mirror of
https://github.com/nspcc-dev/neo-go.git
synced 2024-11-22 19:29:39 +00:00
13ff95a3d3
Signed-off-by: Anna Shaleva <shaleva.ann@nspcc.ru>
332 lines
13 KiB
Go
332 lines
13 KiB
Go
// Package zkpbinding contains a set of helper functions aimed to generate and
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// interact with Verifier smart contract written in Go and using Groth-16 proving
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// system over BLS12-381 elliptic curve to verify proofs. Package zkpbinding
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// provides the Veifier contract generation functionality itself as far as a
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// helper that converts groth16.Proof to the Verifier-specific set of arguments.
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//
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// Please, check out the example of zkpbinding package usage to generate and
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// verify proofs on the Neo chain:
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// https://github.com/nspcc-dev/neo-go/blob/91c928e8d35164055e5b2e8efbc898440cc2b486/examples/zkp/cubic_circuit/README.md
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package zkpbinding
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import (
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"encoding/binary"
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"errors"
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"fmt"
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"io"
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"text/template"
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"github.com/consensys/gnark-crypto/ecc"
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"github.com/consensys/gnark-crypto/ecc/bls12-381/fr"
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"github.com/consensys/gnark/backend/groth16"
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curve "github.com/consensys/gnark/backend/groth16/bls12-381"
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"github.com/consensys/gnark/backend/witness"
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"github.com/nspcc-dev/neo-go/pkg/smartcontract/binding"
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"github.com/nspcc-dev/neo-go/pkg/util/slice"
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)
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// Config represents a configuration for Verifier Go smart contract generator.
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type Config struct {
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// VerifyingKey must be a Groth-16 BLS12-381 specific verifier key,
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// parameters of which will be used to generate Verifier Neo smart contract.
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VerifyingKey groth16.VerifyingKey
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// Output is a writer for the resulting Verifier Go smart contract, it must
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// not be nil.
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Output io.Writer
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// CfgOutput is a writer for the resulting Verifier Go smart contract YAML
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// configuration file needed to compile the contract. It may be nil if the
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// contract configuration file generation should be omitted.
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CfgOutput io.Writer
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// GomodOutput is a writer for the resulting go.mod file of the Verifier Go
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// smart contract needed to compile it. It may be nil if the go.mod file
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// generation should be omitted.
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GomodOutput io.Writer
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// GosumOutput is a writer for the resulting go.sum file of the Verifier Go
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// smart contract needed to compile it. It may be nil if the go.sum file
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// generation should be omitted.
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GosumOutput io.Writer
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}
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// A set of Verifier smart contract template related constants.
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const (
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// goVerificationTmpl is a verification smart contract template. It contains
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// a single `verifyProof` method that accepts a proof represented as three
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// BLS12-381 curve points and public information required for verification
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// represented as a list of serialized 32-bytes field elements in the LE form.
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// The boolean result of `verifyProof` is either `true` (if the proof is
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// valid) or `false` (if the proof is invalid). The smart contract generated
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// from this template can be immediately compiled without any additional
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// changes using NeoGo compiler, deployed to the Neo chain and invoked. The
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// verification contract is circuit-specific, i.e. corresponds to a specific
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// single constraint system. Thus, every new circuit requires vew verification
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// contract to be generated and deployed to the chain.
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goVerificationTmpl = `//Code generated by neo-go zkpbinding.GenerateVerifier; DO NOT EDIT.
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// Package main contains verification smart contract that uses Neo BLS12-381
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// curves interoperability functionality to verify provided proof against provided
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// public input. The contract contains a single 'verifyProof' method that accepts
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// a proof represented as three BLS12-381 curve points and public witnesses
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// required for verification represented as a list of serialized 32-bytes field
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// elements in the LE form. This contract is circuit-specific and can not be used
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// to verify other circuits.
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//
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// Use NeoGo smart contract compiler to compile this contract:
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// https://github.com/nspcc-dev/neo-go/blob/master/docs/compiler.md#compiling.
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// You will need to create contract YAML configuration file and proper go.mod and
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// go.sum files required for compilation. Please, refer to the NeoGo ZKP example
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// to see how to verify proofs via the Verifier contract:
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// https://github.com/nspcc-dev/neo-go/tree/master/examples/zkp/cubic_circuit.
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package main
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import (
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"github.com/nspcc-dev/neo-go/pkg/interop/native/crypto"
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"github.com/nspcc-dev/neo-go/pkg/interop/util"
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)
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// A set of circuit-specific variables required for verification. Should be generated
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// using MPC process.
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var (
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// G1 Affine point.
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alpha = []byte{{ byteSliceToStr .Alpha }}
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// G2 Affine point.
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beta = []byte{{ byteSliceToStr .Beta }}
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// G2 Affine point.
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gamma = []byte{{ byteSliceToStr .Gamma }}
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// G2 Affine point.
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delta = []byte{{ byteSliceToStr .Delta }}
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// A set of G1 Affine points.
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ic = [][]byte{
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{{- range $i := .ICs }}
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{{ byteSliceToStr $i }},{{ end -}}
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}
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)
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// VerifyProof verifies the given proof represented as three serialized compressed
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// BLS12-381 points against the public information represented as a list of
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// serialized 32-bytes field elements in the LE form. Verification process
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// follows the Groth-16 proving system and is taken from the
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// https://github.com/neo-project/neo/issues/2647#issuecomment-1002893109 without
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// any changes. Verification process checks the following equality:
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//
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// A * B = alpha * beta + sum(pub_input[i] * (beta * u_i(x) + alpha * v_i(x) + w_i(x)) / gamma) * gamma + C * delta
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func VerifyProof(a []byte, b []byte, c []byte, publicInput [][]byte) bool {
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alphaPoint := crypto.Bls12381Deserialize(alpha)
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betaPoint := crypto.Bls12381Deserialize(beta)
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gammaPoint := crypto.Bls12381Deserialize(gamma)
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deltaPoint := crypto.Bls12381Deserialize(delta)
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aPoint := crypto.Bls12381Deserialize(a)
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bPoint := crypto.Bls12381Deserialize(b)
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cPoint := crypto.Bls12381Deserialize(c)
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// Equation left1: A*B
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lt := crypto.Bls12381Pairing(aPoint, bPoint)
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// Equation right1: alpha*beta
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rt1 := crypto.Bls12381Pairing(alphaPoint, betaPoint)
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// Equation right2: sum(pub_input[i]*(beta*u_i(x)+alpha*v_i(x)+w_i(x))/gamma)*gamma
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inputlen := len(publicInput)
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iclen := len(ic)
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if iclen != inputlen+1 {
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panic("error: inputlen or iclen")
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}
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icPoints := make([]crypto.Bls12381Point, iclen)
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for i := 0; i < iclen; i++ {
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icPoints[i] = crypto.Bls12381Deserialize(ic[i])
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}
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acc := icPoints[0]
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for i := 0; i < inputlen; i++ {
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scalar := publicInput[i] // 32-bytes LE field element.
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temp := crypto.Bls12381Mul(icPoints[i+1], scalar, false)
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acc = crypto.Bls12381Add(acc, temp)
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}
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rt2 := crypto.Bls12381Pairing(acc, gammaPoint)
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// Equation right3: C*delta
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rt3 := crypto.Bls12381Pairing(cPoint, deltaPoint)
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// Check equality.
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t1 := crypto.Bls12381Add(rt1, rt2)
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t2 := crypto.Bls12381Add(t1, rt3)
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return util.Equals(lt, t2)
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}
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`
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// verifyCfg is a contract configuration file required to compile smart
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// contract.
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verifyCfg = `name: "Groth-16 Verifier contract"
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sourceurl: https://github.com/nspcc-dev/neo-go/
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supportedstandards: []`
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// verifyGomod is a standard go.mod file containing module name, go version
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// and dependency packages version needed for smart contract compilation.
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verifyGomod = `module verify
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go 1.20
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require github.com/nspcc-dev/neo-go/pkg/interop v0.0.0-20231004150345-8849ccde2524
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`
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// verifyGosum is a standard go.sum file needed for contract compilation.
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verifyGosum = `github.com/nspcc-dev/neo-go/pkg/interop v0.0.0-20231004150345-8849ccde2524 h1:LKp/89ftf+MwMExKgnbwjQp5zQTUZ3lDCc+DZ4VeSRc=
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github.com/nspcc-dev/neo-go/pkg/interop v0.0.0-20231004150345-8849ccde2524/go.mod h1:ZUuXOkdtHZgaC13za/zMgXfQFncZ0jLzfQTe+OsDOtg=
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`
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)
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// VerifyProofArgs is the set of arguments of `verifyProof` method of a
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// Verifier contract in serialized form (as the contract accepts them).
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type VerifyProofArgs struct {
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A []byte
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B []byte
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C []byte
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PublicWitnesses []any
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}
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// tmplParams is a set of parameters used by verification contract template.
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type tmplParams struct {
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Alpha []byte
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Beta []byte
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Gamma []byte
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Delta []byte
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ICs [][]byte
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}
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// GenerateVerifier generates a Verifier smart contract written in Go for Neo
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// blockchain. The contract contains a single `verifyProof` method that accepts
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// a proof represented as three BLS12-381 curve points and public witnesses
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// required for verification represented as a list of serialized 32-bytes field
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// elements in the LE form. The boolean result of `verifyProof` is either `true`
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// (if the proof is valid) or `false` (if the proof is invalid). The smart
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// contract generated from this template can be immediately compiled without
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// any additional changes using NeoGo compiler, deployed to the Neo chain and
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// invoked. The verification contract is circuit-specific, i.e. corresponds to
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// a specific constraint system. Thus, every new circuit requires its own
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// verification contract to be generated and deployed to the chain.
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//
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// GenerateVerifier also generates a proper contract YAML configuration file,
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// go.mod and go.sum files if the corresponding writers are provided via cfg.
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func GenerateVerifier(cfg Config) error {
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if cfg.VerifyingKey == nil {
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return fmt.Errorf("nil verifying key")
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}
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if cfg.VerifyingKey.CurveID() != ecc.BLS12_381 {
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return fmt.Errorf("unexpected elliptic curve: %s", cfg.VerifyingKey.CurveID())
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}
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// Fetch the contract's public verification parameters. We can directly access
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// the VerifyingKey elements since gnark v0.9.0.
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vk := cfg.VerifyingKey.(*curve.VerifyingKey)
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alphaG1 := vk.G1.Alpha.Bytes()
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betaG2 := vk.G2.Beta.Bytes()
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gammaG2 := vk.G2.Gamma.Bytes()
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deltaG2 := vk.G2.Delta.Bytes()
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kvks := make([][]byte, len(vk.G1.K))
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for i := range kvks {
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arr := vk.G1.K[i].Bytes()
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kvks[i] = arr[:]
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}
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// Generate verification contract from the template using the retrieved
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// verification parameters.
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tmpl := template.Must(template.New("generate").Funcs(template.FuncMap{
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"byteSliceToStr": byteSliceToStr,
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}).Parse(goVerificationTmpl))
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err := binding.FExecute(tmpl, cfg.Output, tmplParams{
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Alpha: alphaG1[:],
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Beta: betaG2[:],
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Gamma: gammaG2[:],
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Delta: deltaG2[:],
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ICs: kvks,
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})
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if err != nil {
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return err
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}
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if cfg.CfgOutput != nil {
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_, err = cfg.CfgOutput.Write([]byte(verifyCfg))
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if err != nil {
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return fmt.Errorf("failed to generate contract configuration file: %w", err)
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}
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}
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if cfg.GomodOutput != nil {
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_, err = cfg.GomodOutput.Write([]byte(verifyGomod))
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if err != nil {
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return fmt.Errorf("failed to generate go.mod file: %w", err)
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}
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}
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if cfg.GosumOutput != nil {
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_, err = cfg.GosumOutput.Write([]byte(verifyGosum))
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if err != nil {
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return fmt.Errorf("failed to generate go.mod file: %w", err)
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}
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}
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return nil
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}
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// byteSliceToStr is a codegen helper that converts byte slice to a go-like slice.
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func byteSliceToStr(s []byte) string {
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var res string
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for _, b := range s {
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res += fmt.Sprintf("%d, ", b)
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}
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return `{` + res[:len(res)-2] + `}`
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}
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// GetVerifyProofArgs returns a serialized set of arguments `verifyProof` method
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// of a generated Verifier contract accepts. The set of arguments may be directly
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// used as parameters to contract invocation.
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func GetVerifyProofArgs(proof groth16.Proof, publicWitness witness.Witness) (*VerifyProofArgs, error) {
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if proof == nil {
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return nil, errors.New("nil proof")
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}
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if proof.CurveID() != ecc.BLS12_381 {
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return nil, fmt.Errorf("unexpected elliptic curve: %s", proof.CurveID())
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}
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// If a full witness was provided, then retrieve public part, we don't need the secret part of it.
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publicWitness, err := publicWitness.Public()
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if err != nil {
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return nil, fmt.Errorf("failed to retrieve public witness: %w", err)
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}
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// Get the proof bytes (points are in the compressed form, as Verification contract accepts it).
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p := proof.(*curve.Proof)
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aBytes := p.Ar.Bytes()
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bBytes := p.Bs.Bytes()
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cBytes := p.Krs.Bytes()
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publicWitnessBytes, err := publicWitness.MarshalBinary()
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if err != nil {
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return nil, fmt.Errorf("failed to encode public witness: %w", err)
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}
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numPublicWitness := binary.BigEndian.Uint32(publicWitnessBytes[:4])
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numSecretWitness := binary.BigEndian.Uint32(publicWitnessBytes[4:8])
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numVectorElements := binary.BigEndian.Uint32(publicWitnessBytes[8:12])
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// Ensure that serialization format is as expected (just in case).
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if numSecretWitness != 0 {
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return nil, fmt.Errorf("unexpected number of secret witnesses: %d", numSecretWitness)
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}
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if numPublicWitness+numSecretWitness != numVectorElements {
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return nil, fmt.Errorf("unexpected number of public witness elements: %d", numVectorElements)
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}
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// Create public witness input.
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input := make([]any, numVectorElements)
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offset := 12
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for i := range input { // firstly - public witnesses, after that - private ones (but they are missing from publicWitness anyway).
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start := offset + i*fr.Bytes
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end := start + fr.Bytes
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slice.Reverse(publicWitnessBytes[start:end]) // gnark stores witnesses in the BE form, but native CryptoLib accepts LE-encoded fields elements (not a canonical form).
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input[i] = publicWitnessBytes[start:end]
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}
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return &VerifyProofArgs{
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A: aBytes[:],
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B: bBytes[:],
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C: cBytes[:],
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PublicWitnesses: input,
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}, nil
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}
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