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IEEE STANDARD SPECIFICATIONS FOR PUBLIC-KEY CRYPTOGRAPHY - AMENDMENT 1: ADDITIONAL TECHNIQUES
Institute of Electrical & Electronics Engineers
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Availability date: 10/29/2021
1 Overview
1.1 Scope
1.2 Purpose
2 References
3 Definitions
4 Types of cryptographic techniques
4.2 Primitives
4.3 Schemes
4.4 Additional methods
4.5 Table summary
5 Mathematical conventions
5.1 Mathematical notation
5.4 Elliptic curves and points
5.5 Data type conversion
6 Primitives based on the discrete logarithm problem
6.2 Primitives
7 Primitives based on the elliptic curve discrete
logarithm problem
7.2 Primitives
8 Primitives based on the integer factorization problem
8.2 Primitives
9 Key agreement schemes
9.2 DL/ECKAS-DH1
9.3 DL/ECKAS-DH2
9.4 DL/ECKAS-MQV
10 Signature schemes
10.1 General model
10.2 DL/ECSSA
10.3 IFSSA
10.4 DL/ECSSR
10.5 DL/ECSSR-PV
10.6 IFSSR
11 Encryption schemes
11.1 General model
11.2 IFES
11.3 DL/ECIES
11.4 IFES-EPOC
12 Message-encoding methods
12.1 Message-encoding methods for signatures with
appendix
12.2 Message-encoding methods for encryption
12.3 Message-encoding method for signatures giving
message recovery
13 Key derivation functions
13.2 KDF2
14 Auxiliary techniques
14.1 Hash functions
14.2 Mask generation functions
14.3 Symmetric encryption schemes
14.4 Message authentication codes
Annex A (informative) Number-theoretic algorithms
Annex B (normative) Conformance
Annex C (informative) Rationale
Annex D (informative) Security considerations
Annex E (informative) Formats
Annex F (informative) Informative about patents
Annex G (informative) Bibliography
Defines the specifications for public-key cryptography techniques, including public-key encryption and digital signatures, mathematical primitives for secret value (key) derivation, and cryptographic schemes based on those primitives.
Published | |
Document Type | Standard |
Status | Current |
Publisher | Institute of Electrical & Electronics Engineers |
Pages | |
ISBN |