
;
}
FLASH->CTLR &= ~CR_OPTPG_Set;
}
return status;
}
/*********************************************************************
* @fn FLASH_UserOptionByteConfig
*
* @brief Programs the FLASH User Option Byte - IWDG_SW / RST_STOP / RST_STDBY.
*
* @param OB_IWDG - Selects the IWDG mode
* OB_IWDG_SW - Software IWDG selected
* OB_IWDG_HW - Hardware IWDG selected
* OB_STOP - Reset event when entering STOP mode.
* OB_STOP_NoRST - No reset generated when entering in STOP
* OB_STOP_RST - Reset generated when entering in STOP
* OB_STDBY - Reset event when entering Standby mode.
* OB_STDBY_NoRST - No reset generated when entering in STANDBY
* OB_STDBY_RST - Reset generated when entering in STANDBY
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP, FLASH_COMPLETE or FLASH_TIMEOUT.
*/
FLASH_Status FLASH_UserOptionByteConfig(uint16_t OB_IWDG, uint16_t OB_STOP, uint16_t OB_STDBY)
{
FLASH_Status status = FLASH_COMPLETE;
uint32_t Addr = 0x1FFFF800;
__IO uint8_t i;
uint16_t pbuf[8];
FLASH->OBKEYR = FLASH_KEY1;
FLASH->OBKEYR = FLASH_KEY2;
status = FLASH_WaitForLastOperation(ProgramTimeout);
if(status == FLASH_COMPLETE)
{
/* Read optionbytes */
for(i = 0; i < 8; i++)
{
pbuf[i] = *(uint16_t *)(Addr + 2 * i);
}
/* Erase optionbytes */
FLASH->CTLR |= CR_OPTER_Set;
FLASH->CTLR |= CR_STRT_Set;
while(FLASH->STATR & SR_BSY)
;
FLASH->CTLR &= ~CR_OPTER_Set;
/* Write optionbytes */
pbuf[1] = OB_IWDG | (uint16_t)(OB_STOP | (uint16_t)(OB_STDBY | ((uint16_t)0xF8)));
FLASH->CTLR |= CR_OPTPG_Set;
for(i = 0; i < 8; i++)
{
*(uint16_t *)(Addr + 2 * i) = pbuf[i];
while(FLASH->STATR & SR_BSY)
;
}
FLASH->CTLR &= ~CR_OPTPG_Set;
}
return status;
}
/*********************************************************************
* @fn FLASH_GetUserOptionByte
*
* @brief Returns the FLASH User Option Bytes values.
*
* @return The FLASH User Option Bytes values:IWDG_SW(Bit0), RST_STOP(Bit1)
* and RST_STDBY(Bit2).
*/
uint32_t FLASH_GetUserOptionByte(void)
{
return (uint32_t)(FLASH->OBR >> 2);
}
/*********************************************************************
* @fn FLASH_GetWriteProtectionOptionByte
*
* @brief Returns the FLASH Write Protection Option Bytes Register value.
*
* @return The FLASH Write Protection Option Bytes Register value.
*/
uint32_t FLASH_GetWriteProtectionOptionByte(void)
{
return (uint32_t)(FLASH->WPR);
}
/*********************************************************************
* @fn FLASH_GetReadOutProtectionStatus
*
* @brief Checks whether the FLASH Read Out Protection Status is set or not.
*
* @return FLASH ReadOut Protection Status(SET or RESET)
*/
FlagStatus FLASH_GetReadOutProtectionStatus(void)
{
FlagStatus readoutstatus = RESET;
if((FLASH->OBR & RDPRT_Mask) != (uint32_t)RESET)
{
readoutstatus = SET;
}
else
{
readoutstatus = RESET;
}
return readoutstatus;
}
/*********************************************************************
* @fn FLASH_ITConfig
*
* @brief Enables or disables the specified FLASH interrupts.
*
* @param FLASH_IT - specifies the FLASH interrupt sources to be enabled or disabled.
* FLASH_IT_ERROR - FLASH Error Interrupt
* FLASH_IT_EOP - FLASH end of operation Interrupt
* NewState - new state of the specified Flash interrupts(ENABLE or DISABLE).
*
* @return FLASH Prefetch Buffer Status (SET or RESET).
*/
void FLASH_ITConfig(uint32_t FLASH_IT, FunctionalState NewState)
{
if(NewState != DISABLE)
{
FLASH->CTLR |= FLASH_IT;
}
else
{
FLASH->CTLR &= ~(uint32_t)FLASH_IT;
}
}
/*********************************************************************
* @fn FLASH_GetFlagStatus
*
* @brief Checks whether the specified FLASH flag is set or not.
*
* @param FLASH_FLAG - specifies the FLASH flag to check.
* FLASH_FLAG_BSY - FLASH Busy flag
* FLASH_FLAG_WRPRTERR - FLASH Write protected error flag
* FLASH_FLAG_EOP - FLASH End of Operation flag
* FLASH_FLAG_OPTERR - FLASH Option Byte error flag
*
* @return The new state of FLASH_FLAG (SET or RESET).
*/
FlagStatus FLASH_GetFlagStatus(uint32_t FLASH_FLAG)
{
FlagStatus bitstatus = RESET;
if(FLASH_FLAG == FLASH_FLAG_OPTERR)
{
if((FLASH->OBR & FLASH_FLAG_OPTERR) != (uint32_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
}
else
{
if((FLASH->STATR & FLASH_FLAG) != (uint32_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
}
return bitstatus;
}
/*********************************************************************
* @fn FLASH_ClearFlag
*
* @brief Clears the FLASH's pending flags.
*
* @param FLASH_FLAG - specifies the FLASH flags to clear.
* FLASH_FLAG_WRPRTERR - FLASH Write protected error flag
* FLASH_FLAG_EOP - FLASH End of Operation flag
*
* @return none
*/
void FLASH_ClearFlag(uint32_t FLASH_FLAG)
{
FLASH->STATR = FLASH_FLAG;
}
/*********************************************************************
* @fn FLASH_GetStatus
*
* @brief Returns the FLASH Status.
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP or FLASH_COMPLETE.
*/
FLASH_Status FLASH_GetStatus(void)
{
FLASH_Status flashstatus = FLASH_COMPLETE;
if((FLASH->STATR & FLASH_FLAG_BSY) == FLASH_FLAG_BSY)
{
flashstatus = FLASH_BUSY;
}
else
{
if((FLASH->STATR & FLASH_FLAG_WRPRTERR) != 0)
{
flashstatus = FLASH_ERROR_WRP;
}
else
{
flashstatus = FLASH_COMPLETE;
}
}
return flashstatus;
}
/*********************************************************************
* @fn FLASH_GetBank1Status
*
* @brief Returns the FLASH Bank1 Status.
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP or FLASH_COMPLETE.
*/
FLASH_Status FLASH_GetBank1Status(void)
{
FLASH_Status flashstatus = FLASH_COMPLETE;
if((FLASH->STATR & FLASH_FLAG_BANK1_BSY) == FLASH_FLAG_BSY)
{
flashstatus = FLASH_BUSY;
}
else
{
if((FLASH->STATR & FLASH_FLAG_BANK1_WRPRTERR) != 0)
{
flashstatus = FLASH_ERROR_WRP;
}
else
{
flashstatus = FLASH_COMPLETE;
}
}
return flashstatus;
}
/*********************************************************************
* @fn FLASH_WaitForLastOperation
*
* @brief Waits for a Flash operation to complete or a TIMEOUT to occur.
*
* @param Timeout - FLASH programming Timeout
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP or FLASH_COMPLETE.
*/
FLASH_Status FLASH_WaitForLastOperation(uint32_t Timeout)
{
FLASH_Status status = FLASH_COMPLETE;
status = FLASH_GetBank1Status();
while((status == FLASH_BUSY) && (Timeout != 0x00))
{
status = FLASH_GetBank1Status();
Timeout--;
}
if(Timeout == 0x00)
{
status = FLASH_TIMEOUT;
}
return status;
}
/*********************************************************************
* @fn FLASH_WaitForLastBank1Operation
*
* @brief Waits for a Flash operation on Bank1 to complete or a TIMEOUT to occur.
*
* @param Timeout - FLASH programming Timeout
*
* @return FLASH Status - The returned value can be: FLASH_BUSY, FLASH_ERROR_PG,
* FLASH_ERROR_WRP or FLASH_COMPLETE.
*/
FLASH_Status FLASH_WaitForLastBank1Operation(uint32_t Timeout)
{
FLASH_Status status = FLASH_COMPLETE;
status = FLASH_GetBank1Status();
while((status == FLASH_FLAG_BANK1_BSY) && (Timeout != 0x00))
{
status = FLASH_GetBank1Status();
Timeout--;
}
if(Timeout == 0x00)
{
status = FLASH_TIMEOUT;
}
return status;
}
/*********************************************************************
* @fn FLASH_Unlock_Fast
*
* @brief Unlocks the Fast Program Erase Mode.
*
* @return none
*/
void FLASH_Unlock_Fast(void)
{
/* Authorize the FPEC of Bank1 Access */
FLASH->KEYR = FLASH_KEY1;
FLASH->KEYR = FLASH_KEY2;
/* Fast program mode unlock */
FLASH->MODEKEYR = FLASH_KEY1;
FLASH->MODEKEYR = FLASH_KEY2;
}
/*********************************************************************
* @fn FLASH_Lock_Fast
*
* @brief Locks the Fast Program Erase Mode.
*
* @return none
*/
void FLASH_Lock_Fast(void)
{
FLASH->CTLR |= CR_FAST_LOCK_Set;
}
/*********************************************************************
* @fn FLASH_ErasePage_Fast
*
* @brief Erases a specified FLASH page (1page = 256Byte).
*
* @param Page_Address - The page address to be erased.
*
* @return none
*/
void FLASH_ErasePage_Fast(uint32_t Page_Address)
{
Page_Address &= 0xFFFFFF00;
FLASH->CTLR |= CR_PAGE_ER;
FLASH->ADDR = Page_Address;
FLASH->CTLR |= CR_STRT_Set;
while(FLASH->STATR & SR_BSY)
;
FLASH->CTLR &= ~CR_PAGE_ER;
}
/*********************************************************************
* @fn FLASH_EraseBlock_32K_Fast
*
* @brief Erases a specified FLASH Block (1Block = 32KByte).
*
* @param Block_Address - The block address to be erased.
*
* @return none
*/
void FLASH_EraseBlock_32K_Fast(uint32_t Block_Address)
{
Block_Address &= 0xFFFF8000;
FLASH->CTLR |= CR_BER32;
FLASH->ADDR = Block_Address;
FLASH->CTLR |= CR_STRT_Set;
while(FLASH->STATR & SR_BSY)
;
FLASH->CTLR &= ~CR_BER32;
}
/*********************************************************************
* @fn FLASH_EraseBlock_64K_Fast
*
* @brief Erases a specified FLASH Block (1Block = 64KByte).
*
* @param Block_Address - The block address to be erased.
*
* @return none
*/
void FLASH_EraseBlock_64K_Fast(uint32_t Block_Address)
{
Block_Address &= 0xFFFF0000;
FLASH->CTLR |= CR_BER64;
FLASH->ADDR = Block_Address;
FLASH->CTLR |= CR_STRT_Set;
while(FLASH->STATR & SR_BSY)
;
FLASH->CTLR &= ~CR_BER64;
}
/*********************************************************************
* @fn FLASH_ProgramPage_Fast
*
* @brief Program a specified FLASH page (1page = 256Byte).
*
* @param Page_Address - The page address to be programed.
*
* @return none
*/
void FLASH_ProgramPage_Fast(uint32_t Page_Address, uint32_t *pbuf)
{
uint8_t size = 64;
Page_Address &= 0xFFFFFF00;
FLASH->CTLR |= CR_PAGE_PG;
while(FLASH->STATR & SR_BSY)
;
while(FLASH->STATR & SR_WR_BSY)
;
while(size)
{
*(uint32_t *)Page_Address = *(uint32_t *)pbuf;
Page_Address += 4;
pbuf += 1;
size -= 1;
while(FLASH->STATR & SR_WR_BSY)
;
}
FLASH->CTLR |= CR_PG_STRT;
while(FLASH->STATR & SR_BSY)
;
FLASH->CTLR &= ~CR_PAGE_PG;
}
/*********************************************************************
* @fn FLASH_Access_Clock_Cfg
*
* @brief Config FLASH Access Clock(Need to unlock )
*
* @param FLASH_Access_CLK -
* FLASH_Access_SYSTEM_HALF - System clock/2
* FLASH_Access_SYSTEM - System clock
*
* @return none
*/
void FLASH_Access_Clock_Cfg(uint32_t FLASH_Access_CLK)
{
FLASH->CTLR &= ~(1 << 25);
FLASH->CTLR |= FLASH_Access_CLK;
}
/*********************************************************************
* @fn FLASH_Enhance_Mode
*
* @brief Read FLASH Enhance Mode
*
* @param
* Newstate - new state of the ReadOut Protection(ENABLE or DISABLE).
*
* @return none
*/
void FLASH_Enhance_Mode(FunctionalState NewState)
{
if(NewState)
{
FLASH->CTLR |= (1 << 24);
}
else
{
FLASH->CTLR &= ~(1 << 24);
FLASH->CTLR |= (1 << 22);
}
}

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@ -0,0 +1,503 @@
/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_fsmc.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the FSMC firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_fsmc.h"
#include "ch32v30x_rcc.h"
/* FSMC BCRx Mask */
#define BCR_MBKEN_Set ((uint32_t)0x00000001)
#define BCR_MBKEN_Reset ((uint32_t)0x000FFFFE)
#define BCR_FACCEN_Set ((uint32_t)0x00000040)
/* FSMC PCRx Mask */
#define PCR_PBKEN_Set ((uint32_t)0x00000004)
#define PCR_PBKEN_Reset ((uint32_t)0x000FFFFB)
#define PCR_ECCEN_Set ((uint32_t)0x00000040)
#define PCR_ECCEN_Reset ((uint32_t)0x000FFFBF)
#define PCR_MemoryType_NAND ((uint32_t)0x00000008)
/*********************************************************************
* @fn FSMC_NORSRAMDeInit
*
* @brief Deinitializes the FSMC NOR/SRAM Banks registers to their default
* reset values.
*
* @param FSMC_Bank-
* FSMC_Bank1_NORSRAM1 - FSMC Bank1 NOR/SRAM1.
*
* @return none
*/
void FSMC_NORSRAMDeInit(uint32_t FSMC_Bank)
{
if(FSMC_Bank == FSMC_Bank1_NORSRAM1)
{
FSMC_Bank1->BTCR[FSMC_Bank] = 0x000030DB;
}
else
{
FSMC_Bank1->BTCR[FSMC_Bank] = 0x000030D2;
}
FSMC_Bank1->BTCR[FSMC_Bank + 1] = 0x0FFFFFFF;
FSMC_Bank1E->BWTR[FSMC_Bank] = 0x0FFFFFFF;
}
/*********************************************************************
* @fn FSMC_NANDDeInit
*
* @brief Deinitializes the FSMC NAND Banks registers to their default
* reset values.
*
* @param FSMC_Bank -
* FSMC_Bank2_NAND - FSMC Bank2 NAND.
*
* @return none
*/
void FSMC_NANDDeInit(uint32_t FSMC_Bank)
{
if(FSMC_Bank == FSMC_Bank2_NAND)
{
FSMC_Bank2->PCR2 = 0x00000018;
FSMC_Bank2->SR2 = 0x00000040;
FSMC_Bank2->PMEM2 = 0xFCFCFCFC;
FSMC_Bank2->PATT2 = 0xFCFCFCFC;
}
}
/*********************************************************************
* @fn FSMC_NORSRAMInit
*
* @brief Initializes the FSMC NOR/SRAM Banks according to the specified
* parameters in the FSMC_NORSRAMInitStruct.
*
* @param SMC_NORSRAMInitStruct:pointer to a FSMC_NORSRAMInitTypeDef
* structure that contains the configuration information for the FSMC NOR/SRAM
* specified Banks.
*
* @return none
*/
void FSMC_NORSRAMInit(FSMC_NORSRAMInitTypeDef *FSMC_NORSRAMInitStruct)
{
FSMC_Bank1->BTCR[FSMC_NORSRAMInitStruct->FSMC_Bank] =
(uint32_t)FSMC_NORSRAMInitStruct->FSMC_DataAddressMux |
FSMC_NORSRAMInitStruct->FSMC_MemoryType |
FSMC_NORSRAMInitStruct->FSMC_MemoryDataWidth |
FSMC_NORSRAMInitStruct->FSMC_BurstAccessMode |
FSMC_NORSRAMInitStruct->FSMC_AsynchronousWait |
FSMC_NORSRAMInitStruct->FSMC_WaitSignalPolarity |
FSMC_NORSRAMInitStruct->FSMC_WrapMode |
FSMC_NORSRAMInitStruct->FSMC_WaitSignalActive |
FSMC_NORSRAMInitStruct->FSMC_WriteOperation |
FSMC_NORSRAMInitStruct->FSMC_WaitSignal |
FSMC_NORSRAMInitStruct->FSMC_ExtendedMode |
FSMC_NORSRAMInitStruct->FSMC_WriteBurst;
if(FSMC_NORSRAMInitStruct->FSMC_MemoryType == FSMC_MemoryType_NOR)
{
FSMC_Bank1->BTCR[FSMC_NORSRAMInitStruct->FSMC_Bank] |= (uint32_t)BCR_FACCEN_Set;
}
FSMC_Bank1->BTCR[FSMC_NORSRAMInitStruct->FSMC_Bank + 1] =
(uint32_t)FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AddressSetupTime |
(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AddressHoldTime << 4) |
(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_DataSetupTime << 8) |
(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_BusTurnAroundDuration << 16) |
(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_CLKDivision << 20) |
(FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_DataLatency << 24) |
FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AccessMode;
if(FSMC_NORSRAMInitStruct->FSMC_ExtendedMode == FSMC_ExtendedMode_Enable)
{
FSMC_Bank1E->BWTR[FSMC_NORSRAMInitStruct->FSMC_Bank] =
(uint32_t)FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AddressSetupTime |
(FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AddressHoldTime << 4) |
(FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_DataSetupTime << 8) |
(FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_CLKDivision << 20) |
(FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_DataLatency << 24) |
FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AccessMode;
}
else
{
FSMC_Bank1E->BWTR[FSMC_NORSRAMInitStruct->FSMC_Bank] = 0x0FFFFFFF;
}
}
/*********************************************************************
* @fn FSMC_NANDInit
*
* @brief Initializes the FSMC NAND Banks according to the specified
* parameters in the FSMC_NANDInitStruct.
*
* @param FSMC_NANDInitStruct - pointer to a FSMC_NANDInitTypeDef
* structure that contains the configuration information for the FSMC
* NAND specified Banks.
*
* @return none
*/
void FSMC_NANDInit(FSMC_NANDInitTypeDef *FSMC_NANDInitStruct)
{
uint32_t tmppcr = 0x00000000, tmppmem = 0x00000000, tmppatt = 0x00000000;
tmppcr = (uint32_t)FSMC_NANDInitStruct->FSMC_Waitfeature |
PCR_MemoryType_NAND |
FSMC_NANDInitStruct->FSMC_MemoryDataWidth |
FSMC_NANDInitStruct->FSMC_ECC |
FSMC_NANDInitStruct->FSMC_ECCPageSize |
(FSMC_NANDInitStruct->FSMC_TCLRSetupTime << 9) |
(FSMC_NANDInitStruct->FSMC_TARSetupTime << 13);
tmppmem = (uint32_t)FSMC_NANDInitStruct->FSMC_CommonSpaceTimingStruct->FSMC_SetupTime |
(FSMC_NANDInitStruct->FSMC_CommonSpaceTimingStruct->FSMC_WaitSetupTime << 8) |
(FSMC_NANDInitStruct->FSMC_CommonSpaceTimingStruct->FSMC_HoldSetupTime << 16) |
(FSMC_NANDInitStruct->FSMC_CommonSpaceTimingStruct->FSMC_HiZSetupTime << 24);
tmppatt = (uint32_t)FSMC_NANDInitStruct->FSMC_AttributeSpaceTimingStruct->FSMC_SetupTime |
(FSMC_NANDInitStruct->FSMC_AttributeSpaceTimingStruct->FSMC_WaitSetupTime << 8) |
(FSMC_NANDInitStruct->FSMC_AttributeSpaceTimingStruct->FSMC_HoldSetupTime << 16) |
(FSMC_NANDInitStruct->FSMC_AttributeSpaceTimingStruct->FSMC_HiZSetupTime << 24);
if(FSMC_NANDInitStruct->FSMC_Bank == FSMC_Bank2_NAND)
{
FSMC_Bank2->PCR2 = tmppcr;
FSMC_Bank2->PMEM2 = tmppmem;
FSMC_Bank2->PATT2 = tmppatt;
}
}
/*********************************************************************
* @fn FSMC_NORSRAMStructInit
*
* @brief Fills each FSMC_NORSRAMInitStruct member with its default value.
*
* @param FSMC_NORSRAMInitStruct - pointer to a FSMC_NORSRAMInitTypeDef
* structure which will be initialized.
*
* @return none
*/
void FSMC_NORSRAMStructInit(FSMC_NORSRAMInitTypeDef *FSMC_NORSRAMInitStruct)
{
FSMC_NORSRAMInitStruct->FSMC_Bank = FSMC_Bank1_NORSRAM1;
FSMC_NORSRAMInitStruct->FSMC_DataAddressMux = FSMC_DataAddressMux_Enable;
FSMC_NORSRAMInitStruct->FSMC_MemoryType = FSMC_MemoryType_SRAM;
FSMC_NORSRAMInitStruct->FSMC_MemoryDataWidth = FSMC_MemoryDataWidth_8b;
FSMC_NORSRAMInitStruct->FSMC_BurstAccessMode = FSMC_BurstAccessMode_Disable;
FSMC_NORSRAMInitStruct->FSMC_AsynchronousWait = FSMC_AsynchronousWait_Disable;
FSMC_NORSRAMInitStruct->FSMC_WaitSignalPolarity = FSMC_WaitSignalPolarity_Low;
FSMC_NORSRAMInitStruct->FSMC_WrapMode = FSMC_WrapMode_Disable;
FSMC_NORSRAMInitStruct->FSMC_WaitSignalActive = FSMC_WaitSignalActive_BeforeWaitState;
FSMC_NORSRAMInitStruct->FSMC_WriteOperation = FSMC_WriteOperation_Enable;
FSMC_NORSRAMInitStruct->FSMC_WaitSignal = FSMC_WaitSignal_Enable;
FSMC_NORSRAMInitStruct->FSMC_ExtendedMode = FSMC_ExtendedMode_Disable;
FSMC_NORSRAMInitStruct->FSMC_WriteBurst = FSMC_WriteBurst_Disable;
FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AddressSetupTime = 0xF;
FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AddressHoldTime = 0xF;
FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_DataSetupTime = 0xFF;
FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_BusTurnAroundDuration = 0xF;
FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_CLKDivision = 0xF;
FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_DataLatency = 0xF;
FSMC_NORSRAMInitStruct->FSMC_ReadWriteTimingStruct->FSMC_AccessMode = FSMC_AccessMode_A;
FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AddressSetupTime = 0xF;
FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AddressHoldTime = 0xF;
FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_DataSetupTime = 0xFF;
FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_BusTurnAroundDuration = 0xF;
FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_CLKDivision = 0xF;
FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_DataLatency = 0xF;
FSMC_NORSRAMInitStruct->FSMC_WriteTimingStruct->FSMC_AccessMode = FSMC_AccessMode_A;
}
/*********************************************************************
* @fn FSMC_NANDStructInit
*
* @brief Fills each FSMC_NANDInitStruct member with its default value.
*
* @param FSMC_NANDInitStruct - pointer to a FSMC_NANDInitTypeDef
* structure which will be initialized.
*
* @return none
*/
void FSMC_NANDStructInit(FSMC_NANDInitTypeDef *FSMC_NANDInitStruct)
{
FSMC_NANDInitStruct->FSMC_Bank = FSMC_Bank2_NAND;
FSMC_NANDInitStruct->FSMC_Waitfeature = FSMC_Waitfeature_Disable;
FSMC_NANDInitStruct->FSMC_MemoryDataWidth = FSMC_MemoryDataWidth_8b;
FSMC_NANDInitStruct->FSMC_ECC = FSMC_ECC_Disable;
FSMC_NANDInitStruct->FSMC_ECCPageSize = FSMC_ECCPageSize_256Bytes;
FSMC_NANDInitStruct->FSMC_TCLRSetupTime = 0x0;
FSMC_NANDInitStruct->FSMC_TARSetupTime = 0x0;
FSMC_NANDInitStruct->FSMC_CommonSpaceTimingStruct->FSMC_SetupTime = 0xFC;
FSMC_NANDInitStruct->FSMC_CommonSpaceTimingStruct->FSMC_WaitSetupTime = 0xFC;
FSMC_NANDInitStruct->FSMC_CommonSpaceTimingStruct->FSMC_HoldSetupTime = 0xFC;
FSMC_NANDInitStruct->FSMC_CommonSpaceTimingStruct->FSMC_HiZSetupTime = 0xFC;
FSMC_NANDInitStruct->FSMC_AttributeSpaceTimingStruct->FSMC_SetupTime = 0xFC;
FSMC_NANDInitStruct->FSMC_AttributeSpaceTimingStruct->FSMC_WaitSetupTime = 0xFC;
FSMC_NANDInitStruct->FSMC_AttributeSpaceTimingStruct->FSMC_HoldSetupTime = 0xFC;
FSMC_NANDInitStruct->FSMC_AttributeSpaceTimingStruct->FSMC_HiZSetupTime = 0xFC;
}
/*********************************************************************
* @fn FSMC_NORSRAMCmd
*
* @brief Enables or disables the specified NOR/SRAM Memory Bank.
*
* @param FSMC_Bank - specifies the FSMC Bank to be used
* FSMC_Bank1_NORSRAM1 - FSMC Bank1 NOR/SRAM1
* FSMC_Bank1_NORSRAM2 - FSMC Bank1 NOR/SRAM2
* FSMC_Bank1_NORSRAM3 - FSMC Bank1 NOR/SRAM3
* FSMC_Bank1_NORSRAM4 - FSMC Bank1 NOR/SRAM4
* NewState:ENABLE or DISABLE.
*
* @return none
*/
void FSMC_NORSRAMCmd(uint32_t FSMC_Bank, FunctionalState NewState)
{
if(NewState != DISABLE)
{
FSMC_Bank1->BTCR[FSMC_Bank] |= BCR_MBKEN_Set;
}
else
{
FSMC_Bank1->BTCR[FSMC_Bank] &= BCR_MBKEN_Reset;
}
}
/*********************************************************************
* @fn FSMC_NANDCmd
*
* @brief Enables or disables the specified NAND Memory Bank.
*
* @param FSMC_Bank - specifies the FSMC Bank to be used
* FSMC_Bank2_NAND - FSMC Bank2 NAND
* FSMC_Bank3_NAND - FSMC Bank3 NAND
* NewStat - ENABLE or DISABLE.
*
* @return none
*/
void FSMC_NANDCmd(uint32_t FSMC_Bank, FunctionalState NewState)
{
if(NewState != DISABLE)
{
if(FSMC_Bank == FSMC_Bank2_NAND)
{
FSMC_Bank2->PCR2 |= PCR_PBKEN_Set;
}
}
else
{
if(FSMC_Bank == FSMC_Bank2_NAND)
{
FSMC_Bank2->PCR2 &= PCR_PBKEN_Reset;
}
}
}
/*********************************************************************
* @fn FSMC_NANDECCCmd
*
* @brief Enables or disables the FSMC NAND ECC feature.
*
* @param FSMC_Bank - specifies the FSMC Bank to be used
* FSMC_Bank2_NAND - FSMC Bank2 NAND
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void FSMC_NANDECCCmd(uint32_t FSMC_Bank, FunctionalState NewState)
{
if(NewState != DISABLE)
{
if(FSMC_Bank == FSMC_Bank2_NAND)
{
FSMC_Bank2->PCR2 |= PCR_ECCEN_Set;
}
}
else
{
if(FSMC_Bank == FSMC_Bank2_NAND)
{
FSMC_Bank2->PCR2 &= PCR_ECCEN_Reset;
}
}
}
/*********************************************************************
* @fn FSMC_GetECC
*
* @brief Returns the error correction code register value.
*
* @param FSMC_Bank - specifies the FSMC Bank to be used
* FSMC_Bank2_NAND - FSMC Bank2 NAND
* NewState - ENABLE or DISABLE.
*
* @return eccval - The Error Correction Code (ECC) value.
*/
uint32_t FSMC_GetECC(uint32_t FSMC_Bank)
{
uint32_t eccval = 0x00000000;
if(FSMC_Bank == FSMC_Bank2_NAND)
{
eccval = FSMC_Bank2->ECCR2;
}
return (eccval);
}
/*********************************************************************
* @fn FSMC_ITConfig
*
* @brief Enables or disables the specified FSMC interrupts.
*
* @param FSMC_Bank - specifies the FSMC Bank to be used
* FSMC_Bank2_NAND - FSMC Bank2 NAND
* FSMC_IT - specifies the FSMC interrupt sources to be enabled or disabled.
* FSMC_IT_RisingEdge - Rising edge detection interrupt.
* FSMC_IT_Level - Level edge detection interrupt.
* FSMC_IT_FallingEdge - Falling edge detection interrupt.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void FSMC_ITConfig(uint32_t FSMC_Bank, uint32_t FSMC_IT, FunctionalState NewState)
{
if(NewState != DISABLE)
{
if(FSMC_Bank == FSMC_Bank2_NAND)
{
FSMC_Bank2->SR2 |= FSMC_IT;
}
}
else
{
if(FSMC_Bank == FSMC_Bank2_NAND)
{
FSMC_Bank2->SR2 &= (uint32_t)~FSMC_IT;
}
}
}
/*********************************************************************
* @fn FSMC_GetFlagStatus
*
* @brief Checks whether the specified FSMC flag is set or not.
*
* @param FSMC_Bank - specifies the FSMC Bank to be used
* FSMC_Bank2_NAND - FSMC Bank2 NAND
* FSMC_FLAG - specifies the flag to check.
* FSMC_FLAG_RisingEdge - Rising egde detection Flag.
* FSMC_FLAG_Level - Level detection Flag.
* FSMC_FLAG_FallingEdge - Falling egde detection Flag.
* FSMC_FLAG_FEMPT - Fifo empty Flag.
* NewState - ENABLE or DISABLE.
*
* @return FlagStatus - The new state of FSMC_FLAG (SET or RESET).
*/
FlagStatus FSMC_GetFlagStatus(uint32_t FSMC_Bank, uint32_t FSMC_FLAG)
{
FlagStatus bitstatus = RESET;
uint32_t tmpsr = 0x00000000;
if(FSMC_Bank == FSMC_Bank2_NAND)
{
tmpsr = FSMC_Bank2->SR2;
}
if((tmpsr & FSMC_FLAG) != (uint16_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn FSMC_ClearFlag
*
* @brief Clears the FSMC's pending flags.
*
* @param FSMC_Bank - specifies the FSMC Bank to be used
* FSMC_Bank2_NAND - FSMC Bank2 NAND
* FSMC_FLAG - specifies the flag to check.
* FSMC_FLAG_RisingEdge - Rising egde detection Flag.
* FSMC_FLAG_Level - Level detection Flag.
* FSMC_FLAG_FallingEdge - Falling egde detection Flag.
*
* @return none
*/
void FSMC_ClearFlag(uint32_t FSMC_Bank, uint32_t FSMC_FLAG)
{
if(FSMC_Bank == FSMC_Bank2_NAND)
{
FSMC_Bank2->SR2 &= ~FSMC_FLAG;
}
}
/*********************************************************************
* @fn FSMC_GetITStatus
*
* @brief Checks whether the specified FSMC interrupt has occurred or not.
*
* @param FSMC_Bank - specifies the FSMC Bank to be used
* FSMC_Bank2_NAND - FSMC Bank2 NAND
* FSMC_IT - specifies the FSMC interrupt source to check.
* FSMC_IT_RisingEdge - Rising edge detection interrupt.
* FSMC_IT_Level - Level edge detection interrupt.
* FSMC_IT_FallingEdge - Falling edge detection interrupt.
*
* @return ITStatus - The new state of FSMC_IT (SET or RESET).
*/
ITStatus FSMC_GetITStatus(uint32_t FSMC_Bank, uint32_t FSMC_IT)
{
ITStatus bitstatus = RESET;
uint32_t tmpsr = 0x0, itstatus = 0x0, itenable = 0x0;
if(FSMC_Bank == FSMC_Bank2_NAND)
{
tmpsr = FSMC_Bank2->SR2;
}
itstatus = tmpsr & FSMC_IT;
itenable = tmpsr & (FSMC_IT >> 3);
if((itstatus != (uint32_t)RESET) && (itenable != (uint32_t)RESET))
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn FSMC_ClearITPendingBit
*
* @brief Clears the FSMC's interrupt pending bits.
*
* @param FSMC_Bank - specifies the FSMC Bank to be used
* FSMC_Bank2_NAND - FSMC Bank2 NAND
* FSMC_IT - specifies the FSMC interrupt source to check.
* FSMC_IT_RisingEdge - Rising edge detection interrupt.
* FSMC_IT_Level - Level edge detection interrupt.
* FSMC_IT_FallingEdge - Falling edge detection interrupt.
*
* @return none
*/
void FSMC_ClearITPendingBit(uint32_t FSMC_Bank, uint32_t FSMC_IT)
{
if(FSMC_Bank == FSMC_Bank2_NAND)
{
FSMC_Bank2->SR2 &= ~(FSMC_IT >> 3);
}
}

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ch32v307_lvgl_ili9341/Peripheral/src/ch32v30x_gpio.c Normal file
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@ -0,0 +1,800 @@
/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_gpio.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the GPIO firmware functions.
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_gpio.h"
#include "ch32v30x_rcc.h"
/* MASK */
#define ECR_PORTPINCONFIG_MASK ((uint16_t)0xFF80)
#define LSB_MASK ((uint16_t)0xFFFF)
#define DBGAFR_POSITION_MASK ((uint32_t)0x000F0000)
#define DBGAFR_SWJCFG_MASK ((uint32_t)0xF0FFFFFF)
#define DBGAFR_LOCATION_MASK ((uint32_t)0x00200000)
#define DBGAFR_NUMBITS_MASK ((uint32_t)0x00100000)
/*********************************************************************
* @fn GPIO_DeInit
*
* @brief Deinitializes the GPIOx peripheral registers to their default
* reset values.
*
* @param GPIOx - where x can be (A..G) to select the GPIO peripheral.
*
* @return none
*/
void GPIO_DeInit(GPIO_TypeDef *GPIOx)
{
if(GPIOx == GPIOA)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOA, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOA, DISABLE);
}
else if(GPIOx == GPIOB)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOB, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOB, DISABLE);
}
else if(GPIOx == GPIOC)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOC, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOC, DISABLE);
}
else if(GPIOx == GPIOD)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOD, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOD, DISABLE);
}
else if(GPIOx == GPIOE)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOE, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOE, DISABLE);
}
}
/*********************************************************************
* @fn GPIO_AFIODeInit
*
* @brief Deinitializes the Alternate Functions (remap, event control
* and EXTI configuration) registers to their default reset values.
*
* @return none
*/
void GPIO_AFIODeInit(void)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_AFIO, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_AFIO, DISABLE);
}
/*********************************************************************
* @fn GPIO_Init
*
* @brief GPIOx - where x can be (A..G) to select the GPIO peripheral.
*
* @param GPIO_InitStruct - pointer to a GPIO_InitTypeDef structure that
* contains the configuration information for the specified GPIO peripheral.
*
* @return none
*/
void GPIO_Init(GPIO_TypeDef *GPIOx, GPIO_InitTypeDef *GPIO_InitStruct)
{
uint32_t currentmode = 0x00, currentpin = 0x00, pinpos = 0x00, pos = 0x00;
uint32_t tmpreg = 0x00, pinmask = 0x00;
currentmode = ((uint32_t)GPIO_InitStruct->GPIO_Mode) & ((uint32_t)0x0F);
if((((uint32_t)GPIO_InitStruct->GPIO_Mode) & ((uint32_t)0x10)) != 0x00)
{
currentmode |= (uint32_t)GPIO_InitStruct->GPIO_Speed;
}
if(((uint32_t)GPIO_InitStruct->GPIO_Pin & ((uint32_t)0x00FF)) != 0x00)
{
tmpreg = GPIOx->CFGLR;
for(pinpos = 0x00; pinpos < 0x08; pinpos++)
{
pos = ((uint32_t)0x01) << pinpos;
currentpin = (GPIO_InitStruct->GPIO_Pin) & pos;
if(currentpin == pos)
{
pos = pinpos << 2;
pinmask = ((uint32_t)0x0F) << pos;
tmpreg &= ~pinmask;
tmpreg |= (currentmode << pos);
if(GPIO_InitStruct->GPIO_Mode == GPIO_Mode_IPD)
{
GPIOx->BCR = (((uint32_t)0x01) << pinpos);
}
else
{
if(GPIO_InitStruct->GPIO_Mode == GPIO_Mode_IPU)
{
GPIOx->BSHR = (((uint32_t)0x01) << pinpos);
}
}
}
}
GPIOx->CFGLR = tmpreg;
}
if(GPIO_InitStruct->GPIO_Pin > 0x00FF)
{
tmpreg = GPIOx->CFGHR;
for(pinpos = 0x00; pinpos < 0x08; pinpos++)
{
pos = (((uint32_t)0x01) << (pinpos + 0x08));
currentpin = ((GPIO_InitStruct->GPIO_Pin) & pos);
if(currentpin == pos)
{
pos = pinpos << 2;
pinmask = ((uint32_t)0x0F) << pos;
tmpreg &= ~pinmask;
tmpreg |= (currentmode << pos);
if(GPIO_InitStruct->GPIO_Mode == GPIO_Mode_IPD)
{
GPIOx->BCR = (((uint32_t)0x01) << (pinpos + 0x08));
}
if(GPIO_InitStruct->GPIO_Mode == GPIO_Mode_IPU)
{
GPIOx->BSHR = (((uint32_t)0x01) << (pinpos + 0x08));
}
}
}
GPIOx->CFGHR = tmpreg;
}
}
/*********************************************************************
* @fn GPIO_StructInit
*
* @brief Fills each GPIO_InitStruct member with its default
*
* @param GPIO_InitStruct - pointer to a GPIO_InitTypeDef structure
* which will be initialized.
*
* @return none
*/
void GPIO_StructInit(GPIO_InitTypeDef *GPIO_InitStruct)
{
GPIO_InitStruct->GPIO_Pin = GPIO_Pin_All;
GPIO_InitStruct->GPIO_Speed = GPIO_Speed_2MHz;
GPIO_InitStruct->GPIO_Mode = GPIO_Mode_IN_FLOATING;
}
/*********************************************************************
* @fn GPIO_ReadInputDataBit
*
* @brief GPIOx - where x can be (A..G) to select the GPIO peripheral.
*
* @param GPIO_Pin - specifies the port bit to read.
* This parameter can be GPIO_Pin_x where x can be (0..15).
*
* @return The input port pin value.
*/
uint8_t GPIO_ReadInputDataBit(GPIO_TypeDef *GPIOx, uint16_t GPIO_Pin)
{
uint8_t bitstatus = 0x00;
if((GPIOx->INDR & GPIO_Pin) != (uint32_t)Bit_RESET)
{
bitstatus = (uint8_t)Bit_SET;
}
else
{
bitstatus = (uint8_t)Bit_RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn GPIO_ReadInputData
*
* @brief Reads the specified GPIO input data port.
*
* @param GPIOx - where x can be (A..G) to select the GPIO peripheral.
*
* @return The output port pin value.
*/
uint16_t GPIO_ReadInputData(GPIO_TypeDef *GPIOx)
{
return ((uint16_t)GPIOx->INDR);
}
/*********************************************************************
* @fn GPIO_ReadOutputDataBit
*
* @brief Reads the specified output data port bit.
*
* @param GPIOx - where x can be (A..G) to select the GPIO peripheral.
* GPIO_Pin - specifies the port bit to read.
* This parameter can be GPIO_Pin_x where x can be (0..15).
*
* @return none
*/
uint8_t GPIO_ReadOutputDataBit(GPIO_TypeDef *GPIOx, uint16_t GPIO_Pin)
{
uint8_t bitstatus = 0x00;
if((GPIOx->OUTDR & GPIO_Pin) != (uint32_t)Bit_RESET)
{
bitstatus = (uint8_t)Bit_SET;
}
else
{
bitstatus = (uint8_t)Bit_RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn GPIO_ReadOutputData
*
* @brief Reads the specified GPIO output data port.
*
* @param GPIOx - where x can be (A..G) to select the GPIO peripheral.
*
* @return GPIO output port pin value.
*/
uint16_t GPIO_ReadOutputData(GPIO_TypeDef *GPIOx)
{
return ((uint16_t)GPIOx->OUTDR);
}
/*********************************************************************
* @fn GPIO_SetBits
*
* @brief Sets the selected data port bits.
*
* @param GPIOx - where x can be (A..G) to select the GPIO peripheral.
* GPIO_Pin - specifies the port bits to be written.
* This parameter can be any combination of GPIO_Pin_x where x can be (0..15).
*
* @return none
*/
void GPIO_SetBits(GPIO_TypeDef *GPIOx, uint16_t GPIO_Pin)
{
GPIOx->BSHR = GPIO_Pin;
}
/*********************************************************************
* @fn GPIO_ResetBits
*
* @brief Clears the selected data port bits.
*
* @param GPIOx - where x can be (A..G) to select the GPIO peripheral.
* GPIO_Pin - specifies the port bits to be written.
* This parameter can be any combination of GPIO_Pin_x where x can be (0..15).
*
* @return none
*/
void GPIO_ResetBits(GPIO_TypeDef *GPIOx, uint16_t GPIO_Pin)
{
GPIOx->BCR = GPIO_Pin;
}
/*********************************************************************
* @fn GPIO_WriteBit
*
* @brief Sets or clears the selected data port bit.
*
* @param GPIO_Pin - specifies the port bit to be written.
* This parameter can be one of GPIO_Pin_x where x can be (0..15).
* BitVal - specifies the value to be written to the selected bit.
* Bit_RESET - to clear the port pin.
* Bit_SET - to set the port pin.
*
* @return none
*/
void GPIO_WriteBit(GPIO_TypeDef *GPIOx, uint16_t GPIO_Pin, BitAction BitVal)
{
if(BitVal != Bit_RESET)
{
GPIOx->BSHR = GPIO_Pin;
}
else
{
GPIOx->BCR = GPIO_Pin;
}
}
/*********************************************************************
* @fn GPIO_Write
*
* @brief Writes data to the specified GPIO data port.
*
* @param GPIOx - where x can be (A..G) to select the GPIO peripheral.
* PortVal - specifies the value to be written to the port output data register.
*
* @return none
*/
void GPIO_Write(GPIO_TypeDef *GPIOx, uint16_t PortVal)
{
GPIOx->OUTDR = PortVal;
}
/*********************************************************************
* @fn GPIO_PinLockConfig
*
* @brief Locks GPIO Pins configuration registers.
*
* @param GPIOx - where x can be (A..G) to select the GPIO peripheral.
* GPIO_Pin - specifies the port bit to be written.
* This parameter can be any combination of GPIO_Pin_x where x can be (0..15).
*
* @return none
*/
void GPIO_PinLockConfig(GPIO_TypeDef *GPIOx, uint16_t GPIO_Pin)
{
uint32_t tmp = 0x00010000;
tmp |= GPIO_Pin;
GPIOx->LCKR = tmp;
GPIOx->LCKR = GPIO_Pin;
GPIOx->LCKR = tmp;
tmp = GPIOx->LCKR;
tmp = GPIOx->LCKR;
}
/*********************************************************************
* @fn GPIO_EventOutputConfig
*
* @brief Selects the GPIO pin used as Event output.
*
* @param GPIO_PortSource - selects the GPIO port to be used as source
* for Event output.
* This parameter can be GPIO_PortSourceGPIOx where x can be (A..E).
* GPIO_PinSource - specifies the pin for the Event output.
* This parameter can be GPIO_PinSourcex where x can be (0..15).
*
* @return none
*/
void GPIO_EventOutputConfig(uint8_t GPIO_PortSource, uint8_t GPIO_PinSource)
{
uint32_t tmpreg = 0x00;
tmpreg = AFIO->ECR;
tmpreg &= ECR_PORTPINCONFIG_MASK;
tmpreg |= (uint32_t)GPIO_PortSource << 0x04;
tmpreg |= GPIO_PinSource;
AFIO->ECR = tmpreg;
}
/*********************************************************************
* @fn GPIO_EventOutputCmd
*
* @brief Enables or disables the Event Output.
*
* @param NewState - ENABLE or DISABLE.
*
* @return none
*/
void GPIO_EventOutputCmd(FunctionalState NewState)
{
if(NewState)
{
AFIO->ECR |= (1 << 7);
}
else
{
AFIO->ECR &= ~(1 << 7);
}
}
/*********************************************************************
* @fn GPIO_PinRemapConfig
*
* @brief Changes the mapping of the specified pin.
*
* @param GPIO_Remap - selects the pin to remap.
* GPIO_Remap_SPI1 - SPI1 Alternate Function mapping
* GPIO_Remap_I2C1 - I2C1 Alternate Function mapping
* GPIO_Remap_USART1 - USART1 Alternate Function mapping
* GPIO_Remap_USART2 - USART2 Alternate Function mapping
* GPIO_PartialRemap_USART3 - USART3 Partial Alternate Function mapping
* GPIO_PartialRemap1_USART3 - USART3 Partial1 Alternate Function mapping
* GPIO_FullRemap_USART3 - USART3 Full Alternate Function mapping
* GPIO_PartialRemap_TIM1 - TIM1 Partial Alternate Function mapping
* GPIO_FullRemap_TIM1 - TIM1 Full Alternate Function mapping
* GPIO_PartialRemap1_TIM2 - TIM2 Partial1 Alternate Function mapping
* GPIO_PartialRemap2_TIM2 - TIM2 Partial2 Alternate Function mapping
* GPIO_FullRemap_TIM2 - TIM2 Full Alternate Function mapping
* GPIO_PartialRemap_TIM3 - TIM3 Partial Alternate Function mapping
* GPIO_FullRemap_TIM3 - TIM3 Full Alternate Function mapping
* GPIO_Remap_TIM4 - TIM4 Alternate Function mapping
* GPIO_Remap1_CAN1 - CAN1 Alternate Function mapping
* GPIO_Remap2_CAN1 - CAN1 Alternate Function mapping
* GPIO_Remap_PD01 - PD01 Alternate Function mapping
* GPIO_Remap_ADC1_ETRGINJ - ADC1 External Trigger Injected Conversion remapping
* GPIO_Remap_ADC1_ETRGREG - ADC1 External Trigger Regular Conversion remapping
* GPIO_Remap_ADC2_ETRGINJ - ADC2 External Trigger Injected Conversion remapping
* GPIO_Remap_ADC2_ETRGREG - ADC2 External Trigger Regular Conversion remapping
* GPIO_Remap_ETH - Ethernet remapping
* GPIO_Remap_CAN2 - CAN2 remapping
* GPIO_Remap_MII_RMII_SEL - MII or RMII selection
* GPIO_Remap_SWJ_NoJTRST - Full SWJ Enabled (JTAG-DP + SW-DP) but without JTRST
* GPIO_Remap_SWJ_JTAGDisable - JTAG-DP Disabled and SW-DP Enabled
* GPIO_Remap_SWJ_Disable - Full SWJ Disabled (JTAG-DP + SW-DP)
* GPIO_Remap_TIM2ITR1_PTP_SOF - Ethernet PTP output or USB OTG SOF (Start of Frame) connected
* to TIM2 Internal Trigger 1 for calibration
* GPIO_Remap_TIM2ITR1_PTP_SOF - Ethernet PTP output or USB OTG SOF (Start of Frame)
* GPIO_Remap_TIM8 - TIM8 Alternate Function mapping
* GPIO_PartialRemap_TIM9 - TIM9 Partial Alternate Function mapping
* GPIO_FullRemap_TIM9 - TIM9 Full Alternate Function mapping
* GPIO_PartialRemap_TIM10 - TIM10 Partial Alternate Function mapping
* GPIO_FullRemap_TIM10 - TIM10 Full Alternate Function mapping
* GPIO_Remap_FSMC_NADV - FSMC_NADV Alternate Function mapping
* GPIO_PartialRemap_USART4 - USART4 Partial Alternate Function mapping
* GPIO_FullRemap_USART4 - USART4 Full Alternate Function mapping
* GPIO_PartialRemap_USART5 - USART5 Partial Alternate Function mapping
* GPIO_FullRemap_USART5 - USART5 Full Alternate Function mapping
* GPIO_PartialRemap_USART6 - USART6 Partial Alternate Function mapping
* GPIO_FullRemap_USART6 - USART6 Full Alternate Function mapping
* GPIO_PartialRemap_USART7 - USART7 Partial Alternate Function mapping
* GPIO_FullRemap_USART7 - USART7 Full Alternate Function mapping
* GPIO_PartialRemap_USART8 - USART8 Partial Alternate Function mapping
* GPIO_FullRemap_USART8 - USART8 Full Alternate Function mapping
* GPIO_Remap_USART1_HighBit - USART1 Alternate Function mapping high bit
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void GPIO_PinRemapConfig(uint32_t GPIO_Remap, FunctionalState NewState)
{
uint32_t tmp = 0x00, tmp1 = 0x00, tmpreg = 0x00, tmpmask = 0x00;
if((GPIO_Remap & 0x80000000) == 0x80000000)
{
tmpreg = AFIO->PCFR2;
}
else
{
tmpreg = AFIO->PCFR1;
}
tmpmask = (GPIO_Remap & DBGAFR_POSITION_MASK) >> 0x10;
tmp = GPIO_Remap & LSB_MASK;
/* Clear bit */
if((GPIO_Remap & 0x80000000) == 0x80000000)
{ /* PCFR2 */
if((GPIO_Remap & (DBGAFR_LOCATION_MASK | DBGAFR_NUMBITS_MASK)) == (DBGAFR_LOCATION_MASK | DBGAFR_NUMBITS_MASK)) /* [31:16] 2bit */
{
tmp1 = ((uint32_t)0x03) << (tmpmask + 0x10);
tmpreg &= ~tmp1;
}
else if((GPIO_Remap & DBGAFR_NUMBITS_MASK) == DBGAFR_NUMBITS_MASK) /* [15:0] 2bit */
{
tmp1 = ((uint32_t)0x03) << tmpmask;
tmpreg &= ~tmp1;
}
else /* [31:0] 1bit */
{
tmpreg &= ~(tmp << (((GPIO_Remap & 0x7FFFFFFF)>> 0x15) * 0x10));
}
}
else
{ /* PCFR1 */
if((GPIO_Remap & (DBGAFR_LOCATION_MASK | DBGAFR_NUMBITS_MASK)) == (DBGAFR_LOCATION_MASK | DBGAFR_NUMBITS_MASK)) /* [26:24] 3bit SWD_JTAG */
{
tmpreg &= DBGAFR_SWJCFG_MASK;
AFIO->PCFR1 &= DBGAFR_SWJCFG_MASK;
}
else if((GPIO_Remap & DBGAFR_NUMBITS_MASK) == DBGAFR_NUMBITS_MASK) /* [15:0] 2bit */
{
tmp1 = ((uint32_t)0x03) << tmpmask;
tmpreg &= ~tmp1;
tmpreg |= ~DBGAFR_SWJCFG_MASK;
}
else /* [31:0] 1bit */
{
tmpreg &= ~(tmp << ((GPIO_Remap >> 0x15) * 0x10));
tmpreg |= ~DBGAFR_SWJCFG_MASK;
}
}
/* Set bit */
if(NewState != DISABLE)
{
tmpreg |= (tmp << (((GPIO_Remap & 0x7FFFFFFF)>> 0x15) * 0x10));
}
if((GPIO_Remap & 0x80000000) == 0x80000000)
{
AFIO->PCFR2 = tmpreg;
}
else
{
AFIO->PCFR1 = tmpreg;
}
}
/*********************************************************************
* @fn GPIO_EXTILineConfig
*
* @brief Selects the GPIO pin used as EXTI Line.
*
* @param GPIO_PortSource - selects the GPIO port to be used as source for EXTI lines.
* This parameter can be GPIO_PortSourceGPIOx where x can be (A..G).
* GPIO_PinSource - specifies the EXTI line to be configured.
* This parameter can be GPIO_PinSourcex where x can be (0..15).
*
* @return none
*/
void GPIO_EXTILineConfig(uint8_t GPIO_PortSource, uint8_t GPIO_PinSource)
{
uint32_t tmp = 0x00;
tmp = ((uint32_t)0x0F) << (0x04 * (GPIO_PinSource & (uint8_t)0x03));
AFIO->EXTICR[GPIO_PinSource >> 0x02] &= ~tmp;
AFIO->EXTICR[GPIO_PinSource >> 0x02] |= (((uint32_t)GPIO_PortSource) << (0x04 * (GPIO_PinSource & (uint8_t)0x03)));
}
/*********************************************************************
* @fn GPIO_ETH_MediaInterfaceConfig
*
* @brief Selects the Ethernet media interface.
*
* @param GPIO_ETH_MediaInterface - specifies the Media Interface mode.
* GPIO_ETH_MediaInterface_MII - MII mode
* GPIO_ETH_MediaInterface_RMII - RMII mode
*
* @return none
*/
void GPIO_ETH_MediaInterfaceConfig(uint32_t GPIO_ETH_MediaInterface)
{
if(GPIO_ETH_MediaInterface)
{
AFIO->PCFR1 |= (1 << 23);
}
else
{
AFIO->PCFR1 &= ~(1 << 23);
}
}
/*********************************************************************
* @fn GPIO_IPD_Unused
*
* @brief Configure unused GPIO as input pull-down.
*
* @param none
*
* @return none
*/
void GPIO_IPD_Unused(void)
{
GPIO_InitTypeDef GPIO_InitStructure = {0};
uint32_t chip = 0;
RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOA | RCC_APB2Periph_GPIOB | RCC_APB2Periph_GPIOC|\
RCC_APB2Periph_GPIOD | RCC_APB2Periph_GPIOE, ENABLE);
chip = *( uint32_t * )0x1FFFF704 & (~0x000000F0);
switch(chip)
{
case 0x30330504: //CH32V303CBT6
{
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_6|GPIO_Pin_7\
|GPIO_Pin_8|GPIO_Pin_9\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOC, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_6|GPIO_Pin_7\
|GPIO_Pin_8|GPIO_Pin_9\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12|GPIO_Pin_13\
|GPIO_Pin_14|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOD, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_6|GPIO_Pin_7\
|GPIO_Pin_8|GPIO_Pin_9\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12|GPIO_Pin_13\
|GPIO_Pin_14|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOE, &GPIO_InitStructure);
break;
}
case 0x30320504: //CH32V303RBT6
{
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_3|GPIO_Pin_4\
|GPIO_Pin_5|GPIO_Pin_6\
|GPIO_Pin_7|GPIO_Pin_8\
|GPIO_Pin_9|GPIO_Pin_10\
|GPIO_Pin_11|GPIO_Pin_12\
|GPIO_Pin_13|GPIO_Pin_14\
|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOD, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_6|GPIO_Pin_7\
|GPIO_Pin_8|GPIO_Pin_9\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12|GPIO_Pin_13\
|GPIO_Pin_14|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOE, &GPIO_InitStructure);
break;
}
case 0x30310504: //CH32V303RCT6
{
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_3|GPIO_Pin_4\
|GPIO_Pin_5|GPIO_Pin_6\
|GPIO_Pin_7|GPIO_Pin_8\
|GPIO_Pin_9|GPIO_Pin_10\
|GPIO_Pin_11|GPIO_Pin_12\
|GPIO_Pin_13|GPIO_Pin_14\
|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOD, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_6|GPIO_Pin_7\
|GPIO_Pin_8|GPIO_Pin_9\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12|GPIO_Pin_13\
|GPIO_Pin_14|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOE, &GPIO_InitStructure);
break;
}
case 0x30520508: //CH32V305FBP6
{
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_2\
|GPIO_Pin_3|GPIO_Pin_4\
|GPIO_Pin_6|GPIO_Pin_7\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOA, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_8|GPIO_Pin_9;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOB, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12|GPIO_Pin_13\
|GPIO_Pin_14|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOC, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_6|GPIO_Pin_7\
|GPIO_Pin_8|GPIO_Pin_9\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12|GPIO_Pin_13\
|GPIO_Pin_14|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOD, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_6|GPIO_Pin_7\
|GPIO_Pin_8|GPIO_Pin_9\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12|GPIO_Pin_13\
|GPIO_Pin_14|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOE, &GPIO_InitStructure);
break;
}
case 0x30500508: //CH32V305RBT6
{
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_3|GPIO_Pin_4\
|GPIO_Pin_5|GPIO_Pin_6\
|GPIO_Pin_7|GPIO_Pin_8\
|GPIO_Pin_9|GPIO_Pin_10\
|GPIO_Pin_11|GPIO_Pin_12\
|GPIO_Pin_13|GPIO_Pin_14\
|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOD, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_6|GPIO_Pin_7\
|GPIO_Pin_8|GPIO_Pin_9\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12|GPIO_Pin_13\
|GPIO_Pin_14|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOE, &GPIO_InitStructure);
break;
}
case 0x30710508: //CH32V307RCT6
{
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_3|GPIO_Pin_4\
|GPIO_Pin_5|GPIO_Pin_6\
|GPIO_Pin_7|GPIO_Pin_8\
|GPIO_Pin_9|GPIO_Pin_10\
|GPIO_Pin_11|GPIO_Pin_12\
|GPIO_Pin_13|GPIO_Pin_14\
|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOD, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_2|GPIO_Pin_3\
|GPIO_Pin_4|GPIO_Pin_5\
|GPIO_Pin_6|GPIO_Pin_7\
|GPIO_Pin_8|GPIO_Pin_9\
|GPIO_Pin_10|GPIO_Pin_11\
|GPIO_Pin_12|GPIO_Pin_13\
|GPIO_Pin_14|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOE, &GPIO_InitStructure);
break;
}
case 0x30730508: //CH32V307WCU6
{
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1\
|GPIO_Pin_3|GPIO_Pin_4\
|GPIO_Pin_5|GPIO_Pin_6\
|GPIO_Pin_7|GPIO_Pin_10\
|GPIO_Pin_11|GPIO_Pin_12\
|GPIO_Pin_13|GPIO_Pin_14\
|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOD, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_1|GPIO_Pin_2\
|GPIO_Pin_3|GPIO_Pin_4\
|GPIO_Pin_5|GPIO_Pin_6\
|GPIO_Pin_7|GPIO_Pin_8\
|GPIO_Pin_9|GPIO_Pin_10\
|GPIO_Pin_11|GPIO_Pin_12\
|GPIO_Pin_13|GPIO_Pin_14\
|GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(GPIOE, &GPIO_InitStructure);
break;
}
case 0x30700508: //CH32V307VCT6
{
break;
}
case 0x30300504: //CH32V303VCT6
{
break;
}
default:
{
break;
}
}
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_iwdg.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the IWDG firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_iwdg.h"
/* CTLR register bit mask */
#define CTLR_KEY_Reload ((uint16_t)0xAAAA)
#define CTLR_KEY_Enable ((uint16_t)0xCCCC)
/*********************************************************************
* @fn IWDG_WriteAccessCmd
*
* @brief Enables or disables write access to IWDG_PSCR and IWDG_RLDR registers.
*
* @param WDG_WriteAccess - new state of write access to IWDG_PSCR and
* IWDG_RLDR registers.
* IWDG_WriteAccess_Enable - Enable write access to IWDG_PSCR and
* IWDG_RLDR registers.
* IWDG_WriteAccess_Disable - Disable write access to IWDG_PSCR
* and IWDG_RLDR registers.
*
* @return none
*/
void IWDG_WriteAccessCmd(uint16_t IWDG_WriteAccess)
{
IWDG->CTLR = IWDG_WriteAccess;
}
/*********************************************************************
* @fn IWDG_SetPrescaler
*
* @brief Sets IWDG Prescaler value.
*
* @param IWDG_Prescaler - specifies the IWDG Prescaler value.
* IWDG_Prescaler_4 - IWDG prescaler set to 4.
* IWDG_Prescaler_8 - IWDG prescaler set to 8.
* IWDG_Prescaler_16 - IWDG prescaler set to 16.
* IWDG_Prescaler_32 - IWDG prescaler set to 32.
* IWDG_Prescaler_64 - IWDG prescaler set to 64.
* IWDG_Prescaler_128 - IWDG prescaler set to 128.
* IWDG_Prescaler_256 - IWDG prescaler set to 256.
*
* @return none
*/
void IWDG_SetPrescaler(uint8_t IWDG_Prescaler)
{
IWDG->PSCR = IWDG_Prescaler;
}
/*********************************************************************
* @fn IWDG_SetReload
*
* @brief Sets IWDG Reload value.
*
* @param Reload - specifies the IWDG Reload value.
* This parameter must be a number between 0 and 0x0FFF.
*
* @return none
*/
void IWDG_SetReload(uint16_t Reload)
{
IWDG->RLDR = Reload;
}
/*********************************************************************
* @fn IWDG_ReloadCounter
*
* @brief Reloads IWDG counter with value defined in the reload register.
*
* @return none
*/
void IWDG_ReloadCounter(void)
{
IWDG->CTLR = CTLR_KEY_Reload;
}
/*********************************************************************
* @fn IWDG_Enable
*
* @brief Enables IWDG (write access to IWDG_PSCR and IWDG_RLDR registers disabled).
*
* @return none
*/
void IWDG_Enable(void)
{
IWDG->CTLR = CTLR_KEY_Enable;
}
/*********************************************************************
* @fn IWDG_GetFlagStatus
*
* @brief Checks whether the specified IWDG flag is set or not.
*
* @param IWDG_FLAG - specifies the flag to check.
* IWDG_FLAG_PVU - Prescaler Value Update on going.
* IWDG_FLAG_RVU - Reload Value Update on going.
*
* @return none
*/
FlagStatus IWDG_GetFlagStatus(uint16_t IWDG_FLAG)
{
FlagStatus bitstatus = RESET;
if((IWDG->STATR & IWDG_FLAG) != (uint32_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_misc.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the miscellaneous firmware functions .
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_misc.h"
__IO uint32_t NVIC_Priority_Group = 0;
/*********************************************************************
* @fn NVIC_PriorityGroupConfig
*
* @brief Configures the priority grouping - pre-emption priority and subpriority.
*
* @param NVIC_PriorityGroup - specifies the priority grouping bits length.
* NVIC_PriorityGroup_0 - 0 bits for pre-emption priority
* 4 bits for subpriority
* NVIC_PriorityGroup_1 - 1 bits for pre-emption priority
* 3 bits for subpriority
* NVIC_PriorityGroup_2 - 2 bits for pre-emption priority
* 2 bits for subpriority
* NVIC_PriorityGroup_3 - 3 bits for pre-emption priority
* 1 bits for subpriority
* NVIC_PriorityGroup_4 - 4 bits for pre-emption priority
* 0 bits for subpriority
*
* @return none
*/
void NVIC_PriorityGroupConfig(uint32_t NVIC_PriorityGroup)
{
NVIC_Priority_Group = NVIC_PriorityGroup;
}
/*********************************************************************
* @fn NVIC_Init
*
* @brief Initializes the NVIC peripheral according to the specified parameters in
* the NVIC_InitStruct.
*
* @param NVIC_InitStruct - pointer to a NVIC_InitTypeDef structure that contains the
* configuration information for the specified NVIC peripheral.
*
* @return none
*/
void NVIC_Init(NVIC_InitTypeDef *NVIC_InitStruct)
{
uint8_t tmppre = 0;
if(NVIC_Priority_Group == NVIC_PriorityGroup_0)
{
NVIC_SetPriority(NVIC_InitStruct->NVIC_IRQChannel, NVIC_InitStruct->NVIC_IRQChannelSubPriority << 4);
}
else if(NVIC_Priority_Group == NVIC_PriorityGroup_1)
{
if(NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority == 1)
{
NVIC_SetPriority(NVIC_InitStruct->NVIC_IRQChannel, (1 << 7) | (NVIC_InitStruct->NVIC_IRQChannelSubPriority << 4));
}
else
{
NVIC_SetPriority(NVIC_InitStruct->NVIC_IRQChannel, (0 << 7) | (NVIC_InitStruct->NVIC_IRQChannelSubPriority << 4));
}
}
else if(NVIC_Priority_Group == NVIC_PriorityGroup_2)
{
if(NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority <= 1)
{
tmppre = NVIC_InitStruct->NVIC_IRQChannelSubPriority + (4 * NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority);
NVIC_SetPriority(NVIC_InitStruct->NVIC_IRQChannel, (0 << 7) | (tmppre << 4));
}
else
{
tmppre = NVIC_InitStruct->NVIC_IRQChannelSubPriority + (4 * (NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority - 2));
NVIC_SetPriority(NVIC_InitStruct->NVIC_IRQChannel, (1 << 7) | (tmppre << 4));
}
}
else if(NVIC_Priority_Group == NVIC_PriorityGroup_3)
{
if(NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority <= 3)
{
tmppre = NVIC_InitStruct->NVIC_IRQChannelSubPriority + (2 * NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority);
NVIC_SetPriority(NVIC_InitStruct->NVIC_IRQChannel, (0 << 7) | (tmppre << 4));
}
else
{
tmppre = NVIC_InitStruct->NVIC_IRQChannelSubPriority + (2 * (NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority - 4));
NVIC_SetPriority(NVIC_InitStruct->NVIC_IRQChannel, (1 << 7) | (tmppre << 4));
}
}
else if(NVIC_Priority_Group == NVIC_PriorityGroup_4)
{
NVIC_SetPriority(NVIC_InitStruct->NVIC_IRQChannel, NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority << 4);
}
if(NVIC_InitStruct->NVIC_IRQChannelCmd != DISABLE)
{
NVIC_EnableIRQ(NVIC_InitStruct->NVIC_IRQChannel);
}
else
{
NVIC_DisableIRQ(NVIC_InitStruct->NVIC_IRQChannel);
}
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_opa.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the OPA firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_opa.h"
#define OPA_MASK ((uint32_t)0x000F)
#define OPA_Total_NUM 4
/*********************************************************************
* @fn OPA_DeInit
*
* @brief Deinitializes the OPA peripheral registers to their default
* reset values.
*
* @return none
*/
void OPA_DeInit(void)
{
OPA->CR = 0;
}
/*********************************************************************
* @fn OPA_Init
*
* @brief Initializes the OPA peripheral according to the specified
* parameters in the OPA_InitStruct.
*
* @param OPA_InitStruct - pointer to a OPA_InitTypeDef structure
*
* @return none
*/
void OPA_Init(OPA_InitTypeDef *OPA_InitStruct)
{
uint32_t tmp = 0;
tmp = OPA->CR;
tmp &= ~(OPA_MASK << (OPA_InitStruct->OPA_NUM * OPA_Total_NUM));
tmp |= (((OPA_InitStruct->PSEL << OPA_PSEL_OFFSET) | (OPA_InitStruct->NSEL << OPA_NSEL_OFFSET) | (OPA_InitStruct->Mode << OPA_MODE_OFFSET)) << (OPA_InitStruct->OPA_NUM * OPA_Total_NUM));
OPA->CR = tmp;
}
/*********************************************************************
* @fn OPA_StructInit
*
* @brief Fills each OPA_StructInit member with its reset value.
*
* @param OPA_StructInit - pointer to a OPA_InitTypeDef structure
*
* @return none
*/
void OPA_StructInit(OPA_InitTypeDef *OPA_InitStruct)
{
OPA_InitStruct->Mode = OUT_IO_OUT1;
OPA_InitStruct->PSEL = CHP0;
OPA_InitStruct->NSEL = CHN0;
OPA_InitStruct->OPA_NUM = OPA1;
}
/*********************************************************************
* @fn OPA_Cmd
*
* @brief Enables or disables the specified OPA peripheral.
*
* @param OPA_NUM - Select OPA
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void OPA_Cmd(OPA_Num_TypeDef OPA_NUM, FunctionalState NewState)
{
if(NewState == ENABLE)
{
OPA->CR |= (1 << (OPA_NUM * OPA_Total_NUM));
}
else
{
OPA->CR &= ~(1 << (OPA_NUM * OPA_Total_NUM));
}
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_pwr.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the PWR firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_pwr.h"
#include "ch32v30x_rcc.h"
/* PWR registers bit mask */
/* CTLR register bit mask */
#define CTLR_DS_MASK ((uint32_t)0xFFFFFFFC)
#define CTLR_PLS_MASK ((uint32_t)0xFFFFFF1F)
/*********************************************************************
* @fn PWR_DeInit
*
* @brief Deinitializes the PWR peripheral registers to their default
* reset values.
*
* @return none
*/
void PWR_DeInit(void)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_PWR, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_PWR, DISABLE);
}
/*********************************************************************
* @fn PWR_BackupAccessCmd
*
* @brief Enables or disables access to the RTC and backup registers.
*
* @param NewState - new state of the access to the RTC and backup registers,
* This parameter can be: ENABLE or DISABLE.
*
* @return none
*/
void PWR_BackupAccessCmd(FunctionalState NewState)
{
if(NewState)
{
PWR->CTLR |= (1 << 8);
}
else
{
PWR->CTLR &= ~(1 << 8);
}
}
/*********************************************************************
* @fn PWR_PVDCmd
*
* @brief Enables or disables the Power Voltage Detector(PVD).
*
* @param NewState - new state of the PVD(ENABLE or DISABLE).
*
* @return none
*/
void PWR_PVDCmd(FunctionalState NewState)
{
if(NewState)
{
PWR->CTLR |= (1 << 4);
}
else
{
PWR->CTLR &= ~(1 << 4);
}
}
/*********************************************************************
* @fn PWR_PVDLevelConfig
*
* @brief Configures the voltage threshold detected by the Power Voltage
* Detector(PVD).
*
* @param PWR_PVDLevel - specifies the PVD detection level
* PWR_PVDLevel_2V2 - PVD detection level set to 2.2V
* PWR_PVDLevel_2V3 - PVD detection level set to 2.3V
* PWR_PVDLevel_2V4 - PVD detection level set to 2.4V
* PWR_PVDLevel_2V5 - PVD detection level set to 2.5V
* PWR_PVDLevel_2V6 - PVD detection level set to 2.6V
* PWR_PVDLevel_2V7 - PVD detection level set to 2.7V
* PWR_PVDLevel_2V8 - PVD detection level set to 2.8V
* PWR_PVDLevel_2V9 - PVD detection level set to 2.9V
*
* @return none
*/
void PWR_PVDLevelConfig(uint32_t PWR_PVDLevel)
{
uint32_t tmpreg = 0;
tmpreg = PWR->CTLR;
tmpreg &= CTLR_PLS_MASK;
tmpreg |= PWR_PVDLevel;
PWR->CTLR = tmpreg;
}
/*********************************************************************
* @fn PWR_WakeUpPinCmd
*
* @brief Enables or disables the WakeUp Pin functionality.
*
* @param NewState - new state of the WakeUp Pin functionality
* (ENABLE or DISABLE).
*
* @return none
*/
void PWR_WakeUpPinCmd(FunctionalState NewState)
{
if(NewState)
{
PWR->CSR |= (1 << 8);
}
else
{
PWR->CSR &= ~(1 << 8);
}
}
/*********************************************************************
* @fn PWR_EnterSTOPMode
*
* @brief Enters STOP mode.
*
* @param PWR_Regulator - specifies the regulator state in STOP mode.
* PWR_Regulator_ON - STOP mode with regulator ON
* PWR_Regulator_LowPower - STOP mode with regulator in low power mode
* PWR_STOPEntry - specifies if STOP mode in entered with WFI or WFE instruction.
* PWR_STOPEntry_WFI - enter STOP mode with WFI instruction
* PWR_STOPEntry_WFE - enter STOP mode with WFE instruction
*
* @return none
*/
void PWR_EnterSTOPMode(uint32_t PWR_Regulator, uint8_t PWR_STOPEntry)
{
uint32_t tmpreg = 0;
tmpreg = PWR->CTLR;
tmpreg &= CTLR_DS_MASK;
tmpreg |= PWR_Regulator;
PWR->CTLR = tmpreg;
NVIC->SCTLR |= (1 << 2);
if(PWR_STOPEntry == PWR_STOPEntry_WFI)
{
__WFI();
}
else
{
__WFE();
}
NVIC->SCTLR &= ~(1 << 2);
}
/*********************************************************************
* @fn PWR_EnterSTANDBYMode
*
* @brief Enters STANDBY mode.
*
* @return none
*/
void PWR_EnterSTANDBYMode(void)
{
PWR->CTLR |= PWR_CTLR_CWUF;
PWR->CTLR |= PWR_CTLR_PDDS;
NVIC->SCTLR |= (1 << 2);
__WFI();
}
/*********************************************************************
* @fn PWR_GetFlagStatus
*
* @brief Checks whether the specified PWR flag is set or not.
*
* @param PWR_FLAG - specifies the flag to check.
* PWR_FLAG_WU - Wake Up flag
* PWR_FLAG_SB - StandBy flag
* PWR_FLAG_PVDO - PVD Output
*
* @return The new state of PWR_FLAG (SET or RESET).
*/
FlagStatus PWR_GetFlagStatus(uint32_t PWR_FLAG)
{
FlagStatus bitstatus = RESET;
if((PWR->CSR & PWR_FLAG) != (uint32_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn PWR_ClearFlag
*
* @brief Clears the PWR's pending flags.
*
* @param PWR_FLAG - specifies the flag to clear.
* PWR_FLAG_WU - Wake Up flag
* PWR_FLAG_SB - StandBy flag
*
* @return none
*/
void PWR_ClearFlag(uint32_t PWR_FLAG)
{
PWR->CTLR |= PWR_FLAG << 2;
}
/*********************************************************************
* @fn PWR_EnterSTANDBYMode_RAM
*
* @brief Enters STANDBY mode with RAM data retention function on.
*
* @return none
*/
void PWR_EnterSTANDBYMode_RAM(void)
{
uint32_t tmpreg = 0;
tmpreg = PWR->CTLR;
tmpreg |= PWR_CTLR_CWUF;
tmpreg |= PWR_CTLR_PDDS;
//2K+30K in standby w power.
tmpreg |= (0x1 << 16) | (0x1 << 17);
PWR->CTLR = tmpreg;
NVIC->SCTLR |= (1 << 2);
__WFI();
}
/*********************************************************************
* @fn PWR_EnterSTANDBYMode_RAM_LV
*
* @brief Enters STANDBY mode with RAM data retention function and LV mode on.
*
* @return none
*/
void PWR_EnterSTANDBYMode_RAM_LV(void)
{
uint32_t tmpreg = 0;
tmpreg = PWR->CTLR;
tmpreg |= PWR_CTLR_CWUF;
tmpreg |= PWR_CTLR_PDDS;
//2K+30K in standby power.
tmpreg |= (0x1 << 16) | (0x1 << 17);
//2K+30K in standby LV .
tmpreg |= (0x1 << 20);
PWR->CTLR = tmpreg;
NVIC->SCTLR |= (1 << 2);
__WFI();
}
/*********************************************************************
* @fn PWR_EnterSTANDBYMode_RAM_VBAT_EN
*
* @brief Enters STANDBY mode with RAM data retention function on (VBAT Enable).
*
* @return none
*/
void PWR_EnterSTANDBYMode_RAM_VBAT_EN(void)
{
uint32_t tmpreg = 0;
tmpreg = PWR->CTLR;
tmpreg |= PWR_CTLR_CWUF;
tmpreg |= PWR_CTLR_PDDS;
//2K+30K in standby power (VBAT Enable).
tmpreg |= (0x1 << 18) | (0x1 << 19);
PWR->CTLR = tmpreg;
NVIC->SCTLR |= (1 << 2);
__WFI();
}
/*********************************************************************
* @fn PWR_EnterSTANDBYMode_RAM_LV_VBAT_EN
*
* @brief Enters STANDBY mode with RAM data retention function and LV mode on(VBAT Enable).
*
* @return none
*/
void PWR_EnterSTANDBYMode_RAM_LV_VBAT_EN(void)
{
uint32_t tmpreg = 0;
tmpreg = PWR->CTLR;
tmpreg |= PWR_CTLR_CWUF;
tmpreg |= PWR_CTLR_PDDS;
//2K+30K in standby power (VBAT Enable).
tmpreg |= (0x1 << 18) | (0x1 << 19);
//2K+30K in standby LV .
tmpreg |= (0x1 << 20);
PWR->CTLR = tmpreg;
NVIC->SCTLR |= (1 << 2);
__WFI();
}
/*********************************************************************
* @fn PWR_EnterSTOPMode_RAM_LV
*
* @brief Enters STOP mode with RAM data retention function and LV mode on.
*
* @param PWR_Regulator - specifies the regulator state in STOP mode.
* PWR_Regulator_LowPower - STOP mode with regulator in low power mode
* PWR_STOPEntry - specifies if STOP mode in entered with WFI or WFE instruction.
* PWR_STOPEntry_WFI - enter STOP mode with WFI instruction
* PWR_STOPEntry_WFE - enter STOP mode with WFE instruction
*
* @return none
*/
void PWR_EnterSTOPMode_RAM_LV(uint32_t PWR_Regulator, uint8_t PWR_STOPEntry)
{
uint32_t tmpreg = 0;
tmpreg = PWR->CTLR;
tmpreg &= CTLR_DS_MASK;
tmpreg |= PWR_Regulator;
tmpreg |= (0x1 << 20);
PWR->CTLR = tmpreg;
NVIC->SCTLR |= (1 << 2);
if(PWR_STOPEntry == PWR_STOPEntry_WFI)
{
__WFI();
}
else
{
__WFE();
}
NVIC->SCTLR &= ~(1 << 2);
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_rng.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the RNG firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_rng.h"
#include "ch32v30x_rcc.h"
/*********************************************************************
* @fn RNG_Cmd
*
* @brief Enables or disables the RNG peripheral.
*
* @param NewState - ENABLE or DISABLE.
*
* @return none
*/
void RNG_Cmd(FunctionalState NewState)
{
if(NewState != DISABLE)
{
RNG->CR |= RNG_CR_RNGEN;
}
else
{
RNG->CR &= ~RNG_CR_RNGEN;
}
}
/*********************************************************************
* @fn RNG_GetRandomNumber
*
* @brief Returns a 32-bit random number.
*
* @return 32-bit random number.
*/
uint32_t RNG_GetRandomNumber(void)
{
return RNG->DR;
}
/*********************************************************************
* @fn RNG_ITConfig
*
* @brief Enables or disables the RNG interrupt.
*
* @param NewState - ENABLE or DISABLE.
*
* @return 32-bit random number.
*/
void RNG_ITConfig(FunctionalState NewState)
{
if(NewState != DISABLE)
{
RNG->CR |= RNG_CR_IE;
}
else
{
RNG->CR &= ~RNG_CR_IE;
}
}
/*********************************************************************
* @fn RNG_GetFlagStatus
*
* @brief Checks whether the specified RNG flag is set or not.
*
* @param RNG_FLAG - specifies the RNG flag to check.
* RNG_FLAG_DRDY - Data Ready flag.
* RNG_FLAG_CECS - Clock Error Current flag.
* RNG_FLAG_SECS - Seed Error Current flag.
*
* @return 32-bit random number.
*/
FlagStatus RNG_GetFlagStatus(uint8_t RNG_FLAG)
{
FlagStatus bitstatus = RESET;
if((RNG->SR & RNG_FLAG) != (uint8_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn RNG_ClearFlag
*
* @brief Clears the RNG flags.
*
* @param RNG_FLAG - specifies the flag to clear.
* RNG_FLAG_CECS - Clock Error Current flag.
* RNG_FLAG_SECS - Seed Error Current flag.
*
* @return 32-bit random number.
*/
void RNG_ClearFlag(uint8_t RNG_FLAG)
{
RNG->SR = ~(uint32_t)(((uint32_t)RNG_FLAG) << 4);
}
/*********************************************************************
* @fn RNG_GetFlagStatus
*
* @brief Checks whether the specified RNG interrupt has occurred or not.
*
* @param RNG_IT - specifies the RNG interrupt source to check.
* RNG_IT_CEI - Clock Error Interrupt.
* RNG_IT_SEI - Seed Error Interrupt.
*
* @return bitstatus:SET or RESET.
*/
ITStatus RNG_GetITStatus(uint8_t RNG_IT)
{
ITStatus bitstatus = RESET;
if((RNG->SR & RNG_IT) != (uint8_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn RNG_ClearITPendingBit
*
* @brief Clears the RNG interrupt pending bit(s).
*
* @param RNG_IT - specifies the RNG interrupt pending bit(s) to clear.
* RNG_IT_CEI - Clock Error Interrupt.
* RNG_IT_SEI - Seed Error Interrupt.
*
* @return None
*/
void RNG_ClearITPendingBit(uint8_t RNG_IT)
{
RNG->SR = (uint8_t)~RNG_IT;
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_rtc.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the RTC firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_rtc.h"
/* RTC_Private_Defines */
#define RTC_LSB_MASK ((uint32_t)0x0000FFFF) /* RTC LSB Mask */
#define PRLH_MSB_MASK ((uint32_t)0x000F0000) /* RTC Prescaler MSB Mask */
/*********************************************************************
* @fn RTC_ITConfig
*
* @brief Enables or disables the specified RTC interrupts.
*
* @param RTC_IT - specifies the RTC interrupts sources to be enabled or disabled.
* RTC_IT_OW - Overflow interrupt
* RTC_IT_ALR - Alarm interrupt
* RTC_IT_SEC - Second interrupt
*
* @return NewState - new state of the specified RTC interrupts(ENABLE or DISABLE).
*/
void RTC_ITConfig(uint16_t RTC_IT, FunctionalState NewState)
{
if(NewState != DISABLE)
{
RTC->CTLRH |= RTC_IT;
}
else
{
RTC->CTLRH &= (uint16_t)~RTC_IT;
}
}
/*********************************************************************
* @fn RTC_EnterConfigMode
*
* @brief Enters the RTC configuration mode.
*
* @return none
*/
void RTC_EnterConfigMode(void)
{
RTC->CTLRL |= RTC_CTLRL_CNF;
}
/*********************************************************************
* @fn RTC_ExitConfigMode
*
* @brief Exits from the RTC configuration mode.
*
* @return none
*/
void RTC_ExitConfigMode(void)
{
RTC->CTLRL &= (uint16_t) ~((uint16_t)RTC_CTLRL_CNF);
}
/*********************************************************************
* @fn RTC_GetCounter
*
* @brief Gets the RTC counter value
*
* @return RTC counter value
*/
uint32_t RTC_GetCounter(void)
{
uint16_t high1 = 0, high2 = 0, low = 0;
high1 = RTC->CNTH;
low = RTC->CNTL;
high2 = RTC->CNTH;
if(high1 != high2)
{
return (((uint32_t)high2 << 16) | RTC->CNTL);
}
else
{
return (((uint32_t)high1 << 16) | low);
}
}
/*********************************************************************
* @fn RTC_SetCounter
*
* @brief Sets the RTC counter value.
*
* @param CounterValue - RTC counter new value.
*
* @return RTC counter value
*/
void RTC_SetCounter(uint32_t CounterValue)
{
RTC_EnterConfigMode();
RTC->CNTH = CounterValue >> 16;
RTC->CNTL = (CounterValue & RTC_LSB_MASK);
RTC_ExitConfigMode();
}
/*********************************************************************
* @fn RTC_SetPrescaler
*
* @brief Sets the RTC prescaler value
*
* @param PrescalerValue - RTC prescaler new value
*
* @return none
*/
void RTC_SetPrescaler(uint32_t PrescalerValue)
{
RTC_EnterConfigMode();
RTC->PSCRH = (PrescalerValue & PRLH_MSB_MASK) >> 16;
RTC->PSCRL = (PrescalerValue & RTC_LSB_MASK);
RTC_ExitConfigMode();
}
/*********************************************************************
* @fn RTC_SetAlarm
*
* @brief Sets the RTC alarm value
*
* @param AlarmValue - RTC alarm new value
*
* @return none
*/
void RTC_SetAlarm(uint32_t AlarmValue)
{
RTC_EnterConfigMode();
RTC->ALRMH = AlarmValue >> 16;
RTC->ALRML = (AlarmValue & RTC_LSB_MASK);
RTC_ExitConfigMode();
}
/*********************************************************************
* @fn RTC_GetDivider
*
* @brief Gets the RTC divider value
*
* @return RTC Divider value
*/
uint32_t RTC_GetDivider(void)
{
uint32_t tmp = 0x00;
tmp = ((uint32_t)RTC->DIVH & (uint32_t)0x000F) << 16;
tmp |= RTC->DIVL;
return tmp;
}
/*********************************************************************
* @fn RTC_WaitForLastTask
*
* @brief Waits until last write operation on RTC registers has finished
* Note-
* This function must be called before any write to RTC registers.
* @return none
*/
void RTC_WaitForLastTask(void)
{
while((RTC->CTLRL & RTC_FLAG_RTOFF) == (uint16_t)RESET)
{
}
}
/*********************************************************************
* @fn RTC_WaitForSynchro
*
* @brief Waits until the RTC registers are synchronized with RTC APB clock
* Note-
* This function must be called before any read operation after an APB reset
* or an APB clock stop.
*
* @return none
*/
void RTC_WaitForSynchro(void)
{
RTC->CTLRL &= (uint16_t)~RTC_FLAG_RSF;
while((RTC->CTLRL & RTC_FLAG_RSF) == (uint16_t)RESET)
{
}
}
/*********************************************************************
* @fn RTC_GetFlagStatus
*
* @brief Checks whether the specified RTC flag is set or not
*
* @param RTC_FLAG- specifies the flag to check
* RTC_FLAG_RTOFF - RTC Operation OFF flag
* RTC_FLAG_RSF - Registers Synchronized flag
* RTC_FLAG_OW - Overflow flag
* RTC_FLAG_ALR - Alarm flag
* RTC_FLAG_SEC - Second flag
*
* @return The new state of RTC_FLAG (SET or RESET)
*/
FlagStatus RTC_GetFlagStatus(uint16_t RTC_FLAG)
{
FlagStatus bitstatus = RESET;
if((RTC->CTLRL & RTC_FLAG) != (uint16_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn RTC_ClearFlag
*
* @brief Clears the RTC's pending flags
*
* @param RTC_FLAG - specifies the flag to clear
* RTC_FLAG_RSF - Registers Synchronized flag
* RTC_FLAG_OW - Overflow flag
* RTC_FLAG_ALR - Alarm flag
* RTC_FLAG_SEC - Second flag
*
* @return none
*/
void RTC_ClearFlag(uint16_t RTC_FLAG)
{
RTC->CTLRL &= (uint16_t)~RTC_FLAG;
}
/*********************************************************************
* @fn RTC_GetITStatus
*
* @brief Checks whether the specified RTC interrupt has occurred or not
*
* @param RTC_IT - specifies the RTC interrupts sources to check
* RTC_FLAG_OW - Overflow interrupt
* RTC_FLAG_ALR - Alarm interrupt
* RTC_FLAG_SEC - Second interrupt
*
* @return The new state of the RTC_IT (SET or RESET)
*/
ITStatus RTC_GetITStatus(uint16_t RTC_IT)
{
ITStatus bitstatus = RESET;
bitstatus = (ITStatus)(RTC->CTLRL & RTC_IT);
if(((RTC->CTLRH & RTC_IT) != (uint16_t)RESET) && (bitstatus != (uint16_t)RESET))
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn RTC_ClearITPendingBit
*
* @brief Clears the RTC's interrupt pending bits
*
* @param RTC_IT - specifies the interrupt pending bit to clear
* RTC_FLAG_OW - Overflow interrupt
* RTC_FLAG_ALR - Alarm interrupt
* RTC_FLAG_SEC - Second interrupt
*
* @return none
*/
void RTC_ClearITPendingBit(uint16_t RTC_IT)
{
RTC->CTLRL &= (uint16_t)~RTC_IT;
}

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@ -0,0 +1,672 @@
/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_SDIO.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the SDIO firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_sdio.h"
#include "ch32v30x_rcc.h"
#define SDIO_OFFSET (SDIO_BASE - PERIPH_BASE)
/* CLKCR register clear mask */
#define CLKCR_CLEAR_MASK ((uint32_t)0xFFFF8100)
/* SDIO PWRCTRL Mask */
#define PWR_PWRCTRL_MASK ((uint32_t)0xFFFFFFFC)
/* SDIO DCTRL Clear Mask */
#define DCTRL_CLEAR_MASK ((uint32_t)0xFFFFFF08)
/* CMD Register clear mask */
#define CMD_CLEAR_MASK ((uint32_t)0xFFFFF800)
/* SDIO RESP Registers Address */
#define SDIO_RESP_ADDR ((uint32_t)(SDIO_BASE + 0x14))
/*********************************************************************
* @fn SDIO_DeInit
*
* @brief Deinitializes the SDIO peripheral registers to their default
* reset values.
*
* @return RTC counter value
*/
void SDIO_DeInit(void)
{
SDIO->POWER = 0x00000000;
SDIO->CLKCR = 0x00000000;
SDIO->ARG = 0x00000000;
SDIO->CMD = 0x00000000;
SDIO->DTIMER = 0x00000000;
SDIO->DLEN = 0x00000000;
SDIO->DCTRL = 0x00000000;
SDIO->ICR = 0x00C007FF;
SDIO->MASK = 0x00000000;
}
/*********************************************************************
* @fn SDIO_Init
*
* @brief Initializes the SDIO peripheral according to the specified
* parameters in the SDIO_InitStruct.
*
* @param SDIO_InitStruct - pointer to a SDIO_InitTypeDef structure
* that contains the configuration information for the SDIO peripheral.
*
* @return None
*/
void SDIO_Init(SDIO_InitTypeDef *SDIO_InitStruct)
{
uint32_t tmpreg = 0;
tmpreg = SDIO->CLKCR;
tmpreg &= CLKCR_CLEAR_MASK;
tmpreg |= (SDIO_InitStruct->SDIO_ClockDiv | SDIO_InitStruct->SDIO_ClockPowerSave |
SDIO_InitStruct->SDIO_ClockBypass | SDIO_InitStruct->SDIO_BusWide |
SDIO_InitStruct->SDIO_ClockEdge | SDIO_InitStruct->SDIO_HardwareFlowControl);
SDIO->CLKCR = tmpreg;
}
/*********************************************************************
* @fn SDIO_StructInit
*
* @brief Fills each SDIO_InitStruct member with its default value.
*
* @param SDIO_InitStruct - pointer to an SDIO_InitTypeDef structure which
* will be initialized.
*
* @return none
*/
void SDIO_StructInit(SDIO_InitTypeDef *SDIO_InitStruct)
{
SDIO_InitStruct->SDIO_ClockDiv = 0x00;
SDIO_InitStruct->SDIO_ClockEdge = SDIO_ClockEdge_Rising;
SDIO_InitStruct->SDIO_ClockBypass = SDIO_ClockBypass_Disable;
SDIO_InitStruct->SDIO_ClockPowerSave = SDIO_ClockPowerSave_Disable;
SDIO_InitStruct->SDIO_BusWide = SDIO_BusWide_1b;
SDIO_InitStruct->SDIO_HardwareFlowControl = SDIO_HardwareFlowControl_Disable;
}
/*********************************************************************
* @fn SDIO_ClockCmd
*
* @brief Enables or disables the SDIO Clock.
*
* @param SDIO_InitStruct - pointer to an SDIO_InitTypeDef structure which
* will be initialized.
*
* @return none
*/
void SDIO_ClockCmd(FunctionalState NewState)
{
if(NewState)
SDIO->CLKCR |= (1 << 8);
else
SDIO->CLKCR &= ~(1 << 8);
}
/*********************************************************************
* @fn SDIO_SetPowerState
*
* @brief Sets the power status of the controller.
*
* @param SDIO_PowerState - new state of the Power state.
* SDIO_PowerState_OFF
* SDIO_PowerState_ON
*
* @return none
*/
void SDIO_SetPowerState(uint32_t SDIO_PowerState)
{
SDIO->POWER &= PWR_PWRCTRL_MASK;
SDIO->POWER |= SDIO_PowerState;
}
/*********************************************************************
* @fn SDIO_GetPowerState
*
* @brief Gets the power status of the controller.
*
* @param CounterValue - RTC counter new value.
*
* @return power state -
* 0x00 - Power OFF
* 0x02 - Power UP
* 0x03 - Power ON
*/
uint32_t SDIO_GetPowerState(void)
{
return (SDIO->POWER & (~PWR_PWRCTRL_MASK));
}
/*********************************************************************
* @fn SDIO_ITConfig
*
* @brief Enables or disables the SDIO interrupts.
*
* @param DIO_IT - specifies the SDIO interrupt sources to be enabled or disabled.
* SDIO_IT_CCRCFAIL
* SDIO_IT_DCRCFAIL
* SDIO_IT_CTIMEOUT
* SDIO_IT_DTIMEOUT
* SDIO_IT_TXUNDERR
* SDIO_IT_RXOVERR
* SDIO_IT_CMDREND
* SDIO_IT_CMDSENT
* SDIO_IT_DATAEND
* SDIO_IT_STBITERR
* SDIO_IT_DBCKEND
* SDIO_IT_CMDACT
* SDIO_IT_TXACT
* SDIO_IT_RXACT
* SDIO_IT_TXFIFOHE
* SDIO_IT_RXFIFOHF
* SDIO_IT_TXFIFOF
* SDIO_IT_RXFIFOF
* SDIO_IT_TXFIFOE
* SDIO_IT_RXFIFOE
* SDIO_IT_TXDAVL
* SDIO_IT_RXDAVL
* SDIO_IT_SDIOIT
* SDIO_IT_CEATAEND
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void SDIO_ITConfig(uint32_t SDIO_IT, FunctionalState NewState)
{
if(NewState != DISABLE)
{
SDIO->MASK |= SDIO_IT;
}
else
{
SDIO->MASK &= ~SDIO_IT;
}
}
/*********************************************************************
* @fn SDIO_DMACmd
*
* @brief Enables or disables the SDIO DMA request.
*
* @param NewState - ENABLE or DISABLE.
*
* @return none
*/
void SDIO_DMACmd(FunctionalState NewState)
{
if(NewState)
SDIO->DCTRL |= (1 << 3);
else
SDIO->DCTRL &= ~(1 << 3);
}
/*********************************************************************
* @fn SDIO_SendCommand
*
* @brief Initializes the SDIO Command according to the specified
* parameters in the SDIO_CmdInitStruct and send the command.
* @param SDIO_CmdInitStruct - pointer to a SDIO_CmdInitTypeDef
* structure that contains the configuration information for
* ddthe SDIO command.
*
* @return none
*/
void SDIO_SendCommand(SDIO_CmdInitTypeDef *SDIO_CmdInitStruct)
{
uint32_t tmpreg = 0;
SDIO->ARG = SDIO_CmdInitStruct->SDIO_Argument;
tmpreg = SDIO->CMD;
tmpreg &= CMD_CLEAR_MASK;
tmpreg |= (uint32_t)SDIO_CmdInitStruct->SDIO_CmdIndex | SDIO_CmdInitStruct->SDIO_Response | SDIO_CmdInitStruct->SDIO_Wait | SDIO_CmdInitStruct->SDIO_CPSM;
SDIO->CMD = tmpreg;
}
/*********************************************************************
* @fn SDIO_CmdStructInit
*
* @brief Fills each SDIO_CmdInitStruct member with its default value.
*
* @param SDIO_CmdInitStruct - pointer to an SDIO_CmdInitTypeDef
* structure which will be initialized.
*
* @return none
*/
void SDIO_CmdStructInit(SDIO_CmdInitTypeDef *SDIO_CmdInitStruct)
{
SDIO_CmdInitStruct->SDIO_Argument = 0x00;
SDIO_CmdInitStruct->SDIO_CmdIndex = 0x00;
SDIO_CmdInitStruct->SDIO_Response = SDIO_Response_No;
SDIO_CmdInitStruct->SDIO_Wait = SDIO_Wait_No;
SDIO_CmdInitStruct->SDIO_CPSM = SDIO_CPSM_Disable;
}
/*********************************************************************
* @fn SDIO_GetCommandResponse
*
* @brief Returns command index of last command for which response received.
*
* @return Returns the command index of the last command response received.
*/
uint8_t SDIO_GetCommandResponse(void)
{
return (uint8_t)(SDIO->RESPCMD);
}
/*********************************************************************
* @fn SDIO_GetResponse
*
* @brief Returns response received from the card for the last command.
*
* @param SDIO_RESP - Specifies the SDIO response register.
* SDIO_RESP1 - Response Register 1
* SDIO_RESP2 - Response Register 2
* SDIO_RESP3 - Response Register 3
* SDIO_RESP4 - Response Register 4
*
* @return Returns the command index of the last command response received.
*/
uint32_t SDIO_GetResponse(uint32_t SDIO_RESP)
{
__IO uint32_t tmp = 0;
tmp = SDIO_RESP_ADDR + SDIO_RESP;
return (*(__IO uint32_t *)tmp);
}
/*********************************************************************
* @fn SDIO_DataConfig
*
* @brief Initializes the SDIO data path according to the specified
*
* @param SDIO_DataInitStruct - pointer to a SDIO_DataInitTypeDef structure that
* contains the configuration information for the SDIO command.
*
* @return none
*/
void SDIO_DataConfig(SDIO_DataInitTypeDef *SDIO_DataInitStruct)
{
uint32_t tmpreg = 0;
SDIO->DTIMER = SDIO_DataInitStruct->SDIO_DataTimeOut;
SDIO->DLEN = SDIO_DataInitStruct->SDIO_DataLength;
tmpreg = SDIO->DCTRL;
tmpreg &= DCTRL_CLEAR_MASK;
tmpreg |= (uint32_t)SDIO_DataInitStruct->SDIO_DataBlockSize | SDIO_DataInitStruct->SDIO_TransferDir | SDIO_DataInitStruct->SDIO_TransferMode | SDIO_DataInitStruct->SDIO_DPSM;
SDIO->DCTRL = tmpreg;
}
/*********************************************************************
* @fn SDIO_DataStructInit
*
* @brief Fills each SDIO_DataInitStruct member with its default value.
*
* @param SDIO_DataInitStruct - pointer to an SDIO_DataInitTypeDef
* structure which will be initialized.
*
* @return RTC counter value
*/
void SDIO_DataStructInit(SDIO_DataInitTypeDef *SDIO_DataInitStruct)
{
SDIO_DataInitStruct->SDIO_DataTimeOut = 0xFFFFFFFF;
SDIO_DataInitStruct->SDIO_DataLength = 0x00;
SDIO_DataInitStruct->SDIO_DataBlockSize = SDIO_DataBlockSize_1b;
SDIO_DataInitStruct->SDIO_TransferDir = SDIO_TransferDir_ToCard;
SDIO_DataInitStruct->SDIO_TransferMode = SDIO_TransferMode_Block;
SDIO_DataInitStruct->SDIO_DPSM = SDIO_DPSM_Disable;
}
/*********************************************************************
* @fn SDIO_GetDataCounter
*
* @brief Returns number of remaining data bytes to be transferred.
*
* @return Number of remaining data bytes to be transferred
*/
uint32_t SDIO_GetDataCounter(void)
{
return SDIO->DCOUNT;
}
/*********************************************************************
* @fn SDIO_ReadData
*
* @brief Read one data word from Rx FIFO.
*
* @return Data received
*/
uint32_t SDIO_ReadData(void)
{
return SDIO->FIFO;
}
/*********************************************************************
* @fn SDIO_WriteData
*
* @brief Write one data word to Tx FIFO.
*
* @param Data - 32-bit data word to write.
*
* @return RTC counter value
*/
void SDIO_WriteData(uint32_t Data)
{
SDIO->FIFO = Data;
}
/*********************************************************************
* @fn SDIO_GetFIFOCount
*
* @brief Returns the number of words left to be written to or read from FIFO.
*
* @return Remaining number of words.
*/
uint32_t SDIO_GetFIFOCount(void)
{
return SDIO->FIFOCNT;
}
/*********************************************************************
* @fn SDIO_StartSDIOReadWait
*
* @brief Starts the SD I/O Read Wait operation.
*
* @param NewState - ENABLE or DISABLE.
*
* @return none
*/
void SDIO_StartSDIOReadWait(FunctionalState NewState)
{
if(NewState)
SDIO->DCTRL |= (1 << 8);
else
SDIO->DCTRL &= ~(1 << 8);
}
/*********************************************************************
* @fn SDIO_StopSDIOReadWait
*
* @brief Stops the SD I/O Read Wait operation.
*
* @param NewState - ENABLE or DISABLE.
*
* @return none
*/
void SDIO_StopSDIOReadWait(FunctionalState NewState)
{
if(NewState)
SDIO->DCTRL |= (1 << 9);
else
SDIO->DCTRL &= ~(1 << 9);
}
/*********************************************************************
* @fn SDIO_SetSDIOReadWaitMode
*
* @brief Sets one of the two options of inserting read wait interval.
*
* @param SDIO_ReadWaitMode - SD I/O Read Wait operation mode.
* SDIO_ReadWaitMode_CLK - Read Wait control by stopping SDIOCLK
* SDIO_ReadWaitMode_DATA2 - Read Wait control using SDIO_DATA2
*
* @return none
*/
void SDIO_SetSDIOReadWaitMode(uint32_t SDIO_ReadWaitMode)
{
if(SDIO_ReadWaitMode)
SDIO->DCTRL |= (1 << 10);
else
SDIO->DCTRL &= ~(1 << 10);
}
/*********************************************************************
* @fn SDIO_SetSDIOOperation
*
* @brief Enables or disables the SD I/O Mode Operation.
*
* @param NewState: ENABLE or DISABLE.
*
* @return none
*/
void SDIO_SetSDIOOperation(FunctionalState NewState)
{
if(NewState)
SDIO->DCTRL |= (1 << 11);
else
SDIO->DCTRL &= ~(1 << 11);
}
/*********************************************************************
* @fn SDIO_SendSDIOSuspendCmd
*
* @brief Enables or disables the SD I/O Mode suspend command sending.
*
* @param NewState - ENABLE or DISABLE.
*
* @return none
*/
void SDIO_SendSDIOSuspendCmd(FunctionalState NewState)
{
if(NewState)
SDIO->CMD |= (1 << 11);
else
SDIO->CMD &= ~(1 << 11);
}
/*********************************************************************
* @fn SDIO_CommandCompletionCmd
*
* @brief Enables or disables the command completion signal.
*
* @param NewState - ENABLE or DISABLE.
*
* @return none
*/
void SDIO_CommandCompletionCmd(FunctionalState NewState)
{
if(NewState)
SDIO->CMD |= (1 << 12);
else
SDIO->CMD &= ~(1 << 12);
}
/*********************************************************************
* @fn SDIO_CEATAITCmd
*
* @brief Enables or disables the CE-ATA interrupt.
*
* @param NewState - ENABLE or DISABLE.
*
* @return none
*/
void SDIO_CEATAITCmd(FunctionalState NewState)
{
if(NewState)
SDIO->CMD |= (1 << 13);
else
SDIO->CMD &= ~(1 << 13);
}
/*********************************************************************
* @fn SDIO_SendCEATACmd
*
* @brief Sends CE-ATA command (CMD61).
*
* @param NewState - ENABLE or DISABLE.
*
* @return RTC counter value
*/
void SDIO_SendCEATACmd(FunctionalState NewState)
{
if(NewState)
SDIO->CMD |= (1 << 14);
else
SDIO->CMD &= ~(1 << 14);
}
/*********************************************************************
* @fn SDIO_GetFlagStatus
*
* @brief Checks whether the specified SDIO flag is set or not.
*
* @param SDIO_FLAG - specifies the flag to check.
* SDIO_FLAG_CCRCFAIL - Command response received (CRC check failed)
* SDIO_FLAG_DCRCFAIL - Data block sent/received (CRC check failed)
* SDIO_FLAG_CTIMEOUT - Command response timeout
* SDIO_FLAG_DTIMEOUT - Data timeout
* SDIO_FLAG_TXUNDERR - Transmit FIFO underrun error
* SDIO_FLAG_RXOVERR - Received FIFO overrun error
* SDIO_FLAG_CMDREND - Command response received (CRC check passed)
* SDIO_FLAG_CMDSENT - Command sent (no response required)
* SDIO_FLAG_DATAEND - Data end (data counter, SDIDCOUNT, is zero)
* SDIO_FLAG_STBITERR - Start bit not detected on all data signals
* in wide bus mode.
* SDIO_FLAG_DBCKEND - Data block sent/received (CRC check passed)
* SDIO_FLAG_CMDACT - Command transfer in progress
* SDIO_FLAG_TXACT - Data transmit in progress
* SDIO_FLAG_RXACT - Data receive in progress
* SDIO_FLAG_TXFIFOHE - Transmit FIFO Half Empty
* SDIO_FLAG_RXFIFOHF - Receive FIFO Half Full
* SDIO_FLAG_TXFIFOF - Transmit FIFO full
* SDIO_FLAG_RXFIFOF - Receive FIFO full
* SDIO_FLAG_TXFIFOE - Transmit FIFO empty
* SDIO_FLAG_RXFIFOE - Receive FIFO empty
* SDIO_FLAG_TXDAVL - Data available in transmit FIFO
* SDIO_FLAG_RXDAVL - Data available in receive FIFO
* SDIO_FLAG_SDIOIT - SD I/O interrupt received
* SDIO_FLAG_CEATAEND - CE-ATA command completion signal received
* for CMD61
*
* @return ITStatus - SET or RESET
*/
FlagStatus SDIO_GetFlagStatus(uint32_t SDIO_FLAG)
{
FlagStatus bitstatus = RESET;
if((SDIO->STA & SDIO_FLAG) != (uint32_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn SDIO_ClearFlag
*
* @brief Clears the SDIO's pending flags.
*
* @param SDIO_FLAG - specifies the flag to clear.
* SDIO_FLAG_CCRCFAIL - Command response received (CRC check failed)
* SDIO_FLAG_DCRCFAIL - Data block sent/received (CRC check failed)
* SDIO_FLAG_CTIMEOUT - Command response timeout
* SDIO_FLAG_DTIMEOUT - Data timeout
* SDIO_FLAG_TXUNDERR - Transmit FIFO underrun error
* SDIO_FLAG_RXOVERR - Received FIFO overrun error
* SDIO_FLAG_CMDREND - Command response received (CRC check passed)
* SDIO_FLAG_CMDSENT - Command sent (no response required)
* SDIO_FLAG_DATAEND - Data end (data counter, SDIDCOUNT, is zero)
* SDIO_FLAG_STBITERR - Start bit not detected on all data signals
* in wide bus mode
* SDIO_FLAG_DBCKEND - Data block sent/received (CRC check passed)
* SDIO_FLAG_SDIOIT - SD I/O interrupt received
* SDIO_FLAG_CEATAEND - CE-ATA command completion signal received for CMD61
*
* @return none
*/
void SDIO_ClearFlag(uint32_t SDIO_FLAG)
{
SDIO->ICR = SDIO_FLAG;
}
/*********************************************************************
* @fn SDIO_GetITStatus
*
* @brief Checks whether the specified SDIO interrupt has occurred or not.
*
* @param SDIO_IT: specifies the SDIO interrupt source to check.
* SDIO_IT_CCRCFAIL - Command response received (CRC check failed) interrupt
* SDIO_IT_DCRCFAIL - Data block sent/received (CRC check failed) interrupt
* SDIO_IT_CTIMEOUT - Command response timeout interrupt
* SDIO_IT_DTIMEOUT - Data timeout interrupt
* SDIO_IT_TXUNDERR - Transmit FIFO underrun error interrupt
* SDIO_IT_RXOVERR - Received FIFO overrun error interrupt
* SDIO_IT_CMDREND - Command response received (CRC check passed) interrupt
* SDIO_IT_CMDSENT - Command sent (no response required) interrupt
* SDIO_IT_DATAEND - Data end (data counter, SDIDCOUNT, is zero) interrupt
* SDIO_IT_STBITERR - Start bit not detected on all data signals in wide
* bus mode interrupt
* SDIO_IT_DBCKEND - Data block sent/received (CRC check passed) interrupt
* SDIO_IT_CMDACT - Command transfer in progress interrupt
* SDIO_IT_TXACT - Data transmit in progress interrupt
* SDIO_IT_RXACT - Data receive in progress interrupt
* SDIO_IT_TXFIFOHE - Transmit FIFO Half Empty interrupt
* SDIO_IT_RXFIFOHF - Receive FIFO Half Full interrupt
* SDIO_IT_TXFIFOF - Transmit FIFO full interrupt
* SDIO_IT_RXFIFOF - Receive FIFO full interrupt
* SDIO_IT_TXFIFOE - Transmit FIFO empty interrupt
* SDIO_IT_RXFIFOE - Receive FIFO empty interrupt
* SDIO_IT_TXDAVL - Data available in transmit FIFO interrupt
* SDIO_IT_RXDAVL - Data available in receive FIFO interrupt
* SDIO_IT_SDIOIT - SD I/O interrupt received interrupt
* SDIO_IT_CEATAEND - CE-ATA command completion signal received for CMD61 interrupt
*
* @return ITStatus<EFBFBD><EFBFBD>SET or RESET
*/
ITStatus SDIO_GetITStatus(uint32_t SDIO_IT)
{
ITStatus bitstatus = RESET;
if((SDIO->STA & SDIO_IT) != (uint32_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn SDIO_ClearITPendingBit
*
* @brief Clears the SDIO's interrupt pending bits.
*
* @param SDIO_IT - specifies the interrupt pending bit to clear.
* SDIO_IT_CCRCFAIL - Command response received (CRC check failed) interrupt
* SDIO_IT_DCRCFAIL - Data block sent/received (CRC check failed) interrupt
* SDIO_IT_CTIMEOUT - Command response timeout interrupt
* SDIO_IT_DTIMEOUT - Data timeout interrupt
* SDIO_IT_TXUNDERR - Transmit FIFO underrun error interrupt
* SDIO_IT_RXOVERR - Received FIFO overrun error interrupt
* SDIO_IT_CMDREND - Command response received (CRC check passed) interrupt
* SDIO_IT_CMDSENT - Command sent (no response required) interrupt
* SDIO_IT_DATAEND - Data end (data counter, SDIDCOUNT, is zero) interrupt
* SDIO_IT_STBITERR - Start bit not detected on all data signals in wide
* bus mode interrupt
* SDIO_IT_SDIOIT - SD I/O interrupt received interrupt
* SDIO_IT_CEATAEND - CE-ATA command completion signal received for CMD61
*
* @return RTC counter value
*/
void SDIO_ClearITPendingBit(uint32_t SDIO_IT)
{
SDIO->ICR = SDIO_IT;
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_spi.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the SPI firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_spi.h"
#include "ch32v30x_rcc.h"
/* SPI SPE mask */
#define CTLR1_SPE_Set ((uint16_t)0x0040)
#define CTLR1_SPE_Reset ((uint16_t)0xFFBF)
/* I2S I2SE mask */
#define I2SCFGR_I2SE_Set ((uint16_t)0x0400)
#define I2SCFGR_I2SE_Reset ((uint16_t)0xFBFF)
/* SPI CRCNext mask */
#define CTLR1_CRCNext_Set ((uint16_t)0x1000)
/* SPI CRCEN mask */
#define CTLR1_CRCEN_Set ((uint16_t)0x2000)
#define CTLR1_CRCEN_Reset ((uint16_t)0xDFFF)
/* SPI SSOE mask */
#define CTLR2_SSOE_Set ((uint16_t)0x0004)
#define CTLR2_SSOE_Reset ((uint16_t)0xFFFB)
/* SPI registers Masks */
#define CTLR1_CLEAR_Mask ((uint16_t)0x3040)
#define I2SCFGR_CLEAR_Mask ((uint16_t)0xF040)
/* SPI or I2S mode selection masks */
#define SPI_Mode_Select ((uint16_t)0xF7FF)
#define I2S_Mode_Select ((uint16_t)0x0800)
/* I2S clock source selection masks */
#define I2S2_CLOCK_SRC ((uint32_t)(0x00020000))
#define I2S3_CLOCK_SRC ((uint32_t)(0x00040000))
#define I2S_MUL_MASK ((uint32_t)(0x0000F000))
#define I2S_DIV_MASK ((uint32_t)(0x000000F0))
/*********************************************************************
* @fn SPI_I2S_DeInit
*
* @brief Deinitializes the SPIx peripheral registers to their default
* reset values (Affects also the I2Ss).
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
*
* @return none
*/
void SPI_I2S_DeInit(SPI_TypeDef *SPIx)
{
if(SPIx == SPI1)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_SPI1, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_SPI1, DISABLE);
}
else if(SPIx == SPI2)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_SPI2, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_SPI2, DISABLE);
}
else
{
if(SPIx == SPI3)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_SPI3, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_SPI3, DISABLE);
}
}
}
/*********************************************************************
* @fn SPI_Init
*
* @brief Initializes the SPIx peripheral according to the specified
* parameters in the SPI_InitStruct.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
* SPI_InitStruct - pointer to a SPI_InitTypeDef structure that
* contains the configuration information for the specified SPI peripheral.
*
* @return none
*/
void SPI_Init(SPI_TypeDef *SPIx, SPI_InitTypeDef *SPI_InitStruct)
{
uint16_t tmpreg = 0;
tmpreg = SPIx->CTLR1;
tmpreg &= CTLR1_CLEAR_Mask;
tmpreg |= (uint16_t)((uint32_t)SPI_InitStruct->SPI_Direction | SPI_InitStruct->SPI_Mode |
SPI_InitStruct->SPI_DataSize | SPI_InitStruct->SPI_CPOL |
SPI_InitStruct->SPI_CPHA | SPI_InitStruct->SPI_NSS |
SPI_InitStruct->SPI_BaudRatePrescaler | SPI_InitStruct->SPI_FirstBit);
SPIx->CTLR1 = tmpreg;
SPIx->I2SCFGR &= SPI_Mode_Select;
SPIx->CRCR = SPI_InitStruct->SPI_CRCPolynomial;
}
/*********************************************************************
* @fn I2S_Init
*
* @brief Initializes the SPIx peripheral according to the specified
* parameters in the I2S_InitStruct.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
* (configured in I2S mode).
* I2S_InitStruct - pointer to an I2S_InitTypeDef structure that
* contains the configuration information for the specified SPI peripheral
* configured in I2S mode.
*
* @return none
*/
void I2S_Init(SPI_TypeDef *SPIx, I2S_InitTypeDef *I2S_InitStruct)
{
uint16_t tmpreg = 0, i2sdiv = 2, i2sodd = 0, packetlength = 1;
uint32_t tmp = 0;
RCC_ClocksTypeDef RCC_Clocks;
uint32_t sourceclock = 0;
SPIx->I2SCFGR &= I2SCFGR_CLEAR_Mask;
SPIx->I2SPR = 0x0002;
tmpreg = SPIx->I2SCFGR;
if(I2S_InitStruct->I2S_AudioFreq == I2S_AudioFreq_Default)
{
i2sodd = (uint16_t)0;
i2sdiv = (uint16_t)2;
}
else
{
if(I2S_InitStruct->I2S_DataFormat == I2S_DataFormat_16b)
{
packetlength = 1;
}
else
{
packetlength = 2;
}
if(((uint32_t)SPIx) == SPI2_BASE)
{
tmp = I2S2_CLOCK_SRC;
}
else
{
tmp = I2S3_CLOCK_SRC;
}
RCC_GetClocksFreq(&RCC_Clocks);
sourceclock = RCC_Clocks.SYSCLK_Frequency;
if(I2S_InitStruct->I2S_MCLKOutput == I2S_MCLKOutput_Enable)
{
tmp = (uint16_t)(((((sourceclock / 256) * 10) / I2S_InitStruct->I2S_AudioFreq)) + 5);
}
else
{
tmp = (uint16_t)(((((sourceclock / (32 * packetlength)) * 10) / I2S_InitStruct->I2S_AudioFreq)) + 5);
}
tmp = tmp / 10;
i2sodd = (uint16_t)(tmp & (uint16_t)0x0001);
i2sdiv = (uint16_t)((tmp - i2sodd) / 2);
i2sodd = (uint16_t)(i2sodd << 8);
}
if((i2sdiv < 2) || (i2sdiv > 0xFF))
{
i2sdiv = 2;
i2sodd = 0;
}
SPIx->I2SPR = (uint16_t)(i2sdiv | (uint16_t)(i2sodd | (uint16_t)I2S_InitStruct->I2S_MCLKOutput));
tmpreg |= (uint16_t)(I2S_Mode_Select | (uint16_t)(I2S_InitStruct->I2S_Mode |
(uint16_t)(I2S_InitStruct->I2S_Standard | (uint16_t)(I2S_InitStruct->I2S_DataFormat |
(uint16_t)I2S_InitStruct->I2S_CPOL))));
SPIx->I2SCFGR = tmpreg;
}
/*********************************************************************
* @fn SPI_StructInit
*
* @brief Fills each SPI_InitStruct member with its default value.
*
* @param SPI_InitStruct - pointer to a SPI_InitTypeDef structure which
* will be initialized.
*
* @return none
*/
void SPI_StructInit(SPI_InitTypeDef *SPI_InitStruct)
{
SPI_InitStruct->SPI_Direction = SPI_Direction_2Lines_FullDuplex;
SPI_InitStruct->SPI_Mode = SPI_Mode_Slave;
SPI_InitStruct->SPI_DataSize = SPI_DataSize_8b;
SPI_InitStruct->SPI_CPOL = SPI_CPOL_Low;
SPI_InitStruct->SPI_CPHA = SPI_CPHA_1Edge;
SPI_InitStruct->SPI_BaudRatePrescaler = SPI_BaudRatePrescaler_2;
SPI_InitStruct->SPI_FirstBit = SPI_FirstBit_MSB;
SPI_InitStruct->SPI_CRCPolynomial = 7;
}
/*********************************************************************
* @fn I2S_StructInit
*
* @brief Fills each I2S_InitStruct member with its default value.
*
* @param I2S_InitStruct - pointer to a I2S_InitTypeDef structure which
* will be initialized.
*
* @return none
*/
void I2S_StructInit(I2S_InitTypeDef *I2S_InitStruct)
{
I2S_InitStruct->I2S_Mode = I2S_Mode_SlaveTx;
I2S_InitStruct->I2S_Standard = I2S_Standard_Phillips;
I2S_InitStruct->I2S_DataFormat = I2S_DataFormat_16b;
I2S_InitStruct->I2S_MCLKOutput = I2S_MCLKOutput_Disable;
I2S_InitStruct->I2S_AudioFreq = I2S_AudioFreq_Default;
I2S_InitStruct->I2S_CPOL = I2S_CPOL_Low;
}
/*********************************************************************
* @fn SPI_Cmd
*
* @brief Enables or disables the specified SPI peripheral.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void SPI_Cmd(SPI_TypeDef *SPIx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
SPIx->CTLR1 |= CTLR1_SPE_Set;
}
else
{
SPIx->CTLR1 &= CTLR1_SPE_Reset;
}
}
/*********************************************************************
* @fn I2S_Cmd
*
* @brief Enables or disables the specified SPI peripheral (in I2S mode).
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void I2S_Cmd(SPI_TypeDef *SPIx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
SPIx->I2SCFGR |= I2SCFGR_I2SE_Set;
}
else
{
SPIx->I2SCFGR &= I2SCFGR_I2SE_Reset;
}
}
/*********************************************************************
* @fn SPI_I2S_ITConfig
*
* @brief Enables or disables the specified SPI/I2S interrupts.
*
* @param SPIx - where x can be
* - 1, 2 or 3 in SPI mode.
* - 2 or 3 in I2S mode.
* SPI_I2S_IT - specifies the SPI/I2S interrupt source to be
* enabled or disabled.
* SPI_I2S_IT_TXE - Tx buffer empty interrupt mask.
* SPI_I2S_IT_RXNE - Rx buffer not empty interrupt mask.
* SPI_I2S_IT_ERR - Error interrupt mask.
* NewState: ENABLE or DISABLE.
* @return none
*/
void SPI_I2S_ITConfig(SPI_TypeDef *SPIx, uint8_t SPI_I2S_IT, FunctionalState NewState)
{
uint16_t itpos = 0, itmask = 0;
itpos = SPI_I2S_IT >> 4;
itmask = (uint16_t)1 << (uint16_t)itpos;
if(NewState != DISABLE)
{
SPIx->CTLR2 |= itmask;
}
else
{
SPIx->CTLR2 &= (uint16_t)~itmask;
}
}
/*********************************************************************
* @fn SPI_I2S_DMACmd
*
* @brief Enables or disables the SPIx/I2Sx DMA interface.
*
* @param SPIx - where x can be
* - 1, 2 or 3 in SPI mode.
* - 2 or 3 in I2S mode.
* SPI_I2S_DMAReq - specifies the SPI/I2S DMA transfer request to
* be enabled or disabled.
* SPI_I2S_DMAReq_Tx - Tx buffer DMA transfer request.
* SPI_I2S_DMAReq_Rx - Rx buffer DMA transfer request.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void SPI_I2S_DMACmd(SPI_TypeDef *SPIx, uint16_t SPI_I2S_DMAReq, FunctionalState NewState)
{
if(NewState != DISABLE)
{
SPIx->CTLR2 |= SPI_I2S_DMAReq;
}
else
{
SPIx->CTLR2 &= (uint16_t)~SPI_I2S_DMAReq;
}
}
/*********************************************************************
* @fn SPI_I2S_SendData
*
* @brief Transmits a Data through the SPIx/I2Sx peripheral.
*
* @param SPIx - where x can be
* - 1, 2 or 3 in SPI mode.
* - 2 or 3 in I2S mode.
* Data - Data to be transmitted.
*
* @return none
*/
void SPI_I2S_SendData(SPI_TypeDef *SPIx, uint16_t Data)
{
SPIx->DATAR = Data;
}
/*********************************************************************
* @fn SPI_I2S_ReceiveData
*
* @brief Returns the most recent received data by the SPIx/I2Sx peripheral.
*
* @param SPIx - where x can be
* - 1, 2 or 3 in SPI mode.
* - 2 or 3 in I2S mode.
* Data - Data to be transmitted.
*
* @return SPIx->DATAR - The value of the received data.
*/
uint16_t SPI_I2S_ReceiveData(SPI_TypeDef *SPIx)
{
return SPIx->DATAR;
}
/*********************************************************************
* @fn SPI_NSSInternalSoftwareConfig
*
* @brief Configures internally by software the NSS pin for the selected SPI.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
* SPI_NSSInternalSoft -
* SPI_NSSInternalSoft_Set - Set NSS pin internally.
* SPI_NSSInternalSoft_Reset - Reset NSS pin internally.
*
* @return none
*/
void SPI_NSSInternalSoftwareConfig(SPI_TypeDef *SPIx, uint16_t SPI_NSSInternalSoft)
{
if(SPI_NSSInternalSoft != SPI_NSSInternalSoft_Reset)
{
SPIx->CTLR1 |= SPI_NSSInternalSoft_Set;
}
else
{
SPIx->CTLR1 &= SPI_NSSInternalSoft_Reset;
}
}
/*********************************************************************
* @fn SPI_SSOutputCmd
*
* @brief Enables or disables the SS output for the selected SPI.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
* NewState - new state of the SPIx SS output.
*
* @return none
*/
void SPI_SSOutputCmd(SPI_TypeDef *SPIx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
SPIx->CTLR2 |= CTLR2_SSOE_Set;
}
else
{
SPIx->CTLR2 &= CTLR2_SSOE_Reset;
}
}
/*********************************************************************
* @fn SPI_DataSizeConfig
*
* @brief Configures the data size for the selected SPI.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
* SPI_DataSize - specifies the SPI data size.
* SPI_DataSize_16b - Set data frame format to 16bit.
* SPI_DataSize_8b - Set data frame format to 8bit.
*
* @return none
*/
void SPI_DataSizeConfig(SPI_TypeDef *SPIx, uint16_t SPI_DataSize)
{
SPIx->CTLR1 &= (uint16_t)~SPI_DataSize_16b;
SPIx->CTLR1 |= SPI_DataSize;
}
/*********************************************************************
* @fn SPI_TransmitCRC
*
* @brief Transmit the SPIx CRC value.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
*
* @return none
*/
void SPI_TransmitCRC(SPI_TypeDef *SPIx)
{
SPIx->CTLR1 |= CTLR1_CRCNext_Set;
}
/*********************************************************************
* @fn SPI_CalculateCRC
*
* @brief Enables or disables the CRC value calculation of the transferred bytes.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
* NewState - new state of the SPIx CRC value calculation.
*
* @return none
*/
void SPI_CalculateCRC(SPI_TypeDef *SPIx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
SPIx->CTLR1 |= CTLR1_CRCEN_Set;
}
else
{
SPIx->CTLR1 &= CTLR1_CRCEN_Reset;
}
}
/*********************************************************************
* @fn SPI_GetCRC
*
* @brief Returns the transmit or the receive CRC register value for the specified SPI.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
* SPI_CRC - specifies the CRC register to be read.
* SPI_CRC_Tx - Selects Tx CRC register.
* SPI_CRC_Rx - Selects Rx CRC register.
*
* @return crcreg: The selected CRC register value.
*/
uint16_t SPI_GetCRC(SPI_TypeDef *SPIx, uint8_t SPI_CRC)
{
uint16_t crcreg = 0;
if(SPI_CRC != SPI_CRC_Rx)
{
crcreg = SPIx->TCRCR;
}
else
{
crcreg = SPIx->RCRCR;
}
return crcreg;
}
/*********************************************************************
* @fn SPI_GetCRCPolynomial
*
* @brief Returns the CRC Polynomial register value for the specified SPI.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
*
* @return SPIx->CRCR - The CRC Polynomial register value.
*/
uint16_t SPI_GetCRCPolynomial(SPI_TypeDef *SPIx)
{
return SPIx->CRCR;
}
/*********************************************************************
* @fn SPI_BiDirectionalLineConfig
*
* @brief Selects the data transfer direction in bi-directional mode
* for the specified SPI.
*
* @param SPIx - where x can be 1, 2 or 3 to select the SPI peripheral.
* SPI_Direction - specifies the data transfer direction in
* bi-directional mode.
* SPI_Direction_Tx - Selects Tx transmission direction.
* SPI_Direction_Rx - Selects Rx receive direction.
*
* @return none
*/
void SPI_BiDirectionalLineConfig(SPI_TypeDef *SPIx, uint16_t SPI_Direction)
{
if(SPI_Direction == SPI_Direction_Tx)
{
SPIx->CTLR1 |= SPI_Direction_Tx;
}
else
{
SPIx->CTLR1 &= SPI_Direction_Rx;
}
}
/*********************************************************************
* @fn SPI_I2S_GetFlagStatus
*
* @brief Checks whether the specified SPI/I2S flag is set or not.
*
* @param SPIx - where x can be
* - 1, 2 or 3 in SPI mode.
* - 2 or 3 in I2S mode.
* SPI_I2S_FLAG - specifies the SPI/I2S flag to check.
* SPI_I2S_FLAG_TXE - Transmit buffer empty flag.
* SPI_I2S_FLAG_RXNE - Receive buffer not empty flag.
* SPI_I2S_FLAG_BSY - Busy flag.
* SPI_I2S_FLAG_OVR - Overrun flag.
* SPI_FLAG_MODF - Mode Fault flag.
* SPI_FLAG_CRCERR - CRC Error flag.
* I2S_FLAG_UDR - Underrun Error flag.
* I2S_FLAG_CHSIDE - Channel Side flag.
*
* @return FlagStatus: SET or RESET.
*/
FlagStatus SPI_I2S_GetFlagStatus(SPI_TypeDef *SPIx, uint16_t SPI_I2S_FLAG)
{
FlagStatus bitstatus = RESET;
if((SPIx->STATR & SPI_I2S_FLAG) != (uint16_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn SPI_I2S_ClearFlag
*
* @brief Clears the SPIx CRC Error (CRCERR) flag.
*
* @param SPIx - where x can be
* - 1, 2 or 3 in SPI mode.
* - 2 or 3 in I2S mode.
* SPI_I2S_FLAG - specifies the SPI flag to clear.
* SPI_FLAG_CRCERR - CRC Error flag.
* Note-
* - OVR (OverRun error) flag is cleared by software sequence: a read
* operation to SPI_DATAR register (SPI_I2S_ReceiveData()) followed by a read
* operation to SPI_STATR register (SPI_I2S_GetFlagStatus()).
* - UDR (UnderRun error) flag is cleared by a read operation to
* SPI_STATR register (SPI_I2S_GetFlagStatus()).
* - MODF (Mode Fault) flag is cleared by software sequence: a read/write
* operation to SPI_STATR register (SPI_I2S_GetFlagStatus()) followed by a
* write operation to SPI_CTLR1 register (SPI_Cmd() to enable the SPI).
* @return FlagStatus: SET or RESET.
*/
void SPI_I2S_ClearFlag(SPI_TypeDef *SPIx, uint16_t SPI_I2S_FLAG)
{
SPIx->STATR = (uint16_t)~SPI_I2S_FLAG;
}
/*********************************************************************
* @fn SPI_I2S_GetITStatus
*
* @brief Checks whether the specified SPI/I2S interrupt has occurred or not.
*
* @param SPIx - where x can be
* - 1, 2 or 3 in SPI mode.
* - 2 or 3 in I2S mode.
* SPI_I2S_IT - specifies the SPI/I2S interrupt source to check..
* SPI_I2S_IT_TXE - Transmit buffer empty interrupt.
* SPI_I2S_IT_RXNE - Receive buffer not empty interrupt.
* SPI_I2S_IT_OVR - Overrun interrupt.
* SPI_IT_MODF - Mode Fault interrupt.
* SPI_IT_CRCERR - CRC Error interrupt.
* I2S_IT_UDR - Underrun Error interrupt.
*
* @return FlagStatus: SET or RESET.
*/
ITStatus SPI_I2S_GetITStatus(SPI_TypeDef *SPIx, uint8_t SPI_I2S_IT)
{
ITStatus bitstatus = RESET;
uint16_t itpos = 0, itmask = 0, enablestatus = 0;
itpos = 0x01 << (SPI_I2S_IT & 0x0F);
itmask = SPI_I2S_IT >> 4;
itmask = 0x01 << itmask;
enablestatus = (SPIx->CTLR2 & itmask);
if(((SPIx->STATR & itpos) != (uint16_t)RESET) && enablestatus)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn SPI_I2S_ClearITPendingBit
*
* @brief Clears the SPIx CRC Error (CRCERR) interrupt pending bit.
*
* @param SPIx - where x can be
* - 1, 2 or 3 in SPI mode.
* SPI_I2S_IT - specifies the SPI interrupt pending bit to clear.
* SPI_IT_CRCERR - CRC Error interrupt.
* Note-
* - OVR (OverRun Error) interrupt pending bit is cleared by software
* sequence: a read operation to SPI_DATAR register (SPI_I2S_ReceiveData())
* followed by a read operation to SPI_STATR register (SPI_I2S_GetITStatus()).
* - UDR (UnderRun Error) interrupt pending bit is cleared by a read
* operation to SPI_STATR register (SPI_I2S_GetITStatus()).
* - MODF (Mode Fault) interrupt pending bit is cleared by software sequence:
* a read/write operation to SPI_STATR register (SPI_I2S_GetITStatus())
* followed by a write operation to SPI_CTLR1 register (SPI_Cmd() to enable
* the SPI).
* @return none
*/
void SPI_I2S_ClearITPendingBit(SPI_TypeDef *SPIx, uint8_t SPI_I2S_IT)
{
uint16_t itpos = 0;
itpos = 0x01 << (SPI_I2S_IT & 0x0F);
SPIx->STATR = (uint16_t)~itpos;
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_usart.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the USART firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_usart.h"
#include "ch32v30x_rcc.h"
/* USART_Private_Defines */
#define CTLR1_UE_Set ((uint16_t)0x2000) /* USART Enable Mask */
#define CTLR1_UE_Reset ((uint16_t)0xDFFF) /* USART Disable Mask */
#define CTLR1_WAKE_Mask ((uint16_t)0xF7FF) /* USART WakeUp Method Mask */
#define CTLR1_RWU_Set ((uint16_t)0x0002) /* USART mute mode Enable Mask */
#define CTLR1_RWU_Reset ((uint16_t)0xFFFD) /* USART mute mode Enable Mask */
#define CTLR1_SBK_Set ((uint16_t)0x0001) /* USART Break Character send Mask */
#define CTLR1_CLEAR_Mask ((uint16_t)0xE9F3) /* USART CR1 Mask */
#define CTLR2_Address_Mask ((uint16_t)0xFFF0) /* USART address Mask */
#define CTLR2_LINEN_Set ((uint16_t)0x4000) /* USART LIN Enable Mask */
#define CTLR2_LINEN_Reset ((uint16_t)0xBFFF) /* USART LIN Disable Mask */
#define CTLR2_LBDL_Mask ((uint16_t)0xFFDF) /* USART LIN Break detection Mask */
#define CTLR2_STOP_CLEAR_Mask ((uint16_t)0xCFFF) /* USART CR2 STOP Bits Mask */
#define CTLR2_CLOCK_CLEAR_Mask ((uint16_t)0xF0FF) /* USART CR2 Clock Mask */
#define CTLR3_SCEN_Set ((uint16_t)0x0020) /* USART SC Enable Mask */
#define CTLR3_SCEN_Reset ((uint16_t)0xFFDF) /* USART SC Disable Mask */
#define CTLR3_NACK_Set ((uint16_t)0x0010) /* USART SC NACK Enable Mask */
#define CTLR3_NACK_Reset ((uint16_t)0xFFEF) /* USART SC NACK Disable Mask */
#define CTLR3_HDSEL_Set ((uint16_t)0x0008) /* USART Half-Duplex Enable Mask */
#define CTLR3_HDSEL_Reset ((uint16_t)0xFFF7) /* USART Half-Duplex Disable Mask */
#define CTLR3_IRLP_Mask ((uint16_t)0xFFFB) /* USART IrDA LowPower mode Mask */
#define CTLR3_CLEAR_Mask ((uint16_t)0xFCFF) /* USART CR3 Mask */
#define CTLR3_IREN_Set ((uint16_t)0x0002) /* USART IrDA Enable Mask */
#define CTLR3_IREN_Reset ((uint16_t)0xFFFD) /* USART IrDA Disable Mask */
#define GPR_LSB_Mask ((uint16_t)0x00FF) /* Guard Time Register LSB Mask */
#define GPR_MSB_Mask ((uint16_t)0xFF00) /* Guard Time Register MSB Mask */
#define IT_Mask ((uint16_t)0x001F) /* USART Interrupt Mask */
/* USART OverSampling-8 Mask */
#define CTLR1_OVER8_Set ((uint16_t)0x8000) /* USART OVER8 mode Enable Mask */
#define CTLR1_OVER8_Reset ((uint16_t)0x7FFF) /* USART OVER8 mode Disable Mask */
/* USART One Bit Sampling Mask */
#define CTLR3_ONEBITE_Set ((uint16_t)0x0800) /* USART ONEBITE mode Enable Mask */
#define CTLR3_ONEBITE_Reset ((uint16_t)0xF7FF) /* USART ONEBITE mode Disable Mask */
/*********************************************************************
* @fn USART_DeInit
*
* @brief Deinitializes the USARTx peripheral registers to their default
* reset values.
*
* @param USARTx - where x can be 1, 2 or 3 to select the UART peripheral.
*
* @return none
*/
void USART_DeInit(USART_TypeDef *USARTx)
{
if(USARTx == USART1)
{
RCC_APB2PeriphResetCmd(RCC_APB2Periph_USART1, ENABLE);
RCC_APB2PeriphResetCmd(RCC_APB2Periph_USART1, DISABLE);
}
else if(USARTx == USART2)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART2, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART2, DISABLE);
}
else if(USARTx == USART3)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART3, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART3, DISABLE);
}
else if(USARTx == UART4)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART4, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART4, DISABLE);
}
else if(USARTx == UART5)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART5, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART5, DISABLE);
}
else if(USARTx == UART6)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART6, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART6, DISABLE);
}
else if(USARTx == UART7)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART7, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART7, DISABLE);
}
else if(USARTx == UART8)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART8, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART8, DISABLE);
}
}
/*********************************************************************
* @fn USART_Init
*
* @brief Initializes the USARTx peripheral according to the specified
* parameters in the USART_InitStruct.
*
* @param USARTx - where x can be 1, 2 or 3 to select the UART peripheral.
* USART_InitStruct - pointer to a USART_InitTypeDef structure
* that contains the configuration information for the specified
* USART peripheral.
*
* @return none
*/
void USART_Init(USART_TypeDef *USARTx, USART_InitTypeDef *USART_InitStruct)
{
uint32_t tmpreg = 0x00, apbclock = 0x00;
uint32_t integerdivider = 0x00;
uint32_t fractionaldivider = 0x00;
uint32_t usartxbase = 0;
RCC_ClocksTypeDef RCC_ClocksStatus;
if(USART_InitStruct->USART_HardwareFlowControl != USART_HardwareFlowControl_None)
{
}
usartxbase = (uint32_t)USARTx;
tmpreg = USARTx->CTLR2;
tmpreg &= CTLR2_STOP_CLEAR_Mask;
tmpreg |= (uint32_t)USART_InitStruct->USART_StopBits;
USARTx->CTLR2 = (uint16_t)tmpreg;
tmpreg = USARTx->CTLR1;
tmpreg &= CTLR1_CLEAR_Mask;
tmpreg |= (uint32_t)USART_InitStruct->USART_WordLength | USART_InitStruct->USART_Parity |
USART_InitStruct->USART_Mode;
USARTx->CTLR1 = (uint16_t)tmpreg;
tmpreg = USARTx->CTLR3;
tmpreg &= CTLR3_CLEAR_Mask;
tmpreg |= USART_InitStruct->USART_HardwareFlowControl;
USARTx->CTLR3 = (uint16_t)tmpreg;
RCC_GetClocksFreq(&RCC_ClocksStatus);
if(usartxbase == USART1_BASE)
{
apbclock = RCC_ClocksStatus.PCLK2_Frequency;
}
else
{
apbclock = RCC_ClocksStatus.PCLK1_Frequency;
}
if((USARTx->CTLR1 & CTLR1_OVER8_Set) != 0)
{
integerdivider = ((25 * apbclock) / (2 * (USART_InitStruct->USART_BaudRate)));
}
else
{
integerdivider = ((25 * apbclock) / (4 * (USART_InitStruct->USART_BaudRate)));
}
tmpreg = (integerdivider / 100) << 4;
fractionaldivider = integerdivider - (100 * (tmpreg >> 4));
if((USARTx->CTLR1 & CTLR1_OVER8_Set) != 0)
{
tmpreg |= ((((fractionaldivider * 8) + 50) / 100)) & ((uint8_t)0x07);
}
else
{
tmpreg |= ((((fractionaldivider * 16) + 50) / 100)) & ((uint8_t)0x0F);
}
USARTx->BRR = (uint16_t)tmpreg;
}
/*********************************************************************
* @fn USART_StructInit
*
* @brief Fills each USART_InitStruct member with its default value.
*
* @param USART_InitStruct: pointer to a USART_InitTypeDef structure
* which will be initialized.
*
* @return none
*/
void USART_StructInit(USART_InitTypeDef *USART_InitStruct)
{
USART_InitStruct->USART_BaudRate = 9600;
USART_InitStruct->USART_WordLength = USART_WordLength_8b;
USART_InitStruct->USART_StopBits = USART_StopBits_1;
USART_InitStruct->USART_Parity = USART_Parity_No;
USART_InitStruct->USART_Mode = USART_Mode_Rx | USART_Mode_Tx;
USART_InitStruct->USART_HardwareFlowControl = USART_HardwareFlowControl_None;
}
/*********************************************************************
* @fn USART_ClockInit
*
* @brief Initializes the USARTx peripheral Clock according to the
* specified parameters in the USART_ClockInitStruct .
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_ClockInitStruct - pointer to a USART_ClockInitTypeDef
* structure that contains the configuration information for the specified
* USART peripheral.
*
* @return none
*/
void USART_ClockInit(USART_TypeDef *USARTx, USART_ClockInitTypeDef *USART_ClockInitStruct)
{
uint32_t tmpreg = 0x00;
tmpreg = USARTx->CTLR2;
tmpreg &= CTLR2_CLOCK_CLEAR_Mask;
tmpreg |= (uint32_t)USART_ClockInitStruct->USART_Clock | USART_ClockInitStruct->USART_CPOL |
USART_ClockInitStruct->USART_CPHA | USART_ClockInitStruct->USART_LastBit;
USARTx->CTLR2 = (uint16_t)tmpreg;
}
/*********************************************************************
* @fn USART_ClockStructInit
*
* @brief Fills each USART_ClockStructInit member with its default value.
*
* @param USART_ClockInitStruct - pointer to a USART_ClockInitTypeDef
* structure which will be initialized.
*
* @return none
*/
void USART_ClockStructInit(USART_ClockInitTypeDef *USART_ClockInitStruct)
{
USART_ClockInitStruct->USART_Clock = USART_Clock_Disable;
USART_ClockInitStruct->USART_CPOL = USART_CPOL_Low;
USART_ClockInitStruct->USART_CPHA = USART_CPHA_1Edge;
USART_ClockInitStruct->USART_LastBit = USART_LastBit_Disable;
}
/*********************************************************************
* @fn USART_Cmd
*
* @brief Enables or disables the specified USART peripheral.
* reset values (Affects also the I2Ss).
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* NewState: ENABLE or DISABLE.
*
* @return none
*/
void USART_Cmd(USART_TypeDef *USARTx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
USARTx->CTLR1 |= CTLR1_UE_Set;
}
else
{
USARTx->CTLR1 &= CTLR1_UE_Reset;
}
}
/*********************************************************************
* @fn USART_ITConfig
*
* @brief Enables or disables the specified USART interrupts.
* reset values (Affects also the I2Ss).
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_IT - specifies the USART interrupt sources to be enabled or disabled.
* USART_IT_LBD - LIN Break detection interrupt.
* USART_IT_TXE - Transmit Data Register empty interrupt.
* USART_IT_TC - Transmission complete interrupt.
* USART_IT_RXNE - Receive Data register not empty interrupt.
* USART_IT_IDLE - Idle line detection interrupt.
* USART_IT_PE - Parity Error interrupt.
* USART_IT_ERR - Error interrupt.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void USART_ITConfig(USART_TypeDef *USARTx, uint16_t USART_IT, FunctionalState NewState)
{
uint32_t usartreg = 0x00, itpos = 0x00, itmask = 0x00;
uint32_t usartxbase = 0x00;
usartxbase = (uint32_t)USARTx;
usartreg = (((uint8_t)USART_IT) >> 0x05);
itpos = USART_IT & IT_Mask;
itmask = (((uint32_t)0x01) << itpos);
if(usartreg == 0x01)
{
usartxbase += 0x0C;
}
else if(usartreg == 0x02)
{
usartxbase += 0x10;
}
else
{
usartxbase += 0x14;
}
if(NewState != DISABLE)
{
*(__IO uint32_t *)usartxbase |= itmask;
}
else
{
*(__IO uint32_t *)usartxbase &= ~itmask;
}
}
/*********************************************************************
* @fn USART_DMACmd
*
* @brief Enables or disables the USART DMA interface.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_DMAReq - specifies the DMA request.
* USART_DMAReq_Tx - USART DMA transmit request.
* USART_DMAReq_Rx - USART DMA receive request.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void USART_DMACmd(USART_TypeDef *USARTx, uint16_t USART_DMAReq, FunctionalState NewState)
{
if(NewState != DISABLE)
{
USARTx->CTLR3 |= USART_DMAReq;
}
else
{
USARTx->CTLR3 &= (uint16_t)~USART_DMAReq;
}
}
/*********************************************************************
* @fn USART_SetAddress
*
* @brief Sets the address of the USART node.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_Address - Indicates the address of the USART node.
*
* @return none
*/
void USART_SetAddress(USART_TypeDef *USARTx, uint8_t USART_Address)
{
USARTx->CTLR2 &= CTLR2_Address_Mask;
USARTx->CTLR2 |= USART_Address;
}
/*********************************************************************
* @fn USART_WakeUpConfig
*
* @brief Selects the USART WakeUp method.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_WakeUp - specifies the USART wakeup method.
* USART_WakeUp_IdleLine - WakeUp by an idle line detection.
* USART_WakeUp_AddressMark - WakeUp by an address mark.
*
* @return none
*/
void USART_WakeUpConfig(USART_TypeDef *USARTx, uint16_t USART_WakeUp)
{
USARTx->CTLR1 &= CTLR1_WAKE_Mask;
USARTx->CTLR1 |= USART_WakeUp;
}
/*********************************************************************
* @fn USART_ReceiverWakeUpCmd
*
* @brief Determines if the USART is in mute mode or not.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void USART_ReceiverWakeUpCmd(USART_TypeDef *USARTx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
USARTx->CTLR1 |= CTLR1_RWU_Set;
}
else
{
USARTx->CTLR1 &= CTLR1_RWU_Reset;
}
}
/*********************************************************************
* @fn USART_LINBreakDetectLengthConfig
*
* @brief Sets the USART LIN Break detection length.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_LINBreakDetectLength - specifies the LIN break detection length.
* USART_LINBreakDetectLength_10b - 10-bit break detection.
* USART_LINBreakDetectLength_11b - 11-bit break detection.
*
* @return none
*/
void USART_LINBreakDetectLengthConfig(USART_TypeDef *USARTx, uint16_t USART_LINBreakDetectLength)
{
USARTx->CTLR2 &= CTLR2_LBDL_Mask;
USARTx->CTLR2 |= USART_LINBreakDetectLength;
}
/*********************************************************************
* @fn USART_LINCmd
*
* @brief Enables or disables the USART LIN mode.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void USART_LINCmd(USART_TypeDef *USARTx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
USARTx->CTLR2 |= CTLR2_LINEN_Set;
}
else
{
USARTx->CTLR2 &= CTLR2_LINEN_Reset;
}
}
/*********************************************************************
* @fn USART_SendData
*
* @brief Transmits single data through the USARTx peripheral.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* Data - the data to transmit.
*
* @return none
*/
void USART_SendData(USART_TypeDef *USARTx, uint16_t Data)
{
USARTx->DATAR = (Data & (uint16_t)0x01FF);
}
/*********************************************************************
* @fn USART_ReceiveData
*
* @brief Returns the most recent received data by the USARTx peripheral.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
*
* @return The received data.
*/
uint16_t USART_ReceiveData(USART_TypeDef *USARTx)
{
return (uint16_t)(USARTx->DATAR & (uint16_t)0x01FF);
}
/*********************************************************************
* @fn USART_SendBreak
*
* @brief Transmits break characters.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
*
* @return none
*/
void USART_SendBreak(USART_TypeDef *USARTx)
{
USARTx->CTLR1 |= CTLR1_SBK_Set;
}
/*********************************************************************
* @fn USART_SetGuardTime
*
* @brief Sets the specified USART guard time.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_GuardTime - specifies the guard time.
*
* @return none
*/
void USART_SetGuardTime(USART_TypeDef *USARTx, uint8_t USART_GuardTime)
{
USARTx->GPR &= GPR_LSB_Mask;
USARTx->GPR |= (uint16_t)((uint16_t)USART_GuardTime << 0x08);
}
/*********************************************************************
* @fn USART_SetPrescaler
*
* @brief Sets the system clock prescaler.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_Prescaler - specifies the prescaler clock.
*
* @return none
*/
void USART_SetPrescaler(USART_TypeDef *USARTx, uint8_t USART_Prescaler)
{
USARTx->GPR &= GPR_MSB_Mask;
USARTx->GPR |= USART_Prescaler;
}
/*********************************************************************
* @fn USART_SmartCardCmd
*
* @brief Enables or disables the USART Smart Card mode.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void USART_SmartCardCmd(USART_TypeDef *USARTx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
USARTx->CTLR3 |= CTLR3_SCEN_Set;
}
else
{
USARTx->CTLR3 &= CTLR3_SCEN_Reset;
}
}
/*********************************************************************
* @fn USART_SmartCardNACKCmd
*
* @brief Enables or disables NACK transmission.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void USART_SmartCardNACKCmd(USART_TypeDef *USARTx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
USARTx->CTLR3 |= CTLR3_NACK_Set;
}
else
{
USARTx->CTLR3 &= CTLR3_NACK_Reset;
}
}
/*********************************************************************
* @fn USART_HalfDuplexCmd
*
* @brief Enables or disables the USART Half Duplex communication.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void USART_HalfDuplexCmd(USART_TypeDef *USARTx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
USARTx->CTLR3 |= CTLR3_HDSEL_Set;
}
else
{
USARTx->CTLR3 &= CTLR3_HDSEL_Reset;
}
}
/*********************************************************************
* @fn USART_OverSampling8Cmd
*
* @brief Enables or disables the USART's 8x oversampling mode.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* NewState - ENABLE or DISABLE.
* Note-
* This function has to be called before calling USART_Init()
* function in order to have correct baudrate Divider value.
* @return none
*/
void USART_OverSampling8Cmd(USART_TypeDef *USARTx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
USARTx->CTLR1 |= CTLR1_OVER8_Set;
}
else
{
USARTx->CTLR1 &= CTLR1_OVER8_Reset;
}
}
/*********************************************************************
* @fn USART_OneBitMethodCmd
*
* @brief Enables or disables the USART's one bit sampling method.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void USART_OneBitMethodCmd(USART_TypeDef *USARTx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
USARTx->CTLR3 |= CTLR3_ONEBITE_Set;
}
else
{
USARTx->CTLR3 &= CTLR3_ONEBITE_Reset;
}
}
/*********************************************************************
* @fn USART_IrDAConfig
*
* @brief Configures the USART's IrDA interface.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_IrDAMode - specifies the IrDA mode.
* USART_IrDAMode_LowPower.
* USART_IrDAMode_Normal.
*
* @return none
*/
void USART_IrDAConfig(USART_TypeDef *USARTx, uint16_t USART_IrDAMode)
{
USARTx->CTLR3 &= CTLR3_IRLP_Mask;
USARTx->CTLR3 |= USART_IrDAMode;
}
/*********************************************************************
* @fn USART_IrDACmd
*
* @brief Enables or disables the USART's IrDA interface.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* NewState - ENABLE or DISABLE.
*
* @return none
*/
void USART_IrDACmd(USART_TypeDef *USARTx, FunctionalState NewState)
{
if(NewState != DISABLE)
{
USARTx->CTLR3 |= CTLR3_IREN_Set;
}
else
{
USARTx->CTLR3 &= CTLR3_IREN_Reset;
}
}
/*********************************************************************
* @fn USART_GetFlagStatus
*
* @brief Checks whether the specified USART flag is set or not.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_FLAG - specifies the flag to check.
* USART_FLAG_LBD - LIN Break detection flag.
* USART_FLAG_TXE - Transmit data register empty flag.
* USART_FLAG_TC - Transmission Complete flag.
* USART_FLAG_RXNE - Receive data register not empty flag.
* USART_FLAG_IDLE - Idle Line detection flag.
* USART_FLAG_ORE - OverRun Error flag.
* USART_FLAG_NE - Noise Error flag.
* USART_FLAG_FE - Framing Error flag.
* USART_FLAG_PE - Parity Error flag.
*
* @return bitstatus: SET or RESET
*/
FlagStatus USART_GetFlagStatus(USART_TypeDef *USARTx, uint16_t USART_FLAG)
{
FlagStatus bitstatus = RESET;
if((USARTx->STATR & USART_FLAG) != (uint16_t)RESET)
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn USART_ClearFlag
*
* @brief Clears the USARTx's pending flags.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_FLAG - specifies the flag to clear.
* USART_FLAG_LBD - LIN Break detection flag.
* USART_FLAG_TC - Transmission Complete flag.
* USART_FLAG_RXNE - Receive data register not empty flag.
* Note-
* - PE (Parity error), FE (Framing error), NE (Noise error), ORE (OverRun
* error) and IDLE (Idle line detected) flags are cleared by software
* sequence: a read operation to USART_STATR register (USART_GetFlagStatus())
* followed by a read operation to USART_DATAR register (USART_ReceiveData()).
* - RXNE flag can be also cleared by a read to the USART_DATAR register
* (USART_ReceiveData()).
* - TC flag can be also cleared by software sequence: a read operation to
* USART_STATR register (USART_GetFlagStatus()) followed by a write operation
* to USART_DATAR register (USART_SendData()).
* - TXE flag is cleared only by a write to the USART_DATAR register
* (USART_SendData()).
* @return none
*/
void USART_ClearFlag(USART_TypeDef *USARTx, uint16_t USART_FLAG)
{
USARTx->STATR = (uint16_t)~USART_FLAG;
}
/*********************************************************************
* @fn USART_GetITStatus
*
* @brief Checks whether the specified USART interrupt has occurred or not.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_IT - specifies the USART interrupt source to check.
* USART_IT_LBD - LIN Break detection interrupt.
* USART_IT_TXE - Tansmit Data Register empty interrupt.
* USART_IT_TC - Transmission complete interrupt.
* USART_IT_RXNE - Receive Data register not empty interrupt.
* USART_IT_IDLE - Idle line detection interrupt.
* USART_IT_ORE_RX - OverRun Error interrupt if the RXNEIE bit is set.
* USART_IT_ORE_ER - OverRun Error interrupt if the EIE bit is set.
* USART_IT_NE - Noise Error interrupt.
* USART_IT_FE - Framing Error interrupt.
* USART_IT_PE - Parity Error interrupt.
*
* @return bitstatus: SET or RESET.
*/
ITStatus USART_GetITStatus(USART_TypeDef *USARTx, uint16_t USART_IT)
{
uint32_t bitpos = 0x00, itmask = 0x00, usartreg = 0x00;
ITStatus bitstatus = RESET;
usartreg = (((uint8_t)USART_IT) >> 0x05);
itmask = USART_IT & IT_Mask;
itmask = (uint32_t)0x01 << itmask;
if(usartreg == 0x01)
{
itmask &= USARTx->CTLR1;
}
else if(usartreg == 0x02)
{
itmask &= USARTx->CTLR2;
}
else
{
itmask &= USARTx->CTLR3;
}
bitpos = USART_IT >> 0x08;
bitpos = (uint32_t)0x01 << bitpos;
bitpos &= USARTx->STATR;
if((itmask != (uint16_t)RESET) && (bitpos != (uint16_t)RESET))
{
bitstatus = SET;
}
else
{
bitstatus = RESET;
}
return bitstatus;
}
/*********************************************************************
* @fn USART_ClearITPendingBit
*
* @brief Clears the USARTx's interrupt pending bits.
*
* @param USARTx - where x can be 1, 2, 3 to select the USART peripheral.
* USART_IT - specifies the interrupt pending bit to clear.
* USART_IT_LBD - LIN Break detection interrupt.
* USART_IT_TC - Transmission complete interrupt.
* USART_IT_RXNE - Receive Data register not empty interrupt.
* Note-
* - PE (Parity error), FE (Framing error), NE (Noise error), ORE (OverRun
* error) and IDLE (Idle line detected) pending bits are cleared by
* software sequence: a read operation to USART_STATR register
* (USART_GetITStatus()) followed by a read operation to USART_DATAR register
* (USART_ReceiveData()).
* - RXNE pending bit can be also cleared by a read to the USART_DATAR register
* (USART_ReceiveData()).
* - TC pending bit can be also cleared by software sequence: a read
* operation to USART_STATR register (USART_GetITStatus()) followed by a write
* operation to USART_DATAR register (USART_SendData()).
* - TXE pending bit is cleared only by a write to the USART_DATAR register
* (USART_SendData()).
* @return none
*/
void USART_ClearITPendingBit(USART_TypeDef *USARTx, uint16_t USART_IT)
{
uint16_t bitpos = 0x00, itmask = 0x00;
bitpos = USART_IT >> 0x08;
itmask = ((uint16_t)0x01 << (uint16_t)bitpos);
USARTx->STATR = (uint16_t)~itmask;
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_wwdg.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file provides all the WWDG firmware functions.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_wwdg.h"
#include "ch32v30x_rcc.h"
/* CTLR register bit mask */
#define CTLR_WDGA_Set ((uint32_t)0x00000080)
/* CFGR register bit mask */
#define CFGR_WDGTB_Mask ((uint32_t)0xFFFFFE7F)
#define CFGR_W_Mask ((uint32_t)0xFFFFFF80)
#define BIT_Mask ((uint8_t)0x7F)
/*********************************************************************
* @fn WWDG_DeInit
*
* @brief Deinitializes the WWDG peripheral registers to their default reset values
*
* @return none
*/
void WWDG_DeInit(void)
{
RCC_APB1PeriphResetCmd(RCC_APB1Periph_WWDG, ENABLE);
RCC_APB1PeriphResetCmd(RCC_APB1Periph_WWDG, DISABLE);
}
/*********************************************************************
* @fn WWDG_SetPrescaler
*
* @brief Sets the WWDG Prescaler
*
* @param WWDG_Prescaler - specifies the WWDG Prescaler
* WWDG_Prescaler_1 - WWDG counter clock = (PCLK1/4096)/1
* WWDG_Prescaler_2 - WWDG counter clock = (PCLK1/4096)/2
* WWDG_Prescaler_4 - WWDG counter clock = (PCLK1/4096)/4
* WWDG_Prescaler_8 - WWDG counter clock = (PCLK1/4096)/8
*
* @return none
*/
void WWDG_SetPrescaler(uint32_t WWDG_Prescaler)
{
uint32_t tmpreg = 0;
tmpreg = WWDG->CFGR & CFGR_WDGTB_Mask;
tmpreg |= WWDG_Prescaler;
WWDG->CFGR = tmpreg;
}
/*********************************************************************
* @fn WWDG_SetWindowValue
*
* @brief Sets the WWDG window value
*
* @param WindowValue - specifies the window value to be compared to the
* downcounter,which must be lower than 0x80
*
* @return none
*/
void WWDG_SetWindowValue(uint8_t WindowValue)
{
__IO uint32_t tmpreg = 0;
tmpreg = WWDG->CFGR & CFGR_W_Mask;
tmpreg |= WindowValue & (uint32_t)BIT_Mask;
WWDG->CFGR = tmpreg;
}
/*********************************************************************
* @fn WWDG_EnableIT
*
* @brief Enables the WWDG Early Wakeup interrupt(EWI)
*
* @return none
*/
void WWDG_EnableIT(void)
{
WWDG->CFGR |= (1 << 9);
}
/*********************************************************************
* @fn WWDG_SetCounter
*
* @brief Sets the WWDG counter value
*
* @param Counter - specifies the watchdog counter value,which must be a
* number between 0x40 and 0x7F
*
* @return none
*/
void WWDG_SetCounter(uint8_t Counter)
{
WWDG->CTLR = Counter & BIT_Mask;
}
/*********************************************************************
* @fn WWDG_Enable
*
* @brief Enables WWDG and load the counter value
*
* @param Counter - specifies the watchdog counter value,which must be a
* number between 0x40 and 0x7F
* @return none
*/
void WWDG_Enable(uint8_t Counter)
{
WWDG->CTLR = CTLR_WDGA_Set | Counter;
}
/*********************************************************************
* @fn WWDG_GetFlagStatus
*
* @brief Checks whether the Early Wakeup interrupt flag is set or not
*
* @return The new state of the Early Wakeup interrupt flag (SET or RESET)
*/
FlagStatus WWDG_GetFlagStatus(void)
{
return (FlagStatus)(WWDG->STATR);
}
/*********************************************************************
* @fn WWDG_ClearFlag
*
* @brief Clears Early Wakeup interrupt flag
*
* @return none
*/
void WWDG_ClearFlag(void)
{
WWDG->STATR = (uint32_t)RESET;
}

371
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/********************************** (C) COPYRIGHT *******************************
* File Name : startup_ch32v30x_D8.s
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : CH32V303x vector table for eclipse toolchain.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
.section .init,"ax",@progbits
.global _start
.align 1
_start:
j handle_reset
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00100073
.section .vector,"ax",@progbits
.align 1
_vector_base:
.option norvc;
.word _start
.word 0
.word NMI_Handler /* NMI */
.word HardFault_Handler /* Hard Fault */
.word 0
.word Ecall_M_Mode_Handler /* Ecall M Mode */
.word 0
.word 0
.word Ecall_U_Mode_Handler /* Ecall U Mode */
.word Break_Point_Handler /* Break Point */
.word 0
.word 0
.word SysTick_Handler /* SysTick */
.word 0
.word SW_Handler /* SW */
.word 0
/* External Interrupts */
.word WWDG_IRQHandler /* Window Watchdog */
.word PVD_IRQHandler /* PVD through EXTI Line detect */
.word TAMPER_IRQHandler /* TAMPER */
.word RTC_IRQHandler /* RTC */
.word FLASH_IRQHandler /* Flash */
.word RCC_IRQHandler /* RCC */
.word EXTI0_IRQHandler /* EXTI Line 0 */
.word EXTI1_IRQHandler /* EXTI Line 1 */
.word EXTI2_IRQHandler /* EXTI Line 2 */
.word EXTI3_IRQHandler /* EXTI Line 3 */
.word EXTI4_IRQHandler /* EXTI Line 4 */
.word DMA1_Channel1_IRQHandler /* DMA1 Channel 1 */
.word DMA1_Channel2_IRQHandler /* DMA1 Channel 2 */
.word DMA1_Channel3_IRQHandler /* DMA1 Channel 3 */
.word DMA1_Channel4_IRQHandler /* DMA1 Channel 4 */
.word DMA1_Channel5_IRQHandler /* DMA1 Channel 5 */
.word DMA1_Channel6_IRQHandler /* DMA1 Channel 6 */
.word DMA1_Channel7_IRQHandler /* DMA1 Channel 7 */
.word ADC1_2_IRQHandler /* ADC1_2 */
.word USB_HP_CAN1_TX_IRQHandler /* USB HP and CAN1 TX */
.word USB_LP_CAN1_RX0_IRQHandler /* USB LP and CAN1RX0 */
.word CAN1_RX1_IRQHandler /* CAN1 RX1 */
.word CAN1_SCE_IRQHandler /* CAN1 SCE */
.word EXTI9_5_IRQHandler /* EXTI Line 9..5 */
.word TIM1_BRK_IRQHandler /* TIM1 Break */
.word TIM1_UP_IRQHandler /* TIM1 Update */
.word TIM1_TRG_COM_IRQHandler /* TIM1 Trigger and Commutation */
.word TIM1_CC_IRQHandler /* TIM1 Capture Compare */
.word TIM2_IRQHandler /* TIM2 */
.word TIM3_IRQHandler /* TIM3 */
.word TIM4_IRQHandler /* TIM4 */
.word I2C1_EV_IRQHandler /* I2C1 Event */
.word I2C1_ER_IRQHandler /* I2C1 Error */
.word I2C2_EV_IRQHandler /* I2C2 Event */
.word I2C2_ER_IRQHandler /* I2C2 Error */
.word SPI1_IRQHandler /* SPI1 */
.word SPI2_IRQHandler /* SPI2 */
.word USART1_IRQHandler /* USART1 */
.word USART2_IRQHandler /* USART2 */
.word USART3_IRQHandler /* USART3 */
.word EXTI15_10_IRQHandler /* EXTI Line 15..10 */
.word RTCAlarm_IRQHandler /* RTC Alarm through EXTI Line */
.word 0
.word TIM8_BRK_IRQHandler /* TIM8 Break */
.word TIM8_UP_IRQHandler /* TIM8 Update */
.word TIM8_TRG_COM_IRQHandler /* TIM8 Trigger and Commutation */
.word TIM8_CC_IRQHandler /* TIM8 Capture Compare */
.word RNG_IRQHandler /* RNG */
.word FSMC_IRQHandler /* FSMC */
.word SDIO_IRQHandler /* SDIO */
.word TIM5_IRQHandler /* TIM5 */
.word SPI3_IRQHandler /* SPI3 */
.word UART4_IRQHandler /* UART4 */
.word UART5_IRQHandler /* UART5 */
.word TIM6_IRQHandler /* TIM6 */
.word TIM7_IRQHandler /* TIM7 */
.word DMA2_Channel1_IRQHandler /* DMA2 Channel 1 */
.word DMA2_Channel2_IRQHandler /* DMA2 Channel 2 */
.word DMA2_Channel3_IRQHandler /* DMA2 Channel 3 */
.word DMA2_Channel4_IRQHandler /* DMA2 Channel 4 */
.word DMA2_Channel5_IRQHandler /* DMA2 Channel 5 */
.word 0
.word 0
.word 0
.word 0
.word 0
.word 0
.word OTG_FS_IRQHandler /* OTGFS */
.word 0
.word 0
.word 0
.word UART6_IRQHandler /* UART6 */
.word UART7_IRQHandler /* UART7 */
.word UART8_IRQHandler /* UART8 */
.word TIM9_BRK_IRQHandler /* TIM9 Break */
.word TIM9_UP_IRQHandler /* TIM9 Update */
.word TIM9_TRG_COM_IRQHandler /* TIM9 Trigger and Commutation */
.word TIM9_CC_IRQHandler /* TIM9 Capture Compare */
.word TIM10_BRK_IRQHandler /* TIM10 Break */
.word TIM10_UP_IRQHandler /* TIM10 Update */
.word TIM10_TRG_COM_IRQHandler /* TIM10 Trigger and Commutation */
.word TIM10_CC_IRQHandler /* TIM10 Capture Compare */
.word DMA2_Channel6_IRQHandler /* DMA2 Channel 6 */
.word DMA2_Channel7_IRQHandler /* DMA2 Channel 7 */
.word DMA2_Channel8_IRQHandler /* DMA2 Channel 8 */
.word DMA2_Channel9_IRQHandler /* DMA2 Channel 9 */
.word DMA2_Channel10_IRQHandler /* DMA2 Channel 10 */
.word DMA2_Channel11_IRQHandler /* DMA2 Channel 11 */
.option rvc;
.section .text.vector_handler, "ax", @progbits
.weak NMI_Handler /* NMI */
.weak HardFault_Handler /* Hard Fault */
.weak Ecall_M_Mode_Handler /* Ecall M Mode */
.weak Ecall_U_Mode_Handler /* Ecall U Mode */
.weak Break_Point_Handler /* Break Point */
.weak SysTick_Handler /* SysTick */
.weak SW_Handler /* SW */
.weak WWDG_IRQHandler /* Window Watchdog */
.weak PVD_IRQHandler /* PVD through EXTI Line detect */
.weak TAMPER_IRQHandler /* TAMPER */
.weak RTC_IRQHandler /* RTC */
.weak FLASH_IRQHandler /* Flash */
.weak RCC_IRQHandler /* RCC */
.weak EXTI0_IRQHandler /* EXTI Line 0 */
.weak EXTI1_IRQHandler /* EXTI Line 1 */
.weak EXTI2_IRQHandler /* EXTI Line 2 */
.weak EXTI3_IRQHandler /* EXTI Line 3 */
.weak EXTI4_IRQHandler /* EXTI Line 4 */
.weak DMA1_Channel1_IRQHandler /* DMA1 Channel 1 */
.weak DMA1_Channel2_IRQHandler /* DMA1 Channel 2 */
.weak DMA1_Channel3_IRQHandler /* DMA1 Channel 3 */
.weak DMA1_Channel4_IRQHandler /* DMA1 Channel 4 */
.weak DMA1_Channel5_IRQHandler /* DMA1 Channel 5 */
.weak DMA1_Channel6_IRQHandler /* DMA1 Channel 6 */
.weak DMA1_Channel7_IRQHandler /* DMA1 Channel 7 */
.weak ADC1_2_IRQHandler /* ADC1_2 */
.weak USB_HP_CAN1_TX_IRQHandler /* USB HP and CAN1 TX */
.weak USB_LP_CAN1_RX0_IRQHandler /* USB LP and CAN1RX0 */
.weak CAN1_RX1_IRQHandler /* CAN1 RX1 */
.weak CAN1_SCE_IRQHandler /* CAN1 SCE */
.weak EXTI9_5_IRQHandler /* EXTI Line 9..5 */
.weak TIM1_BRK_IRQHandler /* TIM1 Break */
.weak TIM1_UP_IRQHandler /* TIM1 Update */
.weak TIM1_TRG_COM_IRQHandler /* TIM1 Trigger and Commutation */
.weak TIM1_CC_IRQHandler /* TIM1 Capture Compare */
.weak TIM2_IRQHandler /* TIM2 */
.weak TIM3_IRQHandler /* TIM3 */
.weak TIM4_IRQHandler /* TIM4 */
.weak I2C1_EV_IRQHandler /* I2C1 Event */
.weak I2C1_ER_IRQHandler /* I2C1 Error */
.weak I2C2_EV_IRQHandler /* I2C2 Event */
.weak I2C2_ER_IRQHandler /* I2C2 Error */
.weak SPI1_IRQHandler /* SPI1 */
.weak SPI2_IRQHandler /* SPI2 */
.weak USART1_IRQHandler /* USART1 */
.weak USART2_IRQHandler /* USART2 */
.weak USART3_IRQHandler /* USART3 */
.weak EXTI15_10_IRQHandler /* EXTI Line 15..10 */
.weak RTCAlarm_IRQHandler /* RTC Alarm through EXTI Line */
.weak TIM8_BRK_IRQHandler /* TIM8 Break */
.weak TIM8_UP_IRQHandler /* TIM8 Update */
.weak TIM8_TRG_COM_IRQHandler /* TIM8 Trigger and Commutation */
.weak TIM8_CC_IRQHandler /* TIM8 Capture Compare */
.weak RNG_IRQHandler /* RNG */
.weak FSMC_IRQHandler /* FSMC */
.weak SDIO_IRQHandler /* SDIO */
.weak TIM5_IRQHandler /* TIM5 */
.weak SPI3_IRQHandler /* SPI3 */
.weak UART4_IRQHandler /* UART4 */
.weak UART5_IRQHandler /* UART5 */
.weak TIM6_IRQHandler /* TIM6 */
.weak TIM7_IRQHandler /* TIM7 */
.weak DMA2_Channel1_IRQHandler /* DMA2 Channel 1 */
.weak DMA2_Channel2_IRQHandler /* DMA2 Channel 2 */
.weak DMA2_Channel3_IRQHandler /* DMA2 Channel 3 */
.weak DMA2_Channel4_IRQHandler /* DMA2 Channel 4 */
.weak DMA2_Channel5_IRQHandler /* DMA2 Channel 5 */
.weak OTG_FS_IRQHandler /* OTGFS */
.weak UART6_IRQHandler /* UART6 */
.weak UART7_IRQHandler /* UART7 */
.weak UART8_IRQHandler /* UART8 */
.weak TIM9_BRK_IRQHandler /* TIM9 Break */
.weak TIM9_UP_IRQHandler /* TIM9 Update */
.weak TIM9_TRG_COM_IRQHandler /* TIM9 Trigger and Commutation */
.weak TIM9_CC_IRQHandler /* TIM9 Capture Compare */
.weak TIM10_BRK_IRQHandler /* TIM10 Break */
.weak TIM10_UP_IRQHandler /* TIM10 Update */
.weak TIM10_TRG_COM_IRQHandler /* TIM10 Trigger and Commutation */
.weak TIM10_CC_IRQHandler /* TIM10 Capture Compare */
.weak DMA2_Channel6_IRQHandler /* DMA2 Channel 6 */
.weak DMA2_Channel7_IRQHandler /* DMA2 Channel 7 */
.weak DMA2_Channel8_IRQHandler /* DMA2 Channel 8 */
.weak DMA2_Channel9_IRQHandler /* DMA2 Channel 9 */
.weak DMA2_Channel10_IRQHandler /* DMA2 Channel 10 */
.weak DMA2_Channel11_IRQHandler /* DMA2 Channel 11 */
NMI_Handler: 1: j 1b
HardFault_Handler: 1: j 1b
Ecall_M_Mode_Handler: 1: j 1b
Ecall_U_Mode_Handler: 1: j 1b
Break_Point_Handler: 1: j 1b
SysTick_Handler: 1: j 1b
SW_Handler: 1: j 1b
WWDG_IRQHandler: 1: j 1b
PVD_IRQHandler: 1: j 1b
TAMPER_IRQHandler: 1: j 1b
RTC_IRQHandler: 1: j 1b
FLASH_IRQHandler: 1: j 1b
RCC_IRQHandler: 1: j 1b
EXTI0_IRQHandler: 1: j 1b
EXTI1_IRQHandler: 1: j 1b
EXTI2_IRQHandler: 1: j 1b
EXTI3_IRQHandler: 1: j 1b
EXTI4_IRQHandler: 1: j 1b
DMA1_Channel1_IRQHandler: 1: j 1b
DMA1_Channel2_IRQHandler: 1: j 1b
DMA1_Channel3_IRQHandler: 1: j 1b
DMA1_Channel4_IRQHandler: 1: j 1b
DMA1_Channel5_IRQHandler: 1: j 1b
DMA1_Channel6_IRQHandler: 1: j 1b
DMA1_Channel7_IRQHandler: 1: j 1b
ADC1_2_IRQHandler: 1: j 1b
USB_HP_CAN1_TX_IRQHandler: 1: j 1b
USB_LP_CAN1_RX0_IRQHandler: 1: j 1b
CAN1_RX1_IRQHandler: 1: j 1b
CAN1_SCE_IRQHandler: 1: j 1b
EXTI9_5_IRQHandler: 1: j 1b
TIM1_BRK_IRQHandler: 1: j 1b
TIM1_UP_IRQHandler: 1: j 1b
TIM1_TRG_COM_IRQHandler: 1: j 1b
TIM1_CC_IRQHandler: 1: j 1b
TIM2_IRQHandler: 1: j 1b
TIM3_IRQHandler: 1: j 1b
TIM4_IRQHandler: 1: j 1b
I2C1_EV_IRQHandler: 1: j 1b
I2C1_ER_IRQHandler: 1: j 1b
I2C2_EV_IRQHandler: 1: j 1b
I2C2_ER_IRQHandler: 1: j 1b
SPI1_IRQHandler: 1: j 1b
SPI2_IRQHandler: 1: j 1b
USART1_IRQHandler: 1: j 1b
USART2_IRQHandler: 1: j 1b
USART3_IRQHandler: 1: j 1b
EXTI15_10_IRQHandler: 1: j 1b
RTCAlarm_IRQHandler: 1: j 1b
TIM8_BRK_IRQHandler: 1: j 1b
TIM8_UP_IRQHandler: 1: j 1b
TIM8_TRG_COM_IRQHandler: 1: j 1b
TIM8_CC_IRQHandler: 1: j 1b
RNG_IRQHandler: 1: j 1b
FSMC_IRQHandler: 1: j 1b
SDIO_IRQHandler: 1: j 1b
TIM5_IRQHandler: 1: j 1b
SPI3_IRQHandler: 1: j 1b
UART4_IRQHandler: 1: j 1b
UART5_IRQHandler: 1: j 1b
TIM6_IRQHandler: 1: j 1b
TIM7_IRQHandler: 1: j 1b
DMA2_Channel1_IRQHandler: 1: j 1b
DMA2_Channel2_IRQHandler: 1: j 1b
DMA2_Channel3_IRQHandler: 1: j 1b
DMA2_Channel4_IRQHandler: 1: j 1b
DMA2_Channel5_IRQHandler: 1: j 1b
OTG_FS_IRQHandler: 1: j 1b
UART6_IRQHandler: 1: j 1b
UART7_IRQHandler: 1: j 1b
UART8_IRQHandler: 1: j 1b
TIM9_BRK_IRQHandler: 1: j 1b
TIM9_UP_IRQHandler: 1: j 1b
TIM9_TRG_COM_IRQHandler: 1: j 1b
TIM9_CC_IRQHandler: 1: j 1b
TIM10_BRK_IRQHandler: 1: j 1b
TIM10_UP_IRQHandler: 1: j 1b
TIM10_TRG_COM_IRQHandler: 1: j 1b
TIM10_CC_IRQHandler: 1: j 1b
DMA2_Channel6_IRQHandler: 1: j 1b
DMA2_Channel7_IRQHandler: 1: j 1b
DMA2_Channel8_IRQHandler: 1: j 1b
DMA2_Channel9_IRQHandler: 1: j 1b
DMA2_Channel10_IRQHandler: 1: j 1b
DMA2_Channel11_IRQHandler: 1: j 1b
.section .text.handle_reset,"ax",@progbits
.weak handle_reset
.align 1
handle_reset:
.option push
.option norelax
la gp, __global_pointer$
.option pop
1:
la sp, _eusrstack
2:
/* Load data section from flash to RAM */
la a0, _data_lma
la a1, _data_vma
la a2, _edata
bgeu a1, a2, 2f
1:
lw t0, (a0)
sw t0, (a1)
addi a0, a0, 4
addi a1, a1, 4
bltu a1, a2, 1b
2:
/* Clear bss section */
la a0, _sbss
la a1, _ebss
bgeu a0, a1, 2f
1:
sw zero, (a0)
addi a0, a0, 4
bltu a0, a1, 1b
2:
li t0, 0x1f
csrw 0xbc0, t0
/* Enable nested and hardware stack */
li t0, 0x0b
csrw 0x804, t0
/* Enable floating point and interrupt */
li t0, 0x6088
csrs mstatus, t0
la t0, _vector_base
ori t0, t0, 3
csrw mtvec, t0
jal SystemInit
la t0, main
csrw mepc, t0
mret

389
ch32v307_lvgl_ili9341/Startup/startup_ch32v30x_D8C.S Normal file
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/********************************** (C) COPYRIGHT *******************************
* File Name : startup_ch32v30x_D8C.s
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : CH32V307x-CH32V305x vector table for eclipse toolchain.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
.section .init,"ax",@progbits
.global _start
.align 1
_start:
j handle_reset
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00000013
.word 0x00100073
.section .vector,"ax",@progbits
.align 1
_vector_base:
.option norvc;
.word _start
.word 0
.word NMI_Handler /* NMI */
.word HardFault_Handler /* Hard Fault */
.word 0
.word Ecall_M_Mode_Handler /* Ecall M Mode */
.word 0
.word 0
.word Ecall_U_Mode_Handler /* Ecall U Mode */
.word Break_Point_Handler /* Break Point */
.word 0
.word 0
.word SysTick_Handler /* SysTick */
.word 0
.word SW_Handler /* SW */
.word 0
/* External Interrupts */
.word WWDG_IRQHandler /* Window Watchdog */
.word PVD_IRQHandler /* PVD through EXTI Line detect */
.word TAMPER_IRQHandler /* TAMPER */
.word RTC_IRQHandler /* RTC */
.word FLASH_IRQHandler /* Flash */
.word RCC_IRQHandler /* RCC */
.word EXTI0_IRQHandler /* EXTI Line 0 */
.word EXTI1_IRQHandler /* EXTI Line 1 */
.word EXTI2_IRQHandler /* EXTI Line 2 */
.word EXTI3_IRQHandler /* EXTI Line 3 */
.word EXTI4_IRQHandler /* EXTI Line 4 */
.word DMA1_Channel1_IRQHandler /* DMA1 Channel 1 */
.word DMA1_Channel2_IRQHandler /* DMA1 Channel 2 */
.word DMA1_Channel3_IRQHandler /* DMA1 Channel 3 */
.word DMA1_Channel4_IRQHandler /* DMA1 Channel 4 */
.word DMA1_Channel5_IRQHandler /* DMA1 Channel 5 */
.word DMA1_Channel6_IRQHandler /* DMA1 Channel 6 */
.word DMA1_Channel7_IRQHandler /* DMA1 Channel 7 */
.word ADC1_2_IRQHandler /* ADC1_2 */
.word USB_HP_CAN1_TX_IRQHandler /* USB HP and CAN1 TX */
.word USB_LP_CAN1_RX0_IRQHandler /* USB LP and CAN1RX0 */
.word CAN1_RX1_IRQHandler /* CAN1 RX1 */
.word CAN1_SCE_IRQHandler /* CAN1 SCE */
.word EXTI9_5_IRQHandler /* EXTI Line 9..5 */
.word TIM1_BRK_IRQHandler /* TIM1 Break */
.word TIM1_UP_IRQHandler /* TIM1 Update */
.word TIM1_TRG_COM_IRQHandler /* TIM1 Trigger and Commutation */
.word TIM1_CC_IRQHandler /* TIM1 Capture Compare */
.word TIM2_IRQHandler /* TIM2 */
.word TIM3_IRQHandler /* TIM3 */
.word TIM4_IRQHandler /* TIM4 */
.word I2C1_EV_IRQHandler /* I2C1 Event */
.word I2C1_ER_IRQHandler /* I2C1 Error */
.word I2C2_EV_IRQHandler /* I2C2 Event */
.word I2C2_ER_IRQHandler /* I2C2 Error */
.word SPI1_IRQHandler /* SPI1 */
.word SPI2_IRQHandler /* SPI2 */
.word USART1_IRQHandler /* USART1 */
.word USART2_IRQHandler /* USART2 */
.word USART3_IRQHandler /* USART3 */
.word EXTI15_10_IRQHandler /* EXTI Line 15..10 */
.word RTCAlarm_IRQHandler /* RTC Alarm through EXTI Line */
.word USBWakeUp_IRQHandler /* USB Wakeup from suspend */
.word TIM8_BRK_IRQHandler /* TIM8 Break */
.word TIM8_UP_IRQHandler /* TIM8 Update */
.word TIM8_TRG_COM_IRQHandler /* TIM8 Trigger and Commutation */
.word TIM8_CC_IRQHandler /* TIM8 Capture Compare */
.word RNG_IRQHandler /* RNG */
.word FSMC_IRQHandler /* FSMC */
.word SDIO_IRQHandler /* SDIO */
.word TIM5_IRQHandler /* TIM5 */
.word SPI3_IRQHandler /* SPI3 */
.word UART4_IRQHandler /* UART4 */
.word UART5_IRQHandler /* UART5 */
.word TIM6_IRQHandler /* TIM6 */
.word TIM7_IRQHandler /* TIM7 */
.word DMA2_Channel1_IRQHandler /* DMA2 Channel 1 */
.word DMA2_Channel2_IRQHandler /* DMA2 Channel 2 */
.word DMA2_Channel3_IRQHandler /* DMA2 Channel 3 */
.word DMA2_Channel4_IRQHandler /* DMA2 Channel 4 */
.word DMA2_Channel5_IRQHandler /* DMA2 Channel 5 */
.word ETH_IRQHandler /* ETH */
.word ETH_WKUP_IRQHandler /* ETH WakeUp */
.word CAN2_TX_IRQHandler /* CAN2 TX */
.word CAN2_RX0_IRQHandler /* CAN2 RX0 */
.word CAN2_RX1_IRQHandler /* CAN2 RX1 */
.word CAN2_SCE_IRQHandler /* CAN2 SCE */
.word OTG_FS_IRQHandler /* OTGFS */
.word USBHSWakeup_IRQHandler /* USBHS Wakeup */
.word USBHS_IRQHandler /* USBHS */
.word DVP_IRQHandler /* DVP */
.word UART6_IRQHandler /* UART6 */
.word UART7_IRQHandler /* UART7 */
.word UART8_IRQHandler /* UART8 */
.word TIM9_BRK_IRQHandler /* TIM9 Break */
.word TIM9_UP_IRQHandler /* TIM9 Update */
.word TIM9_TRG_COM_IRQHandler /* TIM9 Trigger and Commutation */
.word TIM9_CC_IRQHandler /* TIM9 Capture Compare */
.word TIM10_BRK_IRQHandler /* TIM10 Break */
.word TIM10_UP_IRQHandler /* TIM10 Update */
.word TIM10_TRG_COM_IRQHandler /* TIM10 Trigger and Commutation */
.word TIM10_CC_IRQHandler /* TIM10 Capture Compare */
.word DMA2_Channel6_IRQHandler /* DMA2 Channel 6 */
.word DMA2_Channel7_IRQHandler /* DMA2 Channel 7 */
.word DMA2_Channel8_IRQHandler /* DMA2 Channel 8 */
.word DMA2_Channel9_IRQHandler /* DMA2 Channel 9 */
.word DMA2_Channel10_IRQHandler /* DMA2 Channel 10 */
.word DMA2_Channel11_IRQHandler /* DMA2 Channel 11 */
.option rvc;
.section .text.vector_handler, "ax", @progbits
.weak NMI_Handler /* NMI */
.weak HardFault_Handler /* Hard Fault */
.weak Ecall_M_Mode_Handler /* Ecall M Mode */
.weak Ecall_U_Mode_Handler /* Ecall U Mode */
.weak Break_Point_Handler /* Break Point */
.weak SysTick_Handler /* SysTick */
.weak SW_Handler /* SW */
.weak WWDG_IRQHandler /* Window Watchdog */
.weak PVD_IRQHandler /* PVD through EXTI Line detect */
.weak TAMPER_IRQHandler /* TAMPER */
.weak RTC_IRQHandler /* RTC */
.weak FLASH_IRQHandler /* Flash */
.weak RCC_IRQHandler /* RCC */
.weak EXTI0_IRQHandler /* EXTI Line 0 */
.weak EXTI1_IRQHandler /* EXTI Line 1 */
.weak EXTI2_IRQHandler /* EXTI Line 2 */
.weak EXTI3_IRQHandler /* EXTI Line 3 */
.weak EXTI4_IRQHandler /* EXTI Line 4 */
.weak DMA1_Channel1_IRQHandler /* DMA1 Channel 1 */
.weak DMA1_Channel2_IRQHandler /* DMA1 Channel 2 */
.weak DMA1_Channel3_IRQHandler /* DMA1 Channel 3 */
.weak DMA1_Channel4_IRQHandler /* DMA1 Channel 4 */
.weak DMA1_Channel5_IRQHandler /* DMA1 Channel 5 */
.weak DMA1_Channel6_IRQHandler /* DMA1 Channel 6 */
.weak DMA1_Channel7_IRQHandler /* DMA1 Channel 7 */
.weak ADC1_2_IRQHandler /* ADC1_2 */
.weak USB_HP_CAN1_TX_IRQHandler /* USB HP and CAN1 TX */
.weak USB_LP_CAN1_RX0_IRQHandler /* USB LP and CAN1RX0 */
.weak CAN1_RX1_IRQHandler /* CAN1 RX1 */
.weak CAN1_SCE_IRQHandler /* CAN1 SCE */
.weak EXTI9_5_IRQHandler /* EXTI Line 9..5 */
.weak TIM1_BRK_IRQHandler /* TIM1 Break */
.weak TIM1_UP_IRQHandler /* TIM1 Update */
.weak TIM1_TRG_COM_IRQHandler /* TIM1 Trigger and Commutation */
.weak TIM1_CC_IRQHandler /* TIM1 Capture Compare */
.weak TIM2_IRQHandler /* TIM2 */
.weak TIM3_IRQHandler /* TIM3 */
.weak TIM4_IRQHandler /* TIM4 */
.weak I2C1_EV_IRQHandler /* I2C1 Event */
.weak I2C1_ER_IRQHandler /* I2C1 Error */
.weak I2C2_EV_IRQHandler /* I2C2 Event */
.weak I2C2_ER_IRQHandler /* I2C2 Error */
.weak SPI1_IRQHandler /* SPI1 */
.weak SPI2_IRQHandler /* SPI2 */
.weak USART1_IRQHandler /* USART1 */
.weak USART2_IRQHandler /* USART2 */
.weak USART3_IRQHandler /* USART3 */
.weak EXTI15_10_IRQHandler /* EXTI Line 15..10 */
.weak RTCAlarm_IRQHandler /* RTC Alarm through EXTI Line */
.weak USBWakeUp_IRQHandler /* USB Wakeup from suspend */
.weak TIM8_BRK_IRQHandler /* TIM8 Break */
.weak TIM8_UP_IRQHandler /* TIM8 Update */
.weak TIM8_TRG_COM_IRQHandler /* TIM8 Trigger and Commutation */
.weak TIM8_CC_IRQHandler /* TIM8 Capture Compare */
.weak RNG_IRQHandler /* RNG */
.weak FSMC_IRQHandler /* FSMC */
.weak SDIO_IRQHandler /* SDIO */
.weak TIM5_IRQHandler /* TIM5 */
.weak SPI3_IRQHandler /* SPI3 */
.weak UART4_IRQHandler /* UART4 */
.weak UART5_IRQHandler /* UART5 */
.weak TIM6_IRQHandler /* TIM6 */
.weak TIM7_IRQHandler /* TIM7 */
.weak DMA2_Channel1_IRQHandler /* DMA2 Channel 1 */
.weak DMA2_Channel2_IRQHandler /* DMA2 Channel 2 */
.weak DMA2_Channel3_IRQHandler /* DMA2 Channel 3 */
.weak DMA2_Channel4_IRQHandler /* DMA2 Channel 4 */
.weak DMA2_Channel5_IRQHandler /* DMA2 Channel 5 */
.weak ETH_IRQHandler /* ETH */
.weak ETH_WKUP_IRQHandler /* ETH WakeUp */
.weak CAN2_TX_IRQHandler /* CAN2 TX */
.weak CAN2_RX0_IRQHandler /* CAN2 RX0 */
.weak CAN2_RX1_IRQHandler /* CAN2 RX1 */
.weak CAN2_SCE_IRQHandler /* CAN2 SCE */
.weak OTG_FS_IRQHandler /* OTGFS */
.weak USBHSWakeup_IRQHandler /* USBHS Wakeup */
.weak USBHS_IRQHandler /* USBHS */
.weak DVP_IRQHandler /* DVP */
.weak UART6_IRQHandler /* UART6 */
.weak UART7_IRQHandler /* UART7 */
.weak UART8_IRQHandler /* UART8 */
.weak TIM9_BRK_IRQHandler /* TIM9 Break */
.weak TIM9_UP_IRQHandler /* TIM9 Update */
.weak TIM9_TRG_COM_IRQHandler /* TIM9 Trigger and Commutation */
.weak TIM9_CC_IRQHandler /* TIM9 Capture Compare */
.weak TIM10_BRK_IRQHandler /* TIM10 Break */
.weak TIM10_UP_IRQHandler /* TIM10 Update */
.weak TIM10_TRG_COM_IRQHandler /* TIM10 Trigger and Commutation */
.weak TIM10_CC_IRQHandler /* TIM10 Capture Compare */
.weak DMA2_Channel6_IRQHandler /* DMA2 Channel 6 */
.weak DMA2_Channel7_IRQHandler /* DMA2 Channel 7 */
.weak DMA2_Channel8_IRQHandler /* DMA2 Channel 8 */
.weak DMA2_Channel9_IRQHandler /* DMA2 Channel 9 */
.weak DMA2_Channel10_IRQHandler /* DMA2 Channel 10 */
.weak DMA2_Channel11_IRQHandler /* DMA2 Channel 11 */
NMI_Handler: 1: j 1b
HardFault_Handler: 1: j 1b
Ecall_M_Mode_Handler: 1: j 1b
Ecall_U_Mode_Handler: 1: j 1b
Break_Point_Handler: 1: j 1b
SysTick_Handler: 1: j 1b
SW_Handler: 1: j 1b
WWDG_IRQHandler: 1: j 1b
PVD_IRQHandler: 1: j 1b
TAMPER_IRQHandler: 1: j 1b
RTC_IRQHandler: 1: j 1b
FLASH_IRQHandler: 1: j 1b
RCC_IRQHandler: 1: j 1b
EXTI0_IRQHandler: 1: j 1b
EXTI1_IRQHandler: 1: j 1b
EXTI2_IRQHandler: 1: j 1b
EXTI3_IRQHandler: 1: j 1b
EXTI4_IRQHandler: 1: j 1b
DMA1_Channel1_IRQHandler: 1: j 1b
DMA1_Channel2_IRQHandler: 1: j 1b
DMA1_Channel3_IRQHandler: 1: j 1b
DMA1_Channel4_IRQHandler: 1: j 1b
DMA1_Channel5_IRQHandler: 1: j 1b
DMA1_Channel6_IRQHandler: 1: j 1b
DMA1_Channel7_IRQHandler: 1: j 1b
ADC1_2_IRQHandler: 1: j 1b
USB_HP_CAN1_TX_IRQHandler: 1: j 1b
USB_LP_CAN1_RX0_IRQHandler: 1: j 1b
CAN1_RX1_IRQHandler: 1: j 1b
CAN1_SCE_IRQHandler: 1: j 1b
EXTI9_5_IRQHandler: 1: j 1b
TIM1_BRK_IRQHandler: 1: j 1b
TIM1_UP_IRQHandler: 1: j 1b
TIM1_TRG_COM_IRQHandler: 1: j 1b
TIM1_CC_IRQHandler: 1: j 1b
TIM2_IRQHandler: 1: j 1b
TIM3_IRQHandler: 1: j 1b
TIM4_IRQHandler: 1: j 1b
I2C1_EV_IRQHandler: 1: j 1b
I2C1_ER_IRQHandler: 1: j 1b
I2C2_EV_IRQHandler: 1: j 1b
I2C2_ER_IRQHandler: 1: j 1b
SPI1_IRQHandler: 1: j 1b
SPI2_IRQHandler: 1: j 1b
USART1_IRQHandler: 1: j 1b
USART2_IRQHandler: 1: j 1b
USART3_IRQHandler: 1: j 1b
EXTI15_10_IRQHandler: 1: j 1b
RTCAlarm_IRQHandler: 1: j 1b
USBWakeUp_IRQHandler: 1: j 1b
TIM8_BRK_IRQHandler: 1: j 1b
TIM8_UP_IRQHandler: 1: j 1b
TIM8_TRG_COM_IRQHandler: 1: j 1b
TIM8_CC_IRQHandler: 1: j 1b
RNG_IRQHandler: 1: j 1b
FSMC_IRQHandler: 1: j 1b
SDIO_IRQHandler: 1: j 1b
TIM5_IRQHandler: 1: j 1b
SPI3_IRQHandler: 1: j 1b
UART4_IRQHandler: 1: j 1b
UART5_IRQHandler: 1: j 1b
TIM6_IRQHandler: 1: j 1b
TIM7_IRQHandler: 1: j 1b
DMA2_Channel1_IRQHandler: 1: j 1b
DMA2_Channel2_IRQHandler: 1: j 1b
DMA2_Channel3_IRQHandler: 1: j 1b
DMA2_Channel4_IRQHandler: 1: j 1b
DMA2_Channel5_IRQHandler: 1: j 1b
ETH_IRQHandler: 1: j 1b
ETH_WKUP_IRQHandler: 1: j 1b
CAN2_TX_IRQHandler: 1: j 1b
CAN2_RX0_IRQHandler: 1: j 1b
CAN2_RX1_IRQHandler: 1: j 1b
CAN2_SCE_IRQHandler: 1: j 1b
OTG_FS_IRQHandler: 1: j 1b
USBHSWakeup_IRQHandler: 1: j 1b
USBHS_IRQHandler: 1: j 1b
DVP_IRQHandler: 1: j 1b
UART6_IRQHandler: 1: j 1b
UART7_IRQHandler: 1: j 1b
UART8_IRQHandler: 1: j 1b
TIM9_BRK_IRQHandler: 1: j 1b
TIM9_UP_IRQHandler: 1: j 1b
TIM9_TRG_COM_IRQHandler: 1: j 1b
TIM9_CC_IRQHandler: 1: j 1b
TIM10_BRK_IRQHandler: 1: j 1b
TIM10_UP_IRQHandler: 1: j 1b
TIM10_TRG_COM_IRQHandler: 1: j 1b
TIM10_CC_IRQHandler: 1: j 1b
DMA2_Channel6_IRQHandler: 1: j 1b
DMA2_Channel7_IRQHandler: 1: j 1b
DMA2_Channel8_IRQHandler: 1: j 1b
DMA2_Channel9_IRQHandler: 1: j 1b
DMA2_Channel10_IRQHandler: 1: j 1b
DMA2_Channel11_IRQHandler: 1: j 1b
.section .text.handle_reset,"ax",@progbits
.weak handle_reset
.align 1
handle_reset:
.option push
.option norelax
la gp, __global_pointer$
.option pop
1:
la sp, _eusrstack
2:
/* Load data section from flash to RAM */
la a0, _data_lma
la a1, _data_vma
la a2, _edata
bgeu a1, a2, 2f
1:
lw t0, (a0)
sw t0, (a1)
addi a0, a0, 4
addi a1, a1, 4
bltu a1, a2, 1b
2:
/* Clear bss section */
la a0, _sbss
la a1, _ebss
bgeu a0, a1, 2f
1:
sw zero, (a0)
addi a0, a0, 4
bltu a0, a1, 1b
2:
li t0, 0x1f
csrw 0xbc0, t0
/* Enable nested and hardware stack */
li t0, 0x0b
csrw 0x804, t0
/* Enable floating point and interrupt */
li t0, 0x6088
csrs mstatus, t0
la t0, _vector_base
ori t0, t0, 3
csrw mtvec, t0
jal SystemInit
la t0, main
csrw mepc, t0
mret

258
ch32v307_lvgl_ili9341/User/bsp_lcd_ili9341.c Normal file
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#include "bsp_lcd_ili9341.h"
#include "debug.h"
static volatile uint8_t bsp_lcd_trans_done = 1;
void DMA1_Channel3_IRQHandler(void) __attribute__((interrupt("WCH-Interrupt-fast")));
static void bsp_lcd_send_cmd(uint8_t cmd)
{
GPIO_ResetBits(BSP_LCD_GPIO_PORT, BSP_LCD_DC_GPIO); //D/C=0, 指令
GPIO_ResetBits(BSP_LCD_GPIO_PORT, BSP_LCD_CS_GPIO); //CS=0
SPI_DataSizeConfig(SPI1, SPI_DataSize_8b);
SPI_I2S_SendData(SPI1, cmd);
while (SPI_I2S_GetFlagStatus(SPI1, SPI_I2S_FLAG_BSY) == SET); //等待传输完成
GPIO_SetBits(BSP_LCD_GPIO_PORT, BSP_LCD_CS_GPIO); //CS=1
GPIO_SetBits(BSP_LCD_GPIO_PORT, BSP_LCD_DC_GPIO); //D/C=1, 数据
}
static void bsp_lcd_send_data(const uint8_t *data, uint8_t len)
{
GPIO_ResetBits(BSP_LCD_GPIO_PORT, BSP_LCD_CS_GPIO); //CS=0
SPI_DataSizeConfig(SPI1, SPI_DataSize_8b);
for (uint8_t i = 0; i < len; i ++) {
SPI_I2S_SendData(SPI1, data[i]);
while (SPI_I2S_GetFlagStatus(SPI1, SPI_I2S_FLAG_BSY) == SET); //等待传输完成
}
GPIO_SetBits(BSP_LCD_GPIO_PORT, BSP_LCD_CS_GPIO); //CS=1
}
/**
* @brief ST7789v控制器的寄存器(240*320)
*
* @param spi SPI句柄
*/static void lcd_reg_init_ili9341(void)
{
bsp_lcd_send_cmd(0xCF);
bsp_lcd_send_data((uint8_t[]){0x00, 0xC1, 0X30}, 3);
bsp_lcd_send_cmd(0xED);
bsp_lcd_send_data((uint8_t[]){0x64, 0x03, 0X12, 0X81}, 4);
bsp_lcd_send_cmd(0xE8);
bsp_lcd_send_data((uint8_t[]){0x85, 0x01, 0x79}, 3);
bsp_lcd_send_cmd(0xCB);
bsp_lcd_send_data((uint8_t[]){0x39, 0x2C, 0x00, 0x34, 0x02}, 5);
bsp_lcd_send_cmd(0xF7);
bsp_lcd_send_data((uint8_t[]){0x20}, 1);
bsp_lcd_send_cmd(0xEA);
bsp_lcd_send_data((uint8_t[]){0x00, 0x00}, 2);
bsp_lcd_send_cmd(0xC0);
bsp_lcd_send_data((uint8_t[]){0x18}, 1);
bsp_lcd_send_cmd(0xC1);
bsp_lcd_send_data((uint8_t[]){0x12}, 1);
bsp_lcd_send_cmd(0xC5);
bsp_lcd_send_data((uint8_t[]){0x31, 0x3C}, 2);
bsp_lcd_send_cmd(0xC7);
bsp_lcd_send_data((uint8_t[]){0x99}, 1);
bsp_lcd_send_cmd(0x36);
bsp_lcd_send_data((uint8_t[]){0x28}, 1);
bsp_lcd_send_cmd(0x3A);
bsp_lcd_send_data((uint8_t[]){0x55}, 1);
bsp_lcd_send_cmd(0xB1);
bsp_lcd_send_data((uint8_t[]){0x00, 0x16}, 2);
bsp_lcd_send_cmd(0xF2);
bsp_lcd_send_data((uint8_t[]){0x00}, 1);
bsp_lcd_send_cmd(0x26);
bsp_lcd_send_data((uint8_t[]){0x02}, 1);
bsp_lcd_send_cmd(0xE0);
bsp_lcd_send_data((uint8_t[]){0x1F, 0x1A, 0x18, 0x0A, 0x0F, 0x06, 0x45, 0X87, 0x32, 0x0A, 0x07, 0x02, 0x07, 0x05, 0x00}, 15);
bsp_lcd_send_cmd(0xE1);
bsp_lcd_send_data((uint8_t[]){0x00, 0x25, 0x27, 0x05, 0x10, 0x09, 0x3A, 0x78, 0x4D, 0x05, 0x18, 0x0D, 0x38, 0x3A, 0x1F}, 15);
bsp_lcd_send_cmd(0xB6);
bsp_lcd_send_data((uint8_t[]){0x0A, 0x82, 0x27, 0x00}, 4);
/* 屏幕方向 */
bsp_lcd_send_cmd(0x36);
//bsp_lcd_send_data((uint8_t[]){0x28}, 1); //横向 芯片在右
// bsp_lcd_send_data((uint8_t[]){0xE8}, 1); //横向 芯片在左
bsp_lcd_send_data((uint8_t[]){0x48}, 1); //竖屏 芯片在下
bsp_lcd_send_cmd(0x11);
Delay_Ms(50);
bsp_lcd_send_cmd(0x29);
Delay_Ms(50);
}
void bsp_lcd_switch(uint8_t sw)
{
if (sw) {
bsp_lcd_send_cmd(0x29);
} else {
bsp_lcd_send_cmd(0x28);
}
}
void DMA1_Channel3_IRQHandler(void)
{
if(DMA_GetITStatus(DMA1_FLAG_TC3) != RESET) {
/* 清除DMA中断标志位 */
DMA_ClearITPendingBit(DMA1_FLAG_TC3);
/* 复位DMA */
DMA_Cmd(DMA1_Channel3, DISABLE);
bsp_lcd_trans_done = 1;
}
}
static void bsp_lcd_bus_init(void)
{
/* GPIO外设 */
RCC_APB2PeriphClockCmd(BSP_LCD_GPIO_PORT_RCC, ENABLE);
GPIO_InitTypeDef gpio_conf;
GPIO_StructInit(&gpio_conf);
gpio_conf.GPIO_Mode = GPIO_Mode_AF_PP;
gpio_conf.GPIO_Speed = GPIO_Speed_50MHz;
gpio_conf.GPIO_Pin = GPIO_Pin_5 | GPIO_Pin_7; //PA5=SPI1_CLK PA7=SPI1_MOSI
GPIO_Init(BSP_LCD_GPIO_PORT, &gpio_conf);
/* SPI外设 */
RCC_APB2PeriphClockCmd(RCC_APB2Periph_SPI1, ENABLE); //使能SPI外设时钟
SPI_InitTypeDef spi_conf;
SPI_StructInit(&spi_conf);
spi_conf.SPI_Direction = SPI_Direction_1Line_Tx; //仅发送
spi_conf.SPI_Mode = SPI_Mode_Master;
spi_conf.SPI_BaudRatePrescaler = SPI_BaudRatePrescaler_2;
spi_conf.SPI_FirstBit = SPI_FirstBit_MSB;
spi_conf.SPI_DataSize = SPI_DataSize_8b;
spi_conf.SPI_CPOL = SPI_CPOL_High;
spi_conf.SPI_CPHA = SPI_CPHA_2Edge;
spi_conf.SPI_NSS = SPI_NSS_Soft;
SPI_Init(SPI1, &spi_conf);
SPI_I2S_DMACmd(SPI1, SPI_I2S_DMAReq_Tx, ENABLE); //使能SPI发送DMA请求
SPI_Cmd(SPI1, ENABLE);
/* DMA外设及中断 */
RCC_AHBPeriphClockCmd(RCC_AHBPeriph_DMA1, ENABLE);
NVIC_InitTypeDef nvic_conf;
nvic_conf.NVIC_IRQChannel = DMA1_Channel3_IRQn;
nvic_conf.NVIC_IRQChannelPreemptionPriority = 0;
nvic_conf.NVIC_IRQChannelSubPriority = 0;
nvic_conf.NVIC_IRQChannelCmd = ENABLE;
NVIC_Init(&nvic_conf);
}
void bsp_lcd_init(void)
{
/* 初始化非SPI的GPIO */
RCC_APB2PeriphClockCmd(BSP_LCD_GPIO_PORT_RCC, ENABLE);
GPIO_InitTypeDef gpio_conf;
GPIO_StructInit(&gpio_conf);
gpio_conf.GPIO_Mode = GPIO_Mode_Out_PP;
gpio_conf.GPIO_Speed = GPIO_Speed_50MHz;
gpio_conf.GPIO_Pin = BSP_LCD_CS_GPIO | BSP_LCD_DC_GPIO | BSP_LCD_RST_GPIO;
GPIO_Init(BSP_LCD_GPIO_PORT, &gpio_conf);
GPIO_SetBits(BSP_LCD_GPIO_PORT, BSP_LCD_CS_GPIO | BSP_LCD_DC_GPIO);
GPIO_ResetBits(BSP_LCD_GPIO_PORT, BSP_LCD_RST_GPIO); // RST=0
Delay_Ms(10);
GPIO_SetBits(BSP_LCD_GPIO_PORT, BSP_LCD_RST_GPIO); // RST=1
Delay_Ms(50);
/* 初始化连接LCD的SPI */
bsp_lcd_bus_init();
lcd_reg_init_ili9341(); //初始化LCD寄存器
Delay_Ms(50); //等待屏幕工作正常
bsp_lcd_switch(1); //开显示
}
static void bsp_lcd_send_color(const uint8_t *data, uint32_t len)
{
SPI_DataSizeConfig(SPI1, SPI_DataSize_16b);
DMA_InitTypeDef dma_conf;
dma_conf.DMA_BufferSize = len;
dma_conf.DMA_M2M = DMA_M2M_Disable;
dma_conf.DMA_DIR = DMA_DIR_PeripheralDST;
dma_conf.DMA_MemoryBaseAddr = (uint32_t)data;
dma_conf.DMA_MemoryDataSize = DMA_MemoryDataSize_HalfWord;
dma_conf.DMA_MemoryInc = DMA_MemoryInc_Enable;
dma_conf.DMA_PeripheralBaseAddr = (uint32_t)&(SPI1->DATAR);
dma_conf.DMA_PeripheralDataSize = DMA_PeripheralDataSize_HalfWord;
dma_conf.DMA_PeripheralInc = DMA_PeripheralInc_Disable;
dma_conf.DMA_Priority = DMA_Priority_Medium;
dma_conf.DMA_Mode = DMA_Mode_Normal;
DMA_Init(DMA1_Channel3, &dma_conf);
DMA_ITConfig(DMA1_Channel3, DMA_IT_TC, ENABLE); //开启DMA传输完成中断
GPIO_ResetBits(BSP_LCD_GPIO_PORT, BSP_LCD_CS_GPIO); //CS=0
DMA_Cmd(DMA1_Channel3, ENABLE); //启动传输
}
void bsp_lcd_draw_rect(uint16_t x_start, uint16_t y_start,uint16_t x_end, uint16_t y_end, const void *color_data)
{
uint8_t tx_data[4];
tx_data[0] = x_start>>8; //起始地址高8位
tx_data[1] = x_start&0xFF; //起始地址高8位
tx_data[2] = x_end>>8; //结束地址高8位
tx_data[3] = x_end&0xFF; //结束地址高8位
bsp_lcd_send_cmd(0x2A); //设置X坐标
bsp_lcd_send_data(tx_data, 4);
tx_data[0] = y_start>>8;
tx_data[1] = y_start&0xFF;
tx_data[2] = y_end>>8;
tx_data[3] = y_end&0xFF;
bsp_lcd_send_cmd(0x2B); //设置Y坐标
bsp_lcd_send_data(tx_data, 4);
bsp_lcd_send_cmd(0x2C); //开始写GRAM
bsp_lcd_send_color(color_data, (x_end - x_start + 1) * (y_end - y_start + 1));
}
uint8_t bsp_lcd_get_trans_stat(void)
{
if (bsp_lcd_trans_done == 1) {
bsp_lcd_trans_done = 0;
while(SPI_I2S_GetFlagStatus(SPI1, SPI_I2S_FLAG_BSY) == SET);
GPIO_SetBits(BSP_LCD_GPIO_PORT, BSP_LCD_CS_GPIO); //CS=1
return 1;
} else {
return 0;
}
}

20
ch32v307_lvgl_ili9341/User/bsp_lcd_ili9341.h Normal file
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#ifndef __BSP_LCD_ILI9341_H
#define __BSP_LCD_ILI9341_H
#include "ch32v30x.h"
#define BSP_LCD_X_PIXELS 240
#define BSP_LCD_Y_PIXELS 320
#define BSP_LCD_GPIO_PORT GPIOA
#define BSP_LCD_GPIO_PORT_RCC RCC_APB2Periph_GPIOA
#define BSP_LCD_BL_GPIO GPIO_Pin_2
#define BSP_LCD_CS_GPIO GPIO_Pin_3
#define BSP_LCD_DC_GPIO GPIO_Pin_4
#define BSP_LCD_RST_GPIO GPIO_Pin_6
void bsp_lcd_init(void);
void bsp_lcd_draw_rect(uint16_t x_start, uint16_t y_start,uint16_t x_end, uint16_t y_end, const void *color_data);
uint8_t bsp_lcd_get_trans_stat(void);
#endif

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_conf.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : Library configuration file.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_CONF_H
#define __CH32V30x_CONF_H
// #include "ch32v30x_adc.h"
// #include "ch32v30x_bkp.h"
// #include "ch32v30x_can.h"
// #include "ch32v30x_crc.h"
// #include "ch32v30x_dac.h"
#include "ch32v30x_dbgmcu.h"
#include "ch32v30x_dma.h"
// #include "ch32v30x_exti.h"
// #include "ch32v30x_flash.h"
// #include "ch32v30x_fsmc.h"
#include "ch32v30x_gpio.h"
// #include "ch32v30x_i2c.h"
// #include "ch32v30x_iwdg.h"
#include "ch32v30x_pwr.h"
#include "ch32v30x_rcc.h"
// #include "ch32v30x_rtc.h"
// #include "ch32v30x_sdio.h"
#include "ch32v30x_spi.h"
#include "ch32v30x_tim.h"
#include "ch32v30x_usart.h"
// #include "ch32v30x_wwdg.h"
#include "ch32v30x_it.h"
#include "ch32v30x_misc.h"
#endif /* __CH32V30x_CONF_H */

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_it.c
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : Main Interrupt Service Routines.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "ch32v30x_it.h"
void NMI_Handler(void) __attribute__((interrupt("WCH-Interrupt-fast")));
void HardFault_Handler(void) __attribute__((interrupt("WCH-Interrupt-fast")));
/*********************************************************************
* @fn NMI_Handler
*
* @brief This function handles NMI exception.
*
* @return none
*/
void NMI_Handler(void)
{
}
/*********************************************************************
* @fn HardFault_Handler
*
* @brief This function handles Hard Fault exception.
*
* @return none
*/
void HardFault_Handler(void)
{
while (1)
{
}
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : ch32v30x_it.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : This file contains the headers of the interrupt handlers.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __CH32V30x_IT_H
#define __CH32V30x_IT_H
#include "debug.h"
#endif /* __CH32V30x_IT_H */

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/**
* @file lv_conf.h
* Configuration file for v8.3.8
*/
/*
* Copy this file as `lv_conf.h`
* 1. simply next to the `lvgl` folder
* 2. or any other places and
* - define `LV_CONF_INCLUDE_SIMPLE`
* - add the path as include path
*/
/* clang-format off */
#if 1 /*Set it to "1" to enable content*/
#ifndef LV_CONF_H
#define LV_CONF_H
#include <stdint.h>
/*====================
COLOR SETTINGS
*====================*/
/*Color depth: 1 (1 byte per pixel), 8 (RGB332), 16 (RGB565), 32 (ARGB8888)*/
#define LV_COLOR_DEPTH 16
/*Swap the 2 bytes of RGB565 color. Useful if the display has an 8-bit interface (e.g. SPI)*/
#define LV_COLOR_16_SWAP 0
/*Enable more complex drawing routines to manage screens transparency.
*Can be used if the UI is above another layer, e.g. an OSD menu or video player.
*Requires `LV_COLOR_DEPTH = 32` colors and the screen's `bg_opa` should be set to non LV_OPA_COVER value*/
#define LV_COLOR_SCREEN_TRANSP 0
/* Adjust color mix functions rounding. GPUs might calculate color mix (blending) differently.
* 0: round down, 64: round up from x.75, 128: round up from half, 192: round up from x.25, 254: round up */
#define LV_COLOR_MIX_ROUND_OFS (LV_COLOR_DEPTH == 32 ? 0: 128)
/*Images pixels with this color will not be drawn if they are chroma keyed)*/
#define LV_COLOR_CHROMA_KEY lv_color_hex(0x00ff00) /*pure green*/
/*=========================
MEMORY SETTINGS
*=========================*/
/*1: use custom malloc/free, 0: use the built-in `lv_mem_alloc()` and `lv_mem_free()`*/
#define LV_MEM_CUSTOM 0
#if LV_MEM_CUSTOM == 0
/*Size of the memory available for `lv_mem_alloc()` in bytes (>= 2kB)*/
# define LV_MEM_SIZE (18U * 1024U) /*[bytes]*/
/*Set an address for the memory pool instead of allocating it as a normal array. Can be in external SRAM too.*/
# define LV_MEM_ADR 0 /*0: unused*/
/*Instead of an address give a memory allocator that will be called to get a memory pool for LVGL. E.g. my_malloc*/
#if LV_MEM_ADR == 0
//#define LV_MEM_POOL_INCLUDE your_alloc_library /* Uncomment if using an external allocator*/
//#define LV_MEM_POOL_ALLOC your_alloc /* Uncomment if using an external allocator*/
#endif
#else /*LV_MEM_CUSTOM*/
# define LV_MEM_CUSTOM_INCLUDE <stdlib.h> /*Header for the dynamic memory function*/
# define LV_MEM_CUSTOM_ALLOC malloc
# define LV_MEM_CUSTOM_FREE free
# define LV_MEM_CUSTOM_REALLOC realloc
#endif /*LV_MEM_CUSTOM*/
/*Number of the intermediate memory buffer used during rendering and other internal processing mechanisms.
*You will see an error log message if there wasn't enough buffers. */
#define LV_MEM_BUF_MAX_NUM 16
/*Use the standard `memcpy` and `memset` instead of LVGL's own functions. (Might or might not be faster).*/
#define LV_MEMCPY_MEMSET_STD 0
/*====================
HAL SETTINGS
*====================*/
/*Default display refresh period. LVG will redraw changed areas with this period time*/
#define LV_DISP_DEF_REFR_PERIOD 20 /*[ms]*/
/*Input device read period in milliseconds*/
#define LV_INDEV_DEF_READ_PERIOD 10 /*[ms]*/
/*Use a custom tick source that tells the elapsed time in milliseconds.
*It removes the need to manually update the tick with `lv_tick_inc()`)*/
#define LV_TICK_CUSTOM 0
#if LV_TICK_CUSTOM
#define LV_TICK_CUSTOM_INCLUDE "Arduino.h" /*Header for the system time function*/
#define LV_TICK_CUSTOM_SYS_TIME_EXPR (millis()) /*Expression evaluating to current system time in ms*/
#endif /*LV_TICK_CUSTOM*/
/*Default Dot Per Inch. Used to initialize default sizes such as widgets sized, style paddings.
*(Not so important, you can adjust it to modify default sizes and spaces)*/
#define LV_DPI_DEF 130 /*[px/inch]*/
/*=======================
* FEATURE CONFIGURATION
*=======================*/
/*-------------
* Drawing
*-----------*/
/*Enable complex draw engine.
*Required to draw shadow, gradient, rounded corners, circles, arc, skew lines, image transformations or any masks*/
#define LV_DRAW_COMPLEX 1
#if LV_DRAW_COMPLEX != 0
/*Allow buffering some shadow calculation.
*LV_SHADOW_CACHE_SIZE is the max. shadow size to buffer, where shadow size is `shadow_width + radius`
*Caching has LV_SHADOW_CACHE_SIZE^2 RAM cost*/
#define LV_SHADOW_CACHE_SIZE 0
/* Set number of maximally cached circle data.
* The circumference of 1/4 circle are saved for anti-aliasing
* radius * 4 bytes are used per circle (the most often used radiuses are saved)
* 0: to disable caching */
#define LV_CIRCLE_CACHE_SIZE 4
#endif /*LV_DRAW_COMPLEX*/
/*Default image cache size. Image caching keeps the images opened.
*If only the built-in image formats are used there is no real advantage of caching. (I.e. if no new image decoder is added)
*With complex image decoders (e.g. PNG or JPG) caching can save the continuous open/decode of images.
*However the opened images might consume additional RAM.
*0: to disable caching*/
#define LV_IMG_CACHE_DEF_SIZE 0
/*Maximum buffer size to allocate for rotation. Only used if software rotation is enabled in the display driver.*/
#define LV_DISP_ROT_MAX_BUF (10*1024)
/*-------------
* GPU
*-----------*/
/*Use STM32's DMA2D (aka Chrom Art) GPU*/
#define LV_USE_GPU_STM32_DMA2D 0
#if LV_USE_GPU_STM32_DMA2D
/*Must be defined to include path of CMSIS header of target processor
e.g. "stm32f769xx.h" or "stm32f429xx.h"*/
#define LV_GPU_DMA2D_CMSIS_INCLUDE
#endif
/*Use NXP's PXP GPU iMX RTxxx platforms*/
#define LV_USE_GPU_NXP_PXP 0
#if LV_USE_GPU_NXP_PXP
/*1: Add default bare metal and FreeRTOS interrupt handling routines for PXP (lv_gpu_nxp_pxp_osa.c)
* and call lv_gpu_nxp_pxp_init() automatically during lv_init(). Note that symbol SDK_OS_FREE_RTOS
* has to be defined in order to use FreeRTOS OSA, otherwise bare-metal implementation is selected.
*0: lv_gpu_nxp_pxp_init() has to be called manually before lv_init()
*/
#define LV_USE_GPU_NXP_PXP_AUTO_INIT 0
#endif
/*Use NXP's VG-Lite GPU iMX RTxxx platforms*/
#define LV_USE_GPU_NXP_VG_LITE 0
/*Use exnternal renderer*/
#define LV_USE_EXTERNAL_RENDERER 0
/*Use SDL renderer API. Requires LV_USE_EXTERNAL_RENDERER*/
#define LV_USE_GPU_SDL 0
#if LV_USE_GPU_SDL
# define LV_GPU_SDL_INCLUDE_PATH <SDL2/SDL.h>
#endif
/*-------------
* Logging
*-----------*/
/*Enable the log module*/
#define LV_USE_LOG 1
#if LV_USE_LOG
/*How important log should be added:
*LV_LOG_LEVEL_TRACE A lot of logs to give detailed information
*LV_LOG_LEVEL_INFO Log important events
*LV_LOG_LEVEL_WARN Log if something unwanted happened but didn't cause a problem
*LV_LOG_LEVEL_ERROR Only critical issue, when the system may fail
*LV_LOG_LEVEL_USER Only logs added by the user
*LV_LOG_LEVEL_NONE Do not log anything*/
# define LV_LOG_LEVEL LV_LOG_LEVEL_WARN
/*1: Print the log with 'printf';
*0: User need to register a callback with `lv_log_register_print_cb()`*/
# define LV_LOG_PRINTF 1
/*Enable/disable LV_LOG_TRACE in modules that produces a huge number of logs*/
# define LV_LOG_TRACE_MEM 1
# define LV_LOG_TRACE_TIMER 1
# define LV_LOG_TRACE_INDEV 1
# define LV_LOG_TRACE_DISP_REFR 1
# define LV_LOG_TRACE_EVENT 1
# define LV_LOG_TRACE_OBJ_CREATE 1
# define LV_LOG_TRACE_LAYOUT 1
# define LV_LOG_TRACE_ANIM 1
#endif /*LV_USE_LOG*/
/*-------------
* Asserts
*-----------*/
/*Enable asserts if an operation is failed or an invalid data is found.
*If LV_USE_LOG is enabled an error message will be printed on failure*/
#define LV_USE_ASSERT_NULL 1 /*Check if the parameter is NULL. (Very fast, recommended)*/
#define LV_USE_ASSERT_MALLOC 1 /*Checks is the memory is successfully allocated or no. (Very fast, recommended)*/
#define LV_USE_ASSERT_STYLE 1 /*Check if the styles are properly initialized. (Very fast, recommended)*/
#define LV_USE_ASSERT_MEM_INTEGRITY 0 /*Check the integrity of `lv_mem` after critical operations. (Slow)*/
#define LV_USE_ASSERT_OBJ 0 /*Check the object's type and existence (e.g. not deleted). (Slow)*/
/*Add a custom handler when assert happens e.g. to restart the MCU*/
#define LV_ASSERT_HANDLER_INCLUDE <stdint.h>
#define LV_ASSERT_HANDLER while(1); /*Halt by default*/
/*-------------
* Others
*-----------*/
/*1: Show CPU usage and FPS count in the right bottom corner*/
#define LV_USE_PERF_MONITOR 1
#if LV_USE_PERF_MONITOR
#define LV_USE_PERF_MONITOR_POS LV_ALIGN_BOTTOM_RIGHT
#endif
/*1: Show the used memory and the memory fragmentation in the left bottom corner
* Requires LV_MEM_CUSTOM = 0*/
#define LV_USE_MEM_MONITOR 1
#if LV_USE_PERF_MONITOR
#define LV_USE_MEM_MONITOR_POS LV_ALIGN_BOTTOM_LEFT
#endif
/*1: Draw random colored rectangles over the redrawn areas*/
#define LV_USE_REFR_DEBUG 0
/*Change the built in (v)snprintf functions*/
#define LV_SPRINTF_CUSTOM 1
#if LV_SPRINTF_CUSTOM
# define LV_SPRINTF_INCLUDE <stdio.h>
# define lv_snprintf snprintf
# define lv_vsnprintf vsnprintf
#else /*LV_SPRINTF_CUSTOM*/
# define LV_SPRINTF_USE_FLOAT 0
#endif /*LV_SPRINTF_CUSTOM*/
#define LV_USE_USER_DATA 0
/*Garbage Collector settings
*Used if lvgl is bound to higher level language and the memory is managed by that language*/
#define LV_ENABLE_GC 0
#if LV_ENABLE_GC != 0
# define LV_GC_INCLUDE "gc.h" /*Include Garbage Collector related things*/
#endif /*LV_ENABLE_GC*/
/*=====================
* COMPILER SETTINGS
*====================*/
/*For big endian systems set to 1*/
#define LV_BIG_ENDIAN_SYSTEM 0
/*Define a custom attribute to `lv_tick_inc` function*/
#define LV_ATTRIBUTE_TICK_INC
/*Define a custom attribute to `lv_timer_handler` function*/
#define LV_ATTRIBUTE_TIMER_HANDLER
/*Define a custom attribute to `lv_disp_flush_ready` function*/
#define LV_ATTRIBUTE_FLUSH_READY
/*Required alignment size for buffers*/
#define LV_ATTRIBUTE_MEM_ALIGN_SIZE 1
/*Will be added where memories needs to be aligned (with -Os data might not be aligned to boundary by default).
* E.g. __attribute__((aligned(4)))*/
#define LV_ATTRIBUTE_MEM_ALIGN
/*Attribute to mark large constant arrays for example font's bitmaps*/
#define LV_ATTRIBUTE_LARGE_CONST
/*Complier prefix for a big array declaration in RAM*/
#define LV_ATTRIBUTE_LARGE_RAM_ARRAY
/*Place performance critical functions into a faster memory (e.g RAM)*/
#define LV_ATTRIBUTE_FAST_MEM
/*Prefix variables that are used in GPU accelerated operations, often these need to be placed in RAM sections that are DMA accessible*/
#define LV_ATTRIBUTE_DMA
/*Export integer constant to binding. This macro is used with constants in the form of LV_<CONST> that
*should also appear on LVGL binding API such as Micropython.*/
#define LV_EXPORT_CONST_INT(int_value) struct _silence_gcc_warning /*The default value just prevents GCC warning*/
/*Extend the default -32k..32k coordinate range to -4M..4M by using int32_t for coordinates instead of int16_t*/
#define LV_USE_LARGE_COORD 0
/*==================
* FONT USAGE
*===================*/
/*Montserrat fonts with ASCII range and some symbols using bpp = 4
*https://fonts.google.com/specimen/Montserrat*/
#define LV_FONT_MONTSERRAT_8 0
#define LV_FONT_MONTSERRAT_10 0
#define LV_FONT_MONTSERRAT_12 0
#define LV_FONT_MONTSERRAT_14 1
#define LV_FONT_MONTSERRAT_16 0
#define LV_FONT_MONTSERRAT_18 0
#define LV_FONT_MONTSERRAT_20 0
#define LV_FONT_MONTSERRAT_22 0
#define LV_FONT_MONTSERRAT_24 0
#define LV_FONT_MONTSERRAT_26 0
#define LV_FONT_MONTSERRAT_28 0
#define LV_FONT_MONTSERRAT_30 0
#define LV_FONT_MONTSERRAT_32 0
#define LV_FONT_MONTSERRAT_34 0
#define LV_FONT_MONTSERRAT_36 0
#define LV_FONT_MONTSERRAT_38 0
#define LV_FONT_MONTSERRAT_40 0
#define LV_FONT_MONTSERRAT_42 0
#define LV_FONT_MONTSERRAT_44 0
#define LV_FONT_MONTSERRAT_46 0
#define LV_FONT_MONTSERRAT_48 0
/*Demonstrate special features*/
#define LV_FONT_MONTSERRAT_12_SUBPX 0
#define LV_FONT_MONTSERRAT_28_COMPRESSED 0 /*bpp = 3*/
#define LV_FONT_DEJAVU_16_PERSIAN_HEBREW 0 /*Hebrew, Arabic, Perisan letters and all their forms*/
#define LV_FONT_SIMSUN_16_CJK 0 /*1000 most common CJK radicals*/
/*Pixel perfect monospace fonts*/
#define LV_FONT_UNSCII_8 0
#define LV_FONT_UNSCII_16 0
/*Optionally declare custom fonts here.
*You can use these fonts as default font too and they will be available globally.
*E.g. #define LV_FONT_CUSTOM_DECLARE LV_FONT_DECLARE(my_font_1) LV_FONT_DECLARE(my_font_2)*/
#define LV_FONT_CUSTOM_DECLARE
/*Always set a default font*/
#define LV_FONT_DEFAULT &lv_font_montserrat_14
/*Enable handling large font and/or fonts with a lot of characters.
*The limit depends on the font size, font face and bpp.
*Compiler error will be triggered if a font needs it.*/
#define LV_FONT_FMT_TXT_LARGE 0
/*Enables/disables support for compressed fonts.*/
#define LV_USE_FONT_COMPRESSED 0
/*Enable subpixel rendering*/
#define LV_USE_FONT_SUBPX 0
#if LV_USE_FONT_SUBPX
/*Set the pixel order of the display. Physical order of RGB channels. Doesn't matter with "normal" fonts.*/
#define LV_FONT_SUBPX_BGR 0 /*0: RGB; 1:BGR order*/
#endif
/*=================
* TEXT SETTINGS
*=================*/
/**
* Select a character encoding for strings.
* Your IDE or editor should have the same character encoding
* - LV_TXT_ENC_UTF8
* - LV_TXT_ENC_ASCII
*/
#define LV_TXT_ENC LV_TXT_ENC_UTF8
/*Can break (wrap) texts on these chars*/
#define LV_TXT_BREAK_CHARS " ,.;:-_"
/*If a word is at least this long, will break wherever "prettiest"
*To disable, set to a value <= 0*/
#define LV_TXT_LINE_BREAK_LONG_LEN 0
/*Minimum number of characters in a long word to put on a line before a break.
*Depends on LV_TXT_LINE_BREAK_LONG_LEN.*/
#define LV_TXT_LINE_BREAK_LONG_PRE_MIN_LEN 3
/*Minimum number of characters in a long word to put on a line after a break.
*Depends on LV_TXT_LINE_BREAK_LONG_LEN.*/
#define LV_TXT_LINE_BREAK_LONG_POST_MIN_LEN 3
/*The control character to use for signalling text recoloring.*/
#define LV_TXT_COLOR_CMD "#"
/*Support bidirectional texts. Allows mixing Left-to-Right and Right-to-Left texts.
*The direction will be processed according to the Unicode Bidirectional Algorithm:
*https://www.w3.org/International/articles/inline-bidi-markup/uba-basics*/
#define LV_USE_BIDI 0
#if LV_USE_BIDI
/*Set the default direction. Supported values:
*`LV_BASE_DIR_LTR` Left-to-Right
*`LV_BASE_DIR_RTL` Right-to-Left
*`LV_BASE_DIR_AUTO` detect texts base direction*/
#define LV_BIDI_BASE_DIR_DEF LV_BASE_DIR_AUTO
#endif
/*Enable Arabic/Persian processing
*In these languages characters should be replaced with an other form based on their position in the text*/
#define LV_USE_ARABIC_PERSIAN_CHARS 0
/*==================
* WIDGET USAGE
*================*/
/*Documentation of the widgets: https://docs.lvgl.io/latest/en/html/widgets/index.html*/
#define LV_USE_ARC 1
#define LV_USE_ANIMIMG 1
#define LV_USE_BAR 1
#define LV_USE_BTN 1
#define LV_USE_BTNMATRIX 1
#define LV_USE_CANVAS 0
#define LV_USE_CHECKBOX 1
#define LV_USE_DROPDOWN 1 /*Requires: lv_label*/
#define LV_USE_IMG 1 /*Requires: lv_label*/
#define LV_USE_LABEL 1
#if LV_USE_LABEL
# define LV_LABEL_TEXT_SELECTION 1 /*Enable selecting text of the label*/
# define LV_LABEL_LONG_TXT_HINT 1 /*Store some extra info in labels to speed up drawing of very long texts*/
#endif
#define LV_USE_LINE 1
#define LV_USE_ROLLER 1 /*Requires: lv_label*/
#if LV_USE_ROLLER
# define LV_ROLLER_INF_PAGES 7 /*Number of extra "pages" when the roller is infinite*/
#endif
#define LV_USE_SLIDER 1 /*Requires: lv_bar*/
#define LV_USE_SWITCH 1
#define LV_USE_TEXTAREA 0 /*Requires: lv_label*/
#if LV_USE_TEXTAREA != 0
# define LV_TEXTAREA_DEF_PWD_SHOW_TIME 1500 /*ms*/
#endif
#define LV_USE_TABLE 1
/*==================
* EXTRA COMPONENTS
*==================*/
/*-----------
* Widgets
*----------*/
#define LV_USE_CALENDAR 0
#if LV_USE_CALENDAR
# define LV_CALENDAR_WEEK_STARTS_MONDAY 0
# if LV_CALENDAR_WEEK_STARTS_MONDAY
# define LV_CALENDAR_DEFAULT_DAY_NAMES {"Mo", "Tu", "We", "Th", "Fr", "Sa", "Su"}
# else
# define LV_CALENDAR_DEFAULT_DAY_NAMES {"Su", "Mo", "Tu", "We", "Th", "Fr", "Sa"}
# endif
# define LV_CALENDAR_DEFAULT_MONTH_NAMES {"January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December"}
# define LV_USE_CALENDAR_HEADER_ARROW 1
# define LV_USE_CALENDAR_HEADER_DROPDOWN 1
#endif /*LV_USE_CALENDAR*/
#define LV_USE_CHART 0
#define LV_USE_COLORWHEEL 0
#define LV_USE_IMGBTN 0
#define LV_USE_KEYBOARD 0
#define LV_USE_LED 0
#define LV_USE_LIST 0
#define LV_USE_METER 0
#define LV_USE_MSGBOX 0
#define LV_USE_SPINBOX 0
#define LV_USE_SPINNER 0
#define LV_USE_TABVIEW 0
#define LV_USE_TILEVIEW 0
#define LV_USE_WIN 0
#define LV_USE_SPAN 0
#if LV_USE_SPAN
/*A line text can contain maximum num of span descriptor */
# define LV_SPAN_SNIPPET_STACK_SIZE 64
#endif
/*-----------
* Themes
*----------*/
/*A simple, impressive and very complete theme*/
#define LV_USE_THEME_DEFAULT 1
#if LV_USE_THEME_DEFAULT
/*0: Light mode; 1: Dark mode*/
# define LV_THEME_DEFAULT_DARK 0
/*1: Enable grow on press*/
# define LV_THEME_DEFAULT_GROW 0
/*Default transition time in [ms]*/
# define LV_THEME_DEFAULT_TRANSITION_TIME 80
#endif /*LV_USE_THEME_DEFAULT*/
/*A very simple theme that is a good starting point for a custom theme*/
#define LV_USE_THEME_BASIC 0
/*A theme designed for monochrome displays*/
#define LV_USE_THEME_MONO 0
/*-----------
* Layouts
*----------*/
/*A layout similar to Flexbox in CSS.*/
#define LV_USE_FLEX 1
/*A layout similar to Grid in CSS.*/
#define LV_USE_GRID 0
/*---------------------
* 3rd party libraries
*--------------------*/
/*File system interfaces for common APIs
*To enable set a driver letter for that API*/
#define LV_USE_FS_STDIO '\0' /*Uses fopen, fread, etc*/
//#define LV_FS_STDIO_PATH "/home/john/" /*Set the working directory. If commented it will be "./" */
#define LV_USE_FS_POSIX '\0' /*Uses open, read, etc*/
//#define LV_FS_POSIX_PATH "/home/john/" /*Set the working directory. If commented it will be "./" */
#define LV_USE_FS_WIN32 '\0' /*Uses CreateFile, ReadFile, etc*/
//#define LV_FS_WIN32_PATH "C:\\Users\\john\\" /*Set the working directory. If commented it will be ".\\" */
#define LV_USE_FS_FATFS '\0' /*Uses f_open, f_read, etc*/
/*PNG decoder library*/
#define LV_USE_PNG 0
/*BMP decoder library*/
#define LV_USE_BMP 0
/* JPG + split JPG decoder library.
* Split JPG is a custom format optimized for embedded systems. */
#define LV_USE_SJPG 0
/*GIF decoder library*/
#define LV_USE_GIF 0
/*QR code library*/
#define LV_USE_QRCODE 0
/*FreeType library*/
#define LV_USE_FREETYPE 0
#if LV_USE_FREETYPE
/*Memory used by FreeType to cache characters [bytes] (-1: no caching)*/
# define LV_FREETYPE_CACHE_SIZE (16 * 1024)
#endif
/*Rlottie library*/
#define LV_USE_RLOTTIE 0
/*-----------
* Others
*----------*/
/*1: Enable API to take snapshot for object*/
#define LV_USE_SNAPSHOT 0
/*==================
* EXAMPLES
*==================*/
/*Enable the examples to be built with the library*/
#define LV_BUILD_EXAMPLES 1
/*===================
* DEMO USAGE
====================*/
/*Show some widget. It might be required to increase `LV_MEM_SIZE` */
#define LV_USE_DEMO_WIDGETS 0
#if LV_USE_DEMO_WIDGETS
#define LV_DEMO_WIDGETS_SLIDESHOW 0
#endif
/*Demonstrate the usage of encoder and keyboard*/
#define LV_USE_DEMO_KEYPAD_AND_ENCODER 0
/*Benchmark your system*/
#define LV_USE_DEMO_BENCHMARK 1
/*Stress test for LVGL*/
#define LV_USE_DEMO_STRESS 0
/*Music player demo*/
#define LV_USE_DEMO_MUSIC 0
#if LV_USE_DEMO_MUSIC
# define LV_DEMO_MUSIC_SQUARE 0
# define LV_DEMO_MUSIC_LANDSCAPE 0
# define LV_DEMO_MUSIC_ROUND 0
# define LV_DEMO_MUSIC_LARGE 0
# define LV_DEMO_MUSIC_AUTO_PLAY 1
#endif
/*--END OF LV_CONF_H--*/
#endif /*LV_CONF_H*/
#endif /*End of "Content enable"*/

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#include "lv_port_disp.h"
#include "lvgl.h"
#include "bsp_lcd_ili9341.h"
static lv_color_t lvgl_draw_buff1[LVGL_PORT_BUFF_SIZE];
static lv_color_t lvgl_draw_buff2[LVGL_PORT_BUFF_SIZE];
static void disp_flush(lv_disp_drv_t *disp_drv, const lv_area_t *area, lv_color_t *color_p)
{
while (bsp_lcd_get_trans_stat() == 0); //等待上次传输完成
lv_disp_flush_ready(disp_drv); //通知lvgl传输已完成
bsp_lcd_draw_rect(area->x1, area->y1, area->x2, area->y2, color_p); //启动新的传输
}
void lv_port_disp_init()
{
/* 向lvgl注册缓冲区 */
static lv_disp_draw_buf_t draw_buf_dsc; //需要全程生命周期,设置为静态变量
lv_disp_draw_buf_init(&draw_buf_dsc, lvgl_draw_buff1, lvgl_draw_buff2, LVGL_PORT_BUFF_SIZE);
/* 创建并初始化用于在lvgl中注册显示设备的结构 */
static lv_disp_drv_t disp_drv;
lv_disp_drv_init(&disp_drv); //使用默认值初始化该结构
/* 设置屏幕分辨率 */
disp_drv.hor_res = BSP_LCD_X_PIXELS;
disp_drv.ver_res = BSP_LCD_Y_PIXELS;
/* 设置显示矩形函数,用于将矩形缓冲区刷新到屏幕上 */
disp_drv.flush_cb = disp_flush;
/* 设置缓冲区 */
disp_drv.draw_buf = &draw_buf_dsc;
/* 注册显示设备 */
lv_disp_drv_register(&disp_drv);
}

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#ifndef __LV_PORT_DISP_H
#define __LV_PORT_DISP_H
/* lvgl缓冲区大小单位为像素数 */
#define LVGL_PORT_BUFF_SIZE (BSP_LCD_X_PIXELS*40)
void lv_port_disp_init(void);
#endif

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#include "lv_port_tick.h"
#include "lvgl.h"
void TIM4_IRQHandler(void) __attribute__((interrupt("WCH-Interrupt-fast")));
void TIM4_IRQHandler(void)
{
if(TIM_GetITStatus(TIM4, TIM_IT_Update) != RESET) {
lv_tick_inc(LV_TICK_PERIOD_MS);
TIM_ClearITPendingBit(TIM4, TIM_IT_Update);
}
}
void lv_create_tick(void)
{
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM4, ENABLE);
TIM_TimeBaseInitTypeDef timebase_conf;
timebase_conf.TIM_ClockDivision = TIM_CKD_DIV1;
timebase_conf.TIM_CounterMode = TIM_CounterMode_Up;
timebase_conf.TIM_Period = LV_TICK_PERIOD_MS * 10 - 1;
timebase_conf.TIM_Prescaler = SystemCoreClock / 10000 - 1;
TIM_TimeBaseInit(TIM4, &timebase_conf);
/* 开启溢出中断 */
TIM_ITConfig(TIM4, TIM_IT_Update, ENABLE);
/* 设置TIM4溢出中断NVIC */
NVIC_InitTypeDef nvic_conf;
nvic_conf.NVIC_IRQChannel = TIM4_IRQn;
nvic_conf.NVIC_IRQChannelPreemptionPriority = 1;
nvic_conf.NVIC_IRQChannelSubPriority = 0;
nvic_conf.NVIC_IRQChannelCmd = ENABLE;
NVIC_Init(&nvic_conf);
/* 开启TIM4 */
TIM_Cmd(TIM4, ENABLE);
}

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#ifndef __LV_PORT_TICK_H
#define __LV_PORT_TICK_H
#include "ch32v30x.h"
#define LV_TICK_PERIOD_MS 1
void lv_create_tick(void);
#endif

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#include "lv_port_disp.h"
#include "lv_port_tick.h"
#include "lv_demos.h"
#include "bsp_lcd_ili9341.h"
#include "debug.h"
/*********************************************************************
* @fn main
*
* @brief Main program.
*
* @return none
*/
int main(void)
{
NVIC_PriorityGroupConfig(NVIC_PriorityGroup_2);
SystemCoreClockUpdate();
Delay_Init();
USART_Printf_Init(115200);
printf("SystemClk: %d\r\n", SystemCoreClock);
printf("ChipID: %08x\r\n", DBGMCU_GetCHIPID());
bsp_lcd_init();
lv_init();
lv_port_disp_init();
lv_create_tick();
lv_demo_benchmark();
while (1) {
lv_task_handler();
}
}

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/********************************** (C) COPYRIGHT *******************************
* File Name : system_ch32v30x.h
* Author : WCH
* Version : V1.0.0
* Date : 2021/06/06
* Description : CH32V30x Device Peripheral Access Layer System Header File.
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#ifndef __SYSTEM_CH32V30x_H
#define __SYSTEM_CH32V30x_H
#ifdef __cplusplus
extern "C" {
#endif
extern uint32_t SystemCoreClock; /* System Clock Frequency (Core Clock) */
/* System_Exported_Functions */
extern void SystemInit(void);
extern void SystemCoreClockUpdate(void);
#ifdef __cplusplus
}
#endif
#endif /*__CH32V30x_SYSTEM_H */

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codecov:
notify:
require_ci_to_pass: true
comment: off
coverage:
status:
patch: off
project: off

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[*.{c,h,ino}]
indent_style = space
indent_size = 4
end_of_line = lf
insert_final_newline = true
trim_trailing_whitespace = true

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open_collective: lvgl

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---
name: Bug report
about: Create a bug report to help us improve
title: ''
labels: ''
assignees: ''
---
<!--
IMPORTANT
Issues that don't use this template will be ignored and closed.
-->
### Perform all steps below and tick them with [x]
- [ ] Read the [FAQ](https://docs.lvgl.io/master/intro/index.html#faq)
- [ ] Check the related part of the [Documentation](https://docs.lvgl.io/)
- [ ] Update lvgl to the latest version
- [ ] Reproduce the issue in a [Simulator](https://docs.lvgl.io/latest/en/html/get-started/pc-simulator.html)
### Describe the bug
<!--
A clear and concise description of what the bug is.
-->
### To Reproduce
<!--
Provide a small, independent code sample that can be used to reproduce the issue.
Ideally this should work in the PC simulator unless the problem is specific to a platform.
Format the code like this:
```c
your code here
```
-->
### Expected behavior
<!--
A clear and concise description of what you expected to happen.
-->
### Screenshots or video
<!--
If applicable, add screenshots to help explain your problem.
-->

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blank_issues_enabled: false
contact_links:
- name: Documentation
url: https://docs.lvgl.io
about: Be sure to read to documentation first
- name: Forum
url: https://forum.lvgl.io
about: For topics like How-to, Getting started, Feature request
- name: CONTIBUTING.md
url: https://github.com/lvgl/lvgl/blob/master/docs/CONTRIBUTING.md#faq-about-contributing
about: The basic rules of contributing
- name: CODING_STYLE.md
url: https://github.com/lvgl/lvgl/blob/master/docs/CODING_STYLE.md
about: Quick summary of LVGL's code style

29
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---
name: Development discussion
about: Discussion strictly related to the development of the LVGL.
title: ''
labels: ''
assignees: ''
---
<!--
IMPORTANT
Issues that don't use this template will be ignored and closed.
Normal Feature requests should go to the Forum: https://forum.lvgl.io/c/feature-request/9
-->
### Introduce the problem
<!--
A clear and concise description of the problem.
-->
### Examples and cases
<!--
Mention some examples and cases where the problem or the missing feature is relevant
-->
### Suggested solution
<!--
If you already have an idea about the solution share it here
-->

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# Comment to a new issue.
pullRequestOpened: |
Thank you for raising your pull request.
To ensure that all licensing criteria is met all repositories of the LVGL project apply a process called DCO (Developer's Certificate of Origin).
The text of DCO can be read here: https://developercertificate.org/
For a more detailed description see the [Documentation](https://docs.lvgl.io/latest/en/html/contributing/index.html#developer-certification-of-origin-dco) site.
By contributing to any repositories of the LVGL project you state that your contribution corresponds with the DCO.
No further action is required if your contribution fulfills the DCO. If you are not sure about it feel free to ask us in a comment.

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### Description of the feature or fix
A clear and concise description of what the bug or new feature is.
### Checkpoints
- [ ] Follow the [styling guide](https://github.com/lvgl/lvgl/blob/master/docs/CODING_STYLE.md)
- [ ] Run `code-format.py` from the `scripts` folder. [astyle](http://astyle.sourceforge.net/install.html) needs to be installed.
- [ ] Update the documentation

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name: Arduino Lint
on:
push:
branches: [ master, release/v8.* ]
pull_request:
branches: [ master, release/v8.* ]
jobs:
lint:
if: ${{ github.event_name != 'pull_request' || github.repository != github.event.pull_request.head.repo.full_name }}
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- uses: arduino/arduino-lint-action@v1
with:
library-manager: update

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name: Micropython CI
on:
push:
pull_request:
jobs:
build:
if: ${{ github.event_name != 'pull_request' || github.repository != github.event.pull_request.head.repo.full_name }}
name: Build ${{ matrix.port }} port
runs-on: ubuntu-20.04
continue-on-error: true
strategy:
matrix:
port: ['unix', 'esp32', 'stm32', 'rp2']
steps:
- uses: ammaraskar/gcc-problem-matcher@master
- name: Install Dependencies
run: |
sudo add-apt-repository -y "deb http://archive.ubuntu.com/ubuntu `lsb_release -sc` main universe restricted multiverse"
sudo apt-get update -y -qq
sudo apt-get install libsdl2-dev parallel libfreetype-dev librlottie-dev
- name: Clone lv_micropython
run: |
git clone https://github.com/lvgl/lv_micropython.git .
git checkout release/v8
- name: Initialize lv_bindings submodule
run: git submodule update --init --recursive lib/lv_bindings
- name: Update ${{ matrix.port }} port submodules
if: matrix.port != 'esp32'
# VARIANT needed for unix
run: make -C ports/${{ matrix.port }} VARIANT=dev DEBUG=1 USER_C_MODULES=../../lib/lv_bindings/bindings.cmake submodules
- name: Checkout LVGL submodule
working-directory: ./lib/lv_bindings/lvgl
run: |
git fetch --force ${{ github.event.repository.html_url }} "+refs/heads/*:refs/remotes/origin/*"
git fetch --force ${{ github.event.repository.html_url }} "+refs/pull/*:refs/remotes/origin/pr/*"
git checkout ${{ github.sha }} || git checkout ${{ github.event.pull_request.head.sha }}
git submodule update --init --recursive
- name: Build mpy-cross
run: make -j $(nproc) -C mpy-cross
# ESP32 port
- name: Setup ESP-IDF
if: matrix.port == 'esp32'
run: |
source tools/ci.sh && ci_esp32_idf44_setup
- name: Build ESP32 port
if: matrix.port == 'esp32'
run: |
source tools/ci.sh && ci_esp32_build
# STM32 & RPi Pico port
- name: arm-none-eabi-gcc
if: matrix.port == 'stm32' || matrix.port == 'rp2'
uses: carlosperate/arm-none-eabi-gcc-action@v1.3.0
with:
release: '9-2019-q4' # The arm-none-eabi-gcc release to use.
- name: Build STM32 port
if: matrix.port == 'stm32'
run: make -j $(nproc) -C ports/stm32 BOARD=STM32F7DISC
- name: Build Raspberry Pi PICO port
if: matrix.port == 'rp2'
run: make -j $(nproc) -C ports/rp2 BOARD=PICO USER_C_MODULES=../../lib/lv_bindings/bindings.cmake
# Unix port
- name: Build Unix port
if: matrix.port == 'unix'
run: make -j $(nproc) -C ports/unix VARIANT=dev DEBUG=1
- name: Run tests
if: success() && matrix.port == 'unix'
run: |
export XDG_RUNTIME_DIR=/tmp
lib/lv_bindings/tests/run.sh

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name: C/C++ CI
on:
push:
branches: [ master, release/v8.* ]
pull_request:
branches: [ master, release/v8.* ]
jobs:
build:
if: ${{ github.event_name != 'pull_request' || github.repository != github.event.pull_request.head.repo.full_name }}
runs-on: ubuntu-latest
strategy:
matrix:
# A valid option parameter to the cmake file.
# See BUILD_OPTIONS in tests/CMakeLists.txt.
build_option: ['OPTIONS_MINIMAL_MONOCHROME',
'OPTIONS_NORMAL_8BIT',
'OPTIONS_16BIT',
'OPTIONS_16BIT_SWAP',
'OPTIONS_FULL_32BIT']
name: Build ${{ matrix.build_option }}
steps:
- uses: actions/checkout@v2
- uses: ammaraskar/gcc-problem-matcher@master
- name: Install prerequisites
run: scripts/install-prerequisites.sh
- name: Building ${{ matrix.build_option }}
run: python tests/main.py --build-option=${{ matrix.build_option }} build
test-native:
runs-on: ubuntu-latest
name: amd64 Executable Tests
steps:
- uses: actions/checkout@v2
- uses: ammaraskar/gcc-problem-matcher@master
- name: Install prerequisites
run: scripts/install-prerequisites.sh
- name: Run tests
run: python tests/main.py --report test
- name: Upload coverage to Codecov
uses: codecov/codecov-action@v2
if: github.event_name == 'push'
with:
fail_ci_if_error: true
verbose: true
test-cross:
# The host should always be linux
runs-on: ubuntu-latest
name: ${{ matrix.arch }} Executable Tests
# Run steps on a matrix of 3 arch/distro combinations
strategy:
matrix:
arch: [ 'aarch64', 'armv6', 'armv7' ]
steps:
- uses: actions/checkout@v2.1.0
- uses: ammaraskar/gcc-problem-matcher@master
- name: Setup cache
uses: actions/cache@v2
with:
path: |
~/.ccache
key: lvgl_ci_cross_test_ccache_${{ matrix.arch }}_${{ github.sha }}
restore-keys: |
lvgl_ci_cross_test_ccache_${{ matrix.arch }}
- uses: uraimo/run-on-arch-action@v2.1.1
name: Run tests
id: build
with:
arch: ${{ matrix.arch }}
distro: bullseye
# Not required, but speeds up builds
githubToken: ${{ github.token }}
# The shell to run commands with in the container
shell: /bin/bash
# Create cached/volume directories on host
setup: |
mkdir -p ~/.ccache
# Mount cached directories in the container for faster builds
dockerRunArgs: |
--volume "${HOME}/.ccache:/root/.ccache"
install: |
apt-get update -y
apt-get install build-essential ccache python3 libpng-dev ruby-full gcovr cmake -q -y
/usr/sbin/update-ccache-symlinks
echo 'export PATH="/usr/lib/ccache:$PATH"' | tee -a ~/.bashrc
run: |
env PATH="/usr/lib/ccache:$PATH" ASAN_OPTIONS=detect_leaks=0 python3 tests/main.py test

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name: Verify that lv_conf_internal.h matches repository state
on:
push:
pull_request:
jobs:
verify-conf-internal:
if: ${{ github.event_name != 'pull_request' || github.repository != github.event.pull_request.head.repo.full_name }}
runs-on: ubuntu-latest
steps:
- name: Checkout
uses: actions/checkout@v2
with:
persist-credentials: false
fetch-depth: 0
- name: Setup Python
uses: actions/setup-python@v1
with:
python-version: 3.7
- name: Generate lv_conf_internal.h
run: python lv_conf_internal_gen.py
working-directory: scripts
- name: Check that repository is clean
run: git diff --exit-code >/dev/null 2>&1 || (echo "Please regenerate lv_conf_internal.h using scripts/lv_conf_internal_gen.py"; false)

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name: Verify code formatting
on:
push:
pull_request:
jobs:
verify-formatting:
if: ${{ github.event_name != 'pull_request' || github.repository != github.event.pull_request.head.repo.full_name }}
runs-on: ubuntu-latest
steps:
- name: Checkout
uses: actions/checkout@v2
with:
persist-credentials: false
fetch-depth: 0
- name: Install astyle
run: |
sudo add-apt-repository -y "deb http://archive.ubuntu.com/ubuntu `lsb_release -sc` main universe restricted multiverse"
sudo apt-get update -y -qq
sudo apt-get install astyle
- name: Format code
run: python code-format.py
working-directory: scripts
- name: Check that repository is clean
shell: bash
run: |
set -o pipefail
if ! (git diff --exit-code --color=always | tee /tmp/lvgl_diff.patch); then
echo "Please apply the preceding diff to your code or run scripts/code-format.py"
exit 1
fi

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name: 'Close stale issues and PRs'
on:
schedule:
- cron: '30 1 * * *'
workflow_dispatch:
jobs:
stale:
if: github.repository == 'lvgl/lvgl'
runs-on: ubuntu-latest
steps:
- uses: actions/stale@v5
with:
repo-token: ${{ secrets.LVGL_BOT_TOKEN }}
stale-issue-message: 'This issue is stale because it has been open 14 days with no activity. Remove stale label or comment or this will be closed in 7 days.'
stale-pr-message: |
We need some feedback on this issue.
Now we mark this as "stale" because there was no activity here for 14 days.
Remove the "stale" label or comment else this will be closed in 7 days.
close-issue-message: |
As there was no activity here for a while we close this issue. But don't worry, the conversation is still here and you can get back to it at any time.
So feel free to comment if you have remarks or ideas on this topic.
days-before-stale: 14
days-before-close: 7
exempt-issue-labels: 'pinned'
exempt-pr-labels: 'pinned'

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name: Build docs
on:
push:
branches:
- master
- 'release/*'
env:
EM_VERSION: 2.0.4
EM_CACHE_FOLDER: 'emsdk-cache'
jobs:
build-and-deploy:
if: github.repository == 'lvgl/lvgl'
runs-on: ubuntu-latest
concurrency: docs-build-and-deploy
steps:
- name: Checkout
uses: actions/checkout@v2
with:
persist-credentials: false
fetch-depth: 0
- name: Setup Python
uses: actions/setup-python@v1
with:
python-version: 3.7
- name: Cache Python packages
uses: actions/cache@v2
with:
# Cache the Python package environment, excluding pip and setuptools installed by setup-python
path: |
~/.cache/pip
${{ env.pythonLocation }}/bin/*
${{ env.pythonLocation }}/include
${{ env.pythonLocation }}/lib/python*/site-packages/*
!${{ env.pythonLocation }}/bin/pip*
!${{ env.pythonLocation }}/lib/python*/site-packages/pip*
!${{ env.pythonLocation }}/lib/python*/site-packages/setuptools*
key: ${{ env.pythonLocation }}-${{ hashFiles('docs/requirements.txt') }}
- name: Install Doxygen and Latex dependencies
run: |
sudo apt-get update
sudo apt-get install doxygen texlive-xetex texlive-binaries texlive-lang-english latexmk fonts-freefont-otf
- name: Install requirements
run: |
pip install -r docs/requirements.txt
- name: Setup Emscripten cache
id: cache-system-libraries
uses: actions/cache@v2
with:
path: ${{env.EM_CACHE_FOLDER}}
key: ${{env.EM_VERSION}}-${{ runner.os }}
- uses: mymindstorm/setup-emsdk@v9
with:
version: ${{env.EM_VERSION}}
actions-cache-folder: ${{env.EM_CACHE_FOLDER}}
- name: ccache
uses: hendrikmuhs/ccache-action@v1
- name: Build examples (with cache)
run: scripts/build_html_examples.sh
- name: Build docs
run: docs/build.py
- name: Remove .doctrees
run: rm -rf out_html/.doctrees
- name: Retrieve version
run: |
echo "::set-output name=VERSION_NAME::$(scripts/find_version.sh)"
id: version
- name: Deploy to subfolder
uses: JamesIves/github-pages-deploy-action@3.7.1
with:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
ACCESS_TOKEN: ${{ secrets.LVGL_BOT_TOKEN }}
REPOSITORY_NAME: lvgl/docs
BRANCH: gh-pages # The branch the action should deploy to.
FOLDER: out_html # The folder the action should deploy.
TARGET_FOLDER: ${{ steps.version.outputs.VERSION_NAME }}
GIT_CONFIG_NAME: lvgl-bot
GIT_CONFIG_EMAIL: lvgl-bot@users.noreply.github.com
PRESERVE: true
SINGLE_COMMIT: true
- name: Deploy to master
if: github.ref == 'refs/heads/master'
uses: JamesIves/github-pages-deploy-action@3.7.1
with:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
ACCESS_TOKEN: ${{ secrets.LVGL_BOT_TOKEN }}
REPOSITORY_NAME: lvgl/docs
BRANCH: gh-pages # The branch the action should deploy to.
FOLDER: out_html # The folder the action should deploy.
TARGET_FOLDER: master
GIT_CONFIG_NAME: lvgl-bot
GIT_CONFIG_EMAIL: lvgl-bot@users.noreply.github.com
PRESERVE: true
SINGLE_COMMIT: true

23
ch32v307_lvgl_ili9341/lvgl/.github/workflows/esp_upload_component.yml vendored Normal file
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name: Push LVGL release to Espressif Component Service
# If the commit is tagged, it will be uploaded. Other scenario silently fail.
on:
push:
tags:
- v*
jobs:
upload_components:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
with:
submodules: "recursive"
- name: Upload component to component registry
uses: espressif/upload-components-ci-action@v1
with:
name: "lvgl"
version: ${{ github.ref_name }}
namespace: "lvgl"
api_token: ${{ secrets.ESP_IDF_COMPONENT_API_TOKEN }}

16
ch32v307_lvgl_ili9341/lvgl/.github/workflows/main.yml vendored Normal file
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on:
issues:
types: [opened, edited]
jobs:
auto_close_issues:
runs-on: ubuntu-latest
steps:
- name: Checkout
uses: actions/checkout@v1
- name: Automatically close issues that don't follow the issue template
uses: lucasbento/auto-close-issues@v1.0.2
with:
github-token: ${{ secrets.GITHUB_TOKEN }}
issue-close-message: "@${issue.user.login}: hello! :wave:\n\nThis issue is being automatically closed because it does not follow the issue template." # optional property
closed-issues-label: "not-template"

21
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name: Check Makefile
on:
push:
branches: [ master, release/v8.* ]
pull_request:
branches: [ master, release/v8.* ]
jobs:
build:
if: ${{ github.event_name != 'pull_request' || github.repository != github.event.pull_request.head.repo.full_name }}
runs-on: ubuntu-latest
name: Build using Makefile
steps:
- uses: actions/checkout@v2
- uses: ammaraskar/gcc-problem-matcher@master
- name: Install prerequisites
run: scripts/install-prerequisites.sh
- name: Build
working-directory: tests/makefile
run: make test_file

27
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on:
push:
# Sequence of patterns matched against refs/tags
tags:
- "v[0-9]+.[0-9]+.[0-9]+" # Push events to matching v*, i.e. v1.0, v20.15.10
name: Create Release
jobs:
build:
name: Create Release
runs-on: ubuntu-latest
steps:
- name: Checkout code
uses: actions/checkout@v2
- name: Create Release
id: create_release
uses: actions/create-release@v1
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }} # This token is provided by Actions, you do not need to create your own token
with:
tag_name: ${{ github.ref }}
release_name: Release ${{ github.ref }}
body: |
See the [CHANGELOG](https://github.com/lvgl/lvgl/blob/master/docs/CHANGELOG.md)
draft: false
prerelease: false

27
ch32v307_lvgl_ili9341/lvgl/.gitignore vendored Normal file
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**/*.o
**/*bin
**/*.swp
**/*.swo
**/*.gcda
**/*.gcno
tags
docs/api_doc
scripts/cppcheck_res.txt
scripts/built_in_font/lv_font_*
docs/doxygen_html
docs/xml
docs/examples.md
docs/out_latex
docs/_static/built_lv_examples
docs/LVGL.pdf
docs/env
out_html
__pycache__
/emscripten_builder
test_screenshot_error.h
build/
tests/build_*/
tests/report/
.DS_Store
.vscode
*.bak

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# See https://pre-commit.com for more information
# See https://pre-commit.com/hooks.html for more hooks
repos:
- repo: https://github.com/pre-commit/pre-commit-hooks
rev: v3.2.0
hooks:
- id: trailing-whitespace
- repo: local
hooks:
# Run astyle over the staged files with c and h extension found in the directories
# listed in the files regex pattern. Ignoring the files in the exclude pattern.
- id: format-source
name: Formatting source files
entry: astyle --options=scripts/code-format.cfg --ignore-exclude-errors
stages: [ commit ]
language: system
pass_filenames: true
verbose: true
files: |
(?x)^(
src/ |
tests/src/test_cases/
)
exclude: |
(?x)^(
src/extra/libs/ |
src/lv_conf_internal.h
)
types_or: ["c", "header"]

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cmake_minimum_required(VERSION 3.12.4)
if(NOT ESP_PLATFORM)
project(lvgl HOMEPAGE_URL https://github.com/lvgl/lvgl)
endif()
set(LVGL_ROOT_DIR ${CMAKE_CURRENT_LIST_DIR})
if(ESP_PLATFORM)
include(${CMAKE_CURRENT_LIST_DIR}/env_support/cmake/esp.cmake)
elseif(ZEPHYR_BASE)
include(${CMAKE_CURRENT_LIST_DIR}/env_support/cmake/zephyr.cmake)
elseif(MICROPY_DIR)
include(${CMAKE_CURRENT_LIST_DIR}/env_support/cmake/micropython.cmake)
else()
include(${CMAKE_CURRENT_LIST_DIR}/env_support/cmake/custom.cmake)
endif()

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