[bsp/wch/arm/ch32f103c8-core/board/board.h]: add macro definition.

[bsp/wch/arm/ch32f10x_port_cn.md]: add ch32f10x_port_cn.md.
This commit is contained in:
charlown 2021-10-12 21:27:39 +08:00
parent 06fdc108b4
commit 0ea1fac551
2 changed files with 218 additions and 0 deletions

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@ -45,15 +45,33 @@ extern int __bss_end;
rt_uint32_t ch32_get_sysclock_frequency(void);
#ifdef BSP_USING_UART
void ch32f1_usart_clock_and_io_init(USART_TypeDef* usartx);
#endif
#ifdef BSP_USING_SPI
void ch32f1_spi_clock_and_io_init(SPI_TypeDef* spix);
rt_uint32_t ch32f1_spi_clock_get(SPI_TypeDef* spix);
#endif
#ifdef BSP_USING_HWI2C
void ch32f1_i2c_clock_and_io_init(I2C_TypeDef* i2cx);
void ch32f1_i2c_config(I2C_TypeDef* i2cx);
#endif
#ifdef BSP_USING_TIM
void ch32f1_tim_clock_init(TIM_TypeDef *timx);
rt_uint32_t ch32f1_tim_clock_get(TIM_TypeDef *timx);
#ifdef BSP_USING_HWTIMER
struct rt_hwtimer_info* ch32f1_hwtimer_info_config_get(TIM_TypeDef *timx);
#endif
#ifdef BSP_USING_PWM
void ch32f1_pwm_io_init(TIM_TypeDef *timx, rt_uint8_t channel);
#endif
#endif

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@ -0,0 +1,200 @@
# CH32F10X系列BSP移植
## 1 工程结构
+ wch\arm\ch32f103c8-core
+ wch\arm\Libraries
+ wch\arm\Libraries\ch32_drivers
+ wch\arm\Libraries\CH32F10x_StdPeriph_Driver
+ wch\arm\tools
ch32f103c8-core为移植到具体芯片的BSP, Libraries存放的是厂商的驱动库(CH32F10x_StdPeriph_Driver等)和适配rt-thread的驱动(ch32_drivers),
tools是在env环境下使用scons --dist所需要的依赖工具
### 1.1 已适配rt-thread的驱动(ch32_drivers)
现已支持以下驱动(支持的驱动,使用到的宏开关,需要实现的接口)
+ GPIO
+ RT_USING_PIN
+ UART 1/2/3
+ RT_USING_SERIAL
+ BSP_USING_UART
+ BSP_USING_UART1
+ BSP_USING_UART2
+ BSP_USING_UART3
~~~c
void ch32f1_usart_clock_and_io_init(USART_TypeDef* usartx);
~~~
+ SPI 1/2
+ RT_USING_SPI
+ BSP_USING_SPI
+ BSP_USING_SPI1
+ BSP_USING_SPI2
~~~c
void ch32f1_spi_clock_and_io_init(SPI_TypeDef* spix);
rt_uint32_t ch32f1_spi_clock_get(SPI_TypeDef* spix);
~~~
+ I2C(hardware) 1/2
+ RT_USING_I2C
+ BSP_USING_HWI2C
+ BSP_USING_HWI2C1
+ BSP_USING_HWI2C2
~~~c
void ch32f1_i2c_clock_and_io_init(I2C_TypeDef* i2cx);
void ch32f1_i2c_config(I2C_TypeDef* i2cx);
~~~
+ WDT
+ RT_USING_WDT
+ BSP_USING_IWDT
+ LSI_VALUE
+ RTC
+ RT_USING_RTC
+ BSP_USING_RTC
+ BSP_USING_RTC_LSI
+ LSI_VALUE
+ HWTIMER 1/2/3/4
+ RT_USING_HWTIMER
+ BSP_USING_HWTIMER
+ BSP_USING_TIM1_HWTIMER
+ BSP_USING_TIM2_HWTIMER
+ BSP_USING_TIM3_HWTIMER
+ BSP_USING_TIM4_HWTIMER
~~~c
void ch32f1_tim_clock_init(TIM_TypeDef *timx);
rt_uint32_t ch32f1_tim_clock_get(TIM_TypeDef *timx);
~~~
~~~c
struct rt_hwtimer_info* ch32f1_hwtimer_info_config_get(TIM_TypeDef *timx);
~~~
+ PWM 4(timer) x 4 (channel)
+ RT_USING_PWM
+ BSP_USING_TIM1_PWM
+ BSP_USING_TIM1_PWM_CH1
+ BSP_USING_TIM1_PWM_CH2
+ BSP_USING_TIM1_PWM_CH3
+ BSP_USING_TIM1_PWM_CH4
+ BSP_USING_TIM2_PWM
+ BSP_USING_TIM2_PWM_CH1
+ BSP_USING_TIM2_PWM_CH2
+ BSP_USING_TIM2_PWM_CH3
+ BSP_USING_TIM2_PWM_CH4
+ BSP_USING_TIM3_PWM
+ BSP_USING_TIM3_PWM_CH1
+ BSP_USING_TIM3_PWM_CH2
+ BSP_USING_TIM3_PWM_CH3
+ BSP_USING_TIM3_PWM_CH4
+ BSP_USING_TIM4_PWM
+ BSP_USING_TIM4_PWM_CH1
+ BSP_USING_TIM4_PWM_CH2
+ BSP_USING_TIM4_PWM_CH3
+ BSP_USING_TIM4_PWM_CH4
~~~c
void ch32f1_pwm_io_init(TIM_TypeDef *timx, rt_uint8_t channel);
~~~
其中需要依赖定时器的接口:
~~~c
void ch32f1_tim_clock_init(TIM_TypeDef *timx);
rt_uint32_t ch32f1_tim_clock_get(TIM_TypeDef *timx);
~~~
### 1.2 需要实现的接口:
除了使用上面驱动提及的接口外,以下的接口必须实现:
~~~c
rt_uint32_t ch32_get_sysclock_frequency(void);
~~~
## 2 构建具体芯片BSP
以ch32f103c8-core为例在ENV环境下使用MDK至少需要准备
+ ch32f103c8-core (具体的BSP名)
+ ch32f103c8-core\applications
+ ch32f103c8-core\applications\SConscript
+ ch32f103c8-core\applications\main.c
+ ch32f103c8-core\board
+ ch32f103c8-core\board\linker_scripts
+ ch32f103c8-core\board\linker_scripts\link.sct
+ ch32f103c8-core\board\board.c
+ ch32f103c8-core\board\board.h
+ ch32f103c8-core\board\ch32f10x_conf.h
+ ch32f103c8-core\board\system_ch32f10x.c
+ ch32f103c8-core\board\Kconfig
+ ch32f103c8-core\board\SConscript
+ ch32f103c8-core\Kconfig
+ ch32f103c8-core\rtconfig.py
+ ch32f103c8-core\SConscript
+ ch32f103c8-core\SConstruct
+ ch32f103c8-core\template.uvprojx
### 2.1 创建template.uvprojx
新建名为template的MDK工程删除多余的子目录target1将目录改名为rtthread-ch32f103xoptions选项栏device设置具体芯片user编译后的动作, 如"fromelf --bin !L --output rtthread.bin"
### 2.2 编写board/Kconfig
~~~
menu "Hardware Drivers Config"
config SOC_CH32F103C8
bool
select SOC_ARM_SERIES_CH32F103
select RT_USING_COMPONENTS_INIT
select RT_USING_USER_MAIN
default y
~~~
SOC_CH32F103C8为具体的芯片SOC_ARM_SERIES_CH32F103在Libraries\Kconfig下已定义。
RT_USING_COMPONENTS_INITRT_USING_USER_MAIN为rt-thread设备框架默认选项。
使用适配的驱动根据宏开关编写即可,以串口驱动为例:
+ BSP_USING_XXX
+ select RT_USING_XXX
+ BSP_USING_XXX1
+ BSP_USING_XXX2
~~~
menu "On-chip Peripheral Drivers"
config BSP_USING_UART
bool "using onchip usart"
select RT_USING_SERIAL
default n
if BSP_USING_UART
config BSP_USING_UART1
bool "using uart1"
default n
config BSP_USING_UART2
bool "using uart2"
default n
config BSP_USING_UART3
bool "using uart3"
default n
endif
~~~
比较特殊的定时器和PWM驱动额外定义了以下宏开关详见ch32f103c8-core。
+ BSP_USING_TIM
+ BSP_USING_TIM1
+ BSP_USING_TIM2
+ BSP_USING_TIM3
+ BSP_USING_TIM4
### 2.3 在board/board.h加入接口并在board/board.c实现
使用适配的驱动根据宏开关编写即可,如串口驱动:
+ BSP_USING_XXX
~~~
#ifdef BSP_USING_UART
void ch32f1_usart_clock_and_io_init(USART_TypeDef* usartx);
#endif
~~~
比较特殊的定时器和PWM驱动使用额外定义了的宏开关
~~~c
#ifdef BSP_USING_TIM
void ch32f1_tim_clock_init(TIM_TypeDef *timx);
rt_uint32_t ch32f1_tim_clock_get(TIM_TypeDef *timx);
#ifdef BSP_USING_HWTIMER
struct rt_hwtimer_info* ch32f1_hwtimer_info_config_get(TIM_TypeDef *timx);
#endif
#ifdef BSP_USING_PWM
void ch32f1_pwm_io_init(TIM_TypeDef *timx, rt_uint8_t channel);
#endif
#endif
~~~