Documentation ¶
Overview ¶
Package blst implements a go-wrapper around a library implementing the the BLS12-381 curve and signature scheme. This package exposes a public API for verifying and aggregating BLS signatures used by Ethereum.
This implementation uses the library written by Supranational, blst.
Index ¶
- func AggregateCompressedSignatures(multiSigs [][]byte) (common.Signature, error)
- func AggregateMultiplePubkeys(pubkeys []common.PublicKey) common.PublicKey
- func AggregatePublicKeys(pubs [][]byte) (common.PublicKey, error)
- func AggregateSignatures(sigs []common.Signature) common.Signature
- func IsZero(sKey []byte) bool
- func MultipleSignaturesFromBytes(multiSigs [][]byte) ([]common.Signature, error)
- func NewAggregateSignature() common.Signature
- func PublicKeyFromBytes(pubKey []byte) (common.PublicKey, error)
- func RandKey() (common.SecretKey, error)
- func SecretKeyFromBytes(privKey []byte) (common.SecretKey, error)
- func SignatureFromBytes(sig []byte) (common.Signature, error)
- func VerifyCompressed(signature, pub, msg []byte) bool
- func VerifyMultipleSignatures(sigs [][]byte, msgs [][32]byte, pubKeys []common.PublicKey) (bool, error)
- func VerifySignature(sig []byte, msg [32]byte, pubKey common.PublicKey) (bool, error)
- type PublicKey
- type Signature
- func (s *Signature) AggregateVerify(pubKeys []common.PublicKey, msgs [][32]byte) booldeprecated
- func (s *Signature) Copy() common.Signature
- func (s *Signature) Eth2FastAggregateVerify(pubKeys []common.PublicKey, msg [32]byte) bool
- func (s *Signature) FastAggregateVerify(pubKeys []common.PublicKey, msg [32]byte) bool
- func (s *Signature) Marshal() []byte
- func (s *Signature) Verify(pubKey common.PublicKey, msg []byte) bool
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func AggregateCompressedSignatures ¶
AggregateCompressedSignatures converts a list of compressed signatures into a single, aggregated sig.
func AggregateMultiplePubkeys ¶
AggregateMultiplePubkeys aggregates the provided decompressed keys into a single key.
func AggregatePublicKeys ¶
AggregatePublicKeys aggregates the provided raw public keys into a single key.
func AggregateSignatures ¶
AggregateSignatures converts a list of signatures into a single, aggregated sig.
func MultipleSignaturesFromBytes ¶
MultipleSignaturesFromBytes creates a group of BLS signatures from a LittleEndian 2d-byte slice.
func NewAggregateSignature ¶
NewAggregateSignature creates a blank aggregate signature.
func PublicKeyFromBytes ¶
PublicKeyFromBytes creates a BLS public key from a BigEndian byte slice.
func SecretKeyFromBytes ¶
SecretKeyFromBytes creates a BLS private key from a BigEndian byte slice.
func SignatureFromBytes ¶
SignatureFromBytes creates a BLS signature from a LittleEndian byte slice.
func VerifyCompressed ¶
VerifyCompressed verifies that the compressed signature and pubkey are valid from the message provided.
func VerifyMultipleSignatures ¶
func VerifyMultipleSignatures(sigs [][]byte, msgs [][32]byte, pubKeys []common.PublicKey) (bool, error)
VerifyMultipleSignatures verifies a non-singular set of signatures and its respective pubkeys and messages. This method provides a safe way to verify multiple signatures at once. We pick a number randomly from 1 to max uint64 and then multiply the signature by it. We continue doing this for all signatures and its respective pubkeys. S* = S_1 * r_1 + S_2 * r_2 + ... + S_n * r_n P'_{i,j} = P_{i,j} * r_i e(S*, G) = \prod_{i=1}^n \prod_{j=1}^{m_i} e(P'_{i,j}, M_{i,j}) Using this we can verify multiple signatures safely.
Types ¶
type PublicKey ¶
type PublicKey struct {
// contains filtered or unexported fields
}
PublicKey used in the BLS signature scheme.
func (*PublicKey) IsInfinite ¶
IsInfinite checks if the public key is infinite.
type Signature ¶
type Signature struct {
// contains filtered or unexported fields
}
Signature used in the BLS signature scheme.
func (*Signature) AggregateVerify
deprecated
AggregateVerify verifies each public key against its respective message. This is vulnerable to rogue public-key attack. Each user must provide a proof-of-knowledge of the public key.
Note: The msgs must be distinct. For maximum performance, this method does not ensure distinct messages.
In IETF draft BLS specification: AggregateVerify((PK_1, message_1), ..., (PK_n, message_n),
signature) -> VALID or INVALID: an aggregate verification algorithm that outputs VALID if signature is a valid aggregated signature for a collection of public keys and messages, and outputs INVALID otherwise.
In the Ethereum proof of stake specification: def AggregateVerify(pairs: Sequence[PK: BLSPubkey, message: Bytes], signature: BLSSignature) -> bool
Deprecated: Use FastAggregateVerify or use this method in spectests only.
func (*Signature) Eth2FastAggregateVerify ¶
Eth2FastAggregateVerify implements a wrapper on top of bls's FastAggregateVerify. It accepts G2_POINT_AT_INFINITY signature when pubkeys empty.
Spec code: def eth2_fast_aggregate_verify(pubkeys: Sequence[BLSPubkey], message: Bytes32, signature: BLSSignature) -> bool:
""" Wrapper to ``bls.FastAggregateVerify`` accepting the ``G2_POINT_AT_INFINITY`` signature when ``pubkeys`` is empty. """ if len(pubkeys) == 0 and signature == G2_POINT_AT_INFINITY: return True return bls.FastAggregateVerify(pubkeys, message, signature)
func (*Signature) FastAggregateVerify ¶
FastAggregateVerify verifies all the provided public keys with their aggregated signature.
In IETF draft BLS specification: FastAggregateVerify(PK_1, ..., PK_n, message, signature) -> VALID
or INVALID: a verification algorithm for the aggregate of multiple signatures on the same message. This function is faster than AggregateVerify.
In the Ethereum proof of stake specification: def FastAggregateVerify(PKs: Sequence[BLSPubkey], message: Bytes, signature: BLSSignature) -> bool
func (*Signature) Verify ¶
Verify a bls signature given a public key, a message.
In IETF draft BLS specification: Verify(PK, message, signature) -> VALID or INVALID: a verification
algorithm that outputs VALID if signature is a valid signature of message under public key PK, and INVALID otherwise.
In the Ethereum proof of stake specification: def Verify(PK: BLSPubkey, message: Bytes, signature: BLSSignature) -> bool