//! Phase 11 (Track J.9) — `Cap::CRYPTO` corpus acceptance. //! //! Asserts the new cap end-to-end at the corpus + oracle layer: //! per-language vuln/benign slices register, lang-aware benign-control //! resolution pairs them inside the correct slice, and the //! `WeakKeyEntropy` predicate fires only when a `WeakKey { key_int }` //! probe whose `key_int` is strictly less than `2^max_bits` lands on //! the channel. Per-lang harness dispatchers are deferred — see //! `.pitboss/play/deferred.md`. //! //! `cargo nextest run --features dynamic --test crypto_corpus`. #![cfg(feature = "dynamic")] use nyx_scanner::dynamic::corpus::{payloads_for_lang, resolve_benign_control_lang}; use nyx_scanner::dynamic::oracle::{Oracle, ProbePredicate, oracle_fired}; use nyx_scanner::dynamic::probe::{ProbeKind, ProbeWitness, SinkProbe}; use nyx_scanner::dynamic::sandbox::SandboxOutcome; use nyx_scanner::labels::Cap; use nyx_scanner::symbol::Lang; use std::time::Duration; const LANGS: &[Lang] = &[Lang::Java, Lang::Python, Lang::Php, Lang::Go, Lang::Rust]; fn outcome() -> SandboxOutcome { SandboxOutcome { exit_code: Some(0), stdout: vec![], stderr: vec![], timed_out: false, oob_callback_seen: false, sink_hit: false, duration: Duration::from_millis(1), hardening_outcome: None, } } fn weak_key_probe(key_int: u64) -> SinkProbe { SinkProbe { sink_callee: "__nyx_weak_key".into(), args: vec![], captured_at_ns: 1, payload_id: "crypto-test".into(), kind: ProbeKind::WeakKey { key_int }, witness: ProbeWitness::empty(), } } #[test] fn corpus_registers_crypto_for_each_supported_lang() { for lang in LANGS { let slice = payloads_for_lang(Cap::CRYPTO, *lang); assert!(!slice.is_empty(), "CRYPTO has no payloads for {lang:?}"); assert!( slice.iter().any(|p| !p.is_benign), "{lang:?} CRYPTO missing vuln payload", ); assert!( slice.iter().any(|p| p.is_benign), "{lang:?} CRYPTO missing benign control", ); } } #[test] fn crypto_payloads_pair_benign_controls_per_lang() { for lang in LANGS { let slice = payloads_for_lang(Cap::CRYPTO, *lang); let vuln = slice.iter().find(|p| !p.is_benign).expect("vuln payload"); let resolved = resolve_benign_control_lang(vuln, Cap::CRYPTO, *lang).expect("benign control resolves"); assert!(resolved.is_benign); match &vuln.oracle { Oracle::SinkProbe { predicates } => { assert!( predicates .iter() .any(|p| matches!(p, ProbePredicate::WeakKeyEntropy { max_bits: 16 })) ); } other => panic!("expected SinkProbe, got {other:?}"), } } } #[test] fn weak_key_entropy_fires_below_budget() { let oracle = Oracle::SinkProbe { predicates: &[ProbePredicate::WeakKeyEntropy { max_bits: 16 }], }; let probes = vec![weak_key_probe(0x1234)]; assert!(oracle_fired(&oracle, &outcome(), &probes)); } #[test] fn weak_key_entropy_clears_above_budget() { let oracle = Oracle::SinkProbe { predicates: &[ProbePredicate::WeakKeyEntropy { max_bits: 16 }], }; let probes = vec![weak_key_probe(u64::MAX / 2)]; assert!(!oracle_fired(&oracle, &outcome(), &probes)); } #[test] fn weak_key_entropy_clears_with_no_probe() { let oracle = Oracle::SinkProbe { predicates: &[ProbePredicate::WeakKeyEntropy { max_bits: 16 }], }; assert!(!oracle_fired(&oracle, &outcome(), &[])); } #[test] fn crypto_unsupported_for_other_langs() { for lang in [ Lang::C, Lang::Cpp, Lang::Ruby, Lang::JavaScript, Lang::TypeScript, ] { assert!( payloads_for_lang(Cap::CRYPTO, lang).is_empty(), "CRYPTO has unexpected payloads for {lang:?}", ); } }