proof-aggregation/codex-plonky2-circuits/src/recursion/uniform/node.rs

use std::marker::PhantomData;
use plonky2::hash::hash_types::RichField;
use plonky2::iop::witness::{PartialWitness, WitnessWrite};
use plonky2::plonk::circuit_builder::CircuitBuilder;
use plonky2::plonk::circuit_data::{CircuitConfig, CircuitData, CommonCircuitData, VerifierCircuitData, VerifierCircuitTarget};
use plonky2::plonk::config::{AlgebraicHasher, GenericConfig};
use plonky2::plonk::proof::{ProofWithPublicInputs, ProofWithPublicInputsTarget};
use plonky2_field::extension::Extendable;
use plonky2_poseidon2::poseidon2_hash::poseidon2::Poseidon2;
use crate::recursion::circuits::inner_circuit::InnerCircuit;
use crate::{error::CircuitError,Result};
use crate::circuits::utils::vec_to_array;

/// recursion node circuit - verifies 2 leaf proofs
#[derive(Clone, Debug)]
pub struct NodeCircuit<
    F: RichField + Extendable<D> + Poseidon2,
    const D: usize,
    C: GenericConfig<D, F = F>,
    H: AlgebraicHasher<F>,
> where
    <C as GenericConfig<D>>::Hasher: AlgebraicHasher<F>
{
    leaf_common_data: CommonCircuitData<F, D>,
    phantom_data: PhantomData<(C,H)>
}

impl<
    F: RichField + Extendable<D> + Poseidon2,
    const D: usize,
    C: GenericConfig<D, F = F>,
    H: AlgebraicHasher<F>,
> NodeCircuit<F,D,C,H> where
    <C as GenericConfig<D>>::Hasher: AlgebraicHasher<F>
{
    pub fn new(inner_common_data: CommonCircuitData<F,D>) -> Self {
        Self{
            leaf_common_data: inner_common_data,
            phantom_data:PhantomData::default(),
        }
    }
}
#[derive(Clone, Debug)]
pub struct NodeTargets<
    const D: usize,
>{
    pub leaf_proofs: [ProofWithPublicInputsTarget<D>; 2],
    pub verifier_data: VerifierCircuitTarget,
}
#[derive(Clone, Debug)]
pub struct NodeInput<
    F: RichField + Extendable<D> + Poseidon2,
    const D: usize,
    C: GenericConfig<D, F = F>,
>{
    pub node_proofs: [ProofWithPublicInputs<F, C, D>;2],
    pub verifier_data: VerifierCircuitData<F, C, D>
}

impl<
    F: RichField + Extendable<D> + Poseidon2,
    const D: usize,
    C: GenericConfig<D, F = F>,
    H: AlgebraicHasher<F>,
> NodeCircuit<F,D,C,H> where
    <C as GenericConfig<D>>::Hasher: AlgebraicHasher<F>
{

    /// build the leaf circuit
    pub fn build(&self, builder: &mut CircuitBuilder<F, D>) -> Result<NodeTargets<D>> {

        let inner_common = self.leaf_common_data.clone();

        // the proof virtual targets - 2 proofs
        let mut vir_proofs = vec![];
        let mut pub_input = vec![];
        for _i in 0..2 {
            let vir_proof = builder.add_virtual_proof_with_pis(&inner_common);
            let inner_pub_input = vir_proof.public_inputs.clone();
            vir_proofs.push(vir_proof);
            pub_input.extend_from_slice(&inner_pub_input);
        }

        // hash the public input & make it public
        let hash_inner_pub_input = builder.hash_n_to_hash_no_pad::<H>(pub_input);
        builder.register_public_inputs(&hash_inner_pub_input.elements);

        // virtual target for the verifier data
        let inner_verifier_data = builder.add_virtual_verifier_data(inner_common.config.fri_config.cap_height);

        // verify the proofs in-circuit  - 2 proofs
        for i in 0..2 {
        builder.verify_proof::<C>(&vir_proofs[i], &inner_verifier_data, &inner_common);
        }

        let proofs = vec_to_array::<2, ProofWithPublicInputsTarget<D>>(vir_proofs)?;

        // return targets
        let t = NodeTargets {
            leaf_proofs: proofs,
            verifier_data: inner_verifier_data,
        };
        Ok(t)

    }

    /// assign the leaf targets with given input
    pub fn assign_targets(
        &self, pw: &mut PartialWitness<F>,
        targets: &NodeTargets<D>,
        input: &NodeInput<F, D, C>
    ) -> Result<()> {
        // assign the proofs
        for i in 0..2 {
            pw.set_proof_with_pis_target(&targets.leaf_proofs[i], &input.node_proofs[i])
                .map_err(|e| {
                    CircuitError::ProofTargetAssignmentError("inner-proof".to_string(), e.to_string())
                })?;
        }

        // assign the verifier data
        pw.set_verifier_data_target(&targets.verifier_data, &input.verifier_data.verifier_only)
            .map_err(|e| {
                CircuitError::VerifierDataTargetAssignmentError(e.to_string())
            })?;

        Ok(())
    }

    /// returns the leaf circuit data
    pub fn get_circuit_data (&self) -> Result<CircuitData<F, C, D>>
        where
            <C as GenericConfig<D>>::Hasher: AlgebraicHasher<F>
    {
        let config = CircuitConfig::standard_recursion_config();
        let mut builder = CircuitBuilder::<F, D>::new(config.clone());

        self.build(&mut builder)?;

        let circ_data = builder.build::<C>();

        Ok(circ_data)
    }

}
impl uniform recursion circuits 2025-01-30 13:46:37 +01:00			`use std::marker::PhantomData;`
			`use plonky2::hash::hash_types::RichField;`
			`use plonky2::iop::witness::{PartialWitness, WitnessWrite};`
			`use plonky2::plonk::circuit_builder::CircuitBuilder;`
			`use plonky2::plonk::circuit_data::{CircuitConfig, CircuitData, CommonCircuitData, VerifierCircuitData, VerifierCircuitTarget};`
			`use plonky2::plonk::config::{AlgebraicHasher, GenericConfig};`
			`use plonky2::plonk::proof::{ProofWithPublicInputs, ProofWithPublicInputsTarget};`
			`use plonky2_field::extension::Extendable;`
			`use plonky2_poseidon2::poseidon2_hash::poseidon2::Poseidon2;`
			`use crate::recursion::circuits::inner_circuit::InnerCircuit;`
			`use crate::{error::CircuitError,Result};`
			`use crate::circuits::utils::vec_to_array;`

			`/// recursion node circuit - verifies 2 leaf proofs`
			`#[derive(Clone, Debug)]`
			`pub struct NodeCircuit<`
			`F: RichField + Extendable<D> + Poseidon2,`
			`const D: usize,`
			`C: GenericConfig<D, F = F>,`
			`H: AlgebraicHasher<F>,`
			`> where`
			`<C as GenericConfig<D>>::Hasher: AlgebraicHasher<F>`
			`{`
			`leaf_common_data: CommonCircuitData<F, D>,`
			`phantom_data: PhantomData<(C,H)>`
			`}`

			`impl<`
			`F: RichField + Extendable<D> + Poseidon2,`
			`const D: usize,`
			`C: GenericConfig<D, F = F>,`
			`H: AlgebraicHasher<F>,`
			`> NodeCircuit<F,D,C,H> where`
			`<C as GenericConfig<D>>::Hasher: AlgebraicHasher<F>`
			`{`
			`pub fn new(inner_common_data: CommonCircuitData<F,D>) -> Self {`
			`Self{`
			`leaf_common_data: inner_common_data,`
			`phantom_data:PhantomData::default(),`
			`}`
			`}`
			`}`
			`#[derive(Clone, Debug)]`
			`pub struct NodeTargets<`
			`const D: usize,`
			`>{`
			`pub leaf_proofs: [ProofWithPublicInputsTarget<D>; 2],`
			`pub verifier_data: VerifierCircuitTarget,`
			`}`
			`#[derive(Clone, Debug)]`
			`pub struct NodeInput<`
			`F: RichField + Extendable<D> + Poseidon2,`
			`const D: usize,`
			`C: GenericConfig<D, F = F>,`
			`>{`
			`pub node_proofs: [ProofWithPublicInputs<F, C, D>;2],`
			`pub verifier_data: VerifierCircuitData<F, C, D>`
			`}`

			`impl<`
			`F: RichField + Extendable<D> + Poseidon2,`
			`const D: usize,`
			`C: GenericConfig<D, F = F>,`
			`H: AlgebraicHasher<F>,`
			`> NodeCircuit<F,D,C,H> where`
			`<C as GenericConfig<D>>::Hasher: AlgebraicHasher<F>`
			`{`

			`/// build the leaf circuit`
			`pub fn build(&self, builder: &mut CircuitBuilder<F, D>) -> Result<NodeTargets<D>> {`

			`let inner_common = self.leaf_common_data.clone();`

			`// the proof virtual targets - 2 proofs`
			`let mut vir_proofs = vec![];`
			`let mut pub_input = vec![];`
			`for _i in 0..2 {`
			`let vir_proof = builder.add_virtual_proof_with_pis(&inner_common);`
			`let inner_pub_input = vir_proof.public_inputs.clone();`
			`vir_proofs.push(vir_proof);`
			`pub_input.extend_from_slice(&inner_pub_input);`
			`}`

			`// hash the public input & make it public`
			`let hash_inner_pub_input = builder.hash_n_to_hash_no_pad::<H>(pub_input);`
			`builder.register_public_inputs(&hash_inner_pub_input.elements);`

			`// virtual target for the verifier data`
			`let inner_verifier_data = builder.add_virtual_verifier_data(inner_common.config.fri_config.cap_height);`

			`// verify the proofs in-circuit - 2 proofs`
			`for i in 0..2 {`
			`builder.verify_proof::<C>(&vir_proofs[i], &inner_verifier_data, &inner_common);`
			`}`

			`let proofs = vec_to_array::<2, ProofWithPublicInputsTarget<D>>(vir_proofs)?;`

			`// return targets`
			`let t = NodeTargets {`
			`leaf_proofs: proofs,`
			`verifier_data: inner_verifier_data,`
			`};`
			`Ok(t)`

			`}`

			`/// assign the leaf targets with given input`
			`pub fn assign_targets(`
			`&self, pw: &mut PartialWitness<F>,`
			`targets: &NodeTargets<D>,`
			`input: &NodeInput<F, D, C>`
			`) -> Result<()> {`
			`// assign the proofs`
			`for i in 0..2 {`
			`pw.set_proof_with_pis_target(&targets.leaf_proofs[i], &input.node_proofs[i])`
			`.map_err(\|e\| {`
			`CircuitError::ProofTargetAssignmentError("inner-proof".to_string(), e.to_string())`
			`})?;`
			`}`

			`// assign the verifier data`
			`pw.set_verifier_data_target(&targets.verifier_data, &input.verifier_data.verifier_only)`
			`.map_err(\|e\| {`
			`CircuitError::VerifierDataTargetAssignmentError(e.to_string())`
			`})?;`

			`Ok(())`
			`}`

			`/// returns the leaf circuit data`
			`pub fn get_circuit_data (&self) -> Result<CircuitData<F, C, D>>`
			`where`
			`<C as GenericConfig<D>>::Hasher: AlgebraicHasher<F>`
			`{`
			`let config = CircuitConfig::standard_recursion_config();`
			`let mut builder = CircuitBuilder::<F, D>::new(config.clone());`

			`self.build(&mut builder)?;`

			`let circ_data = builder.build::<C>();`

			`Ok(circ_data)`
			`}`

			`}`