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Network Traffic Encryptor on Linux Platform
Havlín, Jan ; Sysel, Petr (referee) ; Hajný, Jan (advisor)
This bachelor thesis focuses on providing encrypted communication between two Linux operating system stations. It involves encryption using the AES-GCM-256 cipher, which uses a hybrid key derived from three separately generated keys. The methods for generating these keys are Quantum Key Distribution, CRYSTALS-Kyber and Elliptic Curve Diffie-Hellmann. Thus, we use functions of three types of cryptography - classical, quantum and post-quantum. The paper also deals with the extension of the functionality of the original cryptography to authenticate the communicating parties using certificates and deployment of the encryptor in practice.
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Hardware for lightweight cryptographic implementation
Jedlička, Jakub ; Cíbik, Peter (referee) ; Smékal, David (advisor)
This bachelor thesis deals with the topic of lightweight cryptography and the implementation of a selected cipher on a field programmable gate array (FPGA). Thesis first deals with the theory, where hardware elements, general cryptography and lightweight cryptography are described with focus on the LBlock and PRESENT ciphers. It then describes the selection of a cipher type and then the selection of a particular lightweight cryptography cipher. Next the LBlock cipher is selected, implemented, and tested as a custom intellectual property (IP) block using a hardware descriptive language for very fast integrated circuits (VHDL). This block is used in the block design to implement the encryptor on the ZYBO-Z7 development board. The input and output data handling is implemented on the Zynq-7000 processing system chip, which passes the data to the programmable logic. Finally this communication and implementation is described where the operational modes used for the LBlock cipher are cipher feedback mode and output feedback mode. For these operational modes, measurements are made to determine the encryption speed of the data stored on the microSD card and the pitfalls resulting from this encryption are described.
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Demonstration Kit for Keeloq Technology
Fujdiak, Radek ; Burda, Karel (referee) ; Strašil, Ivo (advisor)
Bachelor thesis deals with the design and create of simulation environment for KeeLoq security technology in both the hardware and software point of view. In this thesis, there are mentioned actual security methods and a method of Rolling code, specifically KeeLoq technology, is desired.
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Hardware for lightweight cryptographic implementation
Jedlička, Jakub ; Cíbik, Peter (referee) ; Smékal, David (advisor)
This bachelor thesis deals with the topic of lightweight cryptography and the implementation of a selected cipher on a field programmable gate array (FPGA). Thesis first deals with the theory, where hardware elements, general cryptography and lightweight cryptography are described with focus on the LBlock and PRESENT ciphers. It then describes the selection of a cipher type and then the selection of a particular lightweight cryptography cipher. Next the LBlock cipher is selected, implemented, and tested as a custom intellectual property (IP) block using a hardware descriptive language for very fast integrated circuits (VHDL). This block is used in the block design to implement the encryptor on the ZYBO-Z7 development board. The input and output data handling is implemented on the Zynq-7000 processing system chip, which passes the data to the programmable logic. Finally this communication and implementation is described where the operational modes used for the LBlock cipher are cipher feedback mode and output feedback mode. For these operational modes, measurements are made to determine the encryption speed of the data stored on the microSD card and the pitfalls resulting from this encryption are described.
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Demonstration Kit for Keeloq Technology
Fujdiak, Radek ; Burda, Karel (referee) ; Strašil, Ivo (advisor)
Bachelor thesis deals with the design and create of simulation environment for KeeLoq security technology in both the hardware and software point of view. In this thesis, there are mentioned actual security methods and a method of Rolling code, specifically KeeLoq technology, is desired.
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