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re-implemented library. needs to be tested!

Signed-off-by: Stephan Richter <s.richter@srsoftware.de>
main
Stephan Richter 1 year ago
parent
commit
78c1f77b87
  1. 250
      SoftRS485.cpp
  2. 3
      SoftRS485.h
  3. 45
      examples/SendAndReceive/SendAndReceive.ino

250
SoftRS485.cpp

@ -9,136 +9,50 @@ @@ -9,136 +9,50 @@
//#define DEBUG
#define MSG_LEN 64
#define IDLE 0
#define START 1
#define RECEIVING 2
#define SENDING 3
#define COMPLETE 4
// Pins
int _RO, _RE, _DE, _DI;
int _idle_cycles = 0;
long _pulse_len = 100;
/* INCOMING */
char _recv_message[MSG_LEN];
byte _recv_byte = 0x00;
byte _recv_state = IDLE;
// Receive vars
boolean _recv_bit = false;
byte _recv_idx = 0;
int _recv_pos = 0;
/* OUTGOING */
char _send_message[MSG_LEN];
boolean _send_bit = false;
byte _send_state = IDLE;
byte _send_wait = 0;
byte _send_idx = 0;
int _send_pos = 0;
ISR(TIMER1_COMPA_vect){
OCR1A += 3228; // Advance The COMPA Register
if (_send_state == SENDING){
char c = _send_message[_send_pos];
_send_bit = c & 1<<_send_idx;
digitalWrite(_DI,!_send_bit);
#ifdef DEBUG
Serial.print("Sending bit "); Serial.print(_send_idx); Serial.print(" of "); Serial.print(c); Serial.print(": "); Serial.print(_send_bit); Serial.print(" / ");
#endif
_send_idx++;
if (_send_idx==8){ // byte completed
_send_pos++; // advance to next byte
_send_idx = 0; // start with first bit
if (c == 0x00 || _send_idx == MSG_LEN){ // we just send a 0-byte
_send_state = COMPLETE;
}
}
}
if (_send_state == START && _idle_cycles > 9){
_send_bit = HIGH;
digitalWrite(_DE,HIGH);
digitalWrite(_DI,!_send_bit);
_send_state = SENDING;
_send_idx = 0;
_send_pos = 0;
long _last_flip; // this is the time when the bus switched to logical zero
byte _recv_msg[MSG_LEN];
int _recv_pos = 0;
int _recv_idx = 0;
boolean _avail = false;
void interrupt485(){
_recv_bit = !digitalRead(_RO); // HIGH level = logical zero and vice versa
long now = micros();
long diff = now - _last_flip;
_last_flip = now;
if (diff > 20*_pulse_len){ // we received a start bit
#ifdef DEBUG
Serial.print("Sent start bit: "); Serial.print(_send_bit); Serial.print(" / ");
Serial.print(F("State changed to ")); Serial.println(_recv_bit);
Serial.println(F("received start bit"));
#endif
}
_recv_bit = !digitalRead(_RO); // LOW = 1
if (_recv_bit) {
_idle_cycles = 0;
} else if (_idle_cycles<1000) {
_idle_cycles++;
}
#ifdef DEBUG
Serial.print("idle cycles: "); Serial.print(_idle_cycles); Serial.print(" / ");
Serial.print("received: "); Serial.print(_recv_bit); Serial.print(" / ");
#endif
if (_send_bit != _recv_bit && _send_state == SENDING){ // collision while sending
digitalWrite(_DE,LOW); // disable driver
_send_state = START; // start over
_idle_cycles = 0;
#ifdef DEBUG
Serial.println("\nCOLLISION");
#endif
}
if (_send_state == COMPLETE){
digitalWrite(_DE,LOW); // disable driver
_send_message[0]=0x00; // clear message
_send_state = IDLE;
_idle_cycles =0;
#ifdef DEBUG
Serial.print("transmission complete / ");
#endif
}
if (_recv_state == START){
_recv_byte = 0x00;
_recv_pos = 0;
_recv_idx = 0;
_recv_state = RECEIVING;
#ifdef DEBUG
Serial.print("Start reception / ");
#endif
}
if (_recv_bit && _recv_state == IDLE){
_recv_state = START;
}
if (_recv_state == RECEIVING){
_recv_byte |= _recv_bit << _recv_idx; // set bit
_recv_idx++; // increase bit index
if (_recv_idx == 8){ // byte full
#ifdef DEBUG
Serial.print("pushing "); Serial.print((char)_recv_byte); Serial.print(" / ");
#endif
_recv_message[_recv_pos] = _recv_byte; // push character to string
if (_recv_byte == 0x00) { // end of message
_recv_state = IDLE;
#ifdef DEBUG
Serial.print("reception complete: "); Serial.print(_recv_message);
#endif
_last_flip+=_pulse_len;
} else {
long count = diff/_pulse_len;
for (int i=0; i<count; i++){
if (_recv_idx == 0) {
_recv_msg[_recv_pos] = (!_recv_bit);
} else {
_recv_msg[_recv_pos] |= (!_recv_bit)<<_recv_idx;
}
_recv_idx++;
if (_recv_idx == 8){
_recv_idx = 0;
if (_recv_msg[_recv_pos] == 0x00){
_avail = _recv_pos != 0;
return;
}
_recv_pos++;
}
_recv_idx=0; // start new byte
_recv_byte = 0;
_recv_pos++; // goto next string pos
if (_recv_pos == MSG_LEN) _recv_pos--; // avoid overflow
}
}
#ifdef DEBUG
Serial.println();
#endif
}
void init485(int RO, int nRE, int DE, int DI){
@ -146,8 +60,7 @@ void init485(int RO, int nRE, int DE, int DI){ @@ -146,8 +60,7 @@ void init485(int RO, int nRE, int DE, int DI){
_RE=nRE;
_DE=DE;
_DI=DI;
_recv_message[0] = 0x00; // empty
_send_message[0] = 0x00; // empty
pinMode(_RO,INPUT);
pinMode(_RE,OUTPUT);
@ -159,46 +72,93 @@ void init485(int RO, int nRE, int DE, int DI){ @@ -159,46 +72,93 @@ void init485(int RO, int nRE, int DE, int DI){
pinMode(_DI,OUTPUT);
digitalWrite(_DI,LOW); // output line = LOW
TCCR1A = 0; // Init Timer1A
TCCR1B = 0; // Init Timer1B
TCCR1B |= B00000001; // Prescaler = 1
OCR1A = 3328; // Timer Compare1A Register
TIMSK1 |= B00000010; // Enable Timer COMPA Interrupt
attachInterrupt(digitalPinToInterrupt(_RO),interrupt485,CHANGE);
#ifdef DEBUG
Serial.begin(115200);
Serial.println("Started timer!");
Serial.print("RO = ");
Serial.print(F("RO = "));
Serial.println(_RO);
Serial.print("^RE = ");
Serial.print(F("^RE = "));
Serial.println(_RE);
Serial.print("DE = ");
Serial.print(F("DE = "));
Serial.println(_DE);
Serial.print("DI = ");
Serial.print(F("DI = "));
Serial.println(_DI);
#endif
_last_flip = micros();
}
void speed485(long baudrate){
#ifndef DEBUG
_pulse_len = 1e6 / baudrate;
#else
_pulse_len = 1000;
Serial.print(F("Set pulse_len to ")); Serial.print(_pulse_len); Serial.println(F("µs"));
#endif
}
boolean available485(){
return _recv_state == IDLE && _recv_message[0] != 0;
return _avail;
}
String get485Message(){
String res = String(_recv_message);
_recv_message[0] = 0;
return res;
String get485message(){
_avail = false;
return String((char*)_recv_msg);
}
boolean send485(char message[]){
if (_send_message[0] != 0x00) return false; // we already have a queued message, abort!
for (int idx = 0; idx<MSG_LEN; idx++){
_send_message[idx] = message[idx]; // copy message
if (message[idx] == 0x00) break;
boolean writeBit(boolean bit){
digitalWrite(_DI,!bit);
delayMicroseconds(5);
if (_recv_bit != bit){ // collision!
digitalWrite(_DE,LOW);
#ifdef DEBUG
Serial.println(F("Collision!"));
#endif
return false;
}
if (_send_message[0] == 0x00) return false; // message is empty! abort
_send_state = START;
delayMicroseconds(_pulse_len-5);
return true;
}
boolean send485(char message[]){
#ifdef DEBUG
Serial.print("sending "); Serial.println(_send_message);
Serial.print(F("preparing to send "));
Serial.print(message);
Serial.print(F(": line state = "));
Serial.print(_recv_bit);
Serial.print(F(" / last_flip = "));
Serial.print(_last_flip);
Serial.print(F(" / micros = "));
Serial.println(micros());
#endif
return true;
while (_recv_bit || (micros() - _last_flip) < (20 * _pulse_len)) {
delayMicroseconds(20*_pulse_len);
}
#ifdef DEBUG
Serial.println(F("enabling driver…"));
#endif
digitalWrite(_DE,HIGH); // enable driver
if (!writeBit(HIGH)) return false;
int pos = -1;
boolean good = true;
do {
pos++;
#ifdef DEBUG
Serial.print(F("sending character ")); Serial.println(message[pos]);
#endif
good = writeBit(message[pos] & 0x01)
&& writeBit(message[pos] & 0x02)
&& writeBit(message[pos] & 0x04)
&& writeBit(message[pos] & 0x08)
&& writeBit(message[pos] & 0x10)
&& writeBit(message[pos] & 0x20)
&& writeBit(message[pos] & 0x40)
&& writeBit(message[pos] & 0x80);
} while (good && message[pos]);
if (good) writeBit(1);
digitalWrite(_DE,LOW); // disable driver
#ifdef DEBUG
Serial.println(F("disabled driver…"));
#endif
return good;
}

3
SoftRS485.h

@ -9,7 +9,8 @@ @@ -9,7 +9,8 @@
#include "Arduino.h"
extern void init485(int RO, int nRE, int DE, int DI);
extern void speed485(long pulse_length);
extern boolean available485();
extern String get485Message();
extern String get485message();
extern boolean send485(char message[]);
#endif

45
examples/SendAndReceive/SendAndReceive.ino

@ -1,45 +1,18 @@ @@ -1,45 +1,18 @@
/*
This sketch demonstrates, how to use the SoftRS485 library.
This library makes use of Arduinos timer 1
*/
#include <SoftRS485.h>
int count = 0;
String message = "Message ";
void setup() {
Serial.begin(115200);
init485(2,3,4,5); // library initialization:
// connect pin 2 to RO of Max485
// connect pin 3 to ^RE of Max485
// connect pin 4 to DE of Max485
// connect pin 5 to DI of Max485
if (send485("Test")) {
// This should send "Test" if the line is free.
Serial.println("Test sent!");
}
if (!send485("Test2")) {
// This shoult fail, as transmission of "Test" should still be on the way
Serial.println("Test2 failed!");
init485(2,3,4,5);
speed485(8000);
boolean sent = false;
while (!sent) {
sent = send485("This message is sent and received!");
}
}
void loop(){
if (available485()){ // check if we have received anything
Serial.print("messageReceived: ");
Serial.println(get485Message()); // read the received message
// send another message everytime we have received one
count++;
char msg[128];
(message+count).toCharArray(msg,128);
if (!send485(msg)){
Serial.print("Sending ");
Serial.print(msg);
Serial.println(" failed!");
}
void loop() {
// put your main code here, to run repeatedly:
if (available485()){
Serial.println("Received "+get485message());
}
}

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