Michael Waiblinger 9 years ago
parent
commit
42947cd6b0
  1. 177
      src/CANode.cpp

177
src/CANode.cpp

@ -12,13 +12,61 @@
#include <Metro.h> #include <Metro.h>
#include <FlexCAN.h> #include <FlexCAN.h>
#include <OneWire.h>
// Configurations
// Misc
#define DEBUG 0
#define LED 13
// Metro
#define METRO_CAN_tick 1 // 20 millisecond
#define METRO_OW_read_tick 20 // 20 millisecond
#define METRO_OW_search_tick 1000 // 1000 millisecond
// CAN bus
#define CAN_speed 125000
#define CAN_RS_PIN 2 #define CAN_RS_PIN 2
// OneWire
#define OW_pin 14
#define TEST_ADDR "125B275000000026"
#define DS2406_FAMILY 0x12
#define DS2406_WRITE_STATUS 0x55
#define DS2406_READ_STATUS 0xaa
#define DS2406_CHANNEL_ACCESS 0xf5
#define DS2406_CHANNEL_CONTROL1 0x4c // 01001100 - Read Both Pins
#define DS2406_CHANNEL_CONTROL2 0xff // for future dev
#define SKIP_ROM 0xCC
#define PIO_A 0x20
#define PIO_B 0x40
#define DS2406_BUF_LEN 10
// Initialisation
// Misc
#if DEBUG
#define DEBUG_PRINT(a) Serial.print(a)
#define DEBUG_WRITE(a) Serial.write(a)
#else
#define DEBUG_PRINT(a)
#define DEBUG_WRITE(a)
#endif /* DEBUG */
int led = LED;
// Metro
Metro METRO_CAN = Metro(METRO_CAN_tick);
Metro METRO_OW_read = Metro(METRO_OW_read_tick);
Metro METRO_OW_search = Metro(METRO_OW_search_tick);
// CAN bus
FlexCAN CANbus(CAN_speed);
// OneWire
uint8_t addr[8];
uint8_t buffer[DS2406_BUF_LEN];
uint8_t tmp;
OneWire OW_1(OW_pin);
Metro sysTimer = Metro(1);// milliseconds
int led = 13;
FlexCAN CANbus(125000);
static CAN_message_t msg,rxmsg; static CAN_message_t msg,rxmsg;
static uint8_t hex[17] = "0123456789abcdef"; static uint8_t hex[17] = "0123456789abcdef";
@ -26,33 +74,68 @@ int txCount,rxCount;
unsigned int txTimer,rxTimer; unsigned int txTimer,rxTimer;
// ------------------------------------------------------------- // Functions -------------------------------------------------------
static void hexDump(uint8_t dumpLen, uint8_t *bytePtr) void PrintBytes(uint8_t* addr, uint8_t count, bool newline=0) {
{ for (uint8_t i = 0; i < count; i++) {
uint8_t working; Serial.print(addr[i]>>4, HEX);
while( dumpLen-- ) { Serial.print(addr[i]&0x0f, HEX);
working = *bytePtr++; }
Serial.write( hex[ working>>4 ] ); if (newline)
Serial.write( hex[ working&15 ] ); Serial.println();
} }
Serial.write('\r'); void DEBUG_Bytes(uint8_t* addr, uint8_t count, bool newline=0) {
Serial.write('\n'); #if DEBUG
for (uint8_t i = 0; i < count; i++) {
Serial.print(addr[i]>>4, HEX);
Serial.print(addr[i]&0x0f, HEX);
}
if (newline)
Serial.println();
#endif
}
void print_OW_Device(uint8_t *addr) {
for(int i = 0; i < 8; i++) {
if(i != 0) {
Serial.print(":");
}
Serial.print(addr[i], HEX);
}
}
uint8_t read_DS2406(uint8_t* addr) {
// We're using a temporary switch object here only because we're
// discovering them dynamically. Depending on your app, you may
// already know the serial number of the device you intend to
// control and will use it there.
OW_1.reset();
OW_1.select(addr);
OW_1.write(DS2406_CHANNEL_ACCESS,1);
OW_1.write(DS2406_CHANNEL_CONTROL1,1);
OW_1.write(DS2406_CHANNEL_CONTROL2,1);
tmp = OW_1.read();
OW_1.reset();
#if DEBUG
PrintBytes(&tmp,1,1);
#endif /* DEBUG */
return tmp;
} }
// ------------------------------------------------------------- // -------------------------------------------------------------
void setup(void) void setup(void)
{ {
pinMode(CAN_RS_PIN,OUTPUT); // Misc
digitalWrite(CAN_RS_PIN,0); Serial.begin(115200);
CANbus.begin();
pinMode(led, OUTPUT); pinMode(led, OUTPUT);
digitalWrite(led, 1); digitalWrite(led, 1);
delay(1000); //CAN bus
Serial.println(F("Hello Teensy 3.1 CAN Test.")); pinMode(CAN_RS_PIN,OUTPUT);
digitalWrite(CAN_RS_PIN,0);
CANbus.begin();
sysTimer.reset(); delay(100);
Serial.println(F("Hello Teensy 3.2 CANode awakes."));
METRO_CAN.reset();
METRO_OW_read.reset();
METRO_OW_search.reset();
} }
@ -60,7 +143,42 @@ void setup(void)
void loop(void) void loop(void)
{ {
// service software timers based on Metro tick // service software timers based on Metro tick
if ( sysTimer.check() ) { if ( METRO_OW_search.check() ) {
//Serial.print("Beginning Search...\n");
OW_1.reset_search();
// Assume we can't find something until we prove otherwise.
// bool foundDevice = false;
while(OW_1.search(addr) == 1) {
if ( OneWire::crc8( addr, 7) != addr[7]) {
Serial.print("CRC is not valid!\n");
delay(100);
return;
}
Serial.print("Found a device: ");
print_OW_Device(addr);
Serial.println("");
// At this point, we know we have a DS2406. Blink it.
if(addr[0] == DS2406_FAMILY) {
// foundDevice = true;
// digitalWrite(13, HIGH);
tmp = read_DS2406(addr);
bool pioA = tmp & 0x04;
bool pioB = tmp & 0x08;
digitalWrite(led, pioA);
}
}
}
if (METRO_OW_read.check() ) {
}
if ( METRO_CAN.check() ) {
if ( txTimer ) { if ( txTimer ) {
--txTimer; --txTimer;
} }
@ -73,7 +191,7 @@ void loop(void)
if ( !rxTimer ) { if ( !rxTimer ) {
while ( CANbus.read(rxmsg) ) { while ( CANbus.read(rxmsg) ) {
//hexDump( sizeof(rxmsg), (uint8_t *)&rxmsg ); //hexDump( sizeof(rxmsg), (uint8_t *)&rxmsg );
Serial.write(rxmsg.buf[0]); DEBUG_WRITE(rxmsg.buf[0]);
rxCount++; rxCount++;
} }
} }
@ -82,10 +200,12 @@ void loop(void)
if ( !txTimer ) { if ( !txTimer ) {
// if frames were received, print the count // if frames were received, print the count
if ( rxCount ) { if ( rxCount ) {
#if DEBUG
Serial.write('='); Serial.write('=');
Serial.print(rxCount); Serial.print(rxCount);
Serial.print(",Hello="); Serial.print(",Hello=");
Serial.print(rxmsg.id,HEX); Serial.print(rxmsg.id,HEX);
#endif
rxCount = 0; rxCount = 0;
} }
txTimer = 100;//milliseconds txTimer = 100;//milliseconds
@ -96,16 +216,15 @@ void loop(void)
} }
// send 6 at a time to force tx buffering // send 6 at a time to force tx buffering
txCount = 16; txCount = 16;
digitalWrite(led, 1); //digitalWrite(led, 1);
Serial.println("."); // Serial.println(".");
while ( txCount-- ) { while ( txCount-- ) {
CANbus.write(msg); CANbus.write(msg);
msg.buf[0]++; msg.buf[0]++;
} }
digitalWrite(led, 0); // digitalWrite(led, 0);
// time delay to force some rx data queue use // time delay to force some rx data queue use
rxTimer = 3;//milliseconds rxTimer = 3;//milliseconds
} }
} }

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