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nyx/tests/state_tests.rs
Eli Peter 41128177d2
Release/0.5.0 (#35) 
* feat: Introduce function-scoped variable interning for state analysis with new tests and fixtures

* feat: Add Phase 26 symbolic execution enhancements with bitwise operator support, abstract interpretation refinements, and new taint analysis tests

* feat: Refine state analysis to handle factory-pattern resource returns with mixed-path tests and leak detection enhancements

* feat: Add Phase 27 debug views with symbolic execution, abstract interpretation, SSA, and call graph viewers; integrate with debug layout and styles

* feat: Add Phase 31 type-qualified symbolic resolution with receiver-based callee disambiguation and testing

* feat: Extend symbolic execution with state iteration, enhanced debug views, and debounced input handling

* feat: Add Phase 13 resource and auth pattern extensions with new tests and fixtures

* feat: Introduce CFG debug graph renderer with compact mode, toolbar, and DAG layout integration

* feat: Add Phase 28 encoding and decoding transform modeling with structural symex enhancements and new taint analysis tests

* feat: Extend abstract interpretation with type facts and constant value tracking in debug views and server logic

* feat: Add linear path handling and witness extraction to symbolic execution with Phase 28 transform mismatch detection

* feat: Refine Go auth and sanitizer handling with enhanced rules, state updates, and benchmark improvements

* feat: Enable auth-state analysis by default and update relevant tests in benchmark config

* test: Update state_tests to reflect default enablement of auth-state analysis and add auth suppression test

* docs: update CHANGELOG.md

* feat: Introduce per-index taint tracking in `HeapState` with `HeapSlot`, overflow handling, and revised SSA transfers

* feat: Introduce C/C++ language labels and refine heap state tracking in SSA transfers

* feat: Implement per-index array slot tracking in symbolic heap with overflow collapse

* feat: Add implicit definition handling for uninitialized declarations in SSA value allocation

* feat: Refactor function parameters and constants for improved clarity and maintainability

* refactor: Reorder module imports and improve formatting for consistency

* refactor: Fix formatting erorrs

* refactor: Fix clippy warnings

* refactor: Fix fmt warnings (again)

* chore: Update dependencies and improve feature configuration

* Add comprehensive tests for undertested modules (#36) (COPILOT)

* Add comprehensive tests for undertested modules

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* Add comprehensive tests for ext, project, walk, and errors modules

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* chore: Update dependencies and improve feature configuration

* fix: formatting errors in new tests

* chore: Update license list in about.toml

* chore: made functions input inline

* chore: updated cfg graph to take up the full page

* chore: add Prettier configuration and update code formatting

* Add frontend test suite with Vitest (111 tests) (#37)

* Add Vitest test suite for frontend - 111 tests across utils, components, hooks, and graph utilities

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* ci: add frontend test step to CI workflow

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* chore: simplify array initialization in test files for consistency

* ran typecheck

* feat: add AnalysisWorkspace component and integrate it into CfgViewerPage

* feat: update routing in AppLayout and improve empty state message in ExplorerPage

* feat: enhance scan progress tracking with additional metrics and stages

* feat: update license information and add license check script

* feat: implement cross-file symbolic execution with callee body persistence

* feat: replace dagre graphs with Graphology + ELK + Sigma for more advanced call stack and cfg rendering

* feat: ensure CFG function view is scoped to the selected function, preventing bleed into sibling functions

* feat: enhance resource tracking with proxy method summaries and improve finding extraction

* feat: add terminal function exit detection for accurate resource leak analysis

* feat: add warnings for loops and functions without bodies to improve error recovery

* feat: update lambda expression handling to ensure proper function classification and control flow

* feat: remove bounded formatting/string ops and add JSON.parse sanitizer for improved data handling

* feat: add inline return taint analysis and regression tests for improved security checks

* feat: add engine version management and migration handling for database schema updates

* feat: enhance first_call_ident to skip nested function bodies and add regression tests

* feat: enhance callee name resolution with two-segment normalization and disambiguation

* feat: add cross-file context flags and debug assertions for taint analysis

* feat: refactor taint analysis structure to unify context handling and improve clarity

* feat: enhance dead code elimination to preserve Sink, Source, and Sanitizer labels with new tests

* docs: updated CHANGELOG.md

* fmt: formatting fixes

* fix: fixed frontend formatting and lint warnings

* fix: optimized ci

* fix: optimized ci

* Add comprehensive multi-file test coverage to Nyx (#38)

* Initial checklist for multi-file test suite expansion

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* Add 12 new multi-file test fixtures with TP/TN/near-miss coverage

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* deleted root repo

* rebuilt to test for regressions

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Co-authored-by: elicpeter <54954007+elicpeter@users.noreply.github.com>
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* feat: enhance import alias resolution and taint tracking

* feat: implement security hardening with CSRF protection and path validation

* feat: add support for import alias bindings in Python, PHP, and Rust

* feat: enhance CFG analysis modes and improve code readability

* feat: add detection for parameterized SQL queries to enhance security

* feat: add safe internal redirect handling and enhance session destroy validation

* feat: implement security improvements by addressing vulnerabilities in execAsync, session management, and file downloads

* feat: enhance taint detection by adding support for inline source member expressions in call arguments

* feat: implement pre-emission of Source nodes for inline source member expressions in call arguments

* feat: add support for Throw statement in control flow and error handling

* feat: add debug and echo endpoints with potential information leakage

* feat: implement internal redirect suppression and enhance taint detection

* feat: implement module alias tracking for dynamic dispatch in JS/TS

* feat: add authorization analysis module with Express support

* feat: add authorization analysis module with Express support

* feat: add tests for admin guard requirements and clean checks in authorization analysis

* feat: integrate Koa and Fastify frameworks into authorization analysis

* feat: add Flask and Django support to authorization analysis module

* feat: add support for Rails and Sinatra frameworks in authorization analysis

* feat: add support for Axum, ActixWeb, and Rocket frameworks in authorization analysis

* feat: add support for ActixWeb, Axum, and Rocket frameworks in authorization analysis

* feat: add support for Rails and Sinatra in authorization analysis

* chore: add .DS_Store to .gitignore

* refactor: simplify conditional checks and improve readability in multiple files

* refactor: update usage of Option methods for improved clarity and consistency

* refactor: improve code readability by simplifying conditional checks and formatting

* refactor: improve code formatting and readability by simplifying conditional checks

* refactor: simplify conditional checks and improve readability in multiple files

* refactor: simplify conditional checks in axum.rs for improved readability

* feat: add CodeQL analysis configuration for enhanced security scanning

* test: add comprehensive tests for `src/output.rs` SARIF builder (#39)

* chore: start test coverage improvement work

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* test: add comprehensive tests for src/output.rs SARIF builder

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* refactor: improve code formatting and readability in output.rs

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* refactor: improve code formatting and readability in output.rs

* Potential fix for code scanning alert no. 210: Uncontrolled data used in path expression

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* Potential fix for code scanning alert no. 211: Uncontrolled data used in path expression

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* refactor: enhance triage file path handling with improved error management and validation

* refactor: updated func summaries for richer detail

* refactor: update SSA summary extraction to use canonical FuncKey for distinct entries

* refactor: enhance callee metadata structure to support arity, receiver, and qualifier for better overload resolution

* refactor: add support for keyword arguments in function calls and enhance receiver extraction for method-style calls

* refactor: implement new Flask routes for safe and unsafe shell command execution

* refactor: separate receiver handling in SSA operations and enhance taint propagation

* refactor: improve arity handling by using arg_uses for positional argument count and enhance witness scoring for tainted arguments

* refactor: implement auth decorator extraction and classification for multiple languages

* refactor: enhance Rust module path resolution and use map handling for cross-file disambiguation

* refactor: introduce CalleeQuery struct for structured callee resolution and enhance resolver logic

* refactor: implement same-file identity collision handling for `runTask` to ensure correct resolver behavior

* refactor: standardize default struct initialization across multiple files

* feat: add scripts for formatting checks and auto-fixes with test summaries

* refactor: simplify character splitting and enhance namespace qualifier handling

* refactor: improve documentation clarity and enhance code readability in resolver logic

* refactor: replace default struct initialization with explicit field assignments for clarity

* feat: enhance anonymous function naming by deriving context-based bindings

* refactor: streamline match expressions for improved readability and performance

* refactor: streamline match expressions for improved readability and performance

* refactor: replace loop with while let for improved clarity and performance

* feat: add SSA constant propagation support to analysis context for improved accuracy

* feat: add SSA constant propagation support to analysis context for improved accuracy

* feat: implement shell metacharacter validation and bounded-length checks in Rust analysis

* feat: add static map analysis for command injection suppression and type safety

* refactor: simplify match statements and reduce line breaks for improved readability

* feat(summary): phase 1/5 SinkSite data model for primary sink-location attribution

Introduce SinkSite (file_rel, line, col, snippet, cap) carrying the
primary sink source-location through function summaries. Swap
SsaFuncSummary.param_to_sink and FuncSummary.param_to_sink from a coarse
Cap map to a deduped SmallVec<[SinkSite; 1]> per parameter, with a
backward-compatible cap_sites() helper and serde defaults so pre-phase-1
on-disk rows continue to deserialise cleanly.

Extraction: SinkSiteLocator bundles the tree/bytes/file_rel needed by
extract_ssa_func_summary; ParsedFile::extract_ssa_artifacts wires the
locator in for the persisted pass-1 path, while pass-2 intra-file
transient summaries fall back to cap-only sites (behavior unchanged).
Merge: GlobalSummaries::insert now unions sink sites with
(file_rel, line, col, cap) dedup via shared union_param_sink_sites
helper.

Database: JSON-serialised summary columns carry the new shape
automatically; no schema change needed.

Phase 2 will consume SinkSite in build_taint_diag() to overwrite the
caller-site Finding.line with the callee's sink line when resolved via
summary. Phase 1 keeps behavior unchanged: scanning
tests/benchmark/corpus/rust/cmdi/cmdi_indirect.rs still produces the
same (wrong) line 10 finding.

Adds round-trip tests covering SinkSite solo, SsaFuncSummary with sink
sites, legacy-JSON default handling for both summary types, and merge
dedup.

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>

* feat(taint): phase 2/5 thread SinkSite into SsaTaintEvent and Finding

Plumb Phase 1's SinkSite through the event pipeline into Findings,
no output change yet.  SsaTaintEvent gains `primary_sink_site:
Option<SinkSite>`; when the main or callback sink-emission path has
non-empty `param_to_sink_sites`, filter to sites whose
`(line != 0) && (cap ∩ sink_caps != ∅)` and emit one event per
distinct site — the multi-primary collapse keeps each downstream
Finding single-primary.

Resolution: ResolvedSummary and SinkInfo gain mirror
`param_to_sink_sites` fields, populated from `SsaFuncSummary.param_to_sink`
(SSA + callback paths) and `FuncSummary.param_to_sink` (global paths).
Label, local-summary, and interop resolution paths leave the field
empty — they only ever had cap-level info to begin with.

Finding: new `primary_location: Option<SinkLocation>` with
`file_rel/line/col`.  `ssa_events_to_findings` maps
`event.primary_sink_site` → `Finding.primary_location`, filtering
cap-only sites (`line == 0`) to `None` so the (0,0) sentinel never
leaks to formatters.  Dedup key extended with the primary location
so multi-site events aren't collapsed back together.

Invariants (debug_assert!):
* every SinkSite reaching emission has `line != 0 && cap ∩ sink_caps
  != ∅` — enforced by the pick_primary_sink_sites* filters;
* every populated Finding.primary_location has `line != 0` AND
  non-empty `file_rel` — the cap-only → None translation upstream
  guarantees this.

Deliberately independent of `uses_summary`: that flag tracks whether
the *taint chain* used a summary, whereas primary attribution
requires only that the *sink* itself was summary-resolved.  A local
source reaching a cross-file sink produces `uses_summary=false`
alongside a populated primary_location — documented on
Finding.primary_location, covered by
`cross_file_sink_finding_carries_primary_location`.

build_taint_diag, SARIF/JSON/explanation formatters, and the
benchmark scorer remain untouched: finding.line still comes from
`cfg_graph[finding.sink]`, so cmdi_indirect.rs still reports line 10
and the benchmark's rs-cmdi-003 row still shows FN in the LOC column.

Tests: `cross_file_sink_finding_carries_primary_location` (proves
plumbing via a synthetic FuncSummary carrying a SinkSite at 42:5) and
`cross_file_sink_cap_only_site_leaves_primary_location_none`
(regression guard against cap-only sites surfacing).  All 1566 lib
tests + integration tests pass.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* feat(output): phase 3/5 consume primary sink location in diag + SARIF

When a finding's primary_location (populated in phase 2 from a callee
summary's SinkSite) names the dangerous instruction inside a callee
body, attribute the diagnostic line to that location instead of the
caller's call site. The call site is demoted to a Call step in
flow_steps, and a synthetic Sink step at the primary location is
appended so analysts still see the full trace.

Changes:
- Add scan_root parameter to build_taint_diag so file_rel can be
  resolved back to an absolute path via a shared resolve_file_rel
  helper. Empty file_rel (single-file scans where namespace == "")
  resolves to the file under analysis.
- Extend SinkLocation with snippet, carried from the upstream
  SinkSite so the formatter needs no second file read.
- Relax the ssa_events_to_findings debug_assert to allow empty
  file_rel, which is valid when scan root equals the file itself.
- SARIF: emit data-flow as codeFlows[0].threadFlows[0].locations[];
  locations[0] already reflects the primary sink position via the
  updated diag line/col.

Acceptance: scan on tests/benchmark/corpus/rust/cmdi/cmdi_indirect.rs
now reports line 5 (Command::new) as the primary sink, with the call
site at line 10 visible in flow_steps.

Two expect.json fixtures updated (must_match line_range widened):
- javascript/taint/context_sensitive_call: 12-14 -> 7-14 (line 8 is
  the real sink inside run()).
- rust/cfg/closure_async: 10-10 -> 10-11 (line 11 is Command::new
  inside the closure).

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* feat(bench): phase 4/5 validate primary sink attribution across corpus

Extend the benchmark scorer and ground truth to lock in phase 3's
primary-location behavior, and add fixtures that exercise the new
capability end-to-end.

Scorer (tests/benchmark_test.rs):
- Add optional `expected_call_site_lines: Option<Vec<[usize; 2]>>` on
  Case. When present, score_location_level additionally requires at
  least one flow_step in the finding's evidence trace to fall within
  ±2 of the call-site range. When absent, the check is skipped —
  fully forward-compatible with existing fixtures.
- Retain ±2 tolerance on expected_sink_lines (compared against the
  now-primary Diag.line post-phase-3).

Ground truth edits:
- rs-cmdi-cross-001: expected_sink_lines [8,8] -> [9,9]. Line 8 is the
  transform::wrap call site (a cross-file propagator, not a sink);
  line 9 is Command::new, the real sink. The ±2 tolerance happened to
  mask this stale attribution but it was semantically wrong — phase 4
  is the right time to correct it. Also adds expected_call_site_lines
  [8,8] so the new field is exercised on an existing cross-file case.
- rs-cmdi-003: adds expected_call_site_lines [10,10] (run_cmd call).
  This fixture's sink (Command::new inside run_cmd at line 5) was the
  motivating case for phases 1-3; adding the call-site assertion
  guards against regression to caller-line attribution.

New fixtures:
- rust/cmdi/cmdi_indirect_multisink.rs (rs-cmdi-009): helper run_both
  takes two tainted params and invokes two Command sinks on
  consecutive lines. Locks in that primary line lands inside the
  helper (lines 5-6), not at the caller (line 12). Notes document
  that SinkSite is currently one-per-callee so both findings today
  collapse onto the first sink; expected_sink_lines=[5,6] and
  expected_call_site_lines=[12,12] stay valid either way.
- python/cmdi/cross_indirect_sink/{app.py,helper.py} (py-cmdi-cross-
  004): sink os.system lives in helper.py (cross-file), caller in
  app.py reads env source and calls run_cmd. Verifies phase 3's
  cross-file primary attribution: Diag.path = helper.py, Diag.line =
  5, with app.py:7 recorded in flow_steps as a Call step.

Acceptance:
- `cargo test --test benchmark_test -- --ignored --nocapture` passes.
- rs-cmdi-003 is TP/TP/TP (the target flip FN->TP at LOC). All
  pre-existing TP/TP/TP fixtures remain TP/TP/TP; 2 new fixtures are
  TP/TP/TP.
- Aggregate rule-level: TP=158 FP=10 FN=1 TN=97, P=0.940 R=0.994
  F1=0.966 on the 266-case corpus (was TP=156 FP=10 FN=1 TN=97 on
  264 pre-phase-4, delta is the +2 new cases both resolving TP).
- Full `cargo test` green (1566 lib tests + all integration tests).

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* feat(taint): phase 5/5 lock Finding.primary_location contract via regression test

Add a regression test in src/taint/ssa_transfer.rs that wires up a synthetic
SsaFuncSummary with a SinkSite at other.rs:42:10 and drives the three
emission stages (pick_primary_sink_sites → emit_ssa_taint_events →
ssa_events_to_findings) against a minimal caller SSA body.  Asserts the
resulting Finding.primary_location is exactly that triple.

The existing integration tests in src/taint/tests.rs cover the coarse
FuncSummary path end-to-end through analyse_file.  This test locks in the
lower-level SSA-side plumbing so a future refactor that silently drops the
site between pick → emit → findings fails here rather than only at the
benchmark layer.

Also refreshes tests/benchmark/results/latest.json (timestamp only; rs-cmdi-003
remains TP/TP/TP and the aggregate P/R/F1 are unchanged from phase 4).

Closes the primary sink-location attribution feature (phases 1-5/5):
* Phase 1 — SinkSite data model on summaries.
* Phase 2 — SinkSite threaded into SsaTaintEvent and Finding.
* Phase 3 — diag + SARIF consume primary_location.
* Phase 4 — benchmark validates primary_call_site_lines across corpus.
* Phase 5 — regression test locks the event→finding contract.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* refactor: clean up formatting and improve readability in multiple files

* refactor: simplify type definition for deduplication key in findings

* test(harness): add must_not_match expectation for FP regression guards

Extends ExpectedFinding with must_not_match field that asserts a
diagnostic must NOT fire — presence is a hard failure. Non-consuming
scan so it coexists with must_match entries on the same rule_id.
Adds forbidden_violations accumulator and updates summary line.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* feat(regression): update expectations to ensure must_not_match for various taint and resource leak rules

* feat: implement auto-seeding for JS/TS handler parameters to enhance taint tracking

* feat: update switch statement handling to improve control flow analysis

* feat: implement promisify alias handling for JS/TS to enhance taint tracking

* feat: enhance taint tracking by refining expectation handling and adding mode filtering

* feat: refine SQL handling in stream processing and enhance auto-seeding for handler parameters

* feat: update taint tracking rules to enforce full mode matching and improve flow analysis

* feat: enhance Ruby subshell handling to improve taint tracking and flow analysis

* feat: update xss_response expectations to refine taint flow analysis and enhance regression guarding

* feat: refine framework detection and update expectation handling for Echo and Sinatra

* feat: implement max_count for taint tracking expectations and deduplicate findings

* feat: add strict_unexpected handling for taint-unsanitised-flow in expectation files

* feat: enhance deduplication of taint-unsanitised-flow findings by collapsing based on line and severity

* feat: add strict_unexpected handling for taint-unsanitised-flow in multiple expectation files

* feat: add structural invariant checks for SSA bodies

* feat: ensure deterministic phi emission order using BTreeSet

* feat: enhance handling of terminators to ensure authoritative flow through successor edges

* feat: enhance Goto terminator handling to ensure all successors are marked executable

* feat: refactor code for improved readability and organization

* feat: simplify predicate checks and enhance readability in SSA handling

* feat: implement per-file parse timeout and enhance file size handling

* feat: migrate analysis engine toggles from environment variables to configuration file

* feat: remove unnecessary whitespace in hostile_input_tests.rs

* feat: remove unnecessary whitespace in hostile_input_tests.rs

* feat: update dependencies and enhance documentation on language maturity

* feat: enhance security headers and improve request body limits

* feat: implement sink capability bits for deduplication and enhance evidence tagging

* feat: implement dynamic activation handling for gated sinks and enhance validation logic

* feat: enhance configuration documentation and clarify inline analysis cache behavior

* feat: implement panic recovery during analysis to continue scans past errors

* feat: add expectations configuration for taint analysis and performance metrics

* feat: enhance error handling and logging during file reading and mutex locking

* feat: add cross-file body loading tests and plumbing for CF-1 phase

* feat: implement cross-file k=1 context-sensitive inline taint analysis with new tests and fixtures

* feat: implement indexed-scan parity in cross-file inline analysis with new dropdown and copy functionality

* feat: enhance classification span handling in CFG and AST for improved source attribution

* feat: add new Express routes for handling user input and telemetry data

* feat: implement ternary expression handling in CFG with diamond structure for JS/TS

* feat: implement Phase CF-3 abstract-domain transfer channels in summaries

* feat: add support for string-prefix transfer in cross-file calls and update tests

* docs: reduce RESULTS.md doc size

* feat: implement Phase CF-4 per-return-path summary decomposition with tests

* feat: update parameter handling in pass1 and refactor SsaFuncSummary initialization

* feat: implement Phase CF-5 for cross-file SCC joint fixed-point convergence with new flags and tests

* feat: implement Phase CF-6 with parameter-granularity points-to summaries and associated tests

* refactor: update comments and documentation for clarity and consistency

* style: format code for consistency and readability

* refactor: simplify verdict handling and improve edge checking logic

* refactor: optimize path and identifier collection by avoiding unnecessary cloning

* chore: update Cargo.toml for Rust version 1.85 and add ignored files; modify CHANGELOG and README for clarity on state analysis defaults

* refactor: update documentation and improve clarity in configuration files

* refactor: update documentation and improve clarity in configuration files

* feat: add JS/TS pass-2 convergence tests and expectations configuration

* feat: add Phase 5 regression tests for inline cache origin attribution and update related logic

* feat: implement Phase 7 deduplication and alternative path linking for taint findings

* feat: implement structural DFS index for anonymous functions and update naming conventions

* feat: add Phase 8 regression tests for container-element taint in JS and Python

* feat: add engine-depth profiles and explain-engine option for CLI

* feat: update expectations and add new README fixtures for multi-file scan regression

* feat: implement Phase 11 callback-alias and factory patterns with regression tests

* feat: implement Terminator::Switch for multi-way dispatch and add regression tests

* feat: add real-CVE benchmark fixtures for CVE-2023-48022, CVE-2019-14939, and CVE-2023-26159 with corresponding patched variants

* refactor: extract cfg and ssa_transfer to submodules

* refactor: cargo fmt

* refactor: remove unnecessary blank line in cfg_tests.rs

* refactor: remove unnecessary planning file

* chore: update Rust version to 1.88 and bump dependencies in Cargo files

* feat: enhance triage UI with new layout and controls, update README for clarity

* feat: enhance triage UI with new layout and controls, update README for clarity

* chore: remove outdated section from README for version 0.5.0

* docs: improve clarity and consistency in README content

* chore: add "GPL-3.0-or-later" to license options in about.toml

* chore: update license handling in about.toml and check-licenses.mjs

* style: format code for improved readability in TriagePage component

* style: format code for improved readability in TriagePage component

* chore: enhance license handling and improve body_id scoping in seed lookup

* feat: introduce owner and parent body IDs for enhanced seed scoping

* feat: implement direction-aware engine provenance with new CLI flag for strict CI gating

* feat: add Undef SSA operation for improved control-flow handling

* style: improve code formatting for consistency and readability in multiple files

* feat: add 16-function chain SCC across multiple files for enhanced analysis

* style: simplify code formatting for improved readability in multiple files

* fix: update CapHitReason default implementation and improve README clarity

* docs: enhance README with detailed explanations of taint analysis and limitations

* docs: refine README for clarity and consistency in taint analysis section

* style: improve code formatting for better readability in NewScanModal and scans

* fix: update cargo-about command to use --offline for deterministic license generation

* fix: update cargo-about command to use --offline for deterministic license generation

* ci: add step to prime cargo registry cache for deterministic license generation

* feat: add support for non-sink collections in authorization analysis

* feat: enhance authorization checks with row-level ownership equality and binding tracking

* feat: implement self-scoped user handling and enhance ownership checks

* refactor: simplify assertions and formatting in authorization analysis tests

* fix: normalize line endings in THIRDPARTY-LICENSES.html generation and update README with AI disclosure

* docs: update AI disclosure section for clarity and conciseness

* feat: add AI Contribution Policy and update contributing guidelines for AI assistance disclosure

* feat: enhance authorization analysis with SSA-derived variable type classification

* feat: implement auth_finding_to_diag function for enhanced security diagnostics

* feat: add args_value_refs to CallSite struct for enhanced argument tracking

* feat: add args_value_refs to CallSite struct for enhanced argument tracking

* feat: add direction-aware engine provenance with LossDirection classification and new CLI flag

* feat: simplify strip_cap_from_call_args call by removing unnecessary line breaks

* feat: enhance error message handling in cli_validation_tests for better Windows compatibility

* feat: optimize release profile settings in Cargo.toml and update CodeQL configuration

* feat: enhance release build process with SBOM generation and SLSA provenance

* feat: update actions/checkout and actions/setup-node to v6, enhance CLI options, and improve auth-check summaries

* feat: introduce PathFact handling for path safety checks and rejection logic

* feat: introduce PathFact handling for path safety checks and rejection logic

* feat: update benchmark data and enhance path sanitization logic with new safety checks

* feat: document AI assistance in frontend UI development and human review process

* feat: add return path facts for enhanced path safety checks and update documentation

* chore: update release date for version 0.5.0 in CHANGELOG.md

* chore: clean up ci.yml by removing outdated comments and clarifying steps

* feat: implement cross-language path sanitizers and validators for enhanced security

* feat: enhance SSA value usage tracking by including block terminators and improve path safety checks

* feat: enhance switch statement handling by adding per-case path constraints and support for exclusive cases

* refactor: simplify conditional formatting and improve code readability in executor and lower modules

* feat: add vulnerable examples for various languages demonstrating authentication and sanitization issues

* feat: enhance actor context recognition for self-actor identifiers and add support for global non-sink receivers

* feat: enhance actor context recognition for self-actor identifiers and add support for global non-sink receivers

* feat: add transform classifiers for Java, Go, and Ruby with corresponding tests

* refactor: clarify comments on reassign-to-constant idiom and sink behavior in guards.rs

---------

Co-authored-by: Copilot <198982749+Copilot@users.noreply.github.com>
Co-authored-by: Copilot Autofix powered by AI <62310815+github-advanced-security[bot]@users.noreply.github.com>
Co-authored-by: Claude Opus 4.7 <noreply@anthropic.com>
2026-04-25 17:59:11 -04:00

1105 lines
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mod common;
use nyx_scanner::commands::scan::Diag;
use nyx_scanner::utils::config::{AnalysisMode, Config};
use std::path::PathBuf;
use std::sync::OnceLock;
fn state_fixture_dir() -> PathBuf {
PathBuf::from(env!("CARGO_MANIFEST_DIR"))
.join("tests")
.join("fixtures")
.join("state")
}
fn state_config() -> Config {
let mut cfg = common::test_config(AnalysisMode::Full);
cfg.scanner.enable_state_analysis = true;
cfg.scanner.enable_auth_analysis = true;
cfg
}
/// Scan the fixtures directory once and cache the result for all tests.
/// Every test in this module filters the shared result by filename.
fn scan_all_fixtures() -> &'static Vec<Diag> {
static DIAGS: OnceLock<Vec<Diag>> = OnceLock::new();
DIAGS.get_or_init(|| {
let cfg = state_config();
nyx_scanner::scan_no_index(&state_fixture_dir(), &cfg).expect("scan should succeed")
})
}
// ── Helpers ──────────────────────────────────────────────────────────────
fn state_diags_for(filename: &str) -> Vec<&'static Diag> {
scan_all_fixtures()
.iter()
.filter(|d| d.path.contains(filename) && d.id.starts_with("state-"))
.collect()
}
fn state_ids_for(filename: &str) -> Vec<String> {
state_diags_for(filename)
.iter()
.map(|d| d.id.clone())
.collect()
}
fn has_rule(filename: &str, rule_id: &str) -> bool {
state_diags_for(filename).iter().any(|d| d.id == rule_id)
}
fn has_rule_prefix(filename: &str, prefix: &str) -> bool {
state_diags_for(filename)
.iter()
.any(|d| d.id.starts_with(prefix))
}
fn assert_has(filename: &str, rule_id: &str) {
assert!(
has_rule(filename, rule_id),
"Expected {rule_id} in {filename}.\n Got: {:?}",
state_ids_for(filename)
);
}
fn assert_has_prefix(filename: &str, prefix: &str) {
assert!(
has_rule_prefix(filename, prefix),
"Expected finding starting with `{prefix}` in {filename}.\n Got: {:?}",
state_ids_for(filename)
);
}
fn assert_absent(filename: &str, rule_id: &str) {
assert!(
!has_rule(filename, rule_id),
"Did NOT expect {rule_id} in {filename}.\n Got: {:?}",
state_ids_for(filename)
);
}
fn assert_no_state_findings(filename: &str) {
let found = state_ids_for(filename);
assert!(
found.is_empty(),
"Expected zero state findings in {filename}.\n Got: {:?}",
found
);
}
fn assert_message_contains(filename: &str, rule_id: &str, substr: &str) {
let matching: Vec<_> = state_diags_for(filename)
.into_iter()
.filter(|d| d.id == rule_id)
.collect();
assert!(
matching
.iter()
.any(|d| d.message.as_deref().unwrap_or("").contains(substr)),
"Expected {rule_id} in {filename} with message containing `{substr}`.\n Messages: {:?}",
matching
.iter()
.map(|d| d.message.as_deref().unwrap_or("(none)"))
.collect::<Vec<_>>()
);
}
// ═══════════════════════════════════════════════════════════════════════
// Original basic tests
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn detects_use_after_close() {
assert_has("use_after_close.c", "state-use-after-close");
}
#[test]
fn detects_double_close() {
assert_has("double_close.c", "state-double-close");
}
#[test]
fn detects_resource_leak() {
assert_has_prefix("resource_leak.c", "state-resource-leak");
}
#[test]
fn clean_usage_no_state_findings() {
assert_no_state_findings("clean.c");
}
#[test]
fn state_analysis_disabled_via_flag() {
let mut cfg = common::test_config(AnalysisMode::Full);
cfg.scanner.enable_state_analysis = false;
let diags =
nyx_scanner::scan_no_index(&state_fixture_dir(), &cfg).expect("scan should succeed");
let state: Vec<_> = diags
.iter()
.filter(|d| d.id.starts_with("state-"))
.collect();
assert!(
state.is_empty(),
"State findings should not appear when enable_state_analysis is false.\n Got: {:?}",
state.iter().map(|d| &d.id).collect::<Vec<_>>()
);
}
#[test]
fn cfg_mode_keeps_state_findings() {
let mut cfg = common::test_config(AnalysisMode::Cfg);
cfg.scanner.enable_state_analysis = true;
let diags =
nyx_scanner::scan_no_index(&state_fixture_dir(), &cfg).expect("scan should succeed");
let state: Vec<_> = diags
.iter()
.filter(|d| d.id.starts_with("state-"))
.collect();
assert!(
!state.is_empty(),
"State findings should appear in cfg mode when enable_state_analysis is true."
);
}
#[test]
fn state_and_auth_on_by_default() {
// Both state analysis and auth analysis are on by default.
let cfg = Config::default();
assert!(
cfg.scanner.enable_state_analysis,
"state analysis should be on by default"
);
assert!(
cfg.scanner.enable_auth_analysis,
"auth analysis should be on by default"
);
}
#[test]
fn auth_analysis_disabled_suppresses_auth_findings() {
// When enable_auth_analysis is false, auth findings should not appear.
let mut cfg = common::test_config(AnalysisMode::Full);
cfg.scanner.enable_auth_analysis = false;
let diags =
nyx_scanner::scan_no_index(&state_fixture_dir(), &cfg).expect("scan should succeed");
let auth: Vec<_> = diags
.iter()
.filter(|d| d.id == "state-unauthed-access")
.collect();
assert!(
auth.is_empty(),
"Auth findings should not appear when enable_auth_analysis is false.\n Got: {:?}",
auth.iter().map(|d| &d.id).collect::<Vec<_>>()
);
// But resource findings should still appear
let resource: Vec<_> = diags
.iter()
.filter(|d| {
d.id.starts_with("state-resource")
|| d.id.starts_with("state-use")
|| d.id.starts_with("state-double")
})
.collect();
assert!(
!resource.is_empty(),
"Resource lifecycle findings should still appear when auth is disabled"
);
}
// ═══════════════════════════════════════════════════════════════════════
// (1) May-leak vs must-leak (branch semantics)
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn may_leak_branch_emits_possible_not_definite() {
// Only the true branch closes → OPEN|CLOSED at exit → may-leak.
assert_has("may_leak_branch.c", "state-resource-leak-possible");
assert_absent("may_leak_branch.c", "state-resource-leak");
}
#[test]
fn early_return_may_leak() {
// Early return leaks; normal path closes → OPEN|CLOSED at exit → may-leak.
assert_has("early_return_may_leak.c", "state-resource-leak-possible");
assert_absent("early_return_may_leak.c", "state-resource-leak");
}
#[test]
fn nested_branch_may_leak() {
// Only innermost branch closes → OPEN|CLOSED at exit → may-leak.
assert_has("nested_branch_leak.c", "state-resource-leak-possible");
assert_absent("nested_branch_leak.c", "state-resource-leak");
}
#[test]
fn both_branches_close_no_leak() {
// Both branches close f → CLOSED at exit → no leak.
assert_no_state_findings("both_branches_close.c");
}
// ═══════════════════════════════════════════════════════════════════════
// (2) Loop / back-edge convergence
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn loop_clean_converges_no_findings() {
// Open → loop { read } → close. Back-edge should not prevent convergence.
assert_no_state_findings("loop_clean.c");
}
#[test]
fn loop_use_after_close() {
// Close before loop → read inside loop on converged CLOSED state.
assert_has("loop_use_after_close.c", "state-use-after-close");
}
// ═══════════════════════════════════════════════════════════════════════
// (3) Handle reassignment / overwrite semantics
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn handle_overwrite_silent_per_variable() {
// f = fopen("a"); f = fopen("b"); fclose(f).
// The first handle leaks silently because per-variable tracking
// overwrites the old state. No findings because at exit f = CLOSED.
assert_no_state_findings("handle_overwrite.c");
}
#[test]
fn reopen_after_close_is_clean() {
// fopen → fclose → fopen → fclose. Each lifecycle is independent.
assert_no_state_findings("reopen_after_close.c");
}
#[test]
fn multiple_handles_leaks_only_unclosed() {
// f1 closed, f2 leaked.
assert_has("multiple_handles.c", "state-resource-leak");
assert_message_contains("multiple_handles.c", "state-resource-leak", "f2");
// Must NOT blame f1.
let f1_findings: Vec<_> = state_diags_for("multiple_handles.c")
.into_iter()
.filter(|d| {
d.id == "state-resource-leak" && d.message.as_deref().unwrap_or("").contains("f1")
})
.collect();
assert!(
f1_findings.is_empty(),
"f1 is properly closed — should not be reported as leaked.\n Got: {:?}",
f1_findings
.iter()
.map(|d| d.message.as_deref().unwrap_or(""))
.collect::<Vec<_>>()
);
}
// ═══════════════════════════════════════════════════════════════════════
// (4) Conservative join behaviour (branch masks path-specific bugs)
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn double_close_branch_conservative_no_event() {
// if (cond) fclose(f); fclose(f);
// True path is double-close, false path is single-close.
// Joined state at the second fclose is OPEN|CLOSED → NOT CLOSED-only.
// Engine correctly refuses to flag when it's ambiguous.
assert_absent("double_close_branch.c", "state-double-close");
}
#[test]
fn use_closed_branch_conservative_no_event() {
// if (cond) fclose(f); fread(f);
// True path is use-after-close, false path is clean use.
// Joined state at fread is OPEN|CLOSED → NOT CLOSED-only.
assert_absent("use_closed_branch.c", "state-use-after-close");
// However, the false path never closes → may-leak at exit.
assert_has("use_closed_branch.c", "state-resource-leak-possible");
}
// ═══════════════════════════════════════════════════════════════════════
// (5) Additional edge cases
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn chain_ops_clean() {
// fopen → fread → fwrite → fread → fclose. Multiple uses do not
// corrupt lifecycle state.
assert_no_state_findings("chain_ops.c");
}
#[test]
fn malloc_free_clean() {
// Tests the memory resource pair (malloc→free).
assert_no_state_findings("malloc_free_clean.c");
}
#[test]
fn malloc_leak() {
// malloc without free.
assert_has("malloc_leak.c", "state-resource-leak");
}
#[test]
fn double_close_straight_fires() {
// Straight-line fclose → fclose (no branching). Converged state is
// definitely CLOSED at the second fclose.
assert_has("double_close_straight.c", "state-double-close");
}
// ═══════════════════════════════════════════════════════════════════════
// (6) Cross-cutting: message field populated
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn findings_carry_messages() {
// Every state finding should have a non-empty message.
for d in scan_all_fixtures() {
if d.id.starts_with("state-") {
assert!(
d.message.as_ref().is_some_and(|m| !m.is_empty()),
"State finding {} at {}:{} has no message",
d.id,
d.path,
d.line
);
}
}
}
// ═══════════════════════════════════════════════════════════════════════
// (7) Python resource lifecycle
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn python_file_leak() {
assert_has_prefix("python_file_open_no_close.py", "state-resource-leak");
}
#[test]
fn python_file_clean() {
assert_no_state_findings("python_file_open_close.py");
}
#[test]
fn python_double_close() {
assert_has("python_double_close.py", "state-double-close");
}
#[test]
fn python_use_after_close() {
assert_has("python_use_after_close.py", "state-use-after-close");
}
#[test]
fn python_with_statement_suppressed() {
// Python `with` context manager guarantees cleanup via __exit__.
// The managed_resource flag on the acquire node suppresses false leaks.
assert_no_state_findings("python_with_statement.py");
}
#[test]
fn python_with_nested_safe_and_leak() {
let findings = state_diags_for("python_with_nested.py");
let leaks: Vec<_> = findings
.iter()
.filter(|d| d.id.starts_with("state-resource-leak"))
.collect();
// The bare open() in outside_leak should still produce a leak.
assert!(!leaks.is_empty(), "Expected leak for bare open()");
// with-block resources should not appear in leak findings.
for leak in &leaks {
let msg = leak.message.as_deref().unwrap_or("");
assert!(
!msg.contains("reader") && !msg.contains("writer"),
"with-block resources should be suppressed, got: {msg}",
);
}
}
// ═══════════════════════════════════════════════════════════════════════
// (8) JavaScript resource lifecycle
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn js_fs_open_no_close() {
assert_has_prefix("js_fs_open_no_close.js", "state-resource-leak");
}
#[test]
fn js_fs_open_close() {
assert_no_state_findings("js_fs_open_close.js");
}
#[test]
fn js_fs_use_after_close() {
assert_has("js_fs_use_after_close.js", "state-use-after-close");
}
// ═══════════════════════════════════════════════════════════════════════
// (8b) Java resource lifecycle
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn java_twr_no_false_leak() {
// Java try-with-resources guarantees AutoCloseable.close() is called.
// The managed_resource flag on the acquire node suppresses false leaks.
// The fixture also contains unsafeManual() which genuinely leaks —
// only verify that the TWR function's acquire (line 5) doesn't leak.
let findings = state_diags_for("java_try_with_resources.java");
let twr_leaks: Vec<_> = findings
.iter()
.filter(|d| d.id.starts_with("state-resource-leak") && d.line <= 8)
.collect();
assert!(
twr_leaks.is_empty(),
"Expected zero resource-leak findings in TWR function (lines 1-8), got: {:?}",
twr_leaks
.iter()
.map(|d| (&d.id, d.line))
.collect::<Vec<_>>()
);
// unsafeManual (lines 10-13) is a genuine leak — verify it's detected
assert!(
findings
.iter()
.any(|d| d.id == "state-resource-leak" && d.line > 8),
"Expected state-resource-leak for unsafeManual"
);
}
// ═══════════════════════════════════════════════════════════════════════
// (8b-2) Java constructor callee fix
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn java_file_stream_leak() {
assert_has_prefix("java_file_stream_leak.java", "state-resource-leak");
}
#[test]
fn java_file_stream_clean() {
assert_no_state_findings("java_file_stream_clean.java");
}
#[test]
fn java_double_close_constructor() {
assert_has("java_double_close.java", "state-double-close");
}
#[test]
fn java_db_connection_leak() {
assert_has_prefix("java_db_connection_leak.java", "state-resource-leak");
}
// ═══════════════════════════════════════════════════════════════════════
// (8c) Go resource lifecycle — defer
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn go_defer_close_no_findings() {
// Go `defer f.Close()` guarantees cleanup at function exit.
// Should produce zero state findings (no use-after-close, no leak).
assert_no_state_findings("go_defer_close.go");
}
#[test]
fn go_defer_missing_leak() {
// No close at all — should produce resource leak.
assert_has_prefix("go_defer_missing.go", "state-resource-leak");
}
#[test]
fn go_no_defer_manual_close_clean() {
// Manual close at end of function — no leak.
assert_no_state_findings("go_no_defer_manual_close.go");
}
// ═══════════════════════════════════════════════════════════════════════
// (9) Auth — unauthed access detection
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn auth_unprotected_handler_fires() {
assert_has("auth_unprotected_handler.js", "state-unauthed-access");
}
#[test]
fn auth_protected_handler_clean() {
assert_absent("auth_protected_handler.js", "state-unauthed-access");
}
#[test]
fn auth_not_a_handler_no_finding() {
// process_data() is not a web handler (process_* demoted to weak,
// param "batch" is not a web param).
assert_no_state_findings("auth_not_a_handler.py");
}
#[test]
fn auth_negated_condition_does_not_elevate() {
// if (!is_authenticated) { exec(...) } — negated condition.
// True branch is the unauthenticated path; auth must NOT be elevated.
assert_has("auth_negated_condition.js", "state-unauthed-access");
}
#[test]
fn auth_main_not_handler() {
// main() is explicitly excluded from web entrypoint detection.
assert_no_state_findings("auth_main_not_handler.js");
}
#[test]
fn auth_api_version_not_handler() {
// api_version_string() matches api_* but has no web params (demoted
// from strong name). No privileged sink either.
assert_no_state_findings("auth_api_version_not_handler.js");
}
#[test]
fn auth_substring_in_condition_no_false_elevate() {
// "not_is_authenticated_cache" must NOT match "is_authenticated".
// Handler + sink + no real auth = finding fires (regression lock).
assert_has("auth_substring_false_match.js", "state-unauthed-access");
}
// ═══════════════════════════════════════════════════════════════════════
// (10) Rust RAII suppression
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn rust_raii_file_no_leak() {
// File::open uses RAII drop — managed_resource suppresses leak.
assert_no_state_findings("rust_raii_file_no_leak.rs");
}
#[test]
fn rust_box_owned_no_leak() {
// Box::new owns the value, RAII cleans up.
assert_no_state_findings("rust_box_owned.rs");
}
#[test]
fn rust_explicit_drop_no_leak() {
// drop(f) is an explicit release — no leak.
assert_no_state_findings("rust_explicit_drop.rs");
}
#[test]
fn rust_unsafe_alloc_clean() {
// alloc + dealloc — properly paired, no findings.
assert_no_state_findings("rust_unsafe_alloc_clean.rs");
}
#[test]
fn rust_unsafe_alloc_leak() {
// alloc without dealloc — NOT RAII-managed, leak expected.
assert_has_prefix("rust_unsafe_alloc_leak.rs", "state-resource-leak");
}
// ═══════════════════════════════════════════════════════════════════════
// (11) C++ new/delete lifecycle
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn cpp_new_leak() {
// new without delete → leak.
assert_has_prefix("cpp_new_delete_leak.cpp", "state-resource-leak");
}
#[test]
fn cpp_new_delete_clean() {
// new + delete → no findings.
assert_no_state_findings("cpp_new_delete_clean.cpp");
}
#[test]
fn cpp_smart_ptr_no_leak() {
// make_unique → managed_resource, no leak.
assert_no_state_findings("cpp_smart_ptr_no_leak.cpp");
}
#[test]
fn cpp_smart_ptr_scope_exit() {
// make_unique with return — RAII cleanup at scope exit.
assert_no_state_findings("cpp_smart_ptr_scope_exit.cpp");
}
#[test]
fn cpp_unique_ptr_from_raw() {
// unique_ptr(new int(42)) — the constructor wraps a raw new.
// The unique_ptr constructor is not a tracked acquire, so no leak
// from the outer call. The inner `new` might or might not be visible
// depending on callee extraction depth. At minimum: no false alarm.
let findings = state_diags_for("cpp_unique_ptr_from_raw.cpp");
let leaks: Vec<_> = findings
.iter()
.filter(|d| d.id.starts_with("state-resource-leak"))
.collect();
// We accept zero or one leak finding. If the inner `new` is
// extracted, a leak is tolerable (the engine cannot see the
// unique_ptr ownership wrapper). No double-count or crash.
assert!(
leaks.len() <= 1,
"Expected at most 1 leak finding, got {:?}",
leaks.iter().map(|d| &d.id).collect::<Vec<_>>()
);
}
#[test]
fn cpp_alias_before_delete() {
// p = new; q = p; delete q — tests ownership transfer semantics.
// The assignment transfer moves lifecycle from p to q.
// After delete q, the resource is closed.
// At exit: q = CLOSED, p = MOVED → no leak.
let findings = state_diags_for("cpp_alias_before_delete.cpp");
// Should not produce a definite leak for p (it was moved to q).
let definite_leaks: Vec<_> = findings
.iter()
.filter(|d| d.id == "state-resource-leak")
.collect();
assert!(
definite_leaks.is_empty(),
"Alias-then-delete should not produce definite leak, got {:?}",
definite_leaks
.iter()
.map(|d| d.message.as_deref().unwrap_or(""))
.collect::<Vec<_>>()
);
}
#[test]
fn cpp_new_double_delete() {
// new + delete + delete → double-close.
assert_has("cpp_new_double_delete.cpp", "state-double-close");
}
// ═══════════════════════════════════════════════════════════════════════
// (12) PHP resource lifecycle
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn php_fopen_leak() {
assert_has_prefix("php_fopen_no_close.php", "state-resource-leak");
}
#[test]
fn php_fopen_close() {
assert_no_state_findings("php_fopen_close.php");
}
// ═══════════════════════════════════════════════════════════════════════
// (12b) PHP OOP constructor fix
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn php_mysqli_leak() {
assert_has_prefix("php_mysqli_leak.php", "state-resource-leak");
}
#[test]
fn php_mysqli_clean() {
assert_no_state_findings("php_mysqli_clean.php");
}
#[test]
fn php_curl_use_after_close() {
assert_has("php_curl_use_after_close.php", "state-use-after-close");
}
// ═══════════════════════════════════════════════════════════════════════
// (13) Ruby resource lifecycle
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn ruby_file_open_leak() {
assert_has_prefix("ruby_file_open_no_close.rb", "state-resource-leak");
}
#[test]
fn ruby_file_open_close() {
assert_no_state_findings("ruby_file_open_close.rb");
}
#[test]
fn ruby_double_close() {
assert_has("ruby_double_close.rb", "state-double-close");
}
#[test]
fn ruby_use_after_close() {
assert_has("ruby_use_after_close.rb", "state-use-after-close");
}
#[test]
fn ruby_pg_connection_leak() {
assert_has_prefix("ruby_pg_connection_leak.rb", "state-resource-leak");
}
// ═══════════════════════════════════════════════════════════════════════
// (14) TypeScript resource lifecycle
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn ts_fs_open_no_close() {
assert_has_prefix("ts_fs_open_no_close.ts", "state-resource-leak");
}
#[test]
fn ts_fs_open_close() {
assert_no_state_findings("ts_fs_open_close.ts");
}
#[test]
fn ts_stream_use_after_destroy() {
assert_has("ts_stream_use_after_destroy.ts", "state-use-after-close");
}
// ═══════════════════════════════════════════════════════════════════════
// (15) Edge-case regression tests
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn variable_shadowing_known_limitation() {
// Inner-scope fclose(f) masks outer-scope f within the same function.
// Known limitation: SymbolInterner scopes by enclosing function, not
// lexical block. Block-level shadowing is out of scope.
assert_no_state_findings("variable_shadowing.c");
}
#[test]
fn multi_function_isolation_c() {
// funcA opens f and never closes it (leak).
// funcB opens f and closes it (clean).
// With function-scoped interning, funcB's close must NOT mask funcA's leak.
let ids = state_ids_for("multi_function_isolation.c");
// funcA's leak must be detected
assert!(
ids.iter().any(|id| id.starts_with("state-resource-leak")),
"expected state-resource-leak for funcA, got: {ids:?}"
);
// funcB must NOT produce false positives (no double-close, no use-after-close)
assert!(
!ids.iter().any(|id| id == "state-double-close"),
"funcB must not produce state-double-close: {ids:?}"
);
assert!(
!ids.iter().any(|id| id == "state-use-after-close"),
"funcB must not produce state-use-after-close: {ids:?}"
);
}
#[test]
fn multi_function_isolation_rb() {
// func_a opens f and never closes it (leak).
// func_b opens f and closes it (clean).
let ids = state_ids_for("multi_function_isolation.rb");
assert!(
ids.iter().any(|id| id.starts_with("state-resource-leak")),
"expected state-resource-leak for func_a, got: {ids:?}"
);
assert!(
!ids.iter().any(|id| id == "state-double-close"),
"func_b must not produce state-double-close: {ids:?}"
);
assert!(
!ids.iter().any(|id| id == "state-use-after-close"),
"func_b must not produce state-use-after-close: {ids:?}"
);
}
#[test]
fn resource_as_function_arg_still_leaks() {
// f is opened in caller() and passed to helper() but never closed.
// State analysis is intra-function, so caller() sees fopen without fclose.
assert_has_prefix("resource_as_arg.c", "state-resource-leak");
}
#[test]
fn resource_returned_from_factory() {
// Factory function: fopen result is returned to caller — not a leak.
assert_no_state_findings("resource_returned.c");
}
#[test]
fn returned_on_one_path_leaked_on_another() {
// Resource returned on one branch, leaked on another — still a finding.
assert_has(
"returned_on_one_path_leaked_on_another.c",
"state-resource-leak-possible",
);
}
#[test]
fn returned_on_all_success_paths() {
// Resource returned on all exit paths — no finding.
assert_no_state_findings("returned_on_all_success_paths.c");
}
#[test]
fn return_null_after_open_without_close() {
// Opens resource then returns NULL — definite leak.
assert_has(
"return_null_after_open_without_close.c",
"state-resource-leak",
);
}
#[test]
fn factory_leak_not_returned() {
// Opens resource, returns integer — resource leaked.
assert_has_prefix("factory_leak_not_returned.c", "state-resource-leak");
}
#[test]
fn loop_reopen_clean() {
// Each loop iteration opens and closes the file — clean at exit.
assert_no_state_findings("loop_reopen.c");
}
// ═══════════════════════════════════════════════════════════════════════
// (16) Expanded resource pairs
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn java_prepared_stmt_leak() {
assert_has_prefix("java_prepared_stmt_leak.java", "state-resource-leak");
}
#[test]
fn java_prepared_stmt_clean() {
assert_no_state_findings("java_prepared_stmt_clean.java");
}
#[test]
fn java_server_socket_leak() {
assert_has_prefix("java_server_socket_leak.java", "state-resource-leak");
}
#[test]
fn python_sqlite_leak() {
assert_has_prefix("python_sqlite_leak.py", "state-resource-leak");
}
#[test]
fn python_sqlite_clean() {
assert_no_state_findings("python_sqlite_clean.py");
}
#[test]
fn js_mysql_connection_leak() {
assert_has_prefix("js_mysql_connection_leak.js", "state-resource-leak");
}
#[test]
fn js_mysql_connection_clean() {
assert_no_state_findings("js_mysql_connection_clean.js");
}
#[test]
fn js_websocket_leak() {
assert_has_prefix("js_websocket_leak.js", "state-resource-leak");
}
#[test]
fn go_sql_open_leak() {
assert_has_prefix("go_sql_open_leak.go", "state-resource-leak");
}
#[test]
fn go_sql_open_clean() {
assert_no_state_findings("go_sql_open_clean.go");
}
#[test]
fn php_pg_connect_leak() {
assert_has_prefix("php_pg_connect_leak.php", "state-resource-leak");
}
#[test]
fn php_fsockopen_leak() {
assert_has_prefix("php_fsockopen_leak.php", "state-resource-leak");
}
#[test]
fn ruby_tempfile_leak() {
assert_has_prefix("ruby_tempfile_leak.rb", "state-resource-leak");
}
// ═══════════════════════════════════════════════════════════════════════
// (17) Expanded auth detection
// ═══════════════════════════════════════════════════════════════════════
#[test]
fn auth_false_positive_token() {
// generateToken() is NOT an auth check — finding should fire
assert_has("auth_false_positive_token.js", "state-unauthed-access");
}
#[test]
fn auth_decode_token_not_auth() {
// decodeToken() parses but does not enforce auth — finding should fire
assert_has("auth_decode_token_not_auth.js", "state-unauthed-access");
}
#[test]
fn auth_jwt_verify_protected() {
// jwt.verify() in condition is a recognized auth check
assert_absent("auth_jwt_verify_protected.js", "state-unauthed-access");
}
#[test]
fn auth_ensure_authenticated() {
// ensureAuthenticated() call is a recognized auth check
assert_absent("auth_ensure_authenticated.js", "state-unauthed-access");
}
#[test]
fn auth_require_role_protected() {
// requireRole() call is a recognized auth check
assert_absent("auth_require_role_protected.js", "state-unauthed-access");
}
#[test]
fn auth_decorator_python_login_required() {
// @login_required seeds AuthLevel::Authed at function entry — the
// privileged sink inside should not trip state-unauthed-access.
assert_absent(
"auth_decorator_python_login_required.py",
"state-unauthed-access",
);
}
#[test]
fn auth_decorator_python_permission_required() {
// @permission_required with a string argument is also recognized.
assert_absent(
"auth_decorator_python_permission_required.py",
"state-unauthed-access",
);
}
#[test]
fn auth_decorator_python_admin_suppresses() {
// @admin_required classifies as AuthLevel::Admin and suppresses the sink.
assert_absent("auth_decorator_python_admin.py", "state-unauthed-access");
}
#[test]
fn auth_decorator_python_non_auth_still_fires() {
// @app.route / @functools.lru_cache are NOT auth markers — the finding
// must still fire on the unprotected handler.
assert_has("auth_decorator_python_non_auth.py", "state-unauthed-access");
}
#[test]
fn auth_decorator_js_use_guards() {
// @UseGuards(AuthGuard) — AuthGuard in the argument list is the real
// auth marker, matched by JS_AUTH matchers.
assert_absent("auth_decorator_js_use_guards.ts", "state-unauthed-access");
}
#[test]
fn auth_decorator_js_non_auth_still_fires() {
// @Injectable / @Get are routing/DI decorators — not auth markers.
assert_has("auth_decorator_js_non_auth.ts", "state-unauthed-access");
}
#[test]
fn auth_decorator_java_preauthorize() {
assert_absent(
"auth_decorator_java_preauthorize.java",
"state-unauthed-access",
);
}
#[test]
fn auth_decorator_java_non_auth_still_fires() {
// @Override is structural.
assert_has("auth_decorator_java_non_auth.java", "state-unauthed-access");
}
#[test]
fn auth_decorator_ruby_before_action() {
// before_action :authenticate_user! at class-body scope protects every
// method in the class.
assert_absent(
"auth_decorator_ruby_before_action.rb",
"state-unauthed-access",
);
}
#[test]
fn auth_decorator_ruby_no_filter_still_fires() {
assert_has("auth_decorator_ruby_no_filter.rb", "state-unauthed-access");
}
#[test]
fn auth_decorator_ruby_before_action_only_excludes() {
// `before_action :auth, only: [:create]` — method `index` is NOT in the
// only-list, so the filter does not apply and the sink fires.
assert_has(
"auth_decorator_ruby_before_action_only.rb",
"state-unauthed-access",
);
}
#[test]
fn auth_decorator_ruby_before_action_only_includes() {
// Same filter — method `create` IS in the only-list, so the filter
// applies and the sink does not fire.
assert_absent(
"auth_decorator_ruby_before_action_only_match.rb",
"state-unauthed-access",
);
}
#[test]
fn auth_decorator_ruby_before_action_except_fires() {
// `before_action :auth, except: [:index]` — method `index` IS in the
// except-list, so the filter is skipped and the sink fires.
assert_has(
"auth_decorator_ruby_before_action_except.rb",
"state-unauthed-access",
);
}
#[test]
fn auth_decorator_ruby_before_action_except_absent() {
// Same filter — method `create` is NOT in the except-list, so the filter
// applies and the sink does not fire.
assert_absent(
"auth_decorator_ruby_before_action_except_other.rb",
"state-unauthed-access",
);
}
#[test]
fn auth_decorator_rust_require_auth() {
assert_absent(
"auth_decorator_rust_require_auth.rs",
"state-unauthed-access",
);
}
#[test]
fn auth_decorator_rust_non_auth_still_fires() {
// #[inline] is NOT an auth attribute.
assert_has("auth_decorator_rust_non_auth.rs", "state-unauthed-access");
}
#[test]
fn auth_decorator_php_is_granted() {
assert_absent("auth_decorator_php_is_granted.php", "state-unauthed-access");
}
#[test]
fn auth_decorator_cpp_authenticated() {
assert_absent(
"auth_decorator_cpp_authenticated.cpp",
"state-unauthed-access",
);
}
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