Tesra Crypto
Cryptography Library for TesraSupernet Network
Usage
Key pair
Generate a key pair:
import "github.com/TesraSupernet/tesracrypto/keypair"
// Generate key pair
private, public, err := keypair.GenerateKeyPair(keypair.PK_ECDSA, keypair.P256)
The first arguments indicates the key type used for specific algorithm.
Available key types:
PK_ECDSA
PK_SM2
PK_EDDSA
The Second argument differs from the key types:
-
as for to ECDSA, it indicates the curve which could be one of:
P224, P256, P384, P521
-
as for SM2, it indicates the curve similar to ECDSA but should be SM2P256V1
.
-
as for EdDSA, it sould be ED25519
.
To serialize/deserialize the public key:
// Serialize public key
buf := keypair.SerializePublicKey(public)
// Deserialize public key
public, err := keypair.DeserializePublicKey(buf)
Signature
To generate a signature for some message, a private key should be provided as
well as a specified signature scheme. Notice that the signature scheme should
match the private key.
Supported signture schemes:
SHA224withECDSA
SHA256withECDSA
SHA384withECDSA
SHA512withECDSA
SHA3-224withECDSA
SHA3-256withECDSA
SHA3-384withECDSA
SHA3-512withECDSA
RIPEMD160withECDSA
SM3withSM2
SHA512withEdDSA
To verify a signature, just input the public key as well as the signature with
the original message.
import "github.com/TesraSupernet/tesracrypto/signature"
// Generate signature for @msg using private key @private
sig, err := signature.Sign(signature.SHA256withECDSA, private, msg, nil)
// Verify the signature using public key @public
ok := signature.Verify(public, msg, sig)
Serialization:
// Serialization
buf, err := signature.Serialize(sig)
// Deserialization
sig, err = signature.Deserialize(buf)
License
TesraSupernet Crypto is under LGPL v3.0 license. See LICENSE for details.