#include #include "console.h" /* This file implements a serial console. * We use a 115200 8N1 serial port */ namespace Ion { namespace Console { char readChar() { while (Device::UARTPort.SR()->getRXNE() == 0) { } return (char)Device::UARTPort.DR()->get(); } void writeChar(char c) { while (Device::UARTPort.SR()->getTXE() == 0) { } Device::UARTPort.DR()->set(c); } } } namespace Ion { namespace Console { namespace Device { void init() { RCC.APB2ENR()->setUSART6EN(true); for(const GPIOPin & g : Pins) { g.group().MODER()->setMode(g.pin(), GPIO::MODER::Mode::AlternateFunction); g.group().AFR()->setAlternateFunction(g.pin(), GPIO::AFR::AlternateFunction::AF8); } UARTPort.CR1()->setUE(true); UARTPort.CR1()->setTE(true); UARTPort.CR1()->setRE(true); /* We need to set the baud rate of the UART port. * This is set relative to the APB1 clock, which runs at 48 MHz. * * The baud rate is set by the following equation: * BaudRate = fAPB1/(16*USARTDIV), where USARTDIV is a divider. * In other words, USARDFIV = fAPB1/(16*BaudRate). All frequencies in Hz. * * In our case, fAPB1 = 48 MHz, so USARTDIV = 26.0416667 * DIV_MANTISSA = 26 * DIV_FRAC = 16*0.0416667 = 1 */ UARTPort.BRR()->setDIV_MANTISSA(52); UARTPort.BRR()->setDIV_FRAC(1); } void shutdown() { for(const GPIOPin & g : Pins) { g.group().MODER()->setMode(g.pin(), GPIO::MODER::Mode::Analog); g.group().PUPDR()->setPull(g.pin(), GPIO::PUPDR::Pull::None); } } bool peerConnected() { RxPin.group().PUPDR()->setPull(RxPin.pin(), GPIO::PUPDR::Pull::Down); RxPin.group().MODER()->setMode(RxPin.pin(), GPIO::MODER::Mode::Input); msleep(1); bool result = RxPin.group().IDR()->get(RxPin.pin()); RxPin.group().PUPDR()->setPull(RxPin.pin(), GPIO::PUPDR::Pull::None); RxPin.group().MODER()->setMode(RxPin.pin(), GPIO::MODER::Mode::AlternateFunction); return false; } } } }