Rolling code: Difference between revisions

A '''rolling code''' (or sometimes called a '''hopping code''') is used in [[keyless entry]] systems to prevent a simple form of [[replay attack]]s, where an [[Eavesdropping|eavesdropper]] records the transmission and replays it at a later time to cause the receiver to 'unlock'. Such systems are typical in [[garage door opener]]s and keyless car entry systems.

A rolling code transmitter is useful in a security system for providingimproving securethe encryptedsecurity of [[radio frequency]] (RF) transmission, comprising an interleaved trinary bit fixed code and rolling code. A receiver demodulates the encrypted RF transmission and recovers the fixed code and rolling code. Upon comparison of the fixed and rolling codes with stored codes and determiningseeing that thethey signalpass hasa emanatedset fromof analgorithmic authorized transmitterchecks, a signal is generated to actuate an electric motor to open or close a movable component.{{citation-needed|date=November 2023}}

Remote controls send a digital code word to the receiver. If the receiver determines the codeword is acceptable, then the receiver will actuate the relay, unlock the door, or open the barrier. Simple remote control systems use a fixed code word; the code word that opens the gate today will also open the gate tomorrow. An attacker with an appropriate receiver could discover the code word and use it to gain access sometime later. More sophisticated remote control systems use a rolling code (or hopping code) that changes for every use. An attacker may be able to learn the code word that opened the door just now, but the receiver will not accept that code word for the foreseeable future. A rolling code system uses encryptioncryptographic methods that allow the remote control and the receiver to share codewords but make it difficult for an attacker to break the encryptioncryptography.

The Microchip HCS301 was once the most widely used system on garage and gate remote control and receivers. The chip uses the KeeLoq algorithm. The HCS301 KeeLoq system transmits 66 data bits.:

* 34 bits are not encrypted : a 28-bit serial number, 4 bits of button information, and 2 status bits (repeat and low battery indicators).

* 32 bits are encrypted (the rolling code) : 4 bits of button information, 2 bits of OVR (used to extend counter value), 10 bits of DISC (discrimination value; often the low 10 bits of the serial number), and a 16-bit counter.<ref>{{Citation |last=Microchip |title=HC301 KeeLoq Code Hopping Encoder |year=2001 |id=DS21143B |publisher=Microchip Technology Inc. |url=http://ww1.microchip.com/downloads/en/devicedoc/21143b.pdf}}</ref><ref>{{cite web|url=https://garagedoorpitt.com/garage-door-remote-not-working-reasons/|title=Garage Door Remote Not Working Reasons| date=4 November 2021 }}</ref> In a resyncing situation, the encrypted 32 bits are replaced with a 32-bit seed value.

A rolling code transmitted by radio signal that can be intercepted can be vulnerable to falsification. In 2015, it was reported that [[Samy Kamkar]] had built an inexpensive electronic device about the size of a wallet that could be concealed on or near a locked vehicle to capture a single keyless entry code to be used at a later time to unlock the vehicle. The device transmits a jamming signal to block the vehicle's reception of rolling code signals from the owner's fob, while recording these signals from both of his two attempts needed to unlock the vehicle. The recorded first code is forwarded (replayed) to the vehicle only when the owner makes the second attempt, while the recorded second code is retained for future use. Kamkar stated that this vulnerability had been widely known for years to be present in many vehicle types, but was previously undemonstrated.<ref name="RollinCode">{{cite news | title=A hacker made a $30 gadget that can unlock many cars that have keyless entry | url=http://www.techinsider.io/samy-kamkar-keyless-entry-car-hack-2015-8 | work=[[Tech Insider]] | first=Cadie | last=Thompson | date=2015-08-06 | access-date=2015-08-11}}</ref> A demonstration was done during [[DEF CON]] 23.<ref name="DC23">{{cite web | title=Drive It Like You Hacked It: New Attacks and Tools to Wirelessly Steal Cars | url=https://www.defcon.org/html/defcon-23/dc-23-speakers.html#Kamkar | work=[[DEF CON]] 23 | first=Samy | last=Kamkar | date=2015-08-07 | access-date=2015-08-11}}</ref>

* Atmel Inc.'s application note [httphttps://wwwww1.atmelmicrochip.com/Imagesdownloads/aemDocuments/documents/OTH/ApplicationNotes/ApplicationNotes/Atmel-2600-AVR411-Secure-Rolling-Code-Algorithm-for-Wireless-Link_Application-Note.pdf AVR411][[Category:Automotive technologies]]