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434 lines
9.4 KiB
434 lines
9.4 KiB
#include "Arduino.h" |
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#include "LowLevel.h" |
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#include "SerialChannel.h" |
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#define LEDPin 13 |
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#define OWPin 2 |
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#define InterruptNumber 0 // Must correspond to the OWPin to correctly detect state changes. On Arduino Uno, interrupt 0 is for digital pin 2 |
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#define ResetMinDuration 480 |
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#define ResetMaxDuration 900 |
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#define PresenceWaitDuration 30 |
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#define PresenceDuration 300 |
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#define ReadBitSamplingTime 13 // the theorical time is about 30us, but given various overhead, this is the empirical delay I've found works best (on Arduino Uno) |
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#define SendBitDuration 35 |
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const byte InvalidBit = (byte)-1; |
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const byte IncompleteBit = (byte)-2; |
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SerialChannel debug("debug"); |
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Pin owPin(OWPin); |
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Pin owOutTestPin(3); |
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Pin led(LEDPin); |
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enum OwStatus |
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{ |
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OS_WaitReset, |
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OS_Presence, |
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OS_WaitCommand, |
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OS_SearchRom, |
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}; |
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OwStatus status; |
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byte owROM[8] = { 0xE2, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x00 }; |
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byte searchROMCurrentByte = 0; |
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byte searchROMCurrentBit = 0; |
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bool searchROMSendingInverse = false; |
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bool searchROMReadingMasterResponseBit = false; |
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void owPullLow() |
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{ |
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owPin.outputMode(); |
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owPin.writeLow(); |
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owOutTestPin.writeLow(); |
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} |
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void owRelease() |
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{ |
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owPin.inputMode(); |
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owOutTestPin.writeHigh(); |
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} |
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void onEnterInterrupt() |
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{ |
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//owOutTestPin.writeLow(); |
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} |
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void onLeaveInterrupt() |
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{ |
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//owOutTestPin.writeHigh(); |
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} |
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volatile unsigned long resetStart = (unsigned long)-1; |
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unsigned long lastReset = (unsigned long)-1; |
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unsigned long bitStart = (unsigned long)-1; |
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byte receivingByte = 0; |
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byte receivingBitPos = 0; |
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bool searchRomNextBit = false; |
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bool searchRomNextBitToSend = false; |
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void setup() |
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{ |
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owROM[7] = crc8((char*)owROM, 7); |
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led.outputMode(); |
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owPin.inputMode(); |
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owOutTestPin.outputMode(); |
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owOutTestPin.writeHigh(); |
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led.writeLow(); |
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cli(); // disable interrupts |
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attachInterrupt(InterruptNumber, owWaitResetInterrupt, CHANGE); |
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// set timer0 interrupt at 250KHz (actually depends on compare match register OCR0A) |
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// 4us between each tick |
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TCCR1A = 0; |
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TCCR1B = 0; |
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TCNT1 = 0; // initialize counter value to 0 |
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//TCCR1B |= (1 << WGM12); // turn on CTC mode |
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//TCCR1B |= (1 << CS11) | (1 << CS10); // Set 64 prescaler |
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TIMSK1 |= (1 << OCIE1A); // enable timer compare interrupt |
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sei(); // enable interrupts |
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Serial.begin(9600); |
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} |
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int count = 0; |
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void loop() |
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{ |
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if ((count++) % 1000 == 0) |
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led.write(!led.read()); |
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cli();//disable interrupts |
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SerialChannel::swap(); |
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sei();//enable interrupts |
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SerialChannel::flush(); |
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} |
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void(*timerEvent)() = 0; |
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void setTimerEvent(short microSecondsDelay, void(*event)()) |
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{ |
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microSecondsDelay -= 10; // this seems to be the typical time taken to initialize the timer on Arduino Uno |
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short skipTicks = (microSecondsDelay - 3) / 4; // round the micro seconds delay to a number of ticks to skip (4us per tick, so 4us must skip 0 tick, 8us must skip 1 tick, etc.) |
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if (skipTicks < 1) skipTicks = 1; |
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//debug.SC_APPEND_STR_INT("setTimerEvent", (long)skipTicks); |
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TCNT1 = 0; |
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OCR1A = skipTicks; |
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timerEvent = event; |
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TCCR1B = (1 << WGM12) | (1 << CS11) | (1 << CS10); // turn on CTC mode with 64 prescaler |
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} |
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void owError(const char* message) |
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{ |
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debug.append(message); |
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led.writeHigh(); |
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status = OS_WaitReset; |
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} |
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void owClearError() |
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{ |
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led.writeLow(); |
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} |
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void owWaitResetInterrupt() |
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{ |
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onEnterInterrupt(); |
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bool state = owPin.read(); |
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unsigned long now = micros(); |
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if (state) |
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{ |
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if (resetStart == (unsigned int)-1) |
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{ |
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onLeaveInterrupt(); |
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return; |
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} |
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unsigned long resetDuration = now - resetStart; |
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resetStart = (unsigned int)-1; |
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if (resetDuration >= ResetMinDuration) |
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{ |
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if (resetDuration > ResetMaxDuration) |
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{ |
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owError("Reset too long"); |
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onLeaveInterrupt(); |
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return; |
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} |
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owClearError(); |
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lastReset = now; |
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status = OS_Presence; |
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setTimerEvent(PresenceWaitDuration - (micros() - now), &beginPresence); |
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} |
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} |
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else |
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{ |
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resetStart = now; |
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} |
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onLeaveInterrupt(); |
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} |
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//bool debugState = false; |
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volatile unsigned long lastInterrupt = 0; |
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void owReceiveCommandInterrupt(void) |
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{ |
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onEnterInterrupt(); |
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unsigned long now = micros(); |
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if (now < lastInterrupt + 20) |
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{ |
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onLeaveInterrupt(); |
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return; // don't react to our own actions |
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} |
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lastInterrupt = now; |
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//debugState = !debugState; |
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//owOutTestPin.write(debugState); |
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//led.write(state); |
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bool bit = readBit(); |
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/*if (bit) |
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debug.SC_APPEND_STR("received bit 1"); |
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else |
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debug.SC_APPEND_STR("received bit 0");*/ |
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receivingByte |= ((bit ? 1 : 0) << receivingBitPos); |
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++receivingBitPos; |
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if (receivingBitPos == 8) |
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{ |
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byte receivedByte = receivingByte; |
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receivingBitPos = 0; |
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receivingByte = 0; |
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//debug.SC_APPEND_STR_INT("received byte", (long)receivedByte); |
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if (status == OS_WaitCommand && receivedByte == 0xF0) |
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{ |
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status = OS_SearchRom; |
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searchROMReadingMasterResponseBit = false; |
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searchROMSendingInverse = false; |
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searchROMCurrentByte = 0; |
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searchROMCurrentBit = 0; |
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byte currentByte = owROM[searchROMCurrentByte]; |
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searchRomNextBit = bitRead(currentByte, searchROMCurrentBit); |
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searchRomNextBitToSend = searchROMSendingInverse ? !searchRomNextBit : searchRomNextBit; |
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//attachInterrupt(InterruptNumber, onewireInterruptSearchROM, FALLING); |
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setTimerEvent(10, owSearchSendBit); |
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detachInterrupt(InterruptNumber); |
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onLeaveInterrupt(); |
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return; |
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} |
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} |
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onLeaveInterrupt(); |
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} |
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bool ignoreNextFallingEdge = false; |
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void owSearchSendBit() |
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{ |
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onEnterInterrupt(); |
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// wait for a falling edge (active wait is more reliable than interrupts to send the bit fast enough) |
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while (!owPin.read()); |
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while (owPin.read()); |
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//sendBit(searchRomNextBitToSend); |
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if (searchRomNextBitToSend) |
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{ |
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//delayMicroseconds(SendBitDuration); |
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ignoreNextFallingEdge = false; |
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} |
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else |
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{ |
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owPullLow(); |
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//delayMicroseconds(SendBitDuration); |
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//owRelease(); |
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ignoreNextFallingEdge = true; |
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} |
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unsigned long sendBitStart = micros(); |
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if (searchROMSendingInverse) |
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{ |
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searchROMSendingInverse = false; |
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searchROMReadingMasterResponseBit = true; |
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} |
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else |
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{ |
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searchROMSendingInverse = true; |
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} |
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byte currentByte = owROM[searchROMCurrentByte]; |
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searchRomNextBit = bitRead(currentByte, searchROMCurrentBit); |
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searchRomNextBitToSend = searchROMSendingInverse ? !searchRomNextBit : searchRomNextBit; |
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if (searchROMReadingMasterResponseBit) |
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{ |
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ignoreNextFallingEdge = true; |
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attachInterrupt(InterruptNumber, onewireInterruptSearchROM, FALLING); |
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} |
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else |
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{ |
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setTimerEvent(10, owSearchSendBit); |
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} |
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delayMicroseconds(SendBitDuration - (micros() - sendBitStart)); |
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owRelease(); |
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onLeaveInterrupt(); |
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} |
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void onewireInterruptSearchROM() |
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{ |
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onEnterInterrupt(); |
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if (ignoreNextFallingEdge) |
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{ |
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ignoreNextFallingEdge = false; |
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onLeaveInterrupt(); |
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return; |
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} |
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if (searchROMReadingMasterResponseBit) |
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{ |
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bool bit = readBit(); |
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if (bit != searchRomNextBit) |
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{ |
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debug.SC_APPEND_STR("Master didn't send our bit, leaving ROM search"); |
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status = OS_WaitReset; |
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attachInterrupt(InterruptNumber, owWaitResetInterrupt, CHANGE); |
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onLeaveInterrupt(); |
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return; |
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} |
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searchROMReadingMasterResponseBit = false; |
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++searchROMCurrentBit; |
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if (searchROMCurrentBit == 8) |
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{ |
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++searchROMCurrentByte; |
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searchROMCurrentBit = 0; |
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//debug.SC_APPEND_STR("sent another ROM byte"); |
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} |
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if (searchROMCurrentByte == 8) |
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{ |
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searchROMCurrentByte = 0; |
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status = OS_WaitReset; |
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debug.SC_APPEND_STR("ROM sent entirely"); |
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attachInterrupt(InterruptNumber, owWaitResetInterrupt, CHANGE); |
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onLeaveInterrupt(); |
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return; |
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} |
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byte currentByte = owROM[searchROMCurrentByte]; |
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searchRomNextBit = bitRead(currentByte, searchROMCurrentBit); |
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searchRomNextBitToSend = searchROMSendingInverse ? !searchRomNextBit : searchRomNextBit; |
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setTimerEvent(10, owSearchSendBit); |
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detachInterrupt(InterruptNumber); |
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onLeaveInterrupt(); |
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return; |
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} |
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else |
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{ |
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sendBit(searchRomNextBitToSend); |
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/*if (bitToSend) |
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debug.SC_APPEND_STR("sent ROM search bit : 1"); |
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else |
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debug.SC_APPEND_STR("sent ROM search bit : 0");*/ |
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if (searchROMSendingInverse) |
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{ |
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searchROMSendingInverse = false; |
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searchROMReadingMasterResponseBit = true; |
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} |
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else |
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{ |
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searchROMSendingInverse = true; |
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} |
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} |
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byte currentByte = owROM[searchROMCurrentByte]; |
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searchRomNextBit = bitRead(currentByte, searchROMCurrentBit); |
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searchRomNextBitToSend = searchROMSendingInverse ? !searchRomNextBit : searchRomNextBit; |
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onLeaveInterrupt(); |
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} |
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bool readBit() |
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{ |
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delayMicroseconds(ReadBitSamplingTime); |
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bool bit = owPin.read(); |
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//owOutTestPin.write(!owOutTestPin.read()); |
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//owOutTestPin.write(!owOutTestPin.read()); |
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return bit; |
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} |
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void sendBit(bool bit) |
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{ |
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if (bit) |
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{ |
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delayMicroseconds(SendBitDuration); |
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ignoreNextFallingEdge = false; |
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} |
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else |
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{ |
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owPullLow(); |
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delayMicroseconds(SendBitDuration); |
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owRelease(); |
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ignoreNextFallingEdge = true; |
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} |
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} |
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void beginPresence() |
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{ |
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unsigned long now = micros(); |
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owPullLow(); |
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setTimerEvent(PresenceDuration, &endPresence); |
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debug.SC_APPEND_STR_TIME("reset", lastReset); |
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debug.SC_APPEND_STR_TIME("beginPresence", now); |
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} |
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void endPresence() |
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{ |
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unsigned long now = micros(); |
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owRelease(); |
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debug.SC_APPEND_STR_TIME("endPresence", now); |
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status = OS_WaitCommand; |
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attachInterrupt(InterruptNumber, owReceiveCommandInterrupt, FALLING); |
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receivingByte = 0; |
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receivingBitPos = 0; |
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bitStart = (unsigned long)-1; |
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} |
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ISR(TIMER1_COMPA_vect) // timer1 interrupt |
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{ |
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TCCR1B = 0; // disable clock |
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void(*event)() = timerEvent; |
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timerEvent = 0; |
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if (event != 0) |
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event(); |
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} |
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uint8_t crc8(char addr[], uint8_t len) { |
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uint8_t crc = 0; |
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while (len--) { |
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uint8_t inbyte = *addr++; |
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for (uint8_t i = 8; i; i--) { |
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uint8_t mix = (crc ^ inbyte) & 0x01; |
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crc >>= 1; |
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if (mix) crc ^= 0x8C; |
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inbyte >>= 1; |
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} |
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} |
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return crc; |
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}
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