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dleq_test.go
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dleq_test.go
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package dleq_test
import (
"bytes"
"crypto"
"crypto/rand"
"fmt"
"testing"
"github.com/cloudflare/circl/group"
"github.com/cloudflare/circl/internal/test"
"github.com/cloudflare/circl/zk/dleq"
)
func TestDLEQ(t *testing.T) {
for _, g := range []group.Group{
group.P256,
group.P384,
group.P521,
group.Ristretto255,
} {
t.Run(g.(fmt.Stringer).String(), func(t *testing.T) {
params := dleq.Params{g, crypto.SHA256, []byte("domain_sep_string")}
Peggy := dleq.Prover{params}
Victor := dleq.Verifier{params}
k := g.RandomScalar(rand.Reader)
A := g.RandomElement(rand.Reader)
kA := g.NewElement().Mul(A, k)
B := g.RandomElement(rand.Reader)
kB := g.NewElement().Mul(B, k)
proof, err := Peggy.Prove(k, A, kA, B, kB, rand.Reader)
test.CheckNoErr(t, err, "wrong proof generation")
test.CheckOk(Victor.Verify(A, kA, B, kB, proof), "proof must verify", t)
rr := g.RandomScalar(rand.Reader)
proof, err = Peggy.ProveWithRandomness(k, A, kA, B, kB, rr)
test.CheckNoErr(t, err, "wrong proof generation")
test.CheckOk(Victor.Verify(A, kA, B, kB, proof), "proof must verify", t)
const N = 4
C := make([]group.Element, N)
kC := make([]group.Element, N)
for i := 0; i < N; i++ {
C[i] = g.RandomElement(rand.Reader)
kC[i] = g.NewElement().Mul(C[i], k)
}
proof, err = Peggy.ProveBatch(k, A, kA, C, kC, rand.Reader)
test.CheckNoErr(t, err, "wrong proof generation")
test.CheckOk(Victor.VerifyBatch(A, kA, C, kC, proof), "proof must verify", t)
testMarshal(t, g, proof)
testErrors(t, &Peggy, &Victor, g, k, A, kA, B, kB)
})
}
}
func testMarshal(t *testing.T, g group.Group, proof *dleq.Proof) {
t.Helper()
wantProofBytes, err := proof.MarshalBinary()
test.CheckNoErr(t, err, "error on marshaling proof")
gotProof := new(dleq.Proof)
err = gotProof.UnmarshalBinary(g, wantProofBytes)
test.CheckNoErr(t, err, "error on unmarshaling proof")
gotProofBytes, err := gotProof.MarshalBinary()
test.CheckNoErr(t, err, "error on marshaling proof")
if !bytes.Equal(gotProofBytes, wantProofBytes) {
test.ReportError(t, gotProofBytes, wantProofBytes)
}
}
func testErrors(
t *testing.T,
Peggy *dleq.Prover,
Victor *dleq.Verifier,
g group.Group,
k group.Scalar, a, ka, b, kb group.Element,
) {
goodProof, err := Peggy.Prove(k, a, ka, b, kb, rand.Reader)
test.CheckNoErr(t, err, "wrong proof generation")
proofBytes, err := goodProof.MarshalBinary()
test.CheckNoErr(t, err, "error on marshaling proof")
// Tamper proof (in transit)
_, _ = rand.Read(proofBytes)
tamperedProof := new(dleq.Proof)
err = tamperedProof.UnmarshalBinary(g, proofBytes[:5])
test.CheckIsErr(t, err, "unmarshal must fail")
err = tamperedProof.UnmarshalBinary(g, proofBytes)
test.CheckNoErr(t, err, "proof must be unmarshaled")
test.CheckOk(false == Victor.Verify(a, ka, b, kb, tamperedProof), "proof must not verify", t)
// Tamper elements
bada := g.NewElement().Neg(a)
test.CheckOk(false == Victor.Verify(bada, ka, b, kb, goodProof), "proof must not verify", t)
badka := g.NewElement().Neg(ka)
test.CheckOk(false == Victor.Verify(a, badka, b, kb, goodProof), "proof must not verify", t)
badb := g.NewElement().Neg(b)
test.CheckOk(false == Victor.Verify(a, ka, badb, kb, goodProof), "proof must not verify", t)
badkb := g.NewElement().Neg(kb)
test.CheckOk(false == Victor.Verify(a, ka, b, badkb, goodProof), "proof must not verify", t)
}
func BenchmarkDLEQ(b *testing.B) {
g := group.P256
params := dleq.Params{g, crypto.SHA256, []byte("domain_sep_string")}
Peggy := dleq.Prover{params}
Victor := dleq.Verifier{params}
k := g.RandomScalar(rand.Reader)
A := g.Generator()
kA := g.NewElement().MulGen(k)
B := g.RandomElement(rand.Reader)
kB := g.NewElement().Mul(B, k)
rr := g.RandomScalar(rand.Reader)
proof, _ := Peggy.ProveWithRandomness(k, A, kA, B, kB, rr)
const N = 4
C := make([]group.Element, N)
kC := make([]group.Element, N)
for i := 0; i < N; i++ {
C[i] = g.RandomElement(rand.Reader)
kC[i] = g.NewElement().Mul(C[i], k)
}
proofBatched, _ := Peggy.ProveBatchWithRandomness(k, A, kA, C, kC, rr)
b.Run("Prove", func(b *testing.B) {
for i := 0; i < b.N; i++ {
_, _ = Peggy.ProveWithRandomness(k, A, kA, B, kB, rr)
}
})
b.Run("Verify", func(b *testing.B) {
for i := 0; i < b.N; i++ {
_ = Victor.Verify(A, kA, B, kB, proof)
}
})
b.Run(fmt.Sprint("ProveBatch=", N), func(b *testing.B) {
for i := 0; i < b.N; i++ {
_, _ = Peggy.ProveBatchWithRandomness(k, A, kA, C, kC, rr)
}
})
b.Run(fmt.Sprint("VerifyBatch=", N), func(b *testing.B) {
for i := 0; i < b.N; i++ {
_ = Victor.VerifyBatch(A, kA, C, kC, proofBatched)
}
})
}