mirror of
https://github.com/arduino/Arduino.git
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152 lines
3.5 KiB
C++
152 lines
3.5 KiB
C++
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#include "EasyTransfer2.h"
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//Captures address and size of struct
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void EasyTransfer2::begin(HardwareSerial *theSerial){
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_serial = theSerial;
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//dynamic creation of rx parsing buffer in RAM
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//rx_buffer = (uint8_t*) malloc(size);
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resetData();
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}
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void EasyTransfer2::writeByte(uint8_t dat){
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if(position<20)
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data[position++]=dat;
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size++;
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}
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void EasyTransfer2::writeInt(int dat){
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if(position<19){
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data[position++]=dat>>8;
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data[position++]=dat;
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size+=2;
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}
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}
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uint8_t EasyTransfer2::readByte(){
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if(position>=size)return 0;
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return data[position++];
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}
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int EasyTransfer2::readInt(){
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if(position+1>=size)return 0;
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int dat_1=data[position++]<<8;
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int dat_2=data[position++];
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int dat= dat_1 | dat_2;
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return dat;
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}
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void EasyTransfer2::resetData(){
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for(int i=0;i<20;i++){
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data[i]=0;
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}
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size=0;
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position=0;
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}
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//Sends out struct in binary, with header, length info and checksum
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void EasyTransfer2::sendData(){
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uint8_t CS = size;
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_serial->write(0x06);
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_serial->write(0x85);
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_serial->write(size);
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for(int i = 0; i<size; i++){
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CS^=*(data+i);
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_serial->write(*(data+i));
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//Serial.print(*(data+i));
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//Serial.print(",");
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}
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//Serial.println("");
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_serial->write(CS);
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resetData();
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}
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boolean EasyTransfer2::receiveData(){
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//start off by looking for the header bytes. If they were already found in a previous call, skip it.
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if(rx_len == 0){
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//this size check may be redundant due to the size check below, but for now I'll leave it the way it is.
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if(_serial->available() >= 3){
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//this will block until a 0x06 is found or buffer size becomes less then 3.
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while(_serial->read() != 0x06) {
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//This will trash any preamble junk in the serial buffer
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//but we need to make sure there is enough in the buffer to process while we trash the rest
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//if the buffer becomes too empty, we will escape and try again on the next call
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if(_serial->available() < 3)
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return false;
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}
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//Serial.println("head");
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if (_serial->read() == 0x85){
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rx_len = _serial->read();
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//Serial.print("rx_len:");
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//Serial.println(rx_len);
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resetData();
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//make sure the binary structs on both Arduinos are the same size.
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/*if(rx_len != size){
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rx_len = 0;
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return false;
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}*/
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}
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}
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//Serial.println("nothing");
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}
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//we get here if we already found the header bytes, the struct size matched what we know, and now we are byte aligned.
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if(rx_len != 0){
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while(_serial->available() && rx_array_inx <= rx_len){
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data[rx_array_inx++] = _serial->read();
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}
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if(rx_len == (rx_array_inx-1)){
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//seem to have got whole message
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//last uint8_t is CS
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calc_CS = rx_len;
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//Serial.print("len:");
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//Serial.println(rx_len);
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for (int i = 0; i<rx_len; i++){
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calc_CS^=data[i];
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//Serial.print("m");
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//Serial.print(data[i]);
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//Serial.print(",");
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}
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//Serial.println();
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//Serial.print(data[rx_array_inx-1]);
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//Serial.print(" ");
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//Serial.println(calc_CS);
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if(calc_CS == data[rx_array_inx-1]){//CS good
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//resetData();
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//memcpy(data,d,rx_len);
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for(int i=0;i<20;i++){
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//Serial.print(data[i]);
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//Serial.print(",");
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}
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//Serial.println("");
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size=rx_len;
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rx_len = 0;
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rx_array_inx = 0;
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return true;
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}
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else{
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//Serial.println("CS");
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resetData();
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//failed checksum, need to clear this out anyway
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rx_len = 0;
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rx_array_inx = 0;
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return false;
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}
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}
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}
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//Serial.print(rx_len);
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//Serial.print(" ");
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//Serial.print(rx_array_inx);
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//Serial.print(" ");
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//Serial.println("Short");
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return false;
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}
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