nrfxlib API 0.1.0
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Type declarations and APIs for the Ed25519 algorithm. More...

Macros

#define ocrypto_ed25519_PUBLIC_KEY_BYTES   (32)
 
#define ocrypto_ed25519_SECRET_KEY_BYTES   (32)
 
#define ocrypto_ed25519_BYTES   (64)
 

Functions

void ocrypto_ed25519_public_key (uint8_t pk[(32)], const uint8_t sk[(32)])
 
void ocrypto_ed25519_sign (uint8_t sig[(64)], const uint8_t *m, size_t m_len, const uint8_t sk[(32)], const uint8_t pk[(32)])
 
int ocrypto_ed25519_verify (const uint8_t sig[(64)], const uint8_t *m, size_t m_len, const uint8_t pk[(32)])
 
void ocrypto_ed25519_public_key_ctx (ocrypto_ed25519_ctx *ctx, uint8_t pk[(32)], const uint8_t sk[(32)])
 
void ocrypto_ed25519_sign_ctx (ocrypto_ed25519_ctx *ctx, uint8_t sig[(64)], const uint8_t *m, size_t m_len, const uint8_t sk[(32)], const uint8_t pk[(32)])
 
int ocrypto_ed25519_verify_ctx (ocrypto_ed25519_ctx *ctx, const uint8_t sig[(64)], const uint8_t *m, size_t m_len, const uint8_t pk[(32)])
 

Detailed Description

Type declarations and APIs for the Ed25519 algorithm.

Ed25519 is a specific implementation of EdDSA, a digital signature scheme. EdDSA is based on Twisted Edwards curves and is designed to be faster than existing digital signature schemes without sacrificing security. It was developed by Daniel J. Bernstein, et al. Ed25519 is intended to provide attack resistance comparable to quality 128-bit symmetric ciphers.

See also
Ed25519: high-speed high-security signatures