#include "requests.h" void rqTestConnection() { uint8_t dummy = usart.readByte(); usart.writeByte(USART::MSG_OK); usart.writeByte(dummy); } void rqBoardInfo() { usart.writeByte(3); // Anzahl an Strings usart.writeStr(DATE, sizeof(DATE)); usart.writeStr(TIME, sizeof(TIME)); usart.writeStr(FSRC, sizeof(FSRC)); usart.writeByte(USART::MSG_OK); } void rqTestIntConv() { usart.writeInt(usart.readInt() * 3); } void rqDigitalWrite0() { uint8_t port = usart.readByte(); beba0.writePortA(port); usart.writeByte(USART::MSG_OK); } void rqDigitalWrite1() { uint8_t port = usart.readByte(); beba1.writePortA(port); usart.writeByte(USART::MSG_OK); } void rqDigitalRead0() { uint8_t port = beba0.readPortB(); usart.writeByte(port); } void rqDigitalRead1() { uint8_t port = beba1.readPortB(); usart.writeByte(port); } void rqAnalogWrite0() { uint16_t value = usart.readInt(); dac0.setValue(value); usart.writeByte(USART::MSG_OK); } void rqAnalogWrite1() { uint16_t value = usart.readInt(); dac1.setValue(value); usart.writeByte(USART::MSG_OK); } void rqAnalogRead() { uint8_t channel = usart.readByte(); uint16_t value = adu.getValue(channel); usart.writeInt(value); } void rqAdcDacStroke() { uint8_t channel_a = usart.readByte(); uint8_t channel_b = usart.readByte(); int16_t start = static_cast(usart.readInt()); int16_t delta = static_cast(usart.readInt()); int16_t count = static_cast(usart.readInt()); usart.writeByte(USART::MSG_OK); count *= delta; for(int16_t i = start; i < count; i += delta) { dac0.setValue(i); wdt_reset(); uint16_t val_a = adu.getValue(channel_a); uint16_t val_b = adu.getValue(channel_b); usart.writeInt(val_a); usart.writeInt(val_b); /*union doubleword { uint16_t word[2]; uint8_t byte[4]; }; union doubleword dw; dw.word[0] = adu.getValue(channel_a); dw.word[1] = adu.getValue(channel_b); uint8_t ret = 0; do { wdt_reset(); ret = usart.writeBlock(&(dw.byte[0]), 4); if(ret == 0) return; } while(ret != USART::MSG_OK);*/ } usart.writeByte(USART::MSG_OK); }