mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
synced 2024-11-11 02:35:18 +00:00
152 lines
4.2 KiB
Go
152 lines
4.2 KiB
Go
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package main
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import (
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crand "crypto/rand"
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"fmt"
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"source.quilibrium.com/quilibrium/monorepo/nekryptology/pkg/core/curves"
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"source.quilibrium.com/quilibrium/monorepo/nekryptology/pkg/sharing"
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"source.quilibrium.com/quilibrium/monorepo/nekryptology/pkg/verenc/elgamal"
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)
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func main() {
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// Setup
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curve := curves.ED25519()
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serverPk, serverSk, _ := elgamal.NewKeys(curve)
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aliceEk, _, _ := elgamal.NewKeys(curve)
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bobEk, _, _ := elgamal.NewKeys(curve)
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signKey := curve.Scalar.Random(crand.Reader)
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verKey := curve.ScalarBaseMult(signKey)
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shamir, _ := sharing.NewShamir(2, 2, curve)
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shares, _ := shamir.Split(signKey, crand.Reader)
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// Create a proof s.t. Alice and Bob submit
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// proofs of correctness for their ciphertexts
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// Alice and Bob can decrypt their respective shares
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// But the server cannot.
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// The server checks whether the ciphertexts
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// are valid encrypted shares
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aliceDomain := []byte("alice_share")
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bobDomain := []byte("bob_share")
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aliceStuff := computeProof(curve, shares[0].Value, aliceDomain, aliceEk, serverPk)
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bobStuff := computeProof(curve, shares[1].Value, bobDomain, bobEk, serverPk)
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if !verifyProof(curve, aliceStuff, aliceDomain, aliceEk, serverPk) {
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panic("bad alice proof")
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}
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if !verifyProof(curve, bobStuff, bobDomain, bobEk, serverPk) {
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panic("bad bob proof")
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}
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aliceShare, _ := aliceStuff.serverctxt.ToHomomorphicCipherText().Decrypt(serverSk)
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bobShare, _ := bobStuff.serverctxt.ToHomomorphicCipherText().Decrypt(serverSk)
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avk := shamirCombinePoint(curve, []curves.Point{aliceShare, bobShare})
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if avk.Equal(verKey) {
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fmt.Println("Success")
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} else {
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fmt.Println("Failure")
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}
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}
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func shamirCombinePoint(curve *curves.Curve, points []curves.Point) curves.Point {
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result := curve.Point.Identity()
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for i, p := range points {
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basis := curve.Scalar.One()
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for j := range points {
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if i == j {
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continue
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}
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// x_m - x_j
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denom := curve.Scalar.New(j + 1).Sub(curve.Scalar.New(i + 1))
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if denom.IsZero() {
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return nil
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}
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// x_m / x_m - x_j
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basis = basis.Mul(curve.Scalar.New(j + 1).Div(denom))
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}
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result = result.Add(p.Mul(basis))
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}
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return result
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}
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func verifyProof(
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curve *curves.Curve,
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proof *commitTwinProof,
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domain []byte,
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encKey *elgamal.EncryptionKey,
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serverPk *elgamal.EncryptionKey,
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) bool {
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genBytes := append(domain, encKey.Value.ToAffineUncompressed()...)
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genBytes = append(genBytes, proof.encctxt.Nonce...)
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h := curve.NewGeneratorPoint().Hash(genBytes)
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w1 := curve.ScalarBaseMult(proof.d).Add(serverPk.Value.Mul(proof.d1)).Add(proof.serverctxt.C2.Mul(proof.c))
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w2 := h.Mul(proof.d).Add(encKey.Value.Mul(proof.d2)).Add(proof.encctxt.C2.Mul(proof.c))
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c := curve.NewScalar().Hash(append(w1.ToAffineCompressed(), w2.ToAffineCompressed()...))
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return c.Cmp(proof.c) == 0
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}
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type commitTwinProof struct {
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c, d, d1, d2 curves.Scalar
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serverctxt *elgamal.CipherText
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encctxt *elgamal.CipherText
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}
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func computeProof(
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curve *curves.Curve,
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share, domain []byte,
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encKey *elgamal.EncryptionKey,
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servKey *elgamal.EncryptionKey,
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) *commitTwinProof {
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r1 := curve.Scalar.Random(crand.Reader)
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r2 := curve.Scalar.Random(crand.Reader)
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encctxt, _, _ := encKey.VerifiableEncrypt(share, &elgamal.EncryptParams{
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Domain: domain,
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Blinding: r2,
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MessageIsHashed: true,
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ProofNonce: domain,
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})
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serverCtxt, _, _ := servKey.VerifiableEncrypt(share, &elgamal.EncryptParams{
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Blinding: r1,
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MessageIsHashed: true,
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ProofNonce: domain,
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})
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w := curve.Scalar.Random(crand.Reader)
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n1 := curve.Scalar.Random(crand.Reader)
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n2 := curve.Scalar.Random(crand.Reader)
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genBytes := append(domain, encKey.Value.ToAffineUncompressed()...)
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genBytes = append(genBytes, encctxt.Nonce...)
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h := curve.NewGeneratorPoint().Hash(genBytes)
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w1 := curve.ScalarBaseMult(w).Add(servKey.Value.Mul(n1))
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w2 := h.Mul(w).Add(encKey.Value.Mul(n2))
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c := curve.NewScalar().Hash(append(w1.ToAffineCompressed(), w2.ToAffineCompressed()...))
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s, err := curve.NewScalar().SetBytes(share)
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if err != nil {
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panic(err)
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}
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// d = w - c s
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d := w.Sub(c.Mul(s))
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// d1 = n1 - c r1
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d1 := n1.Sub(c.Mul(r1))
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// d2 = n2 - c r2
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d2 := n2.Sub(c.Mul(r2))
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return &commitTwinProof{
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c: c,
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d: d,
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d1: d1,
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d2: d2,
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encctxt: encctxt,
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serverctxt: serverCtxt,
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}
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}
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