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#ifndef USART_H
#define USART_H
#include <rcc/rcc.h>
#include <interrupt/interrupt.h>
#include <os/thread.h>
struct USART_reg_t {
volatile uint32_t SR;
volatile uint32_t DR;
volatile uint32_t BRR;
volatile uint32_t CR1;
volatile uint32_t CR2;
volatile uint32_t CR3;
volatile uint32_t GTPR;
};
class USART_t {
public:
USART_reg_t& reg;
const uint32_t clk;
USART_t(uint32_t reg_addr, uint32_t bus_clk) : reg(*(USART_reg_t*)reg_addr), clk(bus_clk) {}
inline void set_baudrate(uint32_t baudrate) {
reg.BRR = clk / baudrate;
}
inline void enable() {
reg.CR1 = 0x202c;
}
inline void send(uint8_t data) {
while(!(reg.SR & 0x80)) {
Thread::yield();
} // Wait for TXE.
reg.DR = data;
}
inline uint8_t recv() {
return reg.DR;
}
};
#if defined(STM32F1)
static USART_t USART1(0x40013800, 72000000);
static USART_t USART2(0x40004400, 36000000);
static USART_t USART3(0x40004800, 36000000);
#elif defined(STM32F4)
static USART_t USART1(0x40011000, 84000000);
static USART_t USART2(0x40004400, 42000000);
static USART_t USART3(0x40004800, 42000000);
#endif
inline void usart_enable() {
RCC.enable(RCC.USART1);
USART1.set_baudrate(115200);
USART1.enable();
//Interrupt::enable(Interrupt::USART1);
}
inline void usart_send(uint8_t data) {
USART1.send(data);
}
#endif
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