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_P008_RFID.ino
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_P008_RFID.ino
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//#######################################################################################################
//################################# Plugin 008: Wiegand RFID Tag Reader #################################
//#######################################################################################################
#define PLUGIN_008
#define PLUGIN_ID_008 8
#define PLUGIN_NAME_008 "RFID Reader - Wiegand"
#define PLUGIN_VALUENAME1_008 "Tag"
#define PLUGIN_008_WGSIZE 26
void Plugin_008_interrupt1() ICACHE_RAM_ATTR;
void Plugin_008_interrupt2() ICACHE_RAM_ATTR;
volatile byte Plugin_008_bitCount = 0; // Count the number of bits received.
volatile unsigned long Plugin_008_keyBuffer = 0; // A 32-bit-long keyBuffer into which the number is stored.
byte Plugin_008_bitCountPrev = 0; // to detect noise
byte Plugin_008_Unit = 0;
boolean Plugin_008_init = false;
boolean Plugin_008(byte function, struct EventStruct *event, String& string)
{
boolean success = false;
switch (function)
{
case PLUGIN_DEVICE_ADD:
{
Device[++deviceCount].Number = PLUGIN_ID_008;
Device[deviceCount].Type = DEVICE_TYPE_DUAL;
Device[deviceCount].VType = SENSOR_TYPE_LONG;
Device[deviceCount].Ports = 0;
Device[deviceCount].PullUpOption = false;
Device[deviceCount].InverseLogicOption = false;
Device[deviceCount].FormulaOption = false;
Device[deviceCount].ValueCount = 1;
Device[deviceCount].SendDataOption = true;
Device[deviceCount].TimerOption = false;
Device[deviceCount].GlobalSyncOption = true;
break;
}
case PLUGIN_GET_DEVICENAME:
{
string = F(PLUGIN_NAME_008);
break;
}
case PLUGIN_GET_DEVICEVALUENAMES:
{
strcpy_P(ExtraTaskSettings.TaskDeviceValueNames[0], PSTR(PLUGIN_VALUENAME1_008));
break;
}
case PLUGIN_INIT:
{
Plugin_008_init = true;
pinMode(Settings.TaskDevicePin1[event->TaskIndex], INPUT_PULLUP);
pinMode(Settings.TaskDevicePin2[event->TaskIndex], INPUT_PULLUP);
attachInterrupt(Settings.TaskDevicePin1[event->TaskIndex], Plugin_008_interrupt1, FALLING);
attachInterrupt(Settings.TaskDevicePin2[event->TaskIndex], Plugin_008_interrupt2, FALLING);
success = true;
break;
}
case PLUGIN_ONCE_A_SECOND:
{
if (Plugin_008_init)
{
if ((Plugin_008_bitCount != PLUGIN_008_WGSIZE) && (Plugin_008_bitCount == Plugin_008_bitCountPrev))
{
// must be noise
Plugin_008_bitCount = 0;
Plugin_008_keyBuffer = 0;
}
if (Plugin_008_bitCount == PLUGIN_008_WGSIZE)
{
Plugin_008_bitCount = 0; // Read in the current key and reset everything so that the interrupts can
Plugin_008_keyBuffer = Plugin_008_keyBuffer >> 1; // Strip leading and trailing parity bits from the keyBuffer
Plugin_008_keyBuffer &= 0xFFFFFF;
UserVar[event->BaseVarIndex] = (Plugin_008_keyBuffer & 0xFFFF);
UserVar[event->BaseVarIndex + 1] = ((Plugin_008_keyBuffer >> 16) & 0xFFFF);
String log = F("RFID : Tag: ");
log += Plugin_008_keyBuffer;
addLog(LOG_LEVEL_INFO, log);
sendData(event);
}
Plugin_008_bitCountPrev = Plugin_008_bitCount; // store this value for next check, detect noise
}
break;
}
}
return success;
}
/*********************************************************************/
void Plugin_008_interrupt1()
/*********************************************************************/
{
// We've received a 1 bit. (bit 0 = high, bit 1 = low)
Plugin_008_keyBuffer = Plugin_008_keyBuffer << 1; // Left shift the number (effectively multiplying by 2)
Plugin_008_keyBuffer += 1; // Add the 1 (not necessary for the zeroes)
Plugin_008_bitCount++; // Increment the bit count
}
/*********************************************************************/
void Plugin_008_interrupt2()
/*********************************************************************/
{
// We've received a 0 bit. (bit 0 = low, bit 1 = high)
Plugin_008_keyBuffer = Plugin_008_keyBuffer << 1; // Left shift the number (effectively multiplying by 2)
Plugin_008_bitCount++; // Increment the bit count
}