plonky2/evm/src/cpu/cpu_stark.rs

use std::borrow::{Borrow, BorrowMut};
use std::marker::PhantomData;

use itertools::Itertools;
use plonky2::field::extension::{Extendable, FieldExtension};
use plonky2::field::packed::PackedField;
use plonky2::field::types::Field;
use plonky2::hash::hash_types::RichField;

use crate::constraint_consumer::{ConstraintConsumer, RecursiveConstraintConsumer};
use crate::cpu::columns::{CpuColumnsView, COL_MAP, NUM_CPU_COLUMNS};
use crate::cpu::{bootstrap_kernel, decode, simple_logic};
use crate::cross_table_lookup::Column;
use crate::memory::NUM_CHANNELS;
use crate::stark::Stark;
use crate::vars::{StarkEvaluationTargets, StarkEvaluationVars};

pub fn ctl_data_keccak<F: Field>() -> Vec<Column<F>> {
    let mut res: Vec<_> = Column::singles(COL_MAP.keccak_input_limbs).collect();
    res.extend(Column::singles(COL_MAP.keccak_output_limbs));
    res
}

pub fn ctl_filter_keccak<F: Field>() -> Column<F> {
    Column::single(COL_MAP.is_keccak)
}

pub fn ctl_data_logic<F: Field>() -> Vec<Column<F>> {
    let mut res = Column::singles([COL_MAP.is_and, COL_MAP.is_or, COL_MAP.is_xor]).collect_vec();
    res.extend(Column::singles(COL_MAP.logic_input0));
    res.extend(Column::singles(COL_MAP.logic_input1));
    res.extend(Column::singles(COL_MAP.logic_output));
    res
}

pub fn ctl_filter_logic<F: Field>() -> Column<F> {
    Column::sum([COL_MAP.is_and, COL_MAP.is_or, COL_MAP.is_xor])
}

pub fn ctl_data_memory<F: Field>(channel: usize) -> Vec<Column<F>> {
    debug_assert!(channel < NUM_CHANNELS);
    let mut cols: Vec<Column<F>> = Column::singles([
        COL_MAP.clock,
        COL_MAP.mem_is_read[channel],
        COL_MAP.mem_addr_context[channel],
        COL_MAP.mem_addr_segment[channel],
        COL_MAP.mem_addr_virtual[channel],
    ])
    .collect_vec();
    cols.extend(Column::singles(COL_MAP.mem_value[channel]));
    cols
}

pub fn ctl_filter_memory<F: Field>(channel: usize) -> Column<F> {
    Column::single(COL_MAP.mem_channel_used[channel])
}

#[derive(Copy, Clone)]
pub struct CpuStark<F, const D: usize> {
    pub f: PhantomData<F>,
}

impl<F: RichField, const D: usize> CpuStark<F, D> {
    pub fn generate(&self, local_values: &mut [F; NUM_CPU_COLUMNS]) {
        let local_values: &mut CpuColumnsView<_> = local_values.borrow_mut();
        decode::generate(local_values);
        simple_logic::generate(local_values);
    }
}

impl<F: RichField + Extendable<D>, const D: usize> Stark<F, D> for CpuStark<F, D> {
    const COLUMNS: usize = NUM_CPU_COLUMNS;
    const PUBLIC_INPUTS: usize = 0;

    fn eval_packed_generic<FE, P, const D2: usize>(
        &self,
        vars: StarkEvaluationVars<FE, P, { Self::COLUMNS }, { Self::PUBLIC_INPUTS }>,
        yield_constr: &mut ConstraintConsumer<P>,
    ) where
        FE: FieldExtension<D2, BaseField = F>,
        P: PackedField<Scalar = FE>,
    {
        let local_values = vars.local_values.borrow();
        bootstrap_kernel::eval_bootstrap_kernel(vars, yield_constr);
        decode::eval_packed_generic(local_values, yield_constr);
        simple_logic::eval_packed(local_values, yield_constr);
    }

    fn eval_ext_circuit(
        &self,
        builder: &mut plonky2::plonk::circuit_builder::CircuitBuilder<F, D>,
        vars: StarkEvaluationTargets<D, { Self::COLUMNS }, { Self::PUBLIC_INPUTS }>,
        yield_constr: &mut RecursiveConstraintConsumer<F, D>,
    ) {
        let local_values = vars.local_values.borrow();
        bootstrap_kernel::eval_bootstrap_kernel_circuit(builder, vars, yield_constr);
        decode::eval_ext_circuit(builder, local_values, yield_constr);
        simple_logic::eval_ext_circuit(builder, local_values, yield_constr);
    }

    fn constraint_degree(&self) -> usize {
        3
    }
}

#[cfg(test)]
mod tests {
    use anyhow::Result;
    use plonky2::plonk::config::{GenericConfig, PoseidonGoldilocksConfig};

    use crate::cpu::cpu_stark::CpuStark;
    use crate::stark_testing::{test_stark_circuit_constraints, test_stark_low_degree};

    #[test]
    fn test_stark_degree() -> Result<()> {
        const D: usize = 2;
        type C = PoseidonGoldilocksConfig;
        type F = <C as GenericConfig<D>>::F;
        type S = CpuStark<F, D>;

        let stark = S {
            f: Default::default(),
        };
        test_stark_low_degree(stark)
    }

    #[test]
    fn test_stark_circuit() -> Result<()> {
        const D: usize = 2;
        type C = PoseidonGoldilocksConfig;
        type F = <C as GenericConfig<D>>::F;
        type S = CpuStark<F, D>;

        let stark = S {
            f: Default::default(),
        };
        test_stark_circuit_constraints::<F, C, S, D>(stark)
    }
}
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`use std::borrow::{Borrow, BorrowMut};`
PR feedback 2022-05-18 09:22:58 +02:00			`use std::marker::PhantomData;`

updated in line with main changes 2022-06-23 14:36:14 -07:00			`use itertools::Itertools;`
`extension_field` -> `extension` (#581) It seems redundant in most contexts, e.g. `use plonky2::field::extension_field::Extendable;`. One could import `extension_field`, but it's not that common in Rust, and `field::extension` is now about as short. 2022-06-27 07:18:21 -07:00			`use plonky2::field::extension::{Extendable, FieldExtension};`
`packed_field` -> `packed` (#584) * `packed_field` -> `packed` For cleaner imports; "field" is usually clear from context * fix 2022-06-27 15:07:52 -07:00			`use plonky2::field::packed::PackedField;`
`field_types` -> `types` (#583) * `field_types` -> `types` Here too, I think "field" is usually clear from context, e.g. in `use plonky2::field::types::Field;`. * fixes * fmt 2022-06-27 12:24:09 -07:00			`use plonky2::field::types::Field;`
PR feedback 2022-05-18 09:22:58 +02:00			`use plonky2::hash::hash_types::RichField;`

			`use crate::constraint_consumer::{ConstraintConsumer, RecursiveConstraintConsumer};`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`use crate::cpu::columns::{CpuColumnsView, COL_MAP, NUM_CPU_COLUMNS};`
Begin work on witness generation and kernel bootstrapping 2022-06-15 09:33:52 -07:00			`use crate::cpu::{bootstrap_kernel, decode, simple_logic};`
define columns for CTL closer to the constraints (#573) 2022-06-21 10:28:44 -07:00			`use crate::cross_table_lookup::Column;`
Memory naming tweaks (#579) * Memory naming tweaks - Define the channel count and value limbs in a single place, so they're easy to adjust. - Standardize on "channels" which I think is more explicit, since e.g. `num_mem_ops` used to mean either the channel count or total operation count in a trace. * feedback * tweaks * fmt 2022-06-27 16:03:56 -07:00			`use crate::memory::NUM_CHANNELS;`
PR feedback 2022-05-18 09:22:58 +02:00			`use crate::stark::Stark;`
			`use crate::vars::{StarkEvaluationTargets, StarkEvaluationVars};`

define columns for CTL closer to the constraints (#573) 2022-06-21 10:28:44 -07:00			`pub fn ctl_data_keccak<F: Field>() -> Vec<Column<F>> {`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`let mut res: Vec<_> = Column::singles(COL_MAP.keccak_input_limbs).collect();`
			`res.extend(Column::singles(COL_MAP.keccak_output_limbs));`
define columns for CTL closer to the constraints (#573) 2022-06-21 10:28:44 -07:00			`res`
			`}`

			`pub fn ctl_filter_keccak<F: Field>() -> Column<F> {`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`Column::single(COL_MAP.is_keccak)`
define columns for CTL closer to the constraints (#573) 2022-06-21 10:28:44 -07:00			`}`

			`pub fn ctl_data_logic<F: Field>() -> Vec<Column<F>> {`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`let mut res = Column::singles([COL_MAP.is_and, COL_MAP.is_or, COL_MAP.is_xor]).collect_vec();`
			`res.extend(Column::singles(COL_MAP.logic_input0));`
			`res.extend(Column::singles(COL_MAP.logic_input1));`
			`res.extend(Column::singles(COL_MAP.logic_output));`
define columns for CTL closer to the constraints (#573) 2022-06-21 10:28:44 -07:00			`res`
			`}`

			`pub fn ctl_filter_logic<F: Field>() -> Column<F> {`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`Column::sum([COL_MAP.is_and, COL_MAP.is_or, COL_MAP.is_xor])`
define columns for CTL closer to the constraints (#573) 2022-06-21 10:28:44 -07:00			`}`

Memory naming tweaks (#579) * Memory naming tweaks - Define the channel count and value limbs in a single place, so they're easy to adjust. - Standardize on "channels" which I think is more explicit, since e.g. `num_mem_ops` used to mean either the channel count or total operation count in a trace. * feedback * tweaks * fmt 2022-06-27 16:03:56 -07:00			`pub fn ctl_data_memory<F: Field>(channel: usize) -> Vec<Column<F>> {`
			`debug_assert!(channel < NUM_CHANNELS);`
updated in line with main changes 2022-06-23 14:36:14 -07:00			`let mut cols: Vec<Column<F>> = Column::singles([`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`COL_MAP.clock,`
			`COL_MAP.mem_is_read[channel],`
			`COL_MAP.mem_addr_context[channel],`
			`COL_MAP.mem_addr_segment[channel],`
			`COL_MAP.mem_addr_virtual[channel],`
updated in line with main changes 2022-06-23 14:36:14 -07:00			`])`
			`.collect_vec();`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`cols.extend(Column::singles(COL_MAP.mem_value[channel]));`
updated in line with main changes 2022-06-23 14:36:14 -07:00			`cols`
			`}`

Memory naming tweaks (#579) * Memory naming tweaks - Define the channel count and value limbs in a single place, so they're easy to adjust. - Standardize on "channels" which I think is more explicit, since e.g. `num_mem_ops` used to mean either the channel count or total operation count in a trace. * feedback * tweaks * fmt 2022-06-27 16:03:56 -07:00			`pub fn ctl_filter_memory<F: Field>(channel: usize) -> Column<F> {`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`Column::single(COL_MAP.mem_channel_used[channel])`
updated in line with main changes 2022-06-23 14:36:14 -07:00			`}`

PR feedback 2022-05-18 09:22:58 +02:00			`#[derive(Copy, Clone)]`
			`pub struct CpuStark<F, const D: usize> {`
			`pub f: PhantomData<F>,`
			`}`

EVM decode (#553) * EVM decode * Style and docs * Daniel PR comments * Minor style * Work on tests * Tests passing! * Minor: fix comment * William comments 2022-06-03 19:24:47 -07:00			`impl<F: RichField, const D: usize> CpuStark<F, D> {`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`pub fn generate(&self, local_values: &mut [F; NUM_CPU_COLUMNS]) {`
			`let local_values: &mut CpuColumnsView<_> = local_values.borrow_mut();`
EVM decode (#553) * EVM decode * Style and docs * Daniel PR comments * Minor style * Work on tests * Tests passing! * Minor: fix comment * William comments 2022-06-03 19:24:47 -07:00			`decode::generate(local_values);`
NOT stark (#565) * NOT operation stark * Daniel PR comment 2022-06-14 16:55:08 -07:00			`simple_logic::generate(local_values);`
EVM decode (#553) * EVM decode * Style and docs * Daniel PR comments * Minor style * Work on tests * Tests passing! * Minor: fix comment * William comments 2022-06-03 19:24:47 -07:00			`}`
			`}`

PR feedback 2022-05-18 09:22:58 +02:00			`impl<F: RichField + Extendable<D>, const D: usize> Stark<F, D> for CpuStark<F, D> {`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`const COLUMNS: usize = NUM_CPU_COLUMNS;`
PR feedback 2022-05-18 09:22:58 +02:00			`const PUBLIC_INPUTS: usize = 0;`

			`fn eval_packed_generic<FE, P, const D2: usize>(`
			`&self,`
EVM decode (#553) * EVM decode * Style and docs * Daniel PR comments * Minor style * Work on tests * Tests passing! * Minor: fix comment * William comments 2022-06-03 19:24:47 -07:00			`vars: StarkEvaluationVars<FE, P, { Self::COLUMNS }, { Self::PUBLIC_INPUTS }>,`
			`yield_constr: &mut ConstraintConsumer<P>,`
PR feedback 2022-05-18 09:22:58 +02:00			`) where`
			`FE: FieldExtension<D2, BaseField = F>,`
			`P: PackedField<Scalar = FE>,`
			`{`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`let local_values = vars.local_values.borrow();`
Begin work on witness generation and kernel bootstrapping 2022-06-15 09:33:52 -07:00			`bootstrap_kernel::eval_bootstrap_kernel(vars, yield_constr);`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`decode::eval_packed_generic(local_values, yield_constr);`
			`simple_logic::eval_packed(local_values, yield_constr);`
PR feedback 2022-05-18 09:22:58 +02:00			`}`

			`fn eval_ext_circuit(`
			`&self,`
EVM decode (#553) * EVM decode * Style and docs * Daniel PR comments * Minor style * Work on tests * Tests passing! * Minor: fix comment * William comments 2022-06-03 19:24:47 -07:00			`builder: &mut plonky2::plonk::circuit_builder::CircuitBuilder<F, D>,`
			`vars: StarkEvaluationTargets<D, { Self::COLUMNS }, { Self::PUBLIC_INPUTS }>,`
			`yield_constr: &mut RecursiveConstraintConsumer<F, D>,`
PR feedback 2022-05-18 09:22:58 +02:00			`) {`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`let local_values = vars.local_values.borrow();`
Begin work on witness generation and kernel bootstrapping 2022-06-15 09:33:52 -07:00			`bootstrap_kernel::eval_bootstrap_kernel_circuit(builder, vars, yield_constr);`
Structured wrapper over CPU table row (#589) * Structured wrapper over CPU table row * Lints * minor style * Minor cleanup 2022-06-29 16:23:44 -07:00			`decode::eval_ext_circuit(builder, local_values, yield_constr);`
			`simple_logic::eval_ext_circuit(builder, local_values, yield_constr);`
PR feedback 2022-05-18 09:22:58 +02:00			`}`

			`fn constraint_degree(&self) -> usize {`
			`3`
			`}`
			`}`
Finish test 2022-05-19 11:10:10 +02:00
			`#[cfg(test)]`
			`mod tests {`
			`use anyhow::Result;`
			`use plonky2::plonk::config::{GenericConfig, PoseidonGoldilocksConfig};`

			`use crate::cpu::cpu_stark::CpuStark;`
			`use crate::stark_testing::{test_stark_circuit_constraints, test_stark_low_degree};`

			`#[test]`
Ignore test instead of failing 2022-05-20 08:34:25 +02:00			`fn test_stark_degree() -> Result<()> {`
Finish test 2022-05-19 11:10:10 +02:00			`const D: usize = 2;`
			`type C = PoseidonGoldilocksConfig;`
			`type F = <C as GenericConfig<D>>::F;`
			`type S = CpuStark<F, D>;`

			`let stark = S {`
			`f: Default::default(),`
			`};`
Ignore test instead of failing 2022-05-20 08:34:25 +02:00			`test_stark_low_degree(stark)`
Finish test 2022-05-19 11:10:10 +02:00			`}`

			`#[test]`
			`fn test_stark_circuit() -> Result<()> {`
			`const D: usize = 2;`
			`type C = PoseidonGoldilocksConfig;`
			`type F = <C as GenericConfig<D>>::F;`
			`type S = CpuStark<F, D>;`

			`let stark = S {`
			`f: Default::default(),`
			`};`
			`test_stark_circuit_constraints::<F, C, S, D>(stark)`
			`}`
			`}`