Self-Synchronized Encryption for Physical Layer in Gigabit Ethernet Optical Links

Self-Synchronized Encryption for Physical Layer in Gigabit Ethernet Optical Links

In this work a new self-synchronized symmetric encryption solution for high speed communication systems necessary to preserve the format of the plaintext is proposed, developed and tested. This new encryption mechanism is based on the block cipher operation mode called PSCFB (Pipelined Statistical C...

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Bibliographic Details
Main Authors: Adrian Perez-Resa, Miguel Garcia-Bosque, Carlos Sanchez-Azqueta, Santiago Celma
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Gigabit Ethernet
physical coding sublayer
encryption
stream cipher
PSCFB (pipeline statistic cipher feedback)
FPE (format preserving encryption)
Online Access:https://ieeexplore.ieee.org/document/9090874/
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spelling doaj-b063388d27c0405baecad1bb230771382021-03-30T01:52:33ZengIEEEIEEE Access2169-35362020-01-018897278974010.1109/ACCESS.2020.29935509090874Self-Synchronized Encryption for Physical Layer in Gigabit Ethernet Optical LinksAdrian Perez-Resa0https://orcid.org/0000-0001-9085-5026Miguel Garcia-Bosque1Carlos Sanchez-Azqueta2Santiago Celma3Electronic and Communications Engineering Department, University of Zaragoza, Zaragoza, SpainElectronic and Communications Engineering Department, University of Zaragoza, Zaragoza, SpainElectronic and Communications Engineering Department, University of Zaragoza, Zaragoza, SpainElectronic and Communications Engineering Department, University of Zaragoza, Zaragoza, SpainIn this work a new self-synchronized symmetric encryption solution for high speed communication systems necessary to preserve the format of the plaintext is proposed, developed and tested. This new encryption mechanism is based on the block cipher operation mode called PSCFB (Pipelined Statistical Cipher Feedback) and the modulo operation. The confidentiality of this mode is analyzed in terms of its IND-CPA (Indistinguishability under Chosen-Plaintext Attack) advantage, concluding that it can be considered secure in the same way as traditional modes are. The encryption system has been integrated in the physical layer of a 1000Base-X Gigabit Ethernet Interface, where the 8b/10b symbol flow is encrypted at line rate. Moreover, an implementation of the proposed system has been carried out in an FPGA (Field Programmable Gate Array) device. Finally, an encrypted optical link has been tested with real Ethernet frames, getting maximum throughput and protecting the data traffic from passive eavesdroppers.https://ieeexplore.ieee.org/document/9090874/Gigabit Ethernetphysical coding sublayerencryptionstream cipherPSCFB (pipeline statistic cipher feedback)FPE (format preserving encryption)
collection DOAJ
language English
format Article
sources DOAJ
author Adrian Perez-Resa
Miguel Garcia-Bosque
Carlos Sanchez-Azqueta
Santiago Celma
spellingShingle Adrian Perez-Resa
Miguel Garcia-Bosque
Carlos Sanchez-Azqueta
Santiago Celma
Self-Synchronized Encryption for Physical Layer in Gigabit Ethernet Optical Links
IEEE Access
Gigabit Ethernet
physical coding sublayer
encryption
stream cipher
PSCFB (pipeline statistic cipher feedback)
FPE (format preserving encryption)
author_facet Adrian Perez-Resa
Miguel Garcia-Bosque
Carlos Sanchez-Azqueta
Santiago Celma
author_sort Adrian Perez-Resa
title Self-Synchronized Encryption for Physical Layer in Gigabit Ethernet Optical Links
title_short Self-Synchronized Encryption for Physical Layer in Gigabit Ethernet Optical Links
title_full Self-Synchronized Encryption for Physical Layer in Gigabit Ethernet Optical Links
title_fullStr Self-Synchronized Encryption for Physical Layer in Gigabit Ethernet Optical Links
title_full_unstemmed Self-Synchronized Encryption for Physical Layer in Gigabit Ethernet Optical Links
title_sort self-synchronized encryption for physical layer in gigabit ethernet optical links
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description In this work a new self-synchronized symmetric encryption solution for high speed communication systems necessary to preserve the format of the plaintext is proposed, developed and tested. This new encryption mechanism is based on the block cipher operation mode called PSCFB (Pipelined Statistical Cipher Feedback) and the modulo operation. The confidentiality of this mode is analyzed in terms of its IND-CPA (Indistinguishability under Chosen-Plaintext Attack) advantage, concluding that it can be considered secure in the same way as traditional modes are. The encryption system has been integrated in the physical layer of a 1000Base-X Gigabit Ethernet Interface, where the 8b/10b symbol flow is encrypted at line rate. Moreover, an implementation of the proposed system has been carried out in an FPGA (Field Programmable Gate Array) device. Finally, an encrypted optical link has been tested with real Ethernet frames, getting maximum throughput and protecting the data traffic from passive eavesdroppers.
topic Gigabit Ethernet
physical coding sublayer
encryption
stream cipher
PSCFB (pipeline statistic cipher feedback)
FPE (format preserving encryption)
url https://ieeexplore.ieee.org/document/9090874/
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AT miguelgarciabosque selfsynchronizedencryptionforphysicallayeringigabitethernetopticallinks
AT carlossanchezazqueta selfsynchronizedencryptionforphysicallayeringigabitethernetopticallinks
AT santiagocelma selfsynchronizedencryptionforphysicallayeringigabitethernetopticallinks
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