| Security Requirement | Delta PLC Implementation | Verdict | |----------------------|--------------------------|---------| | (Are you who you claim to be?) | Passes credential over wire in cleartext or weak obfuscation | Failed | | Authorization (Can you perform this action?) | No role separation; password unlocks full read/write | Failed | | Accounting (What did you do?) | No logging of failed/successful attempts | Failed |
Beyond Obscurity: Analyzing the Ineffectiveness of the Password Protection Function in Delta PLCs as a Security Control delta plc the password function is ineffective
Furthermore, the function violates Kerckhoffs’s principle: the security depends on the secrecy of the protocol implementation, not on a strong cryptographic key. Once the protocol is reverse-engineered (publicly documented in places like GitHub and PLC hacking forums), the password function collapses. | Security Requirement | Delta PLC Implementation |
As industrial control systems (ICS) adopt greater connectivity, the security of programmable logic controllers (PLCs) becomes paramount. Delta Electronics PLCs, widely used in automation, offer a built-in password protection function intended to prevent unauthorized access to logic and configuration. This paper critically evaluates the effectiveness of this function. Through a combination of vendor documentation analysis, reverse engineering of communication protocols (specifically Delta’s proprietary RS-485/Modbus variants and Ethernet commands), and practical attack modeling, we demonstrate that the password mechanism is fundamentally ineffective. It provides only a false sense of security, vulnerable to both trivial interception attacks and offline brute-force/cryptanalysis. We conclude that the function serves as an access hurdle rather than a true security boundary, recommending its deprecation in favor of modern, standards-based authentication. Delta Electronics PLCs, widely used in automation, offer
The password function fails against three core security requirements:
[1] Delta Electronics, DVP-PLC User Manual (Programming) , 2019. [2] K. Stouffer, et al., Guide to Industrial Control Systems (ICS) Security , NIST SP 800-82 Rev. 2. [3] J. M. Moura, “Reverse Engineering Delta PLC Communication Protocol,” DEFCON 27 ICS Village , 2019. [4] IEC 62443-4-2: Security for IACS components.