plonky2/src/recursive_verifier.rs

use crate::circuit_builder::CircuitBuilder;
use crate::circuit_data::{CircuitConfig, VerifierCircuitTarget};
use crate::field::extension_field::Extendable;
use crate::gates::gate::{GateRef, PrefixedGate};
use crate::proof::ProofTarget;

const MIN_WIRES: usize = 120; // TODO: Double check.
const MIN_ROUTED_WIRES: usize = 28; // TODO: Double check.

impl<F: Extendable<D>, const D: usize> CircuitBuilder<F, D> {
    /// Recursively verifies an inner proof.
    pub fn add_recursive_verifier(
        &mut self,
        inner_proof: ProofTarget<D>,
        inner_config: &CircuitConfig,
        inner_circuit_data: &VerifierCircuitTarget,
        inner_gates: &[PrefixedGate<F, D>],
    ) {
        assert!(self.config.num_wires >= MIN_WIRES);
        assert!(self.config.num_wires >= MIN_ROUTED_WIRES);

        todo!()
    }
}

#[cfg(test)]
mod tests {
    use super::*;
    use crate::field::crandall_field::CrandallField;
    use crate::field::extension_field::quartic::QuarticCrandallField;
    use crate::gadgets::polynomial::PolynomialCoeffsExtTarget;
    use crate::merkle_proofs::MerkleProofTarget;
    use crate::polynomial::commitment::OpeningProofTarget;
    use crate::proof::{
        FriInitialTreeProofTarget, FriProofTarget, FriQueryRoundTarget, FriQueryStepTarget,
        HashTarget, OpeningSetTarget, Proof,
    };
    use crate::verifier::verify;
    use crate::witness::PartialWitness;

    fn get_fri_query_round<F: Extendable<D>, const D: usize>(
        proof: &Proof<F, D>,
        builder: &mut CircuitBuilder<F, D>,
    ) -> FriQueryRoundTarget<D> {
        let mut query_round = FriQueryRoundTarget {
            initial_trees_proof: FriInitialTreeProofTarget {
                evals_proofs: vec![],
            },
            steps: vec![],
        };
        for (v, merkle_proof) in &proof.opening_proof.fri_proof.query_round_proofs[0]
            .initial_trees_proof
            .evals_proofs
        {
            query_round.initial_trees_proof.evals_proofs.push((
                builder.add_virtual_targets(v.len()),
                MerkleProofTarget {
                    siblings: builder.add_virtual_hashes(merkle_proof.siblings.len()),
                },
            ));
        }
        for step in &proof.opening_proof.fri_proof.query_round_proofs[0].steps {
            query_round.steps.push(FriQueryStepTarget {
                evals: builder.add_virtual_extension_targets(step.evals.len()),
                merkle_proof: MerkleProofTarget {
                    siblings: builder.add_virtual_hashes(step.merkle_proof.siblings.len()),
                },
            });
        }
        query_round
    }

    fn proof_to_proof_target<F: Extendable<D>, const D: usize>(
        proof: &Proof<F, D>,
        builder: &mut CircuitBuilder<F, D>,
    ) -> ProofTarget<D> {
        let wires_root = builder.add_virtual_hash();
        let plonk_zs_root = builder.add_virtual_hash();
        let quotient_polys_root = builder.add_virtual_hash();

        let openings = OpeningSetTarget {
            constants: builder.add_virtual_extension_targets(proof.openings.constants.len()),
            plonk_sigmas: builder
                .add_virtual_extension_targets(proof.openings.plonk_s_sigmas.len()),
            wires: builder.add_virtual_extension_targets(proof.openings.wires.len()),
            plonk_zs: builder.add_virtual_extension_targets(proof.openings.plonk_zs.len()),
            plonk_zs_right: builder
                .add_virtual_extension_targets(proof.openings.plonk_zs_right.len()),
            partial_products: builder
                .add_virtual_extension_targets(proof.openings.partial_products.len()),
            quotient_polys: builder
                .add_virtual_extension_targets(proof.openings.quotient_polys.len()),
        };
        let query_round_proofs = (0..proof.opening_proof.fri_proof.query_round_proofs.len())
            .map(|_| get_fri_query_round(proof, builder))
            .collect();
        let commit_phase_merkle_roots = (0..proof
            .opening_proof
            .fri_proof
            .commit_phase_merkle_roots
            .len())
            .map(|_| builder.add_virtual_hash())
            .collect();
        let opening_proof =
            OpeningProofTarget {
                fri_proof: FriProofTarget {
                    commit_phase_merkle_roots,
                    query_round_proofs,
                    final_poly: PolynomialCoeffsExtTarget(builder.add_virtual_extension_targets(
                        proof.opening_proof.fri_proof.final_poly.len(),
                    )),
                    pow_witness: builder.add_virtual_target(),
                },
            };

        ProofTarget {
            wires_root,
            plonk_zs_root,
            quotient_polys_root,
            openings,
            opening_proof,
        }
    }

    fn set_proof_target<F: Extendable<D>, const D: usize>(
        proof: &Proof<F, D>,
        pt: &ProofTarget<D>,
        pw: &mut PartialWitness<F>,
    ) {
        pw.set_hash_target(pt.wires_root, proof.wires_root);
        pw.set_hash_target(pt.plonk_zs_root, proof.plonk_zs_root);
        pw.set_hash_target(pt.quotient_polys_root, proof.quotient_polys_root);

        for (&t, &x) in pt.openings.wires.iter().zip(&proof.openings.wires) {
            pw.set_extension_target(t, x);
        }
        for (&t, &x) in pt.openings.constants.iter().zip(&proof.openings.constants) {
            pw.set_extension_target(t, x);
        }
        for (&t, &x) in pt
            .openings
            .plonk_sigmas
            .iter()
            .zip(&proof.openings.plonk_s_sigmas)
        {
            pw.set_extension_target(t, x);
        }
        for (&t, &x) in pt.openings.plonk_zs.iter().zip(&proof.openings.plonk_zs) {
            pw.set_extension_target(t, x);
        }
        for (&t, &x) in pt
            .openings
            .plonk_zs_right
            .iter()
            .zip(&proof.openings.plonk_zs_right)
        {
            pw.set_extension_target(t, x);
        }
        for (&t, &x) in pt
            .openings
            .partial_products
            .iter()
            .zip(&proof.openings.partial_products)
        {
            pw.set_extension_target(t, x);
        }
        for (&t, &x) in pt
            .openings
            .quotient_polys
            .iter()
            .zip(&proof.openings.quotient_polys)
        {
            pw.set_extension_target(t, x);
        }

        let fri_proof = &proof.opening_proof.fri_proof;
        let fpt = &pt.opening_proof.fri_proof;

        pw.set_target(fpt.pow_witness, fri_proof.pow_witness);

        for (&t, &x) in fpt.final_poly.0.iter().zip(&fri_proof.final_poly.coeffs) {
            pw.set_extension_target(t, x);
        }

        for (&t, &x) in fpt
            .commit_phase_merkle_roots
            .iter()
            .zip(&fri_proof.commit_phase_merkle_roots)
        {
            pw.set_hash_target(t, x);
        }

        for (qt, q) in fpt
            .query_round_proofs
            .iter()
            .zip(&fri_proof.query_round_proofs)
        {
            for (at, a) in qt
                .initial_trees_proof
                .evals_proofs
                .iter()
                .zip(&q.initial_trees_proof.evals_proofs)
            {
                for (&t, &x) in at.0.iter().zip(&a.0) {
                    pw.set_target(t, x);
                }
                for (&t, &x) in at.1.siblings.iter().zip(&a.1.siblings) {
                    pw.set_hash_target(t, x);
                }
            }

            for (st, s) in qt.steps.iter().zip(&q.steps) {
                for (&t, &x) in st.evals.iter().zip(&s.evals) {
                    pw.set_extension_target(t, x);
                }
                for (&t, &x) in st
                    .merkle_proof
                    .siblings
                    .iter()
                    .zip(&s.merkle_proof.siblings)
                {
                    pw.set_hash_target(t, x);
                }
            }
        }
    }

    #[test]
    fn test_recursive_verifier() {
        type F = CrandallField;
        type FF = QuarticCrandallField;
        let (proof, vd, cd) = {
            let config = CircuitConfig::large_config();
            let mut builder = CircuitBuilder::<F, 4>::new(config);
            let zero = builder.zero();
            let data = builder.build();
            (
                data.prove(PartialWitness::new()),
                data.verifier_only,
                data.common,
            )
        };

        let config = CircuitConfig::large_config();
        let mut builder = CircuitBuilder::<F, 4>::new(config.clone());
        let mut pw = PartialWitness::new();
        let pt = proof_to_proof_target(&proof, &mut builder);
        set_proof_target(&proof, &pt, &mut pw);

        let inner_data = VerifierCircuitTarget {
            constants_sigmas_root: builder.add_virtual_hash(),
        };
        pw.set_hash_target(inner_data.constants_sigmas_root, vd.constants_sigmas_root);

        let gates = cd.gates;

        builder.add_recursive_verifier(pt, &config, &inner_data, &gates);

        let data = builder.build();
        let recursive_proof = data.prove(PartialWitness::new());

        verify(recursive_proof, &data.verifier_only, &data.common).unwrap();
    }
}
More prover work 2021-03-25 15:20:14 -07:00			`use crate::circuit_builder::CircuitBuilder;`
Comments etc 2021-04-02 20:58:19 -07:00			`use crate::circuit_data::{CircuitConfig, VerifierCircuitTarget};`
Draw challenge points from the extension field (#51) * Draw challenge points from the extension field * Now building * Misc * Default eval_unfiltered_base * fmt * A few field settings * Add to Sage * Display tweak * eval_filtered_base * Quartic in bench * Missing methods * Fix tests * PR feedback 2021-05-30 13:25:53 -07:00			`use crate::field::extension_field::Extendable;`
Finish test setup 2021-07-09 10:01:58 +02:00			`use crate::gates::gate::{GateRef, PrefixedGate};`
Comments etc 2021-04-02 20:58:19 -07:00			`use crate::proof::ProofTarget;`
Gate infra 2021-02-26 13:18:41 -08:00
No more polynomial programming abstraction It was too expensive. 2021-03-28 15:36:51 -07:00			`const MIN_WIRES: usize = 120; // TODO: Double check.`
Change `MulExtensionGate` to `ArithmeticExtensionGate` and change gadgets to use the new wires in this gate. 2021-06-23 18:04:43 +02:00			`const MIN_ROUTED_WIRES: usize = 28; // TODO: Double check.`
No more polynomial programming abstraction It was too expensive. 2021-03-28 15:36:51 -07:00
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`impl<F: Extendable<D>, const D: usize> CircuitBuilder<F, D> {`
			`/// Recursively verifies an inner proof.`
			`pub fn add_recursive_verifier(`
			`&mut self,`
			`inner_proof: ProofTarget<D>,`
Finish test setup 2021-07-09 10:01:58 +02:00			`inner_config: &CircuitConfig,`
			`inner_circuit_data: &VerifierCircuitTarget,`
			`inner_gates: &[PrefixedGate<F, D>],`
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`) {`
			`assert!(self.config.num_wires >= MIN_WIRES);`
			`assert!(self.config.num_wires >= MIN_ROUTED_WIRES);`

			`todo!()`
			`}`
			`}`

			`#[cfg(test)]`
			`mod tests {`
			`use super::*;`
			`use crate::field::crandall_field::CrandallField;`
			`use crate::field::extension_field::quartic::QuarticCrandallField;`
			`use crate::gadgets::polynomial::PolynomialCoeffsExtTarget;`
			`use crate::merkle_proofs::MerkleProofTarget;`
			`use crate::polynomial::commitment::OpeningProofTarget;`
			`use crate::proof::{`
			`FriInitialTreeProofTarget, FriProofTarget, FriQueryRoundTarget, FriQueryStepTarget,`
			`HashTarget, OpeningSetTarget, Proof,`
			`};`
Finish test setup 2021-07-09 10:01:58 +02:00			`use crate::verifier::verify;`
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`use crate::witness::PartialWitness;`

Finish test setup 2021-07-09 10:01:58 +02:00			`fn get_fri_query_round<F: Extendable<D>, const D: usize>(`
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`proof: &Proof<F, D>,`
			`builder: &mut CircuitBuilder<F, D>,`
Finish test setup 2021-07-09 10:01:58 +02:00			`) -> FriQueryRoundTarget<D> {`
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`let mut query_round = FriQueryRoundTarget {`
			`initial_trees_proof: FriInitialTreeProofTarget {`
			`evals_proofs: vec![],`
			`},`
			`steps: vec![],`
			`};`
			`for (v, merkle_proof) in &proof.opening_proof.fri_proof.query_round_proofs[0]`
			`.initial_trees_proof`
			`.evals_proofs`
			`{`
			`query_round.initial_trees_proof.evals_proofs.push((`
			`builder.add_virtual_targets(v.len()),`
			`MerkleProofTarget {`
			`siblings: builder.add_virtual_hashes(merkle_proof.siblings.len()),`
			`},`
			`));`
			`}`
			`for step in &proof.opening_proof.fri_proof.query_round_proofs[0].steps {`
			`query_round.steps.push(FriQueryStepTarget {`
			`evals: builder.add_virtual_extension_targets(step.evals.len()),`
			`merkle_proof: MerkleProofTarget {`
			`siblings: builder.add_virtual_hashes(step.merkle_proof.siblings.len()),`
			`},`
			`});`
			`}`
Finish test setup 2021-07-09 10:01:58 +02:00			`query_round`
			`}`
Start recursive verifier test 2021-07-08 17:16:26 +02:00
Finish test setup 2021-07-09 10:01:58 +02:00			`fn proof_to_proof_target<F: Extendable<D>, const D: usize>(`
			`proof: &Proof<F, D>,`
			`builder: &mut CircuitBuilder<F, D>,`
			`) -> ProofTarget<D> {`
			`let wires_root = builder.add_virtual_hash();`
			`let plonk_zs_root = builder.add_virtual_hash();`
			`let quotient_polys_root = builder.add_virtual_hash();`

			`let openings = OpeningSetTarget {`
			`constants: builder.add_virtual_extension_targets(proof.openings.constants.len()),`
			`plonk_sigmas: builder`
			`.add_virtual_extension_targets(proof.openings.plonk_s_sigmas.len()),`
			`wires: builder.add_virtual_extension_targets(proof.openings.wires.len()),`
			`plonk_zs: builder.add_virtual_extension_targets(proof.openings.plonk_zs.len()),`
			`plonk_zs_right: builder`
			`.add_virtual_extension_targets(proof.openings.plonk_zs_right.len()),`
			`partial_products: builder`
			`.add_virtual_extension_targets(proof.openings.partial_products.len()),`
			`quotient_polys: builder`
			`.add_virtual_extension_targets(proof.openings.quotient_polys.len()),`
			`};`
			`let query_round_proofs = (0..proof.opening_proof.fri_proof.query_round_proofs.len())`
			`.map(\|_\| get_fri_query_round(proof, builder))`
			`.collect();`
			`let commit_phase_merkle_roots = (0..proof`
			`.opening_proof`
			`.fri_proof`
			`.commit_phase_merkle_roots`
			`.len())`
			`.map(\|_\| builder.add_virtual_hash())`
			`.collect();`
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`let opening_proof =`
			`OpeningProofTarget {`
			`fri_proof: FriProofTarget {`
Finish test setup 2021-07-09 10:01:58 +02:00			`commit_phase_merkle_roots,`
			`query_round_proofs,`
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`final_poly: PolynomialCoeffsExtTarget(builder.add_virtual_extension_targets(`
			`proof.opening_proof.fri_proof.final_poly.len(),`
			`)),`
			`pow_witness: builder.add_virtual_target(),`
			`},`
			`};`

			`ProofTarget {`
			`wires_root,`
			`plonk_zs_root,`
			`quotient_polys_root,`
			`openings,`
			`opening_proof,`
			`}`
			`}`

			`fn set_proof_target<F: Extendable<D>, const D: usize>(`
			`proof: &Proof<F, D>,`
			`pt: &ProofTarget<D>,`
			`pw: &mut PartialWitness<F>,`
			`) {`
			`pw.set_hash_target(pt.wires_root, proof.wires_root);`
			`pw.set_hash_target(pt.plonk_zs_root, proof.plonk_zs_root);`
			`pw.set_hash_target(pt.quotient_polys_root, proof.quotient_polys_root);`

			`for (&t, &x) in pt.openings.wires.iter().zip(&proof.openings.wires) {`
			`pw.set_extension_target(t, x);`
			`}`
			`for (&t, &x) in pt.openings.constants.iter().zip(&proof.openings.constants) {`
			`pw.set_extension_target(t, x);`
			`}`
			`for (&t, &x) in pt`
			`.openings`
			`.plonk_sigmas`
			`.iter()`
			`.zip(&proof.openings.plonk_s_sigmas)`
			`{`
			`pw.set_extension_target(t, x);`
			`}`
			`for (&t, &x) in pt.openings.plonk_zs.iter().zip(&proof.openings.plonk_zs) {`
			`pw.set_extension_target(t, x);`
			`}`
			`for (&t, &x) in pt`
			`.openings`
			`.plonk_zs_right`
			`.iter()`
			`.zip(&proof.openings.plonk_zs_right)`
			`{`
			`pw.set_extension_target(t, x);`
			`}`
			`for (&t, &x) in pt`
			`.openings`
			`.partial_products`
			`.iter()`
			`.zip(&proof.openings.partial_products)`
			`{`
			`pw.set_extension_target(t, x);`
			`}`
			`for (&t, &x) in pt`
			`.openings`
			`.quotient_polys`
			`.iter()`
			`.zip(&proof.openings.quotient_polys)`
			`{`
			`pw.set_extension_target(t, x);`
			`}`

			`let fri_proof = &proof.opening_proof.fri_proof;`
			`let fpt = &pt.opening_proof.fri_proof;`

			`pw.set_target(fpt.pow_witness, fri_proof.pow_witness);`

			`for (&t, &x) in fpt.final_poly.0.iter().zip(&fri_proof.final_poly.coeffs) {`
			`pw.set_extension_target(t, x);`
			`}`

			`for (&t, &x) in fpt`
			`.commit_phase_merkle_roots`
			`.iter()`
			`.zip(&fri_proof.commit_phase_merkle_roots)`
			`{`
			`pw.set_hash_target(t, x);`
			`}`

			`for (qt, q) in fpt`
			`.query_round_proofs`
			`.iter()`
			`.zip(&fri_proof.query_round_proofs)`
			`{`
			`for (at, a) in qt`
			`.initial_trees_proof`
			`.evals_proofs`
			`.iter()`
			`.zip(&q.initial_trees_proof.evals_proofs)`
			`{`
			`for (&t, &x) in at.0.iter().zip(&a.0) {`
			`pw.set_target(t, x);`
			`}`
			`for (&t, &x) in at.1.siblings.iter().zip(&a.1.siblings) {`
			`pw.set_hash_target(t, x);`
			`}`
			`}`

			`for (st, s) in qt.steps.iter().zip(&q.steps) {`
			`for (&t, &x) in st.evals.iter().zip(&s.evals) {`
			`pw.set_extension_target(t, x);`
			`}`
			`for (&t, &x) in st`
			`.merkle_proof`
			`.siblings`
			`.iter()`
			`.zip(&s.merkle_proof.siblings)`
			`{`
			`pw.set_hash_target(t, x);`
			`}`
			`}`
			`}`
			`}`

			`#[test]`
			`fn test_recursive_verifier() {`
			`type F = CrandallField;`
			`type FF = QuarticCrandallField;`
Finish test setup 2021-07-09 10:01:58 +02:00			`let (proof, vd, cd) = {`
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`let config = CircuitConfig::large_config();`
			`let mut builder = CircuitBuilder::<F, 4>::new(config);`
			`let zero = builder.zero();`
			`let data = builder.build();`
Finish test setup 2021-07-09 10:01:58 +02:00			`(`
			`data.prove(PartialWitness::new()),`
			`data.verifier_only,`
			`data.common,`
			`)`
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`};`

			`let config = CircuitConfig::large_config();`
Finish test setup 2021-07-09 10:01:58 +02:00			`let mut builder = CircuitBuilder::<F, 4>::new(config.clone());`
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`let mut pw = PartialWitness::new();`
			`let pt = proof_to_proof_target(&proof, &mut builder);`
			`set_proof_target(&proof, &pt, &mut pw);`
Finish test setup 2021-07-09 10:01:58 +02:00
			`let inner_data = VerifierCircuitTarget {`
			`constants_sigmas_root: builder.add_virtual_hash(),`
			`};`
			`pw.set_hash_target(inner_data.constants_sigmas_root, vd.constants_sigmas_root);`

			`let gates = cd.gates;`

			`builder.add_recursive_verifier(pt, &config, &inner_data, &gates);`

			`let data = builder.build();`
			`let recursive_proof = data.prove(PartialWitness::new());`

			`verify(recursive_proof, &data.verifier_only, &data.common).unwrap();`
Start recursive verifier test 2021-07-08 17:16:26 +02:00			`}`
Gate infra 2021-02-26 13:18:41 -08:00			`}`