Difference between revisions of "ACKsess"

Project: ACKsess
Featured:
State	Completed
Members	Vicarious, Prodigity, xopr
GitHub	No GitHub project defined. Add your project here.
Description	Knock knock.
Picture

synopsis

knock knock.

current implementation

The now working ACKsess implementation has several advantages over the old broken one, that broke.

• Heartbeat: it pulsates the LED every 5 seconds or so, to indicate it's active
• Better feedback (blink if door is unlocked)
• Brute force protection (locks 10 seconds after a failed authentication, pulsates very fast as a tamper indication)
• Faster response (shortened the delay for faster response)
• Opens on powerup/reset. This way, the reset button can be used to open the door
• Various code cleanup/alignment/update
• it beeps (as a helping aid)!
• (NEW) it works stand-alone now together with an I²C display (serial still supported)

mode of operation

normal mode

• press the firebutton or put a valid key on the reader
• door will open

admin mode

• press and hold firebutton
• before the long beep ends, put a master key on the reader and hold both firmly
• an upward melody will play; release/remove buttons before it ends
• display will show Program mode:add

exit admin mode

• put master button on the reader again
• a downward melody will play

add keys

• enter #admin mode
• put a new iButton on the reader
• a short high beep will sound upon adding
• display will show Added @ <EEPROM index> and the key ID
• exit by putting master button on the reader again

delete keys

• press firebutton shortly to cycle through the keys
• display will show Program mode:del and the key ID
• put master key on the reader to confirm and go back to admin mode
• a low beep will sound upon deletion
• display will show Deleted @ <EEPROM index>

exit delete keys without deleting keys

• to go to admin mode without deleting keys: press firebutton long (>1s)

images

Some images

• 

  iButton reader inside the door handle hole

• 

  first version of door lock mechanism

• 

  Awesome door handle (press fire to open)

• 

  Joystick internals

• 

  THEREIFIXEDIT

hardware

The joystick contains a print that fits snugly, with an Arduino pro mini.

arduino Mega 1280

The print has print connectors, so everything can pop off easy.

You can use a USB to serial adapter (came with the pro mini) for debugging on 115200 baud.

Joystick PCB

The PCB receives power, and uses a 7805 to power the Arduino.

Arduino pins

2: reader pin: reader 'data' pin, 4k7 pull up to 5v

3: led pin: uses pwm heart beat every 5 seconds and blinks fast if the door is unlocked

4: button pin: for use for external opener, pullup (connect to ground to trigger)

5: relay pin: set high to pull relay pin to low

9: buzzer pin: for audio feedback

• The NPN transistor used is a BC548 (goes up to 500mA), drived with a 100-300 something ohm resistor on the base (from the top of my head).
• Note that is has a diode (1n4000 something) antiparallel between collector and emittor as coil reverse voltage protection
• The onewire pull up used is 4k7 to 5v

DS9092L iButton probe

I had to reverse engineer the wiring somewhat (connector was gone), but here it is: DS9092L iButton probe datasheet Pinout:

1. GND (blue)
2. Data (onewire) (green)
3. LED cathode (-) (yellow)
4. LED anode (+) (orange)

software

Most of ACKsess.ino (old code):

#include <OneWire.h>

const int relayPin  = 5;     // the number of the relay pin
const int ledPin    = 3;     // the number of the LED pin (change to 13 to see the onboard led)
const int readerPin = 2;     // the number of the iButton reader pin
const int buttonPin = 4;     // the number of the pushbutton pin
const int buzzerPin = 9;     // the number of the buzzer pin

OneWire ds( readerPin );
byte addr[ 8 ];
String keyStatus = "";

byte allowedButtons[][6] = {
  /* ADD YOUR BUTTONS TO AUTHORIZE HERE */
};

byte disallowedButtons[][6] = {
  /* ADD THE BUTTONS TO IGNORE HERE */
};

void setup(void)
{
  Serial.begin(115200);
  pinMode( buttonPin, INPUT_PULLUP );
  pinMode( ledPin, OUTPUT );
  pinMode( relayPin, OUTPUT );
  
  Serial.println( "ACKsess initialized" );
  Serial.print( "number of keys: " );
  Serial.println( sizeof( allowedButtons ) / 6 );

  // Open the door upon power up and (on board) reset
  openDoor( true );
}

byte nState = 0;
byte nLedVal = 0;
bool bTamper = false;
void loop(void)
{
  switch ( nState )
  {
    case 0: // forward, led fade in
      nLedVal++;
      if ( nLedVal >= 255 )
        nState++;

      if ( bTamper )
          analogWrite( ledPin, nLedVal & 32 );
      else
          analogWrite( ledPin, nLedVal );

      delay( 1 );
      break;

    case 1: // backward, led fade out
      nLedVal--;
      if ( nLedVal <= 0 )
        nState++;

      if ( bTamper )
        analogWrite( ledPin, nLedVal & 32 );
      else
        analogWrite( ledPin, nLedVal );

        delay( 1 );
      break;

    default: // idle
        nState++;
        delay( 500 );

        if ( nState >= 10 )
          nState = 0;

      break;
  };

  // If the external button was pushed, open the door
  if ( digitalRead( buttonPin ) == LOW )
    openDoor( true );

  // Check keys twice each fade and on every idle state step
  if ( (nLedVal == 127) || ( nState > 1 ) )
  {
    // Store the button info and read the keycode
    getKeyCode( );
    if( keyStatus == "ok" )
    {
      // We have a correct key type, authenticate it
      Serial.print("00");
      for( byte i = 5; i > 0; i--)
      {
        Serial.print( ":" );
        Serial.print(addr[i], HEX);
      }
      Serial.println( "" );

      // Either open the door, or lock the system for 30 seconds
      if ( authenticateKey( addr, false ) )
      {
        bTamper = false;
        openDoor( false );
      }
      else if ( !authenticateKey( addr, true ) )
      {
        bTamper = true;
        Serial.println( "ACKsess denied!" );
        tone( buzzerPin, 600, 3000 );
        delay( 30000 );
      }
      else
      {
        Serial.println( "ACKsess filtered" );
        tone( buzzerPin, 600, 500 );
        delay( 1000 );
        tone( buzzerPin, 600, 500 );
        delay( 1000 );
        tone( buzzerPin, 600, 1000 );
      }
    }
  }
}

void openDoor( bool _buttonPressed )
{
  Serial.println( "ACKsess granted!" );

  // Trigger the relay
  digitalWrite( relayPin, HIGH );

  // Blink the led fast for about 3 seconds
  for ( byte n = 0; n < 3; n++ )  // 250+250*6 500+500*3
  {
    digitalWrite( ledPin, HIGH );
    tone( buzzerPin, 1000, 250 );
    delay( 250 );
    digitalWrite( ledPin, LOW );
    delay( 250 );
  }

  // Relay off
  digitalWrite( relayPin, LOW );
}

void getKeyCode()
{
  byte present = 0;
  byte data[ 12 ];
  keyStatus="";

  if ( !ds.search( addr ) )
  {
    ds.reset_search( );
    return;
  }

  if ( OneWire::crc8( addr, 7) != addr[ 7 ] )
  {
    keyStatus = "CRC invalid";
    return;
  }

  keyStatus = "ok";
  ds.reset( );
}

boolean authenticateKey( byte* _button, bool _includeIgnore )
{
  /* SECURITY THROUGH OBSCURITY, VISIT US TO SEE SOME EXAMPLES */
  return false;
}

todo

• add picture of the internals
• have battery backup (implement stand-by mode, might need a refit of the pull-up)
• check if we need a power-on-lock or power-off-lock, and add an appropriate power design
• audit the authentication method

Location: hACKspace (You've passed it on the way in)