parlov-elicit 0.2.0

Elicitation engine: strategy selection and probe plan generation for parlov.
Documentation 
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//! `CpRangeUnsatisfiable` -- unsatisfiable byte-range request.
//!
//! Sends `Range: bytes=99999999-99999999` on both baseline and probe. Per
//! RFC 9110 S14.1.1 a server SHOULD respond 416 when the range cannot be
//! satisfied. A nonexistent resource returns 404, producing the differential.

use http::Method;
use parlov_core::{NormativeStrength, OracleClass, Technique, Vector};

use crate::context::ScanContext;
use crate::strategy::Strategy;
use crate::types::{ProbeSpec, RiskLevel, StrategyMetadata};
use crate::util::{build_pair, clone_headers_with};

fn metadata() -> StrategyMetadata {
    StrategyMetadata {
        strategy_id: "cp-range-unsatisfiable",
        strategy_name: "Cache Probe: Range (unsatisfiable)",
        risk: RiskLevel::Safe,
    }
}

fn technique() -> Technique {
    Technique {
        id: "cp-range-unsatisfiable",
        name: "Unsatisfiable byte-range request",
        oracle_class: OracleClass::Existence,
        vector: Vector::CacheProbing,
        strength: NormativeStrength::Should,
    }
}

/// Elicits existence differentials via an unsatisfiable `Range` header.
pub struct CpRangeUnsatisfiable;

impl Strategy for CpRangeUnsatisfiable {
    fn id(&self) -> &'static str {
        "cp-range-unsatisfiable"
    }

    fn name(&self) -> &'static str {
        "Cache Probe: Range (unsatisfiable)"
    }

    fn risk(&self) -> RiskLevel {
        RiskLevel::Safe
    }

    fn methods(&self) -> &[Method] {
        &[Method::GET]
    }

    fn is_applicable(&self, _ctx: &ScanContext) -> bool {
        true
    }

    fn generate(&self, ctx: &ScanContext) -> Vec<ProbeSpec> {
        let hdrs = clone_headers_with(
            &ctx.headers,
            "range",
            "bytes=99999999-99999999",
        );
        let pair = build_pair(
            ctx,
            Method::GET,
            hdrs.clone(),
            hdrs,
            None,
            metadata(),
            technique(),
        );
        vec![ProbeSpec::Pair(pair)]
    }
}

#[cfg(test)]
mod tests {
    use super::*;
    use http::HeaderMap;

    fn make_ctx() -> ScanContext {
        ScanContext {
            target: "https://api.example.com/users/{id}".to_string(),
            baseline_id: "1001".to_string(),
            probe_id: "9999".to_string(),
            headers: HeaderMap::new(),
            max_risk: RiskLevel::Safe,
            known_duplicate: None,
            state_field: None,
            alt_credential: None,
            body_template: None,
        }
    }

    #[test]
    fn generates_correct_technique_vector() {
        let specs = CpRangeUnsatisfiable.generate(&make_ctx());
        assert_eq!(specs[0].technique().vector, Vector::CacheProbing);
    }

    #[test]
    fn generates_correct_technique_strength() {
        let specs = CpRangeUnsatisfiable.generate(&make_ctx());
        assert_eq!(specs[0].technique().strength, NormativeStrength::Should);
    }

    #[test]
    fn generates_probe_with_correct_header() {
        let specs = CpRangeUnsatisfiable.generate(&make_ctx());
        let ProbeSpec::Pair(pair) = &specs[0] else {
            panic!("expected Pair variant")
        };
        assert_eq!(
            pair.probe.headers.get("range").unwrap(),
            "bytes=99999999-99999999"
        );
    }

    #[test]
    fn is_always_applicable() {
        assert!(CpRangeUnsatisfiable.is_applicable(&make_ctx()));
    }

    #[test]
    fn risk_is_safe() {
        assert_eq!(CpRangeUnsatisfiable.risk(), RiskLevel::Safe);
    }
}