mirror of
https://github.com/logos-storage/plonky2.git
synced 2026-01-03 06:13:07 +00:00
2c5f6fd62a
* Fix egregious magic number. * Remove generic consts from core permutations. * Remove redundant `where` clauses. * Remove HashConfig and friends. * Refactor Permutation code. * Remove redundant `where` clauses and `use`s. * Introduce AlgebraicPermutation to wrap `[Target; WIDTH]`s. * Remove `generic_const_expr` feature from plonky2! * Remove `generic_const_expr` feature from plonky2! * Compile time fixed! Start removing `generic_const_expr` from evm. * Remove redundant `where` clauses from Starky. * Remove `generic_const_expr`s from benchmarks. * Remove redundant HASH_SIZE `where` clause. * Clippy. * Fix unrelated OsRng issue in `bench_recursion`. * Fix function doc.
711 lines
24 KiB
Rust
711 lines
24 KiB
Rust
use std::fmt::Debug;
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use anyhow::{ensure, Result};
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use plonky2::field::extension::Extendable;
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use plonky2::field::types::Field;
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use plonky2::fri::witness_util::set_fri_proof_target;
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use plonky2::gates::exponentiation::ExponentiationGate;
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use plonky2::gates::gate::GateRef;
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use plonky2::gates::noop::NoopGate;
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use plonky2::hash::hash_types::RichField;
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use plonky2::hash::hashing::PlonkyPermutation;
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use plonky2::iop::challenger::{Challenger, RecursiveChallenger};
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use plonky2::iop::ext_target::ExtensionTarget;
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use plonky2::iop::target::Target;
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use plonky2::iop::witness::{PartialWitness, Witness, WitnessWrite};
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use plonky2::plonk::circuit_builder::CircuitBuilder;
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use plonky2::plonk::circuit_data::{CircuitConfig, CircuitData, VerifierCircuitData};
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use plonky2::plonk::config::{AlgebraicHasher, GenericConfig, Hasher};
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use plonky2::plonk::proof::{ProofWithPublicInputs, ProofWithPublicInputsTarget};
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use plonky2::util::reducing::ReducingFactorTarget;
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use plonky2::util::serialization::{
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Buffer, GateSerializer, IoResult, Read, WitnessGeneratorSerializer, Write,
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};
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use plonky2::with_context;
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use plonky2_util::log2_ceil;
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use crate::all_stark::{Table, NUM_TABLES};
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use crate::config::StarkConfig;
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use crate::constraint_consumer::RecursiveConstraintConsumer;
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use crate::cross_table_lookup::{verify_cross_table_lookups, CrossTableLookup, CtlCheckVarsTarget};
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use crate::permutation::{
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get_grand_product_challenge_set, GrandProductChallenge, GrandProductChallengeSet,
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PermutationCheckDataTarget,
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};
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use crate::proof::{
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BlockMetadata, BlockMetadataTarget, PublicValues, PublicValuesTarget, StarkOpeningSetTarget,
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StarkProof, StarkProofChallengesTarget, StarkProofTarget, StarkProofWithMetadata, TrieRoots,
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TrieRootsTarget,
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};
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use crate::stark::Stark;
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use crate::util::{h160_limbs, h256_limbs};
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use crate::vanishing_poly::eval_vanishing_poly_circuit;
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use crate::vars::StarkEvaluationTargets;
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/// Table-wise recursive proofs of an `AllProof`.
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pub struct RecursiveAllProof<
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F: RichField + Extendable<D>,
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C: GenericConfig<D, F = F>,
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const D: usize,
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> {
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pub recursive_proofs: [ProofWithPublicInputs<F, C, D>; NUM_TABLES],
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}
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pub(crate) struct PublicInputs<T: Copy + Default + Eq + PartialEq + Debug, P: PlonkyPermutation<T>>
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{
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pub(crate) trace_cap: Vec<Vec<T>>,
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pub(crate) ctl_zs_last: Vec<T>,
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pub(crate) ctl_challenges: GrandProductChallengeSet<T>,
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pub(crate) challenger_state_before: P,
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pub(crate) challenger_state_after: P,
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}
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impl<T: Copy + Debug + Default + Eq + PartialEq, P: PlonkyPermutation<T>> PublicInputs<T, P> {
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pub(crate) fn from_vec(v: &[T], config: &StarkConfig) -> Self {
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// TODO: Document magic number 4; probably comes from
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// Ethereum 256 bits = 4 * Goldilocks 64 bits
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let nelts = config.fri_config.num_cap_elements();
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let mut trace_cap = Vec::with_capacity(nelts);
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for i in 0..nelts {
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trace_cap.push(v[4 * i..4 * (i + 1)].to_vec());
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}
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let mut iter = v.iter().copied().skip(4 * nelts);
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let ctl_challenges = GrandProductChallengeSet {
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challenges: (0..config.num_challenges)
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.map(|_| GrandProductChallenge {
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beta: iter.next().unwrap(),
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gamma: iter.next().unwrap(),
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})
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.collect(),
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};
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let challenger_state_before = P::new(&mut iter);
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let challenger_state_after = P::new(&mut iter);
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let ctl_zs_last: Vec<_> = iter.collect();
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Self {
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trace_cap,
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ctl_zs_last,
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ctl_challenges,
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challenger_state_before,
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challenger_state_after,
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}
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}
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}
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impl<F: RichField + Extendable<D>, C: GenericConfig<D, F = F>, const D: usize>
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RecursiveAllProof<F, C, D>
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{
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/// Verify every recursive proof.
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pub fn verify(
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self,
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verifier_data: &[VerifierCircuitData<F, C, D>; NUM_TABLES],
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cross_table_lookups: Vec<CrossTableLookup<F>>,
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inner_config: &StarkConfig,
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) -> Result<()> {
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let pis: [_; NUM_TABLES] = core::array::from_fn(|i| {
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PublicInputs::<F, <C::Hasher as Hasher<F>>::Permutation>::from_vec(
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&self.recursive_proofs[i].public_inputs,
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inner_config,
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)
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});
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let mut challenger = Challenger::<F, C::Hasher>::new();
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for pi in &pis {
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for h in &pi.trace_cap {
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challenger.observe_elements(h);
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}
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}
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let ctl_challenges =
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get_grand_product_challenge_set(&mut challenger, inner_config.num_challenges);
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// Check that the correct CTL challenges are used in every proof.
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for pi in &pis {
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ensure!(ctl_challenges == pi.ctl_challenges);
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}
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let state = challenger.compact();
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ensure!(state == pis[0].challenger_state_before);
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// Check that the challenger state is consistent between proofs.
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for i in 1..NUM_TABLES {
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ensure!(pis[i].challenger_state_before == pis[i - 1].challenger_state_after);
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}
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// Verify the CTL checks.
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verify_cross_table_lookups::<F, D>(
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&cross_table_lookups,
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pis.map(|p| p.ctl_zs_last),
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inner_config,
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)?;
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// Verify the proofs.
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for (proof, verifier_data) in self.recursive_proofs.into_iter().zip(verifier_data) {
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verifier_data.verify(proof)?;
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}
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Ok(())
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}
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}
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/// Represents a circuit which recursively verifies a STARK proof.
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#[derive(Eq, PartialEq, Debug)]
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pub(crate) struct StarkWrapperCircuit<F, C, const D: usize>
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where
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F: RichField + Extendable<D>,
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C: GenericConfig<D, F = F>,
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C::Hasher: AlgebraicHasher<F>,
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{
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pub(crate) circuit: CircuitData<F, C, D>,
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pub(crate) stark_proof_target: StarkProofTarget<D>,
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pub(crate) ctl_challenges_target: GrandProductChallengeSet<Target>,
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pub(crate) init_challenger_state_target:
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<C::Hasher as AlgebraicHasher<F>>::AlgebraicPermutation,
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pub(crate) zero_target: Target,
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}
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impl<F, C, const D: usize> StarkWrapperCircuit<F, C, D>
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where
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F: RichField + Extendable<D>,
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C: GenericConfig<D, F = F>,
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C::Hasher: AlgebraicHasher<F>,
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{
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pub fn to_buffer(
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&self,
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buffer: &mut Vec<u8>,
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gate_serializer: &dyn GateSerializer<F, D>,
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generator_serializer: &dyn WitnessGeneratorSerializer<F, D>,
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) -> IoResult<()> {
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buffer.write_circuit_data(&self.circuit, gate_serializer, generator_serializer)?;
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buffer.write_target_vec(self.init_challenger_state_target.as_ref())?;
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buffer.write_target(self.zero_target)?;
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self.stark_proof_target.to_buffer(buffer)?;
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self.ctl_challenges_target.to_buffer(buffer)?;
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Ok(())
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}
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pub fn from_buffer(
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buffer: &mut Buffer,
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gate_serializer: &dyn GateSerializer<F, D>,
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generator_serializer: &dyn WitnessGeneratorSerializer<F, D>,
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) -> IoResult<Self> {
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let circuit = buffer.read_circuit_data(gate_serializer, generator_serializer)?;
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let target_vec = buffer.read_target_vec()?;
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let init_challenger_state_target =
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<C::Hasher as AlgebraicHasher<F>>::AlgebraicPermutation::new(target_vec.into_iter());
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let zero_target = buffer.read_target()?;
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let stark_proof_target = StarkProofTarget::from_buffer(buffer)?;
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let ctl_challenges_target = GrandProductChallengeSet::from_buffer(buffer)?;
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Ok(Self {
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circuit,
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stark_proof_target,
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ctl_challenges_target,
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init_challenger_state_target,
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zero_target,
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})
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}
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pub(crate) fn prove(
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&self,
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proof_with_metadata: &StarkProofWithMetadata<F, C, D>,
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ctl_challenges: &GrandProductChallengeSet<F>,
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) -> Result<ProofWithPublicInputs<F, C, D>> {
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let mut inputs = PartialWitness::new();
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set_stark_proof_target(
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&mut inputs,
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&self.stark_proof_target,
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&proof_with_metadata.proof,
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self.zero_target,
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);
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for (challenge_target, challenge) in self
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.ctl_challenges_target
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.challenges
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.iter()
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.zip(&ctl_challenges.challenges)
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{
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inputs.set_target(challenge_target.beta, challenge.beta);
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inputs.set_target(challenge_target.gamma, challenge.gamma);
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}
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inputs.set_target_arr(
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self.init_challenger_state_target.as_ref(),
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proof_with_metadata.init_challenger_state.as_ref(),
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);
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self.circuit.prove(inputs)
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}
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}
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/// Represents a circuit which recursively verifies a PLONK proof.
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#[derive(Eq, PartialEq, Debug)]
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pub(crate) struct PlonkWrapperCircuit<F, C, const D: usize>
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where
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F: RichField + Extendable<D>,
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C: GenericConfig<D, F = F>,
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{
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pub(crate) circuit: CircuitData<F, C, D>,
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pub(crate) proof_with_pis_target: ProofWithPublicInputsTarget<D>,
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}
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impl<F, C, const D: usize> PlonkWrapperCircuit<F, C, D>
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where
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F: RichField + Extendable<D>,
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C: GenericConfig<D, F = F>,
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C::Hasher: AlgebraicHasher<F>,
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{
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pub(crate) fn prove(
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&self,
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proof: &ProofWithPublicInputs<F, C, D>,
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) -> Result<ProofWithPublicInputs<F, C, D>> {
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let mut inputs = PartialWitness::new();
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inputs.set_proof_with_pis_target(&self.proof_with_pis_target, proof);
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self.circuit.prove(inputs)
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}
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}
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/// Returns the recursive Stark circuit.
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pub(crate) fn recursive_stark_circuit<
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F: RichField + Extendable<D>,
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C: GenericConfig<D, F = F>,
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S: Stark<F, D>,
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const D: usize,
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>(
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table: Table,
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stark: &S,
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degree_bits: usize,
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cross_table_lookups: &[CrossTableLookup<F>],
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inner_config: &StarkConfig,
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circuit_config: &CircuitConfig,
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min_degree_bits: usize,
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) -> StarkWrapperCircuit<F, C, D>
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where
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[(); S::COLUMNS]:,
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C::Hasher: AlgebraicHasher<F>,
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{
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let mut builder = CircuitBuilder::<F, D>::new(circuit_config.clone());
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let zero_target = builder.zero();
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let num_permutation_zs = stark.num_permutation_batches(inner_config);
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let num_permutation_batch_size = stark.permutation_batch_size();
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let num_ctl_zs =
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CrossTableLookup::num_ctl_zs(cross_table_lookups, table, inner_config.num_challenges);
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let proof_target =
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add_virtual_stark_proof(&mut builder, stark, inner_config, degree_bits, num_ctl_zs);
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builder.register_public_inputs(
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&proof_target
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.trace_cap
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.0
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.iter()
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.flat_map(|h| h.elements)
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.collect::<Vec<_>>(),
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);
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let ctl_challenges_target = GrandProductChallengeSet {
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challenges: (0..inner_config.num_challenges)
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.map(|_| GrandProductChallenge {
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beta: builder.add_virtual_public_input(),
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gamma: builder.add_virtual_public_input(),
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})
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.collect(),
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};
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let ctl_vars = CtlCheckVarsTarget::from_proof(
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table,
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&proof_target,
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cross_table_lookups,
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&ctl_challenges_target,
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num_permutation_zs,
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);
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let init_challenger_state_target =
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<C::Hasher as AlgebraicHasher<F>>::AlgebraicPermutation::new(std::iter::from_fn(|| {
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Some(builder.add_virtual_public_input())
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}));
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let mut challenger =
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RecursiveChallenger::<F, C::Hasher, D>::from_state(init_challenger_state_target);
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let challenges = proof_target.get_challenges::<F, C>(
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&mut builder,
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&mut challenger,
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num_permutation_zs > 0,
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num_permutation_batch_size,
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inner_config,
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);
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let challenger_state = challenger.compact(&mut builder);
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builder.register_public_inputs(challenger_state.as_ref());
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builder.register_public_inputs(&proof_target.openings.ctl_zs_last);
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verify_stark_proof_with_challenges_circuit::<F, C, _, D>(
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&mut builder,
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stark,
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&proof_target,
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&challenges,
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&ctl_vars,
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inner_config,
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);
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add_common_recursion_gates(&mut builder);
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// Pad to the minimum degree.
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while log2_ceil(builder.num_gates()) < min_degree_bits {
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builder.add_gate(NoopGate, vec![]);
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}
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let circuit = builder.build::<C>();
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StarkWrapperCircuit {
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circuit,
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stark_proof_target: proof_target,
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ctl_challenges_target,
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init_challenger_state_target,
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zero_target,
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}
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}
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/// Add gates that are sometimes used by recursive circuits, even if it's not actually used by this
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/// particular recursive circuit. This is done for uniformity. We sometimes want all recursion
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/// circuits to have the same gate set, so that we can do 1-of-n conditional recursion efficiently.
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pub(crate) fn add_common_recursion_gates<F: RichField + Extendable<D>, const D: usize>(
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builder: &mut CircuitBuilder<F, D>,
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) {
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builder.add_gate_to_gate_set(GateRef::new(ExponentiationGate::new_from_config(
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&builder.config,
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)));
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}
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/// Recursively verifies an inner proof.
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fn verify_stark_proof_with_challenges_circuit<
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F: RichField + Extendable<D>,
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C: GenericConfig<D, F = F>,
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S: Stark<F, D>,
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const D: usize,
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>(
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builder: &mut CircuitBuilder<F, D>,
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stark: &S,
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proof: &StarkProofTarget<D>,
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challenges: &StarkProofChallengesTarget<D>,
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ctl_vars: &[CtlCheckVarsTarget<F, D>],
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inner_config: &StarkConfig,
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) where
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C::Hasher: AlgebraicHasher<F>,
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[(); S::COLUMNS]:,
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{
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let zero = builder.zero();
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let one = builder.one_extension();
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let StarkOpeningSetTarget {
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local_values,
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next_values,
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permutation_ctl_zs,
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permutation_ctl_zs_next,
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ctl_zs_last,
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quotient_polys,
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} = &proof.openings;
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let vars = StarkEvaluationTargets {
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local_values: &local_values.to_vec().try_into().unwrap(),
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next_values: &next_values.to_vec().try_into().unwrap(),
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};
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let degree_bits = proof.recover_degree_bits(inner_config);
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let zeta_pow_deg = builder.exp_power_of_2_extension(challenges.stark_zeta, degree_bits);
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let z_h_zeta = builder.sub_extension(zeta_pow_deg, one);
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let (l_0, l_last) =
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eval_l_0_and_l_last_circuit(builder, degree_bits, challenges.stark_zeta, z_h_zeta);
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let last =
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builder.constant_extension(F::Extension::primitive_root_of_unity(degree_bits).inverse());
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let z_last = builder.sub_extension(challenges.stark_zeta, last);
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let mut consumer = RecursiveConstraintConsumer::<F, D>::new(
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builder.zero_extension(),
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challenges.stark_alphas.clone(),
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z_last,
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l_0,
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l_last,
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);
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let num_permutation_zs = stark.num_permutation_batches(inner_config);
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let permutation_data = stark
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.uses_permutation_args()
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.then(|| PermutationCheckDataTarget {
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local_zs: permutation_ctl_zs[..num_permutation_zs].to_vec(),
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next_zs: permutation_ctl_zs_next[..num_permutation_zs].to_vec(),
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permutation_challenge_sets: challenges.permutation_challenge_sets.clone().unwrap(),
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});
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with_context!(
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builder,
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"evaluate vanishing polynomial",
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eval_vanishing_poly_circuit::<F, S, D>(
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builder,
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stark,
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inner_config,
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vars,
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permutation_data,
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ctl_vars,
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&mut consumer,
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)
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);
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let vanishing_polys_zeta = consumer.accumulators();
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// Check each polynomial identity, of the form `vanishing(x) = Z_H(x) quotient(x)`, at zeta.
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let mut scale = ReducingFactorTarget::new(zeta_pow_deg);
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for (i, chunk) in quotient_polys
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.chunks(stark.quotient_degree_factor())
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.enumerate()
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{
|
|
let recombined_quotient = scale.reduce(chunk, builder);
|
|
let computed_vanishing_poly = builder.mul_extension(z_h_zeta, recombined_quotient);
|
|
builder.connect_extension(vanishing_polys_zeta[i], computed_vanishing_poly);
|
|
}
|
|
|
|
let merkle_caps = vec![
|
|
proof.trace_cap.clone(),
|
|
proof.permutation_ctl_zs_cap.clone(),
|
|
proof.quotient_polys_cap.clone(),
|
|
];
|
|
|
|
let fri_instance = stark.fri_instance_target(
|
|
builder,
|
|
challenges.stark_zeta,
|
|
F::primitive_root_of_unity(degree_bits),
|
|
degree_bits,
|
|
ctl_zs_last.len(),
|
|
inner_config,
|
|
);
|
|
builder.verify_fri_proof::<C>(
|
|
&fri_instance,
|
|
&proof.openings.to_fri_openings(zero),
|
|
&challenges.fri_challenges,
|
|
&merkle_caps,
|
|
&proof.opening_proof,
|
|
&inner_config.fri_params(degree_bits),
|
|
);
|
|
}
|
|
|
|
fn eval_l_0_and_l_last_circuit<F: RichField + Extendable<D>, const D: usize>(
|
|
builder: &mut CircuitBuilder<F, D>,
|
|
log_n: usize,
|
|
x: ExtensionTarget<D>,
|
|
z_x: ExtensionTarget<D>,
|
|
) -> (ExtensionTarget<D>, ExtensionTarget<D>) {
|
|
let n = builder.constant_extension(F::Extension::from_canonical_usize(1 << log_n));
|
|
let g = builder.constant_extension(F::Extension::primitive_root_of_unity(log_n));
|
|
let one = builder.one_extension();
|
|
let l_0_deno = builder.mul_sub_extension(n, x, n);
|
|
let l_last_deno = builder.mul_sub_extension(g, x, one);
|
|
let l_last_deno = builder.mul_extension(n, l_last_deno);
|
|
|
|
(
|
|
builder.div_extension(z_x, l_0_deno),
|
|
builder.div_extension(z_x, l_last_deno),
|
|
)
|
|
}
|
|
|
|
#[allow(unused)] // TODO: used later?
|
|
pub(crate) fn add_virtual_public_values<F: RichField + Extendable<D>, const D: usize>(
|
|
builder: &mut CircuitBuilder<F, D>,
|
|
) -> PublicValuesTarget {
|
|
let trie_roots_before = add_virtual_trie_roots(builder);
|
|
let trie_roots_after = add_virtual_trie_roots(builder);
|
|
let block_metadata = add_virtual_block_metadata(builder);
|
|
PublicValuesTarget {
|
|
trie_roots_before,
|
|
trie_roots_after,
|
|
block_metadata,
|
|
}
|
|
}
|
|
|
|
pub(crate) fn add_virtual_trie_roots<F: RichField + Extendable<D>, const D: usize>(
|
|
builder: &mut CircuitBuilder<F, D>,
|
|
) -> TrieRootsTarget {
|
|
let state_root = builder.add_virtual_target_arr();
|
|
let transactions_root = builder.add_virtual_target_arr();
|
|
let receipts_root = builder.add_virtual_target_arr();
|
|
TrieRootsTarget {
|
|
state_root,
|
|
transactions_root,
|
|
receipts_root,
|
|
}
|
|
}
|
|
|
|
pub(crate) fn add_virtual_block_metadata<F: RichField + Extendable<D>, const D: usize>(
|
|
builder: &mut CircuitBuilder<F, D>,
|
|
) -> BlockMetadataTarget {
|
|
let block_beneficiary = builder.add_virtual_target_arr();
|
|
let block_timestamp = builder.add_virtual_target();
|
|
let block_number = builder.add_virtual_target();
|
|
let block_difficulty = builder.add_virtual_target();
|
|
let block_gaslimit = builder.add_virtual_target();
|
|
let block_chain_id = builder.add_virtual_target();
|
|
let block_base_fee = builder.add_virtual_target();
|
|
BlockMetadataTarget {
|
|
block_beneficiary,
|
|
block_timestamp,
|
|
block_number,
|
|
block_difficulty,
|
|
block_gaslimit,
|
|
block_chain_id,
|
|
block_base_fee,
|
|
}
|
|
}
|
|
|
|
pub(crate) fn add_virtual_stark_proof<
|
|
F: RichField + Extendable<D>,
|
|
S: Stark<F, D>,
|
|
const D: usize,
|
|
>(
|
|
builder: &mut CircuitBuilder<F, D>,
|
|
stark: &S,
|
|
config: &StarkConfig,
|
|
degree_bits: usize,
|
|
num_ctl_zs: usize,
|
|
) -> StarkProofTarget<D> {
|
|
let fri_params = config.fri_params(degree_bits);
|
|
let cap_height = fri_params.config.cap_height;
|
|
|
|
let num_leaves_per_oracle = vec![
|
|
S::COLUMNS,
|
|
stark.num_permutation_batches(config) + num_ctl_zs,
|
|
stark.quotient_degree_factor() * config.num_challenges,
|
|
];
|
|
|
|
let permutation_zs_cap = builder.add_virtual_cap(cap_height);
|
|
|
|
StarkProofTarget {
|
|
trace_cap: builder.add_virtual_cap(cap_height),
|
|
permutation_ctl_zs_cap: permutation_zs_cap,
|
|
quotient_polys_cap: builder.add_virtual_cap(cap_height),
|
|
openings: add_virtual_stark_opening_set::<F, S, D>(builder, stark, num_ctl_zs, config),
|
|
opening_proof: builder.add_virtual_fri_proof(&num_leaves_per_oracle, &fri_params),
|
|
}
|
|
}
|
|
|
|
fn add_virtual_stark_opening_set<F: RichField + Extendable<D>, S: Stark<F, D>, const D: usize>(
|
|
builder: &mut CircuitBuilder<F, D>,
|
|
stark: &S,
|
|
num_ctl_zs: usize,
|
|
config: &StarkConfig,
|
|
) -> StarkOpeningSetTarget<D> {
|
|
let num_challenges = config.num_challenges;
|
|
StarkOpeningSetTarget {
|
|
local_values: builder.add_virtual_extension_targets(S::COLUMNS),
|
|
next_values: builder.add_virtual_extension_targets(S::COLUMNS),
|
|
permutation_ctl_zs: builder
|
|
.add_virtual_extension_targets(stark.num_permutation_batches(config) + num_ctl_zs),
|
|
permutation_ctl_zs_next: builder
|
|
.add_virtual_extension_targets(stark.num_permutation_batches(config) + num_ctl_zs),
|
|
ctl_zs_last: builder.add_virtual_targets(num_ctl_zs),
|
|
quotient_polys: builder
|
|
.add_virtual_extension_targets(stark.quotient_degree_factor() * num_challenges),
|
|
}
|
|
}
|
|
|
|
pub(crate) fn set_stark_proof_target<F, C: GenericConfig<D, F = F>, W, const D: usize>(
|
|
witness: &mut W,
|
|
proof_target: &StarkProofTarget<D>,
|
|
proof: &StarkProof<F, C, D>,
|
|
zero: Target,
|
|
) where
|
|
F: RichField + Extendable<D>,
|
|
C::Hasher: AlgebraicHasher<F>,
|
|
W: Witness<F>,
|
|
{
|
|
witness.set_cap_target(&proof_target.trace_cap, &proof.trace_cap);
|
|
witness.set_cap_target(&proof_target.quotient_polys_cap, &proof.quotient_polys_cap);
|
|
|
|
witness.set_fri_openings(
|
|
&proof_target.openings.to_fri_openings(zero),
|
|
&proof.openings.to_fri_openings(),
|
|
);
|
|
|
|
witness.set_cap_target(
|
|
&proof_target.permutation_ctl_zs_cap,
|
|
&proof.permutation_ctl_zs_cap,
|
|
);
|
|
|
|
set_fri_proof_target(witness, &proof_target.opening_proof, &proof.opening_proof);
|
|
}
|
|
|
|
#[allow(unused)] // TODO: used later?
|
|
pub(crate) fn set_public_value_targets<F, W, const D: usize>(
|
|
witness: &mut W,
|
|
public_values_target: &PublicValuesTarget,
|
|
public_values: &PublicValues,
|
|
) where
|
|
F: RichField + Extendable<D>,
|
|
W: Witness<F>,
|
|
{
|
|
set_trie_roots_target(
|
|
witness,
|
|
&public_values_target.trie_roots_before,
|
|
&public_values.trie_roots_before,
|
|
);
|
|
set_trie_roots_target(
|
|
witness,
|
|
&public_values_target.trie_roots_after,
|
|
&public_values.trie_roots_after,
|
|
);
|
|
set_block_metadata_target(
|
|
witness,
|
|
&public_values_target.block_metadata,
|
|
&public_values.block_metadata,
|
|
);
|
|
}
|
|
|
|
pub(crate) fn set_trie_roots_target<F, W, const D: usize>(
|
|
witness: &mut W,
|
|
trie_roots_target: &TrieRootsTarget,
|
|
trie_roots: &TrieRoots,
|
|
) where
|
|
F: RichField + Extendable<D>,
|
|
W: Witness<F>,
|
|
{
|
|
witness.set_target_arr(
|
|
&trie_roots_target.state_root,
|
|
&h256_limbs(trie_roots.state_root),
|
|
);
|
|
witness.set_target_arr(
|
|
&trie_roots_target.transactions_root,
|
|
&h256_limbs(trie_roots.transactions_root),
|
|
);
|
|
witness.set_target_arr(
|
|
&trie_roots_target.receipts_root,
|
|
&h256_limbs(trie_roots.receipts_root),
|
|
);
|
|
}
|
|
|
|
pub(crate) fn set_block_metadata_target<F, W, const D: usize>(
|
|
witness: &mut W,
|
|
block_metadata_target: &BlockMetadataTarget,
|
|
block_metadata: &BlockMetadata,
|
|
) where
|
|
F: RichField + Extendable<D>,
|
|
W: Witness<F>,
|
|
{
|
|
witness.set_target_arr(
|
|
&block_metadata_target.block_beneficiary,
|
|
&h160_limbs(block_metadata.block_beneficiary),
|
|
);
|
|
witness.set_target(
|
|
block_metadata_target.block_timestamp,
|
|
F::from_canonical_u64(block_metadata.block_timestamp.as_u64()),
|
|
);
|
|
witness.set_target(
|
|
block_metadata_target.block_number,
|
|
F::from_canonical_u64(block_metadata.block_number.as_u64()),
|
|
);
|
|
witness.set_target(
|
|
block_metadata_target.block_difficulty,
|
|
F::from_canonical_u64(block_metadata.block_difficulty.as_u64()),
|
|
);
|
|
witness.set_target(
|
|
block_metadata_target.block_gaslimit,
|
|
F::from_canonical_u64(block_metadata.block_gaslimit.as_u64()),
|
|
);
|
|
witness.set_target(
|
|
block_metadata_target.block_chain_id,
|
|
F::from_canonical_u64(block_metadata.block_chain_id.as_u64()),
|
|
);
|
|
witness.set_target(
|
|
block_metadata_target.block_base_fee,
|
|
F::from_canonical_u64(block_metadata.block_base_fee.as_u64()),
|
|
);
|
|
}
|