plonky2/src/plonk/get_challenges.rs

use std::collections::HashSet;

use crate::field::extension_field::Extendable;
use crate::field::field_types::RichField;
use crate::fri::proof::{CompressedFriProof, FriProof};
use crate::fri::verifier::{compute_evaluation, fri_combine_initial, PrecomputedReducedEvals};
use crate::hash::hash_types::HashOut;
use crate::hash::hashing::hash_n_to_1;
use crate::hash::merkle_tree::MerkleCap;
use crate::iop::challenger::Challenger;
use crate::plonk::circuit_data::CommonCircuitData;
use crate::plonk::proof::{
    CompressedProof, CompressedProofWithPublicInputs, FriInferredElements, OpeningSet, Proof,
    ProofChallenges, ProofWithPublicInputs,
};
use crate::polynomial::polynomial::PolynomialCoeffs;
use crate::util::reverse_bits;

fn get_challenges<F: RichField + Extendable<D>, const D: usize>(
    public_inputs_hash: HashOut<F>,
    wires_cap: &MerkleCap<F>,
    plonk_zs_partial_products_cap: &MerkleCap<F>,
    quotient_polys_cap: &MerkleCap<F>,
    openings: &OpeningSet<F, D>,
    commit_phase_merkle_caps: &[MerkleCap<F>],
    final_poly: &PolynomialCoeffs<F::Extension>,
    pow_witness: F,
    common_data: &CommonCircuitData<F, D>,
) -> anyhow::Result<ProofChallenges<F, D>> {
    let config = &common_data.config;
    let num_challenges = config.num_challenges;
    let num_fri_queries = config.fri_config.num_query_rounds;
    let lde_size = common_data.lde_size();

    let mut challenger = Challenger::new();

    // Observe the instance.
    challenger.observe_hash(&common_data.circuit_digest);
    challenger.observe_hash(&public_inputs_hash);

    challenger.observe_cap(wires_cap);
    let plonk_betas = challenger.get_n_challenges(num_challenges);
    let plonk_gammas = challenger.get_n_challenges(num_challenges);

    challenger.observe_cap(plonk_zs_partial_products_cap);
    let plonk_alphas = challenger.get_n_challenges(num_challenges);

    challenger.observe_cap(quotient_polys_cap);
    let plonk_zeta = challenger.get_extension_challenge();

    challenger.observe_opening_set(openings);

    // Scaling factor to combine polynomials.
    let fri_alpha = challenger.get_extension_challenge();

    // Recover the random betas used in the FRI reductions.
    let fri_betas = commit_phase_merkle_caps
        .iter()
        .map(|cap| {
            challenger.observe_cap(cap);
            challenger.get_extension_challenge()
        })
        .collect();

    challenger.observe_extension_elements(&final_poly.coeffs);

    let fri_pow_response = hash_n_to_1(
        challenger
            .get_hash()
            .elements
            .iter()
            .copied()
            .chain(Some(pow_witness))
            .collect(),
        false,
    );

    let fri_query_indices = (0..num_fri_queries)
        .map(|_| challenger.get_challenge().to_canonical_u64() as usize % lde_size)
        .collect();

    Ok(ProofChallenges {
        plonk_betas,
        plonk_gammas,
        plonk_alphas,
        plonk_zeta,
        fri_alpha,
        fri_betas,
        fri_pow_response,
        fri_query_indices,
    })
}

impl<F: RichField + Extendable<D>, const D: usize> ProofWithPublicInputs<F, D> {
    pub(crate) fn fri_query_indices(
        &self,
        common_data: &CommonCircuitData<F, D>,
    ) -> anyhow::Result<Vec<usize>> {
        Ok(self.get_challenges(common_data)?.fri_query_indices)
    }

    /// Computes all Fiat-Shamir challenges used in the Plonk proof.
    pub(crate) fn get_challenges(
        &self,
        common_data: &CommonCircuitData<F, D>,
    ) -> anyhow::Result<ProofChallenges<F, D>> {
        let Proof {
            wires_cap,
            plonk_zs_partial_products_cap,
            quotient_polys_cap,
            openings,
            opening_proof:
                FriProof {
                    commit_phase_merkle_caps,
                    final_poly,
                    pow_witness,
                    ..
                },
        } = &self.proof;

        get_challenges(
            self.get_public_inputs_hash(),
            wires_cap,
            plonk_zs_partial_products_cap,
            quotient_polys_cap,
            openings,
            commit_phase_merkle_caps,
            final_poly,
            *pow_witness,
            common_data,
        )
    }
}

impl<F: RichField + Extendable<D>, const D: usize> CompressedProofWithPublicInputs<F, D> {
    /// Computes all Fiat-Shamir challenges used in the Plonk proof.
    pub(crate) fn get_challenges(
        &self,
        common_data: &CommonCircuitData<F, D>,
    ) -> anyhow::Result<ProofChallenges<F, D>> {
        let CompressedProof {
            wires_cap,
            plonk_zs_partial_products_cap,
            quotient_polys_cap,
            openings,
            opening_proof:
                CompressedFriProof {
                    commit_phase_merkle_caps,
                    final_poly,
                    pow_witness,
                    ..
                },
        } = &self.proof;

        get_challenges(
            self.get_public_inputs_hash(),
            wires_cap,
            plonk_zs_partial_products_cap,
            quotient_polys_cap,
            openings,
            commit_phase_merkle_caps,
            final_poly,
            *pow_witness,
            common_data,
        )
    }

    /// Computes all coset elements that can be inferred in the FRI reduction steps.
    pub(crate) fn get_inferred_elements(
        &self,
        challenges: &ProofChallenges<F, D>,
        common_data: &CommonCircuitData<F, D>,
    ) -> FriInferredElements<F, D> {
        let ProofChallenges {
            plonk_zeta,
            fri_alpha,
            fri_betas,
            fri_query_indices,
            ..
        } = challenges;
        let mut fri_inferred_elements = Vec::new();
        // Holds the indices that have already been seen at each reduction depth.
        let mut seen_indices_by_depth =
            vec![HashSet::new(); common_data.fri_params.reduction_arity_bits.len()];
        let precomputed_reduced_evals =
            PrecomputedReducedEvals::from_os_and_alpha(&self.proof.openings, *fri_alpha);
        let log_n = common_data.degree_bits + common_data.config.rate_bits;
        // Simulate the proof verification and collect the inferred elements.
        // The content of the loop is basically the same as the `fri_verifier_query_round` function.
        for &(mut x_index) in fri_query_indices {
            let mut subgroup_x = F::MULTIPLICATIVE_GROUP_GENERATOR
                * F::primitive_root_of_unity(log_n).exp_u64(reverse_bits(x_index, log_n) as u64);
            let mut old_eval = fri_combine_initial(
                &self
                    .proof
                    .opening_proof
                    .query_round_proofs
                    .initial_trees_proofs[&x_index],
                *fri_alpha,
                *plonk_zeta,
                subgroup_x,
                precomputed_reduced_evals,
                common_data,
            );
            for (i, &arity_bits) in common_data
                .fri_params
                .reduction_arity_bits
                .iter()
                .enumerate()
            {
                let coset_index = x_index >> arity_bits;
                if !seen_indices_by_depth[i].insert(coset_index) {
                    // If this index has already been seen, we can skip the rest of the reductions.
                    break;
                }
                fri_inferred_elements.push(old_eval);
                let arity = 1 << arity_bits;
                let mut evals = self.proof.opening_proof.query_round_proofs.steps[i][&coset_index]
                    .evals
                    .clone();
                let x_index_within_coset = x_index & (arity - 1);
                evals.insert(x_index_within_coset, old_eval);
                old_eval = compute_evaluation(
                    subgroup_x,
                    x_index_within_coset,
                    arity_bits,
                    &evals,
                    fri_betas[i],
                );
                subgroup_x = subgroup_x.exp_power_of_2(arity_bits);
                x_index = coset_index;
            }
        }
        FriInferredElements(fri_inferred_elements)
    }
}
Working 2021-10-11 16:40:31 +02:00			`use std::collections::HashSet;`

Derive challenges from other proof fields (#262) * Derive challenges from other proof fields * Delete failing test Seems really hard to get the challenges right with the new model. * Move PoW check * Other feedback 2021-09-25 19:41:48 -07:00			`use crate::field::extension_field::Extendable;`
Clippy 2021-10-11 16:51:30 +02:00			`use crate::field::field_types::RichField;`
Clean `get_challenges` 2021-10-13 15:39:12 +02:00			`use crate::fri::proof::{CompressedFriProof, FriProof};`
Working 2021-10-11 16:40:31 +02:00			`use crate::fri::verifier::{compute_evaluation, fri_combine_initial, PrecomputedReducedEvals};`
Clean `get_challenges` 2021-10-13 15:39:12 +02:00			`use crate::hash::hash_types::HashOut;`
Derive challenges from other proof fields (#262) * Derive challenges from other proof fields * Delete failing test Seems really hard to get the challenges right with the new model. * Move PoW check * Other feedback 2021-09-25 19:41:48 -07:00			`use crate::hash::hashing::hash_n_to_1;`
Clean `get_challenges` 2021-10-13 15:39:12 +02:00			`use crate::hash::merkle_tree::MerkleCap;`
Derive challenges from other proof fields (#262) * Derive challenges from other proof fields * Delete failing test Seems really hard to get the challenges right with the new model. * Move PoW check * Other feedback 2021-09-25 19:41:48 -07:00			`use crate::iop::challenger::Challenger;`
			`use crate::plonk::circuit_data::CommonCircuitData;`
Add CompressedProof type 2021-09-30 06:56:32 +02:00			`use crate::plonk::proof::{`
Clean `get_challenges` 2021-10-13 15:39:12 +02:00			`CompressedProof, CompressedProofWithPublicInputs, FriInferredElements, OpeningSet, Proof,`
			`ProofChallenges, ProofWithPublicInputs,`
Add CompressedProof type 2021-09-30 06:56:32 +02:00			`};`
Clean `get_challenges` 2021-10-13 15:39:12 +02:00			`use crate::polynomial::polynomial::PolynomialCoeffs;`
First pass 2021-10-06 15:50:56 +02:00			`use crate::util::reverse_bits;`
Derive challenges from other proof fields (#262) * Derive challenges from other proof fields * Delete failing test Seems really hard to get the challenges right with the new model. * Move PoW check * Other feedback 2021-09-25 19:41:48 -07:00
Clean `get_challenges` 2021-10-13 15:39:12 +02:00			`fn get_challenges<F: RichField + Extendable<D>, const D: usize>(`
			`public_inputs_hash: HashOut<F>,`
			`wires_cap: &MerkleCap<F>,`
			`plonk_zs_partial_products_cap: &MerkleCap<F>,`
			`quotient_polys_cap: &MerkleCap<F>,`
			`openings: &OpeningSet<F, D>,`
			`commit_phase_merkle_caps: &[MerkleCap<F>],`
			`final_poly: &PolynomialCoeffs<F::Extension>,`
			`pow_witness: F,`
			`common_data: &CommonCircuitData<F, D>,`
			`) -> anyhow::Result<ProofChallenges<F, D>> {`
			`let config = &common_data.config;`
			`let num_challenges = config.num_challenges;`
			`let num_fri_queries = config.fri_config.num_query_rounds;`
			`let lde_size = common_data.lde_size();`

			`let mut challenger = Challenger::new();`

			`// Observe the instance.`
			`challenger.observe_hash(&common_data.circuit_digest);`
			`challenger.observe_hash(&public_inputs_hash);`

			`challenger.observe_cap(wires_cap);`
			`let plonk_betas = challenger.get_n_challenges(num_challenges);`
			`let plonk_gammas = challenger.get_n_challenges(num_challenges);`

			`challenger.observe_cap(plonk_zs_partial_products_cap);`
			`let plonk_alphas = challenger.get_n_challenges(num_challenges);`

			`challenger.observe_cap(quotient_polys_cap);`
			`let plonk_zeta = challenger.get_extension_challenge();`

			`challenger.observe_opening_set(openings);`

			`// Scaling factor to combine polynomials.`
			`let fri_alpha = challenger.get_extension_challenge();`

			`// Recover the random betas used in the FRI reductions.`
			`let fri_betas = commit_phase_merkle_caps`
			`.iter()`
			`.map(\|cap\| {`
			`challenger.observe_cap(cap);`
			`challenger.get_extension_challenge()`
			`})`
			`.collect();`

			`challenger.observe_extension_elements(&final_poly.coeffs);`

			`let fri_pow_response = hash_n_to_1(`
			`challenger`
			`.get_hash()`
			`.elements`
			`.iter()`
			`.copied()`
			`.chain(Some(pow_witness))`
			`.collect(),`
			`false,`
			`);`

			`let fri_query_indices = (0..num_fri_queries)`
			`.map(\|_\| challenger.get_challenge().to_canonical_u64() as usize % lde_size)`
			`.collect();`

			`Ok(ProofChallenges {`
			`plonk_betas,`
			`plonk_gammas,`
			`plonk_alphas,`
			`plonk_zeta,`
			`fri_alpha,`
			`fri_betas,`
			`fri_pow_response,`
			`fri_query_indices,`
			`})`
			`}`

Derive challenges from other proof fields (#262) * Derive challenges from other proof fields * Delete failing test Seems really hard to get the challenges right with the new model. * Move PoW check * Other feedback 2021-09-25 19:41:48 -07:00			`impl<F: RichField + Extendable<D>, const D: usize> ProofWithPublicInputs<F, D> {`
			`pub(crate) fn fri_query_indices(`
			`&self,`
			`common_data: &CommonCircuitData<F, D>,`
			`) -> anyhow::Result<Vec<usize>> {`
			`Ok(self.get_challenges(common_data)?.fri_query_indices)`
			`}`

Comments 2021-10-13 15:45:43 +02:00			`/// Computes all Fiat-Shamir challenges used in the Plonk proof.`
Derive challenges from other proof fields (#262) * Derive challenges from other proof fields * Delete failing test Seems really hard to get the challenges right with the new model. * Move PoW check * Other feedback 2021-09-25 19:41:48 -07:00			`pub(crate) fn get_challenges(`
			`&self,`
			`common_data: &CommonCircuitData<F, D>,`
			`) -> anyhow::Result<ProofChallenges<F, D>> {`
Clean `get_challenges` 2021-10-13 15:39:12 +02:00			`let Proof {`
			`wires_cap,`
			`plonk_zs_partial_products_cap,`
			`quotient_polys_cap,`
			`openings,`
			`opening_proof:`
			`FriProof {`
			`commit_phase_merkle_caps,`
			`final_poly,`
			`pow_witness,`
			`..`
			`},`
			`} = &self.proof;`

			`get_challenges(`
			`self.get_public_inputs_hash(),`
			`wires_cap,`
			`plonk_zs_partial_products_cap,`
			`quotient_polys_cap,`
			`openings,`
			`commit_phase_merkle_caps,`
			`final_poly,`
			`*pow_witness,`
			`common_data,`
			`)`
Add CompressedProof type 2021-09-30 06:56:32 +02:00			`}`
			`}`

			`impl<F: RichField + Extendable<D>, const D: usize> CompressedProofWithPublicInputs<F, D> {`
Comments 2021-10-13 15:45:43 +02:00			`/// Computes all Fiat-Shamir challenges used in the Plonk proof.`
Add CompressedProof type 2021-09-30 06:56:32 +02:00			`pub(crate) fn get_challenges(`
			`&self,`
			`common_data: &CommonCircuitData<F, D>,`
			`) -> anyhow::Result<ProofChallenges<F, D>> {`
Clean `get_challenges` 2021-10-13 15:39:12 +02:00			`let CompressedProof {`
			`wires_cap,`
			`plonk_zs_partial_products_cap,`
			`quotient_polys_cap,`
			`openings,`
			`opening_proof:`
			`CompressedFriProof {`
			`commit_phase_merkle_caps,`
			`final_poly,`
			`pow_witness,`
			`..`
			`},`
			`} = &self.proof;`

			`get_challenges(`
			`self.get_public_inputs_hash(),`
			`wires_cap,`
			`plonk_zs_partial_products_cap,`
			`quotient_polys_cap,`
			`openings,`
			`commit_phase_merkle_caps,`
			`final_poly,`
			`*pow_witness,`
			`common_data,`
			`)`
Move inferred elements to a new struct 2021-10-12 08:38:43 +02:00			`}`
Clean `get_challenges` 2021-10-13 15:39:12 +02:00
Comments 2021-10-13 15:45:43 +02:00			`/// Computes all coset elements that can be inferred in the FRI reduction steps.`
Move inferred elements to a new struct 2021-10-12 08:38:43 +02:00			`pub(crate) fn get_inferred_elements(`
			`&self,`
			`challenges: &ProofChallenges<F, D>,`
			`common_data: &CommonCircuitData<F, D>,`
			`) -> FriInferredElements<F, D> {`
			`let ProofChallenges {`
			`plonk_zeta,`
			`fri_alpha,`
			`fri_betas,`
			`fri_query_indices,`
			`..`
			`} = challenges;`
			`let mut fri_inferred_elements = Vec::new();`
Comments 2021-10-11 17:24:06 +02:00			`// Holds the indices that have already been seen at each reduction depth.`
Working 2021-10-11 16:40:31 +02:00			`let mut seen_indices_by_depth =`
			`vec![HashSet::new(); common_data.fri_params.reduction_arity_bits.len()];`
			`let precomputed_reduced_evals =`
Move inferred elements to a new struct 2021-10-12 08:38:43 +02:00			`PrecomputedReducedEvals::from_os_and_alpha(&self.proof.openings, *fri_alpha);`
First pass 2021-10-06 15:50:56 +02:00			`let log_n = common_data.degree_bits + common_data.config.rate_bits;`
Typos 2021-10-11 18:45:55 +02:00			`// Simulate the proof verification and collect the inferred elements.`
			// The content of the loop is basically the same as the `fri_verifier_query_round` function.
Move inferred elements to a new struct 2021-10-12 08:38:43 +02:00			`for &(mut x_index) in fri_query_indices {`
First pass 2021-10-06 15:50:56 +02:00			`let mut subgroup_x = F::MULTIPLICATIVE_GROUP_GENERATOR`
			`* F::primitive_root_of_unity(log_n).exp_u64(reverse_bits(x_index, log_n) as u64);`
Working 2021-10-11 16:40:31 +02:00			`let mut old_eval = fri_combine_initial(`
			`&self`
			`.proof`
			`.opening_proof`
			`.query_round_proofs`
			`.initial_trees_proofs[&x_index],`
Move inferred elements to a new struct 2021-10-12 08:38:43 +02:00			`*fri_alpha,`
			`*plonk_zeta,`
Working 2021-10-11 16:40:31 +02:00			`subgroup_x,`
			`precomputed_reduced_evals,`
			`common_data,`
			`);`
Somewhat working 2021-10-07 19:30:39 +02:00			`for (i, &arity_bits) in common_data`
			`.fri_params`
			`.reduction_arity_bits`
			`.iter()`
			`.enumerate()`
			`{`
`coset_index` in other places 2021-10-12 20:21:29 +02:00			`let coset_index = x_index >> arity_bits;`
			`if !seen_indices_by_depth[i].insert(coset_index) {`
Comments 2021-10-11 17:24:06 +02:00			`// If this index has already been seen, we can skip the rest of the reductions.`
Working 2021-10-11 16:40:31 +02:00			`break;`
			`}`
Move inferred elements to a new struct 2021-10-12 08:38:43 +02:00			`fri_inferred_elements.push(old_eval);`
First pass 2021-10-06 15:50:56 +02:00			`let arity = 1 << arity_bits;`
Add coset_index var 2021-10-12 08:40:56 +02:00			`let mut evals = self.proof.opening_proof.query_round_proofs.steps[i][&coset_index]`
Working 2021-10-11 16:40:31 +02:00			`.evals`
			`.clone();`
First pass 2021-10-06 15:50:56 +02:00			`let x_index_within_coset = x_index & (arity - 1);`
Working 2021-10-11 16:40:31 +02:00			`evals.insert(x_index_within_coset, old_eval);`
			`old_eval = compute_evaluation(`
First pass 2021-10-06 15:50:56 +02:00			`subgroup_x,`
			`x_index_within_coset,`
			`arity_bits,`
Working 2021-10-11 16:40:31 +02:00			`&evals,`
Somewhat working 2021-10-07 19:30:39 +02:00			`fri_betas[i],`
First pass 2021-10-06 15:50:56 +02:00			`);`
			`subgroup_x = subgroup_x.exp_power_of_2(arity_bits);`
`coset_index` in other places 2021-10-12 20:21:29 +02:00			`x_index = coset_index;`
First pass 2021-10-06 15:50:56 +02:00			`}`
			`}`
Move inferred elements to a new struct 2021-10-12 08:38:43 +02:00			`FriInferredElements(fri_inferred_elements)`
Derive challenges from other proof fields (#262) * Derive challenges from other proof fields * Delete failing test Seems really hard to get the challenges right with the new model. * Move PoW check * Other feedback 2021-09-25 19:41:48 -07:00			`}`
			`}`