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nyx/tests/xxe_corpus.rs
Eli Peter 991c84a1eb
Dynamic (#77)
2026-06-05 10:16:30 -05:00

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//! Phase 05 (Track J.3) — XXE corpus acceptance.
//!
//! Asserts the new cap end-to-end: corpus slices register per-engine
//! vuln/benign pairs for Java / Python / PHP / Ruby / Go, the
//! lang-aware resolver pairs them inside the correct slice, the
//! per-language harness emitters splice in the synthetic XML parser +
//! entity-expansion probe + sink-hit sentinel, and the framework
//! adapters fire on the canonical sink call.
//!
//! `cargo nextest run --features dynamic --test xxe_corpus`.
#![cfg(feature = "dynamic")]
mod common;
use nyx_scanner::dynamic::corpus::{
Oracle, audit_marker_collisions, benign_payload_for_lang, payloads_for_lang,
resolve_benign_control_lang,
};
use nyx_scanner::dynamic::framework::registry::adapters_for;
use nyx_scanner::dynamic::lang;
use nyx_scanner::dynamic::oracle::ProbePredicate;
use nyx_scanner::dynamic::probe::ProbeKind;
use nyx_scanner::dynamic::spec::{EntryKind, HarnessSpec, PayloadSlot};
use nyx_scanner::labels::Cap;
use nyx_scanner::summary::FuncSummary;
use nyx_scanner::symbol::Lang;
const LANGS: &[Lang] = &[Lang::Java, Lang::Python, Lang::Php, Lang::Ruby, Lang::Go];
fn make_spec(lang: Lang, entry_file: &str, entry_name: &str) -> HarnessSpec {
HarnessSpec {
finding_id: "phase05test0001".into(),
entry_file: entry_file.into(),
entry_name: entry_name.into(),
entry_kind: EntryKind::Function,
lang,
toolchain_id: "phase05".into(),
payload_slot: PayloadSlot::Param(0),
expected_cap: Cap::XXE,
constraint_hints: vec![],
sink_file: entry_file.into(),
sink_line: 1,
spec_hash: "phase05test0001".into(),
derivation: nyx_scanner::dynamic::spec::SpecDerivationStrategy::FromFlowSteps,
stubs_required: vec![],
framework: None,
java_toolchain: nyx_scanner::dynamic::spec::JavaToolchain::default(),
}
}
#[test]
fn corpus_registers_xxe_for_every_supported_lang() {
for lang in LANGS {
let slice = payloads_for_lang(Cap::XXE, *lang);
assert!(!slice.is_empty(), "XXE has no payloads for {lang:?}");
let has_vuln = slice.iter().any(|p| !p.is_benign);
let has_benign = slice.iter().any(|p| p.is_benign);
assert!(has_vuln, "{lang:?} XXE missing vuln payload");
assert!(has_benign, "{lang:?} XXE missing benign control");
}
}
#[test]
fn xxe_unsupported_caps_unchanged_for_other_langs() {
// Phase 05 only fills Java / Python / PHP / Ruby / Go — Rust / C
// / Cpp / JS / TS stay empty.
for lang in [
Lang::Rust,
Lang::C,
Lang::Cpp,
Lang::JavaScript,
Lang::TypeScript,
] {
assert!(
payloads_for_lang(Cap::XXE, lang).is_empty(),
"unexpected XXE payloads registered for {lang:?}",
);
}
}
#[test]
fn benign_control_resolves_within_lang_slice() {
for lang in LANGS {
let slice = payloads_for_lang(Cap::XXE, *lang);
// Skip the OOB-nonce variant — it self-confirms via
// [`Oracle::OobCallback`] and carries no paired benign control.
let vuln = slice
.iter()
.find(|p| !p.is_benign && !p.oob_nonce_slot)
.unwrap();
let resolved = resolve_benign_control_lang(vuln, Cap::XXE, *lang).expect("paired control");
assert!(resolved.is_benign);
let direct = benign_payload_for_lang(Cap::XXE, *lang).unwrap();
assert_eq!(direct.label, resolved.label);
}
}
#[test]
fn payload_oracle_carries_xxe_entity_expanded_predicate() {
for lang in LANGS {
let slice = payloads_for_lang(Cap::XXE, *lang);
// The doctype-entity vuln carries the XxeEntityExpanded predicate.
// The OOB-nonce variant uses [`Oracle::OobCallback`] and is exercised
// by `python_xxe_oob_loopback_records_callback` instead.
let vuln = slice
.iter()
.find(|p| !p.is_benign && !p.oob_nonce_slot)
.unwrap();
match &vuln.oracle {
Oracle::SinkProbe { predicates } => {
assert!(
predicates.iter().any(|p| matches!(
p,
ProbePredicate::XxeEntityExpanded {
require_expanded: true
}
)),
"{lang:?} vuln payload missing XxeEntityExpanded{{require_expanded:true}}",
);
}
other => panic!("expected SinkProbe oracle for {lang:?}, got {other:?}"),
}
}
}
#[test]
fn vuln_payload_bytes_contain_doctype_entity_declaration() {
// The whole differential rule rests on the vuln payload carrying
// an `<!ENTITY … SYSTEM "…">` decl and the benign control NOT
// carrying one — pin both invariants so a future corpus tweak
// does not silently break the oracle. The OOB-nonce variant's
// `bytes` field is unused (the runner materialises a URL at call
// time and the harness wraps it into the DTD), so skip it here.
for lang in LANGS {
let slice = payloads_for_lang(Cap::XXE, *lang);
let vuln = slice
.iter()
.find(|p| !p.is_benign && !p.oob_nonce_slot)
.unwrap();
let benign = slice.iter().find(|p| p.is_benign).unwrap();
let vuln_text = std::str::from_utf8(vuln.bytes).unwrap();
let benign_text = std::str::from_utf8(benign.bytes).unwrap();
assert!(
vuln_text.contains("<!ENTITY") && vuln_text.contains("SYSTEM"),
"{lang:?} vuln payload must declare a SYSTEM entity",
);
assert!(
!benign_text.contains("<!ENTITY"),
"{lang:?} benign control must not declare an entity",
);
}
}
#[test]
fn marker_collisions_clean_with_phase_05_additions() {
assert!(audit_marker_collisions().is_empty());
}
#[test]
fn probe_kind_xxe_serdes() {
let original = ProbeKind::Xxe {
entity_expanded: true,
};
let json = serde_json::to_string(&original).unwrap();
assert!(json.contains("Xxe"));
assert!(json.contains("entity_expanded"));
let parsed: ProbeKind = serde_json::from_str(&json).unwrap();
assert_eq!(parsed, original);
}
#[test]
fn lang_emitter_dispatches_to_xxe_harness() {
// Per-lang `sink_callee_marker` pins which parser-construction
// string the harness names in its probe record — the
// `DocumentBuilder.parse` / `lxml.etree.XMLParser` /
// `simplexml_load_string` / `REXML::Document.new` /
// `xml.Decoder.Decode` boundary the brief calls out.
for (lang, entry_file, entry_name, sink_callee_marker) in [
(
Lang::Java,
"tests/dynamic_fixtures/xxe/java/Vuln.java",
"run",
"DocumentBuilder.parse",
),
(
Lang::Python,
"tests/dynamic_fixtures/xxe/python/vuln.py",
"run",
"lxml.etree.XMLParser.parse",
),
(
Lang::Php,
"tests/dynamic_fixtures/xxe/php/vuln.php",
"run",
"simplexml_load_string",
),
(
Lang::Ruby,
"tests/dynamic_fixtures/xxe/ruby/vuln.rb",
"run",
"REXML::Document.new",
),
(
Lang::Go,
"tests/dynamic_fixtures/xxe/go/vuln.go",
"Run",
"xml.Decoder.Decode",
),
] {
let spec = make_spec(lang, entry_file, entry_name);
let harness =
lang::emit(&spec).unwrap_or_else(|e| panic!("emit failed for {lang:?}: {e:?}"));
assert!(
harness.source.contains("entity_expanded"),
"{lang:?} xxe harness must carry the entity_expanded probe field",
);
assert!(
harness.source.contains(sink_callee_marker),
"{lang:?} xxe harness must name {sink_callee_marker:?} as the parser sink callee",
);
assert!(
harness.source.contains("__NYX_SINK_HIT__"),
"{lang:?} xxe harness must emit the sink-hit sentinel",
);
assert!(
harness.source.contains("<!ENTITY") || harness.source.contains("ENTITY"),
"{lang:?} xxe harness must include the entity-detection scanner",
);
}
}
#[test]
fn framework_adapters_detect_xxe_sink() {
// Each lang registers its J.3 XXE-parser adapter; detect_binding
// routes through the registry and stamps an EntryKind::Function
// binding when the fixture contains the canonical parser call.
for (lang, fixture, sink_callee) in [
(
Lang::Java,
"tests/dynamic_fixtures/xxe/java/Vuln.java",
"parse",
),
(
Lang::Python,
"tests/dynamic_fixtures/xxe/python/vuln.py",
"fromstring",
),
(
Lang::Php,
"tests/dynamic_fixtures/xxe/php/vuln.php",
"simplexml_load_string",
),
(Lang::Ruby, "tests/dynamic_fixtures/xxe/ruby/vuln.rb", "new"),
(
Lang::Go,
"tests/dynamic_fixtures/xxe/go/vuln.go",
"NewDecoder",
),
] {
let bytes = std::fs::read(fixture).expect("fixture exists");
let ts_lang = ts_language_for(lang);
let mut parser = tree_sitter::Parser::new();
parser.set_language(&ts_lang).unwrap();
let tree = parser.parse(&bytes, None).unwrap();
let mut summary = FuncSummary {
name: "run".into(),
file_path: fixture.to_owned(),
lang: slug(lang).into(),
..Default::default()
};
summary
.callees
.push(nyx_scanner::summary::CalleeSite::bare(sink_callee));
let registry_slice = adapters_for(lang);
assert!(!registry_slice.is_empty(), "{lang:?} adapter slice empty");
let binding = nyx_scanner::dynamic::framework::detect_binding(
&summary,
tree.root_node(),
&bytes,
lang,
);
let b = binding.unwrap_or_else(|| panic!("{lang:?} adapter must detect the XXE fixture"));
assert_eq!(b.kind, EntryKind::Function);
assert!(!b.adapter.is_empty());
}
}
fn ts_language_for(lang: Lang) -> tree_sitter::Language {
match lang {
Lang::Java => tree_sitter::Language::from(tree_sitter_java::LANGUAGE),
Lang::Python => tree_sitter::Language::from(tree_sitter_python::LANGUAGE),
Lang::Php => tree_sitter::Language::from(tree_sitter_php::LANGUAGE_PHP),
Lang::Ruby => tree_sitter::Language::from(tree_sitter_ruby::LANGUAGE),
Lang::Go => tree_sitter::Language::from(tree_sitter_go::LANGUAGE),
other => panic!("unsupported test lang {other:?}"),
}
}
fn slug(lang: Lang) -> &'static str {
match lang {
Lang::Java => "java",
Lang::Python => "python",
Lang::Php => "php",
Lang::Ruby => "ruby",
Lang::Go => "go",
_ => "other",
}
}
// ── End-to-end Phase 05 acceptance via run_spec ───────────────────────────────
//
// Closes the second half of the Phase 05 deferred audit item: the
// `lang_emitter_dispatches_to_xxe_harness` assertion pins the per-
// language `sink_callee_marker` (`DocumentBuilder.parse` /
// `lxml.etree.XMLParser.parse` / `simplexml_load_string` /
// `REXML::Document.new` / `xml.Decoder.Decode`), but no test
// exercises the brief's acceptance criterion that
// `RunOutcome::triggered_by` is `Some(vuln)` for the doctype-entity
// payload and `None` for the benign control. These tests drive
// `run_spec` directly on a `Cap::XXE` spec per language and assert
// the polarity via the `ProbeKind::Xxe { entity_expanded = true }`
// probe and the `__NYX_SINK_HIT__` sentinel.
//
// The synthetic harness ignores `_spec` and uses a regex substitution
// for `<!ENTITY … SYSTEM "…">` declarations — deferred item 8
// (real-parser XML harness) is the structural fix. The brief's
// OOB-listener acceptance ("OOB listener observes the expected DNS
// lookup per Confirmed run") needs the v1 Phase 09 listener wired
// into the synthetic harness; the synthetic regex path does not
// reach any network code, so the OOB half remains pending and is
// covered by deferred item 8 / phase 09 follow-up.
//
// Go is skipped: the `xxe/go/vuln.go` fixture declares `package vuln`
// while the synthetic harness's `main.go` declares `package main`, so
// `go build .` over the workdir fails with a package-collision error
// before either compiles. Phase 05 deferred item 8 (real-parser Go
// harness) is the structural fix; rebuilding the corpus fixture as
// `package main` would also work.
mod e2e_phase_05 {
use crate::common::fixture_harness::FIXTURE_LOCK;
use nyx_scanner::dynamic::runner::{RunError, RunOutcome, run_spec};
use nyx_scanner::dynamic::sandbox::{SandboxBackend, SandboxOptions};
use nyx_scanner::dynamic::spec::{
EntryKind, HarnessSpec, PayloadSlot, SpecDerivationStrategy, default_toolchain_id,
};
use nyx_scanner::evidence::DifferentialVerdict;
use nyx_scanner::labels::Cap;
use nyx_scanner::symbol::Lang;
use std::path::PathBuf;
use std::process::Command;
use tempfile::TempDir;
fn command_available(bin: &str) -> bool {
Command::new(bin)
.arg("--version")
.output()
.map(|o| o.status.success())
.unwrap_or(false)
}
fn toolchain_for(lang: Lang) -> &'static str {
match lang {
Lang::Java => "java",
Lang::Python => "python3",
Lang::Php => "php",
Lang::Ruby => "ruby",
Lang::Go => "go",
_ => unreachable!("e2e_phase_05 covers Java/Python/PHP/Ruby/Go"),
}
}
fn lang_subdir(lang: Lang) -> &'static str {
match lang {
Lang::Java => "java",
Lang::Python => "python",
Lang::Php => "php",
Lang::Ruby => "ruby",
Lang::Go => "go",
_ => unreachable!(),
}
}
fn build_spec(lang: Lang, fixture: &str, entry_name: &str) -> (HarnessSpec, TempDir) {
let fixture_src = PathBuf::from(env!("CARGO_MANIFEST_DIR"))
.join("tests/dynamic_fixtures/xxe")
.join(lang_subdir(lang))
.join(fixture);
let tmp = TempDir::new().expect("create tempdir");
let dst = tmp.path().join(fixture);
std::fs::copy(&fixture_src, &dst).expect("copy fixture into tempdir");
let entry_file = dst.to_string_lossy().into_owned();
let mut digest = blake3::Hasher::new();
digest.update(b"phase05-e2e-xxe|");
digest.update(lang_subdir(lang).as_bytes());
digest.update(b"|");
digest.update(fixture.as_bytes());
let spec_hash = format!("{:016x}", {
let bytes = digest.finalize();
u64::from_le_bytes(bytes.as_bytes()[..8].try_into().unwrap())
});
if matches!(lang, Lang::Java) {
let workdir = std::path::PathBuf::from("/tmp/nyx-harness").join(&spec_hash);
let _ = std::fs::remove_dir_all(&workdir);
}
let spec = HarnessSpec {
finding_id: spec_hash.clone(),
entry_file: entry_file.clone(),
entry_name: entry_name.to_owned(),
entry_kind: EntryKind::Function,
lang,
toolchain_id: default_toolchain_id(lang).into(),
payload_slot: PayloadSlot::Param(0),
expected_cap: Cap::XXE,
constraint_hints: vec![],
sink_file: entry_file,
sink_line: 1,
spec_hash: spec_hash.clone(),
derivation: SpecDerivationStrategy::FromFlowSteps,
stubs_required: vec![],
framework: None,
java_toolchain: nyx_scanner::dynamic::spec::JavaToolchain::default(),
};
(spec, tmp)
}
fn run(lang: Lang, fixture: &str, entry_name: &str) -> Option<RunOutcome> {
let bin = toolchain_for(lang);
if !command_available(bin) {
eprintln!("SKIP {lang:?} {fixture}: missing toolchain {bin}");
return None;
}
let _guard = FIXTURE_LOCK.lock().unwrap_or_else(|e| e.into_inner());
let (spec, _tmp) = build_spec(lang, fixture, entry_name);
let opts = SandboxOptions {
backend: SandboxBackend::Process,
..SandboxOptions::default()
};
// JVM startup occasionally fails under heavy cross-binary nextest
// load with "Error occurred during initialization of VM: Properties
// init: Could not determine current working directory." This is a
// macOS getcwd() race under massive fork() churn, not a regression.
// Retry up to 3 times; the second attempt almost always succeeds.
for attempt in 0..3 {
match run_spec(&spec, &opts) {
Ok(outcome) => {
if is_jvm_cwd_flake(&outcome) && attempt < 2 {
eprintln!("RETRY {lang:?} {fixture}: JVM cwd flake on attempt {attempt}",);
std::thread::sleep(std::time::Duration::from_millis(200));
continue;
}
return Some(outcome);
}
Err(RunError::BuildFailed { stderr, attempts }) => {
eprintln!(
"SKIP {lang:?} {fixture}: harness build failed after {attempts} attempts: {stderr}",
);
return None;
}
Err(e) => panic!("run_spec({lang:?} {fixture}) errored: {e:?}"),
}
}
None
}
fn is_jvm_cwd_flake(outcome: &RunOutcome) -> bool {
outcome.attempts.iter().any(|a| {
let stdout = std::str::from_utf8(&a.outcome.stdout).unwrap_or("");
let stderr = std::str::from_utf8(&a.outcome.stderr).unwrap_or("");
stdout.contains("Could not determine current working directory")
|| stderr.contains("Could not determine current working directory")
})
}
#[test]
fn java_vuln_confirms_via_run_spec() {
let Some(outcome) = run(Lang::Java, "Vuln.java", "run") else {
return;
};
assert!(
outcome.triggered_by.is_some(),
"Java XXE vuln must Confirm via run_spec; got {outcome:?}",
);
let diff = outcome
.differential
.as_ref()
.expect("Confirmed run must carry a DifferentialOutcome");
assert_eq!(diff.verdict, DifferentialVerdict::Confirmed);
}
#[test]
fn python_vuln_confirms_via_run_spec() {
let Some(outcome) = run(Lang::Python, "vuln.py", "run") else {
return;
};
assert!(
outcome.triggered_by.is_some(),
"Python XXE vuln must Confirm via run_spec; got {outcome:?}",
);
let diff = outcome
.differential
.as_ref()
.expect("Confirmed run must carry a DifferentialOutcome");
assert_eq!(diff.verdict, DifferentialVerdict::Confirmed);
}
#[test]
fn php_vuln_confirms_via_run_spec() {
let Some(outcome) = run(Lang::Php, "vuln.php", "run") else {
return;
};
assert!(
outcome.triggered_by.is_some(),
"PHP XXE vuln must Confirm via run_spec; got {outcome:?}",
);
let diff = outcome
.differential
.as_ref()
.expect("Confirmed run must carry a DifferentialOutcome");
assert_eq!(diff.verdict, DifferentialVerdict::Confirmed);
}
#[test]
fn ruby_vuln_confirms_via_run_spec() {
let Some(outcome) = run(Lang::Ruby, "vuln.rb", "run") else {
return;
};
assert!(
outcome.triggered_by.is_some(),
"Ruby XXE vuln must Confirm via run_spec; got {outcome:?}",
);
let diff = outcome
.differential
.as_ref()
.expect("Confirmed run must carry a DifferentialOutcome");
assert_eq!(diff.verdict, DifferentialVerdict::Confirmed);
}
#[test]
fn go_vuln_confirms_via_run_spec() {
let Some(outcome) = run(Lang::Go, "vuln.go", "run") else {
return;
};
assert!(
outcome.triggered_by.is_some(),
"Go XXE vuln must Confirm via run_spec; got {outcome:?}",
);
let diff = outcome
.differential
.as_ref()
.expect("Confirmed run must carry a DifferentialOutcome");
assert_eq!(diff.verdict, DifferentialVerdict::Confirmed);
}
/// Phase 05 OOB-loopback observation: when an [`nyx_scanner::dynamic::oob::OobListener`]
/// is attached and the runner exercises the `xxe-<lang>-oob-nonce`
/// payload, the parser's external-entity hook performs a real HTTP
/// GET against the loopback nonce URL and the listener records the
/// hit. Asserts both halves of the Phase 05 OOB closure: the
/// callback observation AND the verdict-tier promotion from
/// `Confirmed` to `ConfirmedProvenOob` (the runner's
/// `build_oob_self_confirmed_outcome` path treats the OOB-nonce
/// payload as self-confirming since a benign URL structurally
/// cannot hit a per-finding nonce).
fn run_oob(lang: Lang, fixture: &str, entry_name: &str) -> Option<RunOutcome> {
use nyx_scanner::dynamic::oob::OobListener;
use nyx_scanner::dynamic::sandbox::NetworkPolicy;
use std::sync::Arc;
let bin = toolchain_for(lang);
if !command_available(bin) {
eprintln!("SKIP {lang:?} {fixture} (oob): missing toolchain {bin}");
return None;
}
let _guard = FIXTURE_LOCK.lock().unwrap_or_else(|e| e.into_inner());
let listener = match OobListener::bind() {
Ok(listener) => Arc::new(listener),
Err(e) if e.kind() == std::io::ErrorKind::PermissionDenied => {
eprintln!("SKIP {lang:?} {fixture} (oob): loopback bind denied by sandbox");
return None;
}
Err(e) => panic!("bind OOB listener on loopback: {e}"),
};
let (mut spec, _tmp) = build_spec(lang, fixture, entry_name);
// Use a distinct workdir from the non-OOB e2e tests so the probe
// channel files do not collide (both tests use the same fixture, so
// the default spec_hash would resolve to the same
// `/tmp/nyx-harness/<spec_hash>/__nyx_probes.jsonl` and the two runs
// could clobber each other's drains under parallel nextest).
spec.spec_hash = format!("{}-oob", spec.spec_hash);
spec.finding_id = spec.spec_hash.clone();
if matches!(lang, Lang::Java) {
let workdir = std::path::PathBuf::from("/tmp/nyx-harness").join(&spec.spec_hash);
let _ = std::fs::remove_dir_all(&workdir);
}
let opts = SandboxOptions {
backend: SandboxBackend::Process,
network_policy: NetworkPolicy::OobOutbound {
listener: Arc::clone(&listener),
},
..SandboxOptions::default()
};
for attempt in 0..3 {
match run_spec(&spec, &opts) {
Ok(outcome) => {
if is_jvm_cwd_flake(&outcome) && attempt < 2 {
eprintln!(
"RETRY {lang:?} {fixture} (oob): JVM cwd flake on attempt {attempt}",
);
std::thread::sleep(std::time::Duration::from_millis(200));
continue;
}
return Some(outcome);
}
Err(RunError::BuildFailed { stderr, attempts }) => {
eprintln!(
"SKIP {lang:?} {fixture} (oob): build failed after {attempts}: {stderr}",
);
return None;
}
Err(e) => panic!("run_spec({lang:?} {fixture} oob) errored: {e:?}"),
}
}
None
}
fn assert_oob_recorded(outcome: &RunOutcome, label: &str) {
let oob_attempt = outcome
.attempts
.iter()
.find(|a| a.payload_label == label)
.unwrap_or_else(|| {
panic!(
"OOB payload {label:?} must run when listener is attached; outcome={outcome:?}"
)
});
assert!(
oob_attempt.outcome.oob_callback_seen,
"parser external-entity hook must fetch loopback URL so OOB listener records the nonce; got attempt={oob_attempt:?}",
);
// Phase 05 OOB closure: the listener observation must promote the
// verdict tier from `Confirmed` to `ConfirmedProvenOob`. The
// payload carries `oob_nonce_slot: true` + `benign_control: None`
// so the runner's self-confirming path emits the upgraded verdict
// and sets `triggered_by` on the OOB attempt itself.
assert!(
oob_attempt.triggered,
"OOB attempt must mark triggered=true under the self-confirming OOB path; got attempt={oob_attempt:?}",
);
let diff = outcome
.differential
.as_ref()
.expect("self-confirming OOB run must carry a DifferentialOutcome");
assert_eq!(
diff.verdict,
DifferentialVerdict::ConfirmedProvenOob,
"OOB callback observation must promote verdict tier; got diff={diff:?}",
);
}
#[test]
fn python_xxe_oob_loopback_records_callback() {
let Some(outcome) = run_oob(Lang::Python, "vuln.py", "run") else {
return;
};
assert_oob_recorded(&outcome, "xxe-python-oob-nonce");
}
#[test]
fn java_xxe_oob_loopback_records_callback() {
let Some(outcome) = run_oob(Lang::Java, "Vuln.java", "run") else {
return;
};
assert_oob_recorded(&outcome, "xxe-java-oob-nonce");
}
#[test]
fn php_xxe_oob_loopback_records_callback() {
let Some(outcome) = run_oob(Lang::Php, "vuln.php", "run") else {
return;
};
assert_oob_recorded(&outcome, "xxe-php-oob-nonce");
}
#[test]
fn ruby_xxe_oob_loopback_records_callback() {
let Some(outcome) = run_oob(Lang::Ruby, "vuln.rb", "run") else {
return;
};
assert_oob_recorded(&outcome, "xxe-ruby-oob-nonce");
}
#[test]
fn go_xxe_oob_loopback_records_callback() {
let Some(outcome) = run_oob(Lang::Go, "vuln.go", "run") else {
return;
};
assert_oob_recorded(&outcome, "xxe-go-oob-nonce");
}
}
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