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table.go
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table.go
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// Copyright 2020 ConsenSys Software Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Code generated by consensys/gnark-crypto DO NOT EDIT
package plookup
import (
"crypto/sha256"
"errors"
"math/big"
"sort"
bls24315 "github.com/consensys/gnark-crypto/ecc/bls24-315"
"github.com/consensys/gnark-crypto/ecc/bls24-315/fr"
"github.com/consensys/gnark-crypto/ecc/bls24-315/fr/fft"
"github.com/consensys/gnark-crypto/ecc/bls24-315/fr/kzg"
"github.com/consensys/gnark-crypto/ecc/bls24-315/fr/permutation"
fiatshamir "github.com/consensys/gnark-crypto/fiat-shamir"
)
var (
ErrIncompatibleSize = errors.New("the tables in f and t are not of the same size")
ErrFoldedCommitment = errors.New("the folded commitment is malformed")
ErrNumberDigests = errors.New("proof.ts and proof.fs are not of the same length")
)
// ProofLookupTables proofs that a list of tables
type ProofLookupTables struct {
// commitments to the rows f
fs []kzg.Digest
// commitments to the rows of t
ts []kzg.Digest
// lookup proof for the f and t folded
foldedProof ProofLookupVector
// proof that the ts folded correspond to t in the folded proof
permutationProof permutation.Proof
}
// ProveLookupTables generates a proof that f, seen as a multi dimensional table,
// consists of vectors that are in t. In other words for each i, f[:][i] must be one
// of the t[:][j].
//
// For instance, if t is the truth table of the XOR function, t will be populated such
// that t[:][i] contains the i-th entry of the truth table, so t[0][i] XOR t[1][i] = t[2][i].
//
// The Table in f and t are supposed to be of the same size constant size.
func ProveLookupTables(srs *kzg.SRS, f, t []Table) (ProofLookupTables, error) {
// res
proof := ProofLookupTables{}
var err error
// hash function used for Fiat Shamir
hFunc := sha256.New()
// transcript to derive the challenge
fs := fiatshamir.NewTranscript(hFunc, "lambda")
// check the sizes
if len(f) != len(t) {
return proof, ErrIncompatibleSize
}
s := len(f[0])
for i := 1; i < len(f); i++ {
if len(f[i]) != s {
return proof, ErrIncompatibleSize
}
}
s = len(t[0])
for i := 1; i < len(t); i++ {
if len(t[i]) != s {
return proof, ErrIncompatibleSize
}
}
// commit to the tables in f and t
nbRows := len(t)
proof.fs = make([]kzg.Digest, nbRows)
proof.ts = make([]kzg.Digest, nbRows)
_nbColumns := len(f[0]) + 1
if _nbColumns < len(t[0]) {
_nbColumns = len(t[0])
}
d := fft.NewDomain(uint64(_nbColumns))
nbColumns := d.Cardinality
lfs := make([][]fr.Element, nbRows)
cfs := make([][]fr.Element, nbRows)
lts := make([][]fr.Element, nbRows)
cts := make([][]fr.Element, nbRows)
for i := 0; i < nbRows; i++ {
cfs[i] = make([]fr.Element, nbColumns)
lfs[i] = make([]fr.Element, nbColumns)
copy(cfs[i], f[i])
copy(lfs[i], f[i])
for j := len(f[i]); j < int(nbColumns); j++ {
cfs[i][j] = f[i][len(f[i])-1]
lfs[i][j] = f[i][len(f[i])-1]
}
d.FFTInverse(cfs[i], fft.DIF)
fft.BitReverse(cfs[i])
proof.fs[i], err = kzg.Commit(cfs[i], srs)
if err != nil {
return proof, err
}
cts[i] = make([]fr.Element, nbColumns)
lts[i] = make([]fr.Element, nbColumns)
copy(cts[i], t[i])
copy(lts[i], t[i])
for j := len(t[i]); j < int(d.Cardinality); j++ {
cts[i][j] = t[i][len(t[i])-1]
lts[i][j] = t[i][len(t[i])-1]
}
d.FFTInverse(cts[i], fft.DIF)
fft.BitReverse(cts[i])
proof.ts[i], err = kzg.Commit(cts[i], srs)
if err != nil {
return proof, err
}
}
// fold f and t
comms := make([]*kzg.Digest, 2*nbRows)
for i := 0; i < nbRows; i++ {
comms[i] = new(kzg.Digest)
comms[i].Set(&proof.fs[i])
comms[nbRows+i] = new(kzg.Digest)
comms[nbRows+i].Set(&proof.ts[i])
}
lambda, err := deriveRandomness(&fs, "lambda", comms...)
if err != nil {
return proof, err
}
foldedf := make(Table, nbColumns)
foldedt := make(Table, nbColumns)
for i := 0; i < int(nbColumns); i++ {
for j := nbRows - 1; j >= 0; j-- {
foldedf[i].Mul(&foldedf[i], &lambda).
Add(&foldedf[i], &lfs[j][i])
foldedt[i].Mul(&foldedt[i], &lambda).
Add(&foldedt[i], <s[j][i])
}
}
// generate a proof of permutation of the foldedt and sort(foldedt)
foldedtSorted := make(Table, nbColumns)
copy(foldedtSorted, foldedt)
sort.Sort(foldedtSorted)
proof.permutationProof, err = permutation.Prove(srs, foldedt, foldedtSorted)
if err != nil {
return proof, err
}
// call plookupVector, on foldedf[:len(foldedf)-1] to ensure that the domain size
// in ProveLookupVector is the same as d's
proof.foldedProof, err = ProveLookupVector(srs, foldedf[:len(foldedf)-1], foldedt)
return proof, err
}
// VerifyLookupTables verifies that a ProofLookupTables proof is correct.
func VerifyLookupTables(srs *kzg.SRS, proof ProofLookupTables) error {
// hash function used for Fiat Shamir
hFunc := sha256.New()
// transcript to derive the challenge
fs := fiatshamir.NewTranscript(hFunc, "lambda")
// check that the number of digests is the same
if len(proof.fs) != len(proof.ts) {
return ErrNumberDigests
}
// fold the commitments fs and ts
nbRows := len(proof.fs)
comms := make([]*kzg.Digest, 2*nbRows)
for i := 0; i < nbRows; i++ {
comms[i] = &proof.fs[i]
comms[i+nbRows] = &proof.ts[i]
}
lambda, err := deriveRandomness(&fs, "lambda", comms...)
if err != nil {
return err
}
// fold the commitments of the rows of t and f
var comf, comt kzg.Digest
comf.Set(&proof.fs[nbRows-1])
comt.Set(&proof.ts[nbRows-1])
var blambda big.Int
lambda.ToBigIntRegular(&blambda)
for i := nbRows - 2; i >= 0; i-- {
comf.ScalarMultiplication(&comf, &blambda).
Add(&comf, &proof.fs[i])
comt.ScalarMultiplication(&comt, &blambda).
Add(&comt, &proof.ts[i])
}
// check that the folded commitment of the fs correspond to foldedProof.f
if !comf.Equal(&proof.foldedProof.f) {
return ErrFoldedCommitment
}
// check that the folded commitment of the ts is a permutation of proof.FoldedProof.t
err = permutation.Verify(srs, proof.permutationProof)
if err != nil {
return err
}
// verify the inner proof
return VerifyLookupVector(srs, proof.foldedProof)
}
// TODO put that in fiat-shamir package
func deriveRandomness(fs *fiatshamir.Transcript, challenge string, points ...*bls24315.G1Affine) (fr.Element, error) {
var buf [bls24315.SizeOfG1AffineUncompressed]byte
var r fr.Element
for _, p := range points {
buf = p.RawBytes()
if err := fs.Bind(challenge, buf[:]); err != nil {
return r, err
}
}
b, err := fs.ComputeChallenge(challenge)
if err != nil {
return r, err
}
r.SetBytes(b)
return r, nil
}