keypair

package
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Published: Dec 30, 2019 License: LGPL-3.0 Imports: 19 Imported by: 26

Documentation

Overview

Package keypair implements asymmetric key pair generation and some related functions.

Multiple types of key pair supported:

ECDSA
SM2
EdDSA

Index

Constants

View Source
const (
	// ECDSA curve label
	P224 byte = 1
	P256 byte = 2
	P384 byte = 3
	P521 byte = 4

	SECP256K1 byte = 5

	// SM2 curve label
	SM2P256V1 byte = 20

	// ED25519 curve label
	ED25519 byte = 25
)
View Source
const (
	DEFAULT_N                  = 16384
	DEFAULT_R                  = 8
	DEFAULT_P                  = 8
	DEFAULT_DERIVED_KEY_LENGTH = 64
)

Variables

This section is empty.

Functions

func ComparePublicKey

func ComparePublicKey(k0, k1 PublicKey) bool

ComparePublicKey checks whether the two public key are the same.

func FindKey

func FindKey(list []PublicKey, key PublicKey) int

FindKey finds the specified public key in the list and returns its index or -1 if not found.

func GenerateKeyPair

func GenerateKeyPair(t KeyType, opts interface{}) (PrivateKey, PublicKey, error)

GenerateKeyPair generates a pair of private and public keys in type t. opts is the necessary parameter(s), which is defined by the key type:

ECDSA: a byte specifies the elliptic curve, which defined in package ec
SM2:   same as ECDSA
EdDSA: a byte specifies the curve, only ED25519 supported currently.

func GetCurve

func GetCurve(label byte) (elliptic.Curve, error)

func GetCurveLabel

func GetCurveLabel(c elliptic.Curve) (byte, error)

func GetNamedCurve

func GetNamedCurve(name string) (elliptic.Curve, error)

func GetNamedCurveLabel

func GetNamedCurveLabel(name string) (byte, error)

func Key2WIF

func Key2WIF(key PrivateKey) ([]byte, error)

func SerializePrivateKey

func SerializePrivateKey(pri PrivateKey) []byte

SerializePrivateKey serializes the input private key into byte array as the following format:

|--------------------|------------------|
| algorithm (1 byte) | private_key_data |
|--------------------|------------------|

The private_key_data differs in algorithm:

  • ECDSA & SM2 |----------------|---------|--------------------| | curve (1 byte) | d_bytes | encoded_public_key | |----------------|---------|--------------------| d_bytes is the byte sequence converted from the integer d in little endian, with the byte length specified by the curve. encoded_public_key is the public key data encoded in comopression mode.
  • EdDSA Since only Ed25519 supported currently, it is just the 1 byte Ed25519 curve label followed by the byte sequence which could be handled as private key in package ed25519.

This function will panic if error occurs.

func SerializePublicKey

func SerializePublicKey(key PublicKey) []byte

SerializePublicKey serializes the public key to a byte sequence as the following format:

|--------------------|-----------------|
| algorithm (1 byte) | public_key_data |
|--------------------|-----------------|

public_key_data differs in the algorithm:

  • ECDSA & SM2 |----------------|--------------------| | curve (1 byte) | encoded_public_key | |----------------|--------------------| encoded_public_key is the public key encoded in compression mode.
  • EdDSA Since only Ed25519 supported currently, it is just the 1 byte curve label followed by the byte sequence which could be handled as public key in package ed25519.

ECDSA public key with NIST P-256 curve is treated as a special case, which just use the encoded data as the serialization and starts with 0x02 or 0x03, with no flags ahead.

This function will panic if error occurs.

Types

type DecryptError

type DecryptError EncryptError

func NewDecryptError

func NewDecryptError(msg string) *DecryptError

func (*DecryptError) Error

func (e *DecryptError) Error() string

type EncryptError

type EncryptError struct {
	// contains filtered or unexported fields
}

func NewEncryptError

func NewEncryptError(msg string) *EncryptError

func (*EncryptError) Error

func (e *EncryptError) Error() string

type KeyType

type KeyType byte
const (
	PK_ECDSA KeyType = 0x12
	PK_SM2   KeyType = 0x13
	PK_EDDSA KeyType = 0x14

	PK_P256_E  KeyType = 0x02
	PK_P256_O  KeyType = 0x03
	PK_P256_NC KeyType = 0x04
)

Supported key types

func GetKeyType

func GetKeyType(p PublicKey) KeyType

type PrivateKey

type PrivateKey interface {
	crypto.PrivateKey
	Public() crypto.PublicKey
}

func DecryptPrivateKey

func DecryptPrivateKey(prot *ProtectedKey, pwd []byte) (PrivateKey, error)

Decrypt the private key using the given password

func DecryptWithCustomScrypt

func DecryptWithCustomScrypt(prot *ProtectedKey, pwd []byte, param *ScryptParam) (PrivateKey, error)

func DeserializePrivateKey

func DeserializePrivateKey(data []byte) (pri PrivateKey, err error)

DeserializePrivateKey parses the input byte array into private key.

func GetP256KeyPairFromWIF

func GetP256KeyPairFromWIF(wif []byte) (PrivateKey, error)

Parse ECDSA P-256 private key in WIF

func WIF2Key

func WIF2Key(wif []byte) (PrivateKey, error)

type ProtectedKey

type ProtectedKey struct {
	Address string            `json:"address"`
	EncAlg  string            `json:"enc-alg"`
	Key     []byte            `json:"key"`
	Alg     string            `json:"algorithm"`
	Salt    []byte            `json:"salt,omitempty"`
	Hash    string            `json:"hash,omitempty"`
	Param   map[string]string `json:"parameters,omitempty"`
}

ProtectedKey stores the encrypted private key and related data

func EncryptPrivateKey

func EncryptPrivateKey(pri PrivateKey, addr string, pwd []byte) (*ProtectedKey, error)

Encrypt the private key with the given password. The password is used to derive a key via scrypt function. AES with GCM mode is used for encryption. The first 12 bytes of the derived key is used as the nonce, and the last 32 bytes is used as the encryption key.

func EncryptWithCustomScrypt

func EncryptWithCustomScrypt(pri PrivateKey, addr string, pwd []byte, param *ScryptParam) (*ProtectedKey, error)

func ReencryptPrivateKey

func ReencryptPrivateKey(prot *ProtectedKey, oldPwd, newPwd []byte, oldParam, newParam *ScryptParam) (*ProtectedKey, error)

Re-encrypt the private key with the new password and scrypt parameters. The old password and scrypt parameters are used for decryption first. The scrypt parameters will be reseted to the default after this function.

type PublicKey

type PublicKey crypto.PublicKey

func DeserializePublicKey

func DeserializePublicKey(data []byte) (PublicKey, error)

DeserializePublicKey parse the byte sequencce to a public key.

func SortPublicKeys

func SortPublicKeys(list []PublicKey) []PublicKey

SorPublicKeys sorts the input PublicKey slice and return it. The sorting rules is as follows:

  1. if keys have different types, then sorted by the KeyType value.
  2. else, 2.1. ECDSA or SM2: 2.1.1. if on different curves, then sorted by the curve label. 2.1.2. else if x values are different, then sorted by x. 2.1.3. else sorted by y. 2.2. EdDSA: sorted by the byte sequence directly.

type ScryptParam

type ScryptParam struct {
	P     int `json:"p"`
	N     int `json:"n"`
	R     int `json:"r"`
	DKLen int `json:"dkLen,omitempty"`
}

ScryptParam contains the parameters used in scrypt function

func GetScryptParameters

func GetScryptParameters() *ScryptParam

Return the default parameters used in scrypt function

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