Documentation ¶
Overview ¶
Package crypto provides access to secure encryption and signing methods
Index ¶
- Constants
- func DeriveLoginHMAC(ctx context.Context, password, salt, token string) (string, error)
- func EncryptPasswordObject(ctx context.Context, password string) (primitive.UserPassword, primitive.UserMaster, error)
- type EncryptionKeyPair
- type Engine
- func (e *Engine) Box(ctx context.Context, pt []byte, privKP *EncryptionKeyPair, pubKey []byte) ([]byte, []byte, error)
- func (e *Engine) BoxCredential(ctx context.Context, pt, encMec, mecNonce []byte, privKP *EncryptionKeyPair, ...) ([]byte, []byte, []byte, error)
- func (e *Engine) CloneMembership(ctx context.Context, encMec, mecNonce []byte, privKP *EncryptionKeyPair, ...) ([]byte, []byte, error)
- func (e *Engine) GenerateKeyPairs(ctx context.Context) (*KeyPairs, error)
- func (e *Engine) Seal(ctx context.Context, pt []byte) ([]byte, []byte, error)
- func (e *Engine) Sign(ctx context.Context, s SignatureKeyPair, b []byte) ([]byte, error)
- func (e *Engine) SignedEnvelope(ctx context.Context, body identity.Identifiable, sigID *identity.ID, ...) (*envelope.Signed, error)
- func (e *Engine) Unbox(ctx context.Context, ct, nonce []byte, privKP *EncryptionKeyPair, ...) ([]byte, error)
- func (e *Engine) UnboxCredential(ctx context.Context, ct, encMec, mecNonce, cekNonce, ctNonce []byte, ...) ([]byte, error)
- func (e *Engine) Unseal(ctx context.Context, ct, nonce []byte) ([]byte, error)
- func (e *Engine) Verify(ctx context.Context, s SignatureKeyPair, b, sig []byte) (bool, error)
- type KeyPairs
- type SignatureKeyPair
Constants ¶
const ( Triplesec = "triplesec-v3" EdDSA = "eddsa" Curve25519 = "curve25519" EasyBox = "easybox" SecretBox = "secretbox" Scrypt = "scrypt" )
Crypto Algorithm name constants.
Variables ¶
This section is empty.
Functions ¶
func DeriveLoginHMAC ¶
DeriveLoginHMAC HMACs the provided token with a key derived from password and the provided base64 encoded salt.
func EncryptPasswordObject ¶
func EncryptPasswordObject(ctx context.Context, password string) (primitive.UserPassword, primitive.UserMaster, error)
EncryptPasswordObject derives the master key and password hash from password and salt, returning the master and password objects
Types ¶
type EncryptionKeyPair ¶
EncryptionKeyPair is a curve25519 encryption keypair. The private portion of the keypair is encrypted with triplesec.
PNonce contains the nonce used when deriving the password used to encrypt the private portion.
type Engine ¶
type Engine struct {
// contains filtered or unexported fields
}
Engine exposes methods to encrypt, unencrypt and sign values, using the logged in user's credentials.
func (*Engine) Box ¶
func (e *Engine) Box(ctx context.Context, pt []byte, privKP *EncryptionKeyPair, pubKey []byte) ([]byte, []byte, error)
Box encrypts the plaintext pt bytes with Box, using the private key found in privKP, first decrypted with the user's master key, and encrypted for the public key pubKey.
It returns the ciphertext, the nonce used for encrypting the plaintext, and an optional error.
func (*Engine) BoxCredential ¶
func (e *Engine) BoxCredential(ctx context.Context, pt, encMec, mecNonce []byte, privKP *EncryptionKeyPair, pubKey []byte) ([]byte, []byte, []byte, error)
BoxCredential encrypts the credential value pt via symmetric secretbox encryption.
Doing so is a multistep process. First we use the user's session data to unseal their private encryption key. With their encryption key and the public encryption key provided, we can decrypt the keyring master key (mek). Using mek and a generated nonce, we derive the credential encryption key (cek) via blake2b. Finally, we use the cek and a generated nonce to encrypt the credential.
BoxCredential returns the nonce generated to derive the credential encryption key, the nonce generated for encrypting the credential, and the encrypted credential.
func (*Engine) CloneMembership ¶
func (e *Engine) CloneMembership(ctx context.Context, encMec, mecNonce []byte, privKP *EncryptionKeyPair, encPubKey, targetPubKey []byte) ([]byte, []byte, error)
CloneMembership decrypts the given KeyringMember object, and creates another for the targeted user.
func (*Engine) GenerateKeyPairs ¶
GenerateKeyPairs generates and ed25519 signing key pair, and a curve25519 encryption key pair for the user, encrypting the private keys in triplesec-v3 with the user's master key.
func (*Engine) Seal ¶
Seal encrypts the plaintext pt bytes with triplesec-v3 using a key derrived via blake2b from the user's master key and a nonce (returned).
func (*Engine) SignedEnvelope ¶
func (e *Engine) SignedEnvelope(ctx context.Context, body identity.Identifiable, sigID *identity.ID, sigKP *SignatureKeyPair) (*envelope.Signed, error)
SignedEnvelope returns a new SignedEnvelope containing body
func (*Engine) Unbox ¶
func (e *Engine) Unbox(ctx context.Context, ct, nonce []byte, privKP *EncryptionKeyPair, pubKey []byte) ([]byte, error)
Unbox Decrypts and verifies ciphertext ct that was previously encrypted using the provided nonce, and the inverse parts of the provided keypairs.
func (*Engine) UnboxCredential ¶
func (e *Engine) UnboxCredential(ctx context.Context, ct, encMec, mecNonce, cekNonce, ctNonce []byte, privKP *EncryptionKeyPair, pubKey []byte) ([]byte, error)
UnboxCredential does the inverse of BoxCredential to retrieve the plaintext version of a credential.
type KeyPairs ¶
type KeyPairs struct { Signature SignatureKeyPair Encryption EncryptionKeyPair }
KeyPairs contains a signature and an encryption keypair for a user.
type SignatureKeyPair ¶
SignatureKeyPair is an ed25519/eddsa digital signature keypair. The private portion of the keypair is encrypted with triplesec.
PNonce contains the nonce used when deriving the password used to encrypt the private portion.