Documentation ¶
Overview ¶
Package plonk implements PLONK Zero Knowledge Proof system.
See also ¶
Index ¶
- func NewCS(curveID ecc.ID) constraint.ConstraintSystem
- func SRSSize(ccs constraint.ConstraintSystem) (sizeCanonical, sizeLagrange int)
- func Setup(ccs constraint.ConstraintSystem, srs, srsLagrange kzg.SRS) (ProvingKey, VerifyingKey, error)
- func Verify(proof Proof, vk VerifyingKey, publicWitness witness.Witness, ...) error
- type Proof
- type ProvingKey
- type VerifyingKey
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func NewCS ¶
func NewCS(curveID ecc.ID) constraint.ConstraintSystem
NewCS instantiate a concrete curved-typed SparseR1CS and return a ConstraintSystem interface This method exists for (de)serialization purposes
func SRSSize ¶
func SRSSize(ccs constraint.ConstraintSystem) (sizeCanonical, sizeLagrange int)
SRSSize returns the required size of the kzg SRS for a given constraint system Note that the SRS size in Lagrange form is a power of 2, and the SRS size in canonical form need few extra elements (3) to account for the blinding factors
func Setup ¶
func Setup(ccs constraint.ConstraintSystem, srs, srsLagrange kzg.SRS) (ProvingKey, VerifyingKey, error)
Setup prepares the public data associated to a circuit + public inputs. The kzg SRS must be provided in canonical and lagrange form. For test purposes, see test/unsafekzg package. With an existing SRS generated through MPC in canonical form, gnark-crypto offers the ToLagrangeG1 method to convert it to lagrange form.
func Verify ¶
func Verify(proof Proof, vk VerifyingKey, publicWitness witness.Witness, opts ...backend.VerifierOption) error
Verify verifies a PLONK proof, from the proof, preprocessed public data, and public witness.
Types ¶
type Proof ¶
type Proof interface { io.WriterTo io.ReaderFrom gnarkio.WriterRawTo }
Proof represents a Plonk proof generated by plonk.Prove
it's underlying implementation is curve specific (see gnark/internal/backend)
func NewProof ¶
NewProof instantiates a curve-typed ProvingKey and returns an interface This function exists for serialization purposes
func Prove ¶
func Prove(ccs constraint.ConstraintSystem, pk ProvingKey, fullWitness witness.Witness, opts ...backend.ProverOption) (Proof, error)
Prove generates PLONK proof from a circuit, associated preprocessed public data, and the witness if the force flag is set:
will execute all the prover computations, even if the witness is invalid will produce an invalid proof internally, the solution vector to the SparseR1CS will be filled with random values which may impact benchmarking
type ProvingKey ¶
type ProvingKey interface { io.WriterTo io.ReaderFrom gnarkio.WriterRawTo gnarkio.UnsafeReaderFrom VerifyingKey() interface{} }
ProvingKey represents a plonk ProvingKey
it's underlying implementation is strongly typed with the curve (see gnark/internal/backend)
func NewProvingKey ¶
func NewProvingKey(curveID ecc.ID) ProvingKey
NewProvingKey instantiates a curve-typed ProvingKey and returns an interface This function exists for serialization purposes
type VerifyingKey ¶
type VerifyingKey interface { io.WriterTo io.ReaderFrom gnarkio.WriterRawTo gnarkio.UnsafeReaderFrom NbPublicWitness() int // number of elements expected in the public witness ExportSolidity(w io.Writer) error }
VerifyingKey represents a plonk VerifyingKey
it's underlying implementation is strongly typed with the curve (see gnark/internal/backend)
func NewVerifyingKey ¶
func NewVerifyingKey(curveID ecc.ID) VerifyingKey
NewVerifyingKey instantiates a curve-typed VerifyingKey and returns an interface This function exists for serialization purposes