• Title/Summary/Keyword: Encryption modes of operation

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SPCBC: A Secure Parallel Cipher Block Chaining Mode of Operation based on logistic Chaotic Map

  • El-Semary, Aly M.;Azim, Mohamed Mostafa A.;Diab, Hossam
    • KSII Transactions on Internet and Information Systems (TIIS)
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    • v.11 no.7
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    • pp.3608-3628
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    • 2017
  • Several block cipher modes of operation have been proposed in the literature to protect sensitive information. However, different security analysis models have been presented for attacking them. The analysis indicated that most of the current modes of operation are vulnerable to several attacks such as known plaintext and chosen plaintext/cipher-text attacks. Therefore, this paper proposes a secure block cipher mode of operation to thwart such attacks. In general, the proposed mode combines one-time chain keys with each plaintext before its encryption. The challenge of the proposed mode is the generation of the chain keys. The proposed mode employs the logistic map together with a nonce to dynamically generate a unique set of chain keys for every plaintext. Utilizing the logistic map assures the dynamic behavior while employing the nonce guarantees the uniqueness of the chain keys even if the same message is encrypted again. In this way, the proposed mode called SPCBC can resist the most powerful attacks including the known plaintext and chosen plaintext/cipher-text attacks. In addition, the SPCBC mode improves encryption time performance through supporting parallelized implementation. Finally, the security analysis and experimental results demonstrate that the proposed mode is robust compared to the current modes of operation.

8.3 Gbps pipelined LEA Crypto-Processor Supporting ECB/CTR Modes of operation (ECB/CTR 운영모드를 지원하는 8.3 Gbps 파이프라인 LEA 암호/복호 프로세서)

  • Sung, Mi-Ji;Shin, Kyung-Wook
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.20 no.12
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    • pp.2333-2340
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    • 2016
  • A LEA (Lightweight Encryption Algorithm) crypto-processor was designed, which supports three master key lengths of 128/ 192/256-bit, ECB and CTR modes of operation. To achieve high throughput rate, the round transformation block was designed with 128 bits datapath and a pipelined structure of 16 stages. Encryption/decryption is carried out through 12/14/16 pipelined stages according to the master key length, and each pipelined stage performs round transformation twice. The key scheduler block was optimized to share hardware resources that are required for encryption, decryption, and three master key lengths. The round keys generated by key scheduler are stored in 32 round key registers, and are repeatedly used in round transformation until master key is updated. The pipelined LEA processor was verified by FPGA implementation, and the estimated performance is about 8.3 Gbps at the maximum clock frequency of 130 MHz.

Security of OFB mode and 3GPP f8 encryption mode (OFB 모드와 3GPP f8 암호화 모드의 안전성)

  • 신상욱;홍도원;강주성;이옥연
    • Journal of the Korea Institute of Information Security & Cryptology
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    • v.11 no.4
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    • pp.55-66
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    • 2001
  • In this paper, we analyze the security of OFB encryption mode which is one of the basic modes of operation for the block cipher and the security of 3GPP f8 encryption mode used to provide the data confidentiality over a radio access link of W-CDMA IMT-2000. We provide the lower bound and the upper bound on security of both modes in random function model and random permutation model, respectively, by means of the left-or-right security notion, and prove the security of both modes using a pseudorandom function and a pseudorandom permutation, respectively.

An Efficient New Format-Preserving Encryption Algorithm to encrypt the Personal Information (개인정보암호화에 효율적인 새로운 형태보존암호화 알고리즘)

  • Song, Kyung-Hwan;Kang, Hyung-Chul;Sung, Jae-Chul
    • Journal of the Korea Institute of Information Security & Cryptology
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    • v.24 no.4
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    • pp.753-763
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    • 2014
  • Recently financial institutions and large retailers have a large amount of personal information leakage accident occurred one after another, and the damage is a trend of increasing day by day. Regulation such as enforcing the encryption of the personal identification information are strengthened. Efficient technology to encrypt personal information is Format-preserving encryption. Typical encryption expand output data length than input data length and change a format. Format Preserving Encryption is an efficient method to minimize database and application modification, because it makes preserve length and format of input data. In this paper, to encrypt personal information efficiently, we propose newly Format Preserving Encryption using Block cipher mode of operation.

VLSI Design of Cryptographic Processor for SEED and Triple DES Encryption Algorithm (SEED 와 TDES 암호 알고리즘을 구현하는 암호 프로세서의 VLSI 설계)

  • 정진욱;최병윤
    • Proceedings of the IEEK Conference
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    • 2000.06b
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    • pp.169-172
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    • 2000
  • This paper describes design of cryptographic processor which can execute SEED, DES, and triple DES encryption algorithm. To satisfy flexible architecture and area-efficient structure, the processor has I unrolled loop structure with hardware sharing and can support four standard mode, such as ECB, CBC, CFB, and OFB modes. To reduce overhead of key computation, the precomputation technique is used. Also to eliminate increase of processing time due to data input and output time, background I/O technique is used which data input and output operation execute in parallel with encryption operation of cryptographic processor. The cryptographic processor is designed using 2.5V 0.25 $\mu\textrm{m}$ CMOS technology and consists of about 34.8K gates. Its peak performances is about 250 Mbps under 100 Mhz ECB SEED mode and 125 Mbps under 100 Mhz triple DES mode.

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VLSI Design of Cryptographic Processor for Triple DES and DES Encryption Algorithm (3중 DES와 DES 암호 알고리즘용 암호 프로세서와 VLSI 설계)

  • 정진욱;최병윤
    • Proceedings of the Korea Multimedia Society Conference
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    • 2000.04a
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    • pp.117-120
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    • 2000
  • This paper describe VLSL design of crytographic processor which can execute triple DES and DES encryption algorithm. To satisfy flexible architecture and area-efficient structure, the processor has 1 unrolled loop structure without pipeline and can support four standard mode, such as ECB, CBC, CFB, and OFB modes. To reduce overhead of key computation , the key precomputation technique is used. Also to eliminate increase of processing time due to data input and output time, background I/O techniques is used which data input and output operation execute in parallel with encryption operation of cryptographic processor. The cryptographic processor is implemented using Altera EPF10K40RC208-4 devices and has peak performance of about 75 Mbps under 20 Mhz ECB DES mode and 25 Mbps uder 20 Mhz triple DES mode.

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FPGA Implementation of ARIA Encryption/Decrytion Core Supporting Four Modes of Operation (4가지 운영모드를 지원하는 ARIA 암호/복호 코어의 FPGA 구현)

  • Kim, Dong-Hyeon;Shin, Kyung-Wook
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2012.10a
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    • pp.237-240
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    • 2012
  • This paper describes an implementation of ARIA crypto algorithm which is a KS (Korea Standards) block cipher algorithm. The ARIA crypto-core supports three master key lengths of 128/192/256-bit specified in the standard and the four modes of operation including ECB, CBC, CTR and OFB. To reduce hardware complexity, a hardware sharing is employed, which shares round function in encryption/decryption module with key initialization module. The ARIA crypto-core is verified by FPGA implementation, the estimated throughput is about 1.07 Gbps at 167 MHz.

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An Efficient Hardware Implementation of ARIA Block Cipher Algorithm Supporting Four Modes of Operation and Three Master Key Lengths (4가지 운영모드와 3가지 마스터 키 길이를 지원하는 블록암호 알고리듬 ARIA의 효율적인 하드웨어 구현)

  • Kim, Dong-Hyeon;Shin, Kyung-Wook
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.16 no.11
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    • pp.2517-2524
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    • 2012
  • This paper describes an efficient implementation of KS(Korea Standards) block cipher algorithm ARIA. The ARIA crypto-processor supports three master key lengths of 128/192/256-bit and four modes of operation including ECB, CBC, OFB and CTR. A hardware sharing technique, which shares round function in encryption/decryption with key initialization, is employed to reduce hardware complexity. It reduces about 20% of gate counts when compared with straightforward implementation. The ARIA crypto-processor is verified by FPGA implementation, and synthesized with a $0.13-{\mu}m$ CMOS cell library. It has 46,100 gates on an area of $684-{\mu}m{\times}684-{\mu}m$ and the estimated throughput is about 1.28 Gbps at 200 MHz@1.2V.

High Performance Implementation of SGCM on High-End IoT Devices

  • Seo, Hwajeong
    • Journal of information and communication convergence engineering
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    • v.15 no.4
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    • pp.212-216
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    • 2017
  • In this paper, we introduce novel techniques to improve the high performance of AE functions on modern high-end IoT platforms (ARM-NEON), which support SIMD and cryptography instruction sets. For the Sophie Germain Counter Mode of operation (SGCM), counter modes of encryption and prime field multiplication are required. We chose the Montgomery multiplication for modular multiplication. We perform Montgomery multiplication in a parallel way by exploiting both the ARM and NEON instruction sets. Specifically, the NEON instruction performed 128-bit integer multiplication and the ARM instruction performed Montgomery reduction, simultaneously. This approach hides the latency for ARM in the NEON instruction set. For a high-speed counter mode of encryptions for both AE functions, we introduced two-level computations. When the tasks were large volume, we switched to the NEON instruction to execute the encryption operations. Otherwise, we performed the encryptions on the ARM module.

A Cryptographic Processor Supporting ARIA/AES-based GCM Authenticated Encryption (ARIA/AES 기반 GCM 인증암호를 지원하는 암호 프로세서)

  • Sung, Byung-Yoon;Kim, Ki-Bbeum;Shin, Kyung-Wook
    • Journal of IKEEE
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    • v.22 no.2
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    • pp.233-241
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    • 2018
  • This paper describes a lightweight implementation of a cryptographic processor supporting GCM (Galois/Counter Mode) authenticated encryption (AE) that is based on the two block cipher algorithms of ARIA and AES. It also provides five modes of operation (ECB, CBC, OFB, CFB, CTR) for confidentiality as well as the key lengths of 128-bit and 256-bit. The ARIA and AES are integrated into a single hardware structure, which is based on their algorithm characteristics, and a $128{\times}12-b$ partially parallel GF (Galois field) multiplier is adopted to efficiently perform concurrent processing of CTR encryption and GHASH operation to achieve overall performance optimization. The hardware operation of the ARIA/AES-GCM AE processor was verified by FPGA implementation, and it occupied 60,800 gate equivalents (GEs) with a 180 nm CMOS cell library. The estimated throughput with the maximum clock frequency of 95 MHz are 1,105 Mbps and 810 Mbps in AES mode, 935 Mbps and 715 Mbps in ARIA mode, and 138~184 Mbps in GCM AE mode according to the key length.