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fallow_api/
explain.rs

1//! Metric and rule definitions for explainable CLI output.
2//!
3//! Provides structured metadata that describes what each metric, threshold,
4//! and rule means, consumed by the `_meta` object in JSON output and by
5//! SARIF `fullDescription` / `helpUri` fields.
6
7use serde_json::Value;
8
9const DOCS_BASE: &str = "https://docs.fallow.tools";
10
11/// Rule definition for SARIF `fullDescription` and JSON `_meta`.
12pub struct RuleDef {
13    pub id: &'static str,
14    /// Coarse category label used by the sticky PR/MR comment renderer to
15    /// group findings into collapsible sections (Dead code, Dependencies,
16    /// Duplication, Health, Architecture, Suppressions). One source of
17    /// truth so the CodeClimate / SARIF / review-envelope path and the
18    /// renderer never drift; a unit test below asserts every RuleDef has
19    /// a non-empty category.
20    pub category: &'static str,
21    pub name: &'static str,
22    pub short: &'static str,
23    pub full: &'static str,
24    pub docs_path: &'static str,
25}
26
27pub const CHECK_RULES: &[RuleDef] = &[
28    RuleDef {
29        id: "fallow/unused-file",
30        category: "Dead code",
31        name: "Unused Files",
32        short: "File is not reachable from any entry point",
33        full: "Source files that are not imported by any other module and are not entry points (scripts, tests, configs). These files can safely be deleted. Detection uses graph reachability from configured entry points.",
34        docs_path: "explanations/dead-code#unused-files",
35    },
36    RuleDef {
37        id: "fallow/unused-export",
38        category: "Dead code",
39        name: "Unused Exports",
40        short: "Export is never imported",
41        full: "Named exports that are never imported by any other module in the project. Includes both direct exports and re-exports through barrel files. The export may still be used locally within the same file.",
42        docs_path: "explanations/dead-code#unused-exports",
43    },
44    RuleDef {
45        id: "fallow/unused-type",
46        category: "Dead code",
47        name: "Unused Type Exports",
48        short: "Type export is never imported",
49        full: "Type-only exports (interfaces, type aliases, enums used only as types) that are never imported. These do not generate runtime code but add maintenance burden.",
50        docs_path: "explanations/dead-code#unused-types",
51    },
52    RuleDef {
53        id: "fallow/private-type-leak",
54        category: "Dead code",
55        name: "Private Type Leaks",
56        short: "Exported signature references a private type",
57        full: "Exported values or types whose public TypeScript signature references a same-file type declaration that is not exported. Consumers cannot name that private type directly, so the backing type should be exported or removed from the public signature.",
58        docs_path: "explanations/dead-code#private-type-leaks",
59    },
60    RuleDef {
61        id: "fallow/unused-dependency",
62        category: "Dependencies",
63        name: "Unused Dependencies",
64        short: "Dependency listed but never imported",
65        full: "Packages listed in dependencies that are never imported or required by any source file. Framework plugins and CLI tools may be false positives; use the ignore_dependencies config to suppress.",
66        docs_path: "explanations/dead-code#unused-dependencies",
67    },
68    RuleDef {
69        id: "fallow/unused-dev-dependency",
70        category: "Dependencies",
71        name: "Unused Dev Dependencies",
72        short: "Dev dependency listed but never imported",
73        full: "Packages listed in devDependencies that are never imported by test files, config files, or scripts. Build tools and jest presets that are referenced only in config may appear as false positives.",
74        docs_path: "explanations/dead-code#unused-devdependencies",
75    },
76    RuleDef {
77        id: "fallow/unused-optional-dependency",
78        category: "Dependencies",
79        name: "Unused Optional Dependencies",
80        short: "Optional dependency listed but never imported",
81        full: "Packages listed in optionalDependencies that are never imported. Optional dependencies are typically platform-specific; verify they are not needed on any supported platform before removing.",
82        docs_path: "explanations/dead-code#unused-optionaldependencies",
83    },
84    RuleDef {
85        id: "fallow/type-only-dependency",
86        category: "Dependencies",
87        name: "Type-only Dependencies",
88        short: "Production dependency only used via type-only imports",
89        full: "Production dependencies that are only imported via `import type` statements. These can be moved to devDependencies since they generate no runtime code and are stripped during compilation.",
90        docs_path: "explanations/dead-code#type-only-dependencies",
91    },
92    RuleDef {
93        id: "fallow/test-only-dependency",
94        category: "Dependencies",
95        name: "Test-only Dependencies",
96        short: "Production dependency only imported by test files",
97        full: "Production dependencies that are only imported from test files. These can usually move to devDependencies because production entry points do not require them at runtime.",
98        docs_path: "explanations/dead-code#test-only-dependencies",
99    },
100    RuleDef {
101        id: "fallow/unused-enum-member",
102        category: "Dead code",
103        name: "Unused Enum Members",
104        short: "Enum member is never referenced",
105        full: "Enum members that are never referenced in the codebase. Uses scope-aware binding analysis to track all references including computed access patterns.",
106        docs_path: "explanations/dead-code#unused-enum-members",
107    },
108    RuleDef {
109        id: "fallow/unused-class-member",
110        category: "Dead code",
111        name: "Unused Class Members",
112        short: "Class member is never referenced",
113        full: "Class methods and properties that are never referenced outside the class. Private members are checked within the class scope; public members are checked project-wide.",
114        docs_path: "explanations/dead-code#unused-class-members",
115    },
116    RuleDef {
117        id: "fallow/unused-store-member",
118        category: "Dead code",
119        name: "Unused Store Members",
120        short: "Store member is never accessed by any consumer",
121        full: "Pinia store members (a `state` / `getters` / `actions` key, or a setup-store returned key) declared but never accessed by any consumer project-wide. The store binding is imported (so the module is reachable) yet a specific member is dead. Defaults to warn, not error: a store has an open declaration surface (plugins, dynamic dispatch) so confidence is lower. Activates only when pinia or @pinia/nuxt is a declared dependency.",
122        docs_path: "explanations/dead-code#unused-store-members",
123    },
124    RuleDef {
125        id: "fallow/unresolved-import",
126        category: "Dead code",
127        name: "Unresolved Imports",
128        short: "Import could not be resolved",
129        full: "Import specifiers that could not be resolved to a file on disk. Common causes: deleted files, typos in paths, missing path aliases in tsconfig, or uninstalled packages.",
130        docs_path: "explanations/dead-code#unresolved-imports",
131    },
132    RuleDef {
133        id: "fallow/unlisted-dependency",
134        category: "Dependencies",
135        name: "Unlisted Dependencies",
136        short: "Dependency used but not in package.json",
137        full: "Packages that are imported in source code but not listed in package.json. These work by accident (hoisted from another workspace package or transitive dep) and will break in strict package managers.",
138        docs_path: "explanations/dead-code#unlisted-dependencies",
139    },
140    RuleDef {
141        id: "fallow/duplicate-export",
142        category: "Dead code",
143        name: "Duplicate Exports",
144        short: "Export name appears in multiple modules",
145        full: "The same export name is defined in multiple modules. Consumers may import from the wrong module, leading to subtle bugs. Consider renaming or consolidating.",
146        docs_path: "explanations/dead-code#duplicate-exports",
147    },
148    RuleDef {
149        id: "fallow/circular-dependency",
150        category: "Architecture",
151        name: "Circular Dependencies",
152        short: "Circular dependency chain detected",
153        full: "A cycle in the module import graph. Circular dependencies cause undefined behavior with CommonJS (partial modules) and initialization ordering issues with ESM. Break cycles by extracting shared code.",
154        docs_path: "explanations/dead-code#circular-dependencies",
155    },
156    RuleDef {
157        id: "fallow/re-export-cycle",
158        category: "Architecture",
159        name: "Re-Export Cycles",
160        short: "Two or more barrel files re-export from each other in a loop",
161        full: "A barrel file re-exports from another barrel that ultimately re-exports back. When this happens, imports from any file in the loop may silently come up empty, because the re-export chain has no terminating module to resolve names against. To fix this: open any one file in the loop and remove the `export * from` (or `export { ... } from`) statement that points back into the cycle. Any single removal will break the cycle and restore working re-exports. A self-loop (a single barrel re-exporting from itself, often a rename leftover) is reported under the same rule with kind `self-loop`.",
162        docs_path: "explanations/dead-code#re-export-cycles",
163    },
164    RuleDef {
165        id: "fallow/boundary-violation",
166        category: "Architecture",
167        name: "Boundary Violations",
168        short: "Import crosses a configured architecture boundary",
169        full: "A module imports from a zone that its configured boundary rules do not allow. Boundary checks help keep layered architecture, feature slices, and package ownership rules enforceable.",
170        docs_path: "explanations/dead-code#boundary-violations",
171    },
172    RuleDef {
173        id: "fallow/boundary-coverage",
174        category: "Architecture",
175        name: "Boundary Coverage",
176        short: "Source file matches no configured architecture boundary zone",
177        full: "A reachable source file is not assigned to any configured boundary zone while boundaries.coverage.requireAllFiles is enabled. Add the file to a zone pattern, move it under an existing zone, or allow-list generated and intentionally unzoned paths with boundaries.coverage.allowUnmatched.",
178        docs_path: "explanations/dead-code#boundary-violations",
179    },
180    RuleDef {
181        id: "fallow/boundary-call-violation",
182        category: "Architecture",
183        name: "Boundary Call Violation",
184        short: "Zoned file calls a callee its zone forbids",
185        full: "A file classified into a boundary zone calls a callee matching one of the zone's boundaries.calls.forbidden patterns. The check is syntactic: it matches the written callee path and the import-resolved canonical path, and it only applies to files classified into a zone. Move the call behind an allowed abstraction, or adjust the zone's forbidden patterns if the rule was wrong.",
186        docs_path: "explanations/dead-code#boundary-violations",
187    },
188    RuleDef {
189        id: "fallow/policy-violation",
190        category: "Policy",
191        name: "Policy Violation",
192        short: "Banned usage matched a rule-pack rule",
193        full: "A call site, import, or catalogue-derived effect matched a rule from a configured rule pack (the rulePacks config key). Packs are pure declarative data; the check is syntactic, call and effect matching use written plus import-resolved canonical callees, and import matching uses the raw specifier. Replace the banned usage per the rule's message, scope the rule with files/exclude globs, or adjust its severity.",
194        docs_path: "explanations/dead-code#policy-violations",
195    },
196    RuleDef {
197        id: "fallow/stale-suppression",
198        category: "Suppressions",
199        name: "Stale Suppressions",
200        short: "Suppression comment or tag no longer matches any issue",
201        full: "A fallow-ignore-next-line, fallow-ignore-file, or @expected-unused suppression that no longer matches any active issue. The underlying problem was fixed but the suppression was left behind. Remove it to keep the codebase clean.",
202        docs_path: "explanations/dead-code#stale-suppressions",
203    },
204    RuleDef {
205        id: "fallow/missing-suppression-reason",
206        category: "Suppressions",
207        name: "Missing Suppression Reason",
208        short: "Suppression comment omits a required reason",
209        full: "A fallow-ignore-next-line or fallow-ignore-file suppression omits the explanatory reason required by the requireSuppressionReason rule. Add a short reason after the suppression token, or remove the suppression if the issue is no longer intentional.",
210        docs_path: "explanations/dead-code#stale-suppressions",
211    },
212    RuleDef {
213        id: "fallow/unused-catalog-entry",
214        category: "Dependencies",
215        name: "Unused catalog entry",
216        short: "Catalog entry not referenced by any workspace package",
217        full: "An entry in a package manager catalog (`pnpm-workspace.yaml` `catalog:` / `catalogs:` or Bun root `package.json` `workspaces.catalog` / `workspaces.catalogs`) that no workspace package.json references via the `catalog:` protocol. Catalog entries are leftover dependency metadata once a package is removed from every consumer; delete the entry to keep the catalog truthful. See also: fallow/unresolved-catalog-reference (the inverse: consumer references a catalog that does not declare the package).",
218        docs_path: "explanations/dead-code#unused-catalog-entries",
219    },
220    RuleDef {
221        id: "fallow/empty-catalog-group",
222        category: "Dependencies",
223        name: "Empty catalog group",
224        short: "Named catalog group has no entries",
225        full: "A named group under `catalogs:` in `pnpm-workspace.yaml` or Bun root `package.json` has no package entries. Empty named groups are leftover catalog structure after the last entry is removed. The default `catalog` map is intentionally ignored because some projects keep it as a stable hook.",
226        docs_path: "explanations/dead-code#empty-catalog-groups",
227    },
228    RuleDef {
229        id: "fallow/unresolved-catalog-reference",
230        category: "Dependencies",
231        name: "Unresolved catalog reference",
232        short: "package.json references a catalog that does not declare the package",
233        full: "A workspace package.json declares a dependency with the `catalog:` or `catalog:<name>` protocol, but the catalog has no entry for that package. The package manager install will fail until the catalog is fixed. To fix: add the package to the named catalog, switch the reference to a different catalog that does declare it, or remove the reference and pin a hardcoded version. Scope: the detector scans `dependencies`, `devDependencies`, `peerDependencies`, and `optionalDependencies` in every workspace `package.json`, using `pnpm-workspace.yaml` catalogs when present and Bun root `package.json` catalogs otherwise. See also: fallow/unused-catalog-entry (the inverse: catalog entries no consumer references).",
234        docs_path: "explanations/dead-code#unresolved-catalog-references",
235    },
236    RuleDef {
237        id: "fallow/unused-dependency-override",
238        category: "Dependencies",
239        name: "Unused pnpm dependency override",
240        short: "pnpm.overrides entry targets a package not declared or resolved",
241        full: "An entry in `pnpm-workspace.yaml`'s `overrides:` section, or the root `package.json`'s `pnpm.overrides` block, whose target package is not declared by any workspace package and is not present in `pnpm-lock.yaml`. Override entries linger after their target package leaves the resolved dependency tree. For projects without a readable lockfile, fallow falls back to workspace package.json manifests and keeps a `hint` so transitive CVE pins can be reviewed before removal. To fix: delete the entry, refresh `pnpm-lock.yaml` if it is stale, or add the entry to `ignoreDependencyOverrides` when the override is intentionally retained. See also: fallow/misconfigured-dependency-override.",
242        docs_path: "explanations/dead-code#unused-dependency-overrides",
243    },
244    RuleDef {
245        id: "fallow/misconfigured-dependency-override",
246        category: "Dependencies",
247        name: "Misconfigured pnpm dependency override",
248        short: "pnpm.overrides entry has an unparsable key or value",
249        full: "An entry in `pnpm-workspace.yaml`'s `overrides:` or `package.json`'s `pnpm.overrides` whose key or value does not parse as a valid pnpm override spec. Common shapes: empty key, empty value, malformed version selector on the target (`@types/react@<<18`), unbalanced parent matcher (`react>`), or unsupported `npm:alias@` syntax in the version (only the `-`, `$ref`, and `npm:alias` pnpm idioms are allowed). pnpm rejects the workspace at install time with a parser error. To fix: correct the key/value shape, or remove the entry. See also: fallow/unused-dependency-override.",
250        docs_path: "explanations/dead-code#misconfigured-dependency-overrides",
251    },
252    RuleDef {
253        id: "fallow/invalid-client-export",
254        category: "Policy",
255        name: "Invalid client export",
256        short: "\"use client\" file exports a server-only / route-config name",
257        full: "A file carrying the `\"use client\"` directive also exports a Next.js server-only or route-segment config name (such as `metadata`, `generateMetadata`, `revalidate`, `generateStaticParams`, or a route HTTP method like `GET`/`POST`). Next.js rejects this combination at build time. Move the server-only export to a non-client module (a server component, a `route.ts`, or a separate config file), or remove the `\"use client\"` directive if the module does not need to be a client boundary. The check runs only when the project declares `next`.",
258        docs_path: "explanations/dead-code#invalid-client-exports",
259    },
260    RuleDef {
261        id: "fallow/mixed-client-server-barrel",
262        category: "Policy",
263        name: "Mixed client/server barrel",
264        short: "Barrel re-exports both a \"use client\" module and a server-only module",
265        full: "A barrel file (a module whose exports are `export ... from` re-exports) forwards a name from a `\"use client\"` module alongside a name from a server-only module (one carrying `\"use server\"`, importing the `server-only` package, or importing a server-only Next.js API such as `next/headers`). Importing one name from such a barrel drags the other's directive context across the React Server Components boundary, the documented Next.js App Router footgun. Type-only re-exports are ignored (erased at build), and a barrel re-exporting a client module alongside an ordinary undirected utility does NOT flag. To fix: split the barrel so client and server-only modules are re-exported from separate entry points. The check runs only when the project declares `next`.",
266        docs_path: "explanations/dead-code#mixed-client-server-barrels",
267    },
268    RuleDef {
269        id: "fallow/misplaced-directive",
270        category: "Policy",
271        name: "Misplaced directive",
272        short: "\"use client\" / \"use server\" directive is not in the leading position and is ignored",
273        full: "A `\"use client\"` or `\"use server\"` directive string appears as an expression statement after a non-directive statement (an `import`, a `const`). React Server Components bundlers only honor a directive in the leading prologue, before any other statement; once any statement precedes it the string is parsed as an ordinary expression and SILENTLY IGNORED. The intended client/server boundary never takes effect, so the file is treated as a server module. To fix: move the directive to the very top of the file, above every import. The check runs only when the project declares `next`.",
274        docs_path: "explanations/dead-code#misplaced-directives",
275    },
276    RuleDef {
277        id: "fallow/unprovided-inject",
278        category: "Dead code",
279        name: "Unprovided injects",
280        short: "inject() / getContext() reads a key that no provide() / setContext() supplies",
281        full: "A Vue `inject(KEY)` or Svelte `getContext(KEY)` reads a dependency-injection key (an imported or module-local symbol) that no matching `provide(KEY)` / `setContext(KEY)` supplies anywhere in the project. The read resolves to undefined at runtime, surfaced only at render. To fix: add a matching provider for the key, or remove the dead inject. Defaults to warn, not error: a provider may live outside the analyzed graph (an app-level provide registered elsewhere, a plugin, a host application). String-literal keys and keys imported from a package are abstained.",
282        docs_path: "explanations/dead-code#unprovided-injects",
283    },
284    RuleDef {
285        id: "fallow/unrendered-component",
286        category: "Dead code",
287        name: "Unrendered components",
288        short: "A Vue / Svelte component is reachable through a barrel but rendered nowhere",
289        full: "A Vue or Svelte single-file component (the default export of a `.vue` / `.svelte` file) is reachable in the module graph (a barrel re-exports it) but instantiated NOWHERE in the project: no `<Tag>`, no `:is` / `this=` binding, no `components` / `app.component` registration, no `h()` / auto-import use, and no script value-read. It survives unused-file (the barrel keeps it reachable) and unused-export (the re-export counts as a use), yet no file actually renders it. To fix: render the component somewhere, or delete it and drop the dead re-export. Defaults to warn, not error: a component can be rendered reflectively (a dynamic `<component :is>` resolved from a non-literal value), so analyzer confidence is lower. Components that are themselves entry points (route pages, layouts, `App.vue`) and components re-exported from a non-private package entry point are abstained.",
290        docs_path: "explanations/dead-code#unrendered-components",
291    },
292    RuleDef {
293        id: "fallow/unused-component-prop",
294        category: "Dead code",
295        name: "Unused component props",
296        short: "A Vue, Svelte, or React component prop is referenced nowhere in its own component",
297        full: "A declared component prop referenced nowhere inside its own component, in these framework shapes: a Vue `<script setup>` defineProps prop, a Svelte 5 `$props()` prop, or a React/Preact prop destructured from a component's first parameter and read nowhere in its body. Framework type checkers check caller-side prop correctness, not this in-component dead-input direction. Conservative: Vue abstains on `$attrs` fallthrough, whole-object props use, defineExpose, defineModel, and imported prop-type aliases; Svelte abstains on rest, computed, nested, and whole-object `$props()` shapes; React abstains on rest spread (`{...rest}`), props forwarded by spread, props passed wholesale to a hook, `forwardRef` / imported-interface props, and exported public-API component props. Default warn; suppress or remove the prop.",
298        docs_path: "explanations/dead-code#unused-component-props",
299    },
300    RuleDef {
301        id: "fallow/unused-component-emit",
302        category: "Dead code",
303        name: "Unused component emits",
304        short: "A Vue <script setup> defineEmits event is emitted nowhere in its own component",
305        full: "A Vue `<script setup>` defineEmits declared event that is emitted nowhere in its own component (no `emit('<name>')` call). vue-tsc / Volar check caller-side emit correctness, not this in-component dead-output direction. Conservative: abstains on `$attrs` fallthrough, whole-object emit use, defineExpose, defineModel, and imported emit-type aliases. Default warn; suppress or remove the emit.",
306        docs_path: "explanations/dead-code#unused-component-emits",
307    },
308    RuleDef {
309        id: "fallow/unused-component-input",
310        category: "Dead code",
311        name: "Unused component inputs",
312        short: "An Angular @Input() / signal input() / model() input is read nowhere in its own component",
313        full: "An Angular `@Input()` / signal `input()` / `model()` declared input that is read nowhere in its own component (neither the inline / external template nor the class body). The Angular compiler never flags a declared-but-unread `@Input`, and there is no `@angular-eslint` rule for it. Conservative: usage detection over-credits by design (a template sentinel ref, any class-body member access by that name, or a bare identifier read counts as used), and the whole component abstains on an unresolved `extends` heritage clause (a base class in another file may read the input). A `model()` is recorded as an input only. Default warn; suppress or remove the input. The check runs only when the project declares `@angular/core`.",
314        docs_path: "explanations/dead-code#unused-component-inputs",
315    },
316    RuleDef {
317        id: "fallow/unused-component-output",
318        category: "Dead code",
319        name: "Unused component outputs",
320        short: "An Angular @Output() / signal output() output is emitted nowhere in its own component",
321        full: "An Angular `@Output()` / signal `output()` declared output that is emitted nowhere in its own component (no `this.<output>.emit(...)`). The Angular compiler never flags a declared-but-unemitted `@Output`, and there is no `@angular-eslint` rule for it. Conservative: usage detection over-credits by design (a `this.<output>.emit` call site, or any value read of `this.<output>` that might forward it, counts as used), and the whole component abstains on an unresolved `extends` heritage clause. A `model()`-derived implicit output is never flagged. Default warn; suppress or remove the output. The check runs only when the project declares `@angular/core`.",
322        docs_path: "explanations/dead-code#unused-component-outputs",
323    },
324    RuleDef {
325        id: "fallow/unused-svelte-event",
326        category: "Dead code",
327        name: "Unused Svelte events",
328        short: "A Svelte component dispatches a createEventDispatcher event whose name is listened to nowhere in the project",
329        full: "A Svelte component that dispatches a custom event via `createEventDispatcher` (`const dispatch = createEventDispatcher(); dispatch('save')`) whose event name is listened to NOWHERE in the analyzed project. This is the cross-file dead-OUTPUT direction: the component fires an event nothing handles. No native tool covers the listener side: eslint-plugin-svelte and svelte-check are single-file / type-only. fallow builds a project-wide listened-event set from every component-tag `on:<name>` binding (event forwarding, an `on:<name>` with no handler, counts as a listen), then flags a dispatched event whose name is in no listened set. Conservative (zero false positives): the whole component abstains on a dynamic `dispatch(<nonLiteral>)` (the event name is unknowable) or a `dispatch` reference forwarded as a value; a DOM `on:click` on a lowercase element is NOT a custom event and is ignored; and any listener on any component anywhere credits the name (the liberal over-credit, false-negative-safe direction). Default warn; remove the dispatched event or wire a listener. The check runs only when the project declares `svelte`.",
330        docs_path: "explanations/dead-code#unused-svelte-events",
331    },
332    RuleDef {
333        id: "fallow/unused-server-action",
334        category: "Dead code",
335        name: "Unused server actions",
336        short: "A Next.js Server Action exported from a \"use server\" file is referenced by no code in the project",
337        full: "A Next.js Server Action (an export of a `\"use server\"` file) that no code in the project references: no import-and-call, no `action={fn}` JSX binding, no `<form action={fn}>`. This is the cross-graph \"declared but zero consumers\" direction, reclassified out of `unused-export` for `\"use server\"` files so the finding carries the action-specific signal. eslint-plugin-next is single-file and cannot see cross-file usage. It does NOT mean the endpoint is unreachable: Next.js still registers a generated action id, so it stays POST-able; it means no project code references it (likely forgotten or dead, and a candidate for removal to shrink surface area). Default warn; wire the action to a consumer or remove it. The check runs only when the project declares `next`.",
338        docs_path: "explanations/dead-code#unused-server-actions",
339    },
340    RuleDef {
341        id: "fallow/unused-load-data-key",
342        category: "Dead code",
343        name: "Unused load data keys",
344        short: "A SvelteKit load() return-object key is read by no consumer",
345        full: "A SvelteKit route `load()` (in `+page.ts` / `+page.server.ts` and the `.js` variants) returns an object whose keys become the route's `data` prop. A returned key that NO consumer reads is dead: it runs a real server-side fetch / DB cost on every request for data nothing renders. fallow checks two channels: the sibling `+page.svelte`'s `data.<key>` reads (route-pinned), and project-wide `page.data.<key>` (Svelte 5 `$app/state`) / `$page.data.<key>` (Svelte 4 `$app/stores`) reads in any component. `svelte-check` types `data` via generated `$types` but never flags an unread RETURNED key. The detector abstains (never false-flags) on a spread / non-literal / multi-return / computed-key / wrapped `load`, on a sibling that passes the whole `data` object opaquely, on a `+page.server.ts` whose universal `+page.ts` sibling forwards its `data`, and project-wide when any whole-object use of `page.data` / `$page.data` is seen. Default warn; delete the key or wire a consumer. A load fetch can have side effects, so there is no safe auto-fix. The check runs only when the project declares `@sveltejs/kit`.",
346        docs_path: "explanations/dead-code#unused-load-data-keys",
347    },
348    RuleDef {
349        id: "fallow/prop-drilling",
350        category: "Dead code",
351        name: "Prop drilling",
352        short: "A React/Preact prop is forwarded unchanged through 3+ pass-through components to a distant consumer",
353        full: "A React/Preact prop is received by a component, forwarded UNCHANGED to a child, and forwarded again through two or more intermediate \"pass-through\" components until a component that substantively uses it. The high-confidence signal is that the received identifier appears ONLY as the root of forwarded child-JSX attribute values (so `<Child userName={user.name}/>` counts: the prop `user` is projected forward), not the attribute name matching. fallow emits located per-chain records (the source, each pass-through hop, and the consumer with file + line + component name) so CI and an agent can act: colocate the consumer with the data, lift the value to a React context/provider at a mid-chain hop, or compose the component so the intermediates no longer thread the prop. This is a graph-derived health signal, not a correctness error. The rule defaults to OFF (opt-in), like private-type-leak and the security rules: enable it with `prop-drilling: \"warn\"` in `rules`. Zero false positives by construction: any `{...props}` spread, `cloneElement`, element-as-prop / render-prop / children-as-function, or context `*.Provider` anywhere in the chain abstains the whole chain, as does an ambiguous or unresolvable hop. The check runs only when the project declares `react` / `react-dom` / `next` / `preact`.",
354        docs_path: "explanations/dead-code#prop-drilling",
355    },
356    RuleDef {
357        id: "fallow/thin-wrapper",
358        category: "Dead code",
359        name: "Thin wrapper",
360        short: "A React/Preact component whose whole body is a single spread-forwarded child render (a candidate for inlining)",
361        full: "A React/Preact component whose ENTIRE body is structural indirection: it returns exactly one capitalized component element that forwards the component's own props via a bare spread (`return <Child {...props}/>`), with no host-element wrapper, no extra children, no named attributes alongside the spread, no hooks, no branching, and no other statements. Such a component adds nothing of its own: it is a CANDIDATE for inlining at its call sites or deleting, not a correctness error. fallow emits a located per-wrapper record (file + line + the wrapper and child component names) so CI and an agent can act. The rule defaults to OFF (opt-in), like prop-drilling and the security rules: enable it with `thin-wrapper: \"warn\"` in `rules`. Zero false positives by construction: a `forwardRef` / `memo` wrapper (the sanctioned way to make a child ref-able or set a perf boundary), an EXPORTED component (a public-API re-brand / encapsulation), a context `*.Provider` wrapper, a `cloneElement` / render-prop forward, a wrapper that passes ANY named attribute alongside the spread (a fixed configuration), a self-render, or an unresolvable / member-expression child all abstain. A TypeScript-only type-narrowing wrapper (`const StrictButton = (p: StrictProps) => <Button {...p}/>`) is a known limitation under ADR-001's syntactic analysis; suppress it with the inline comment. The check runs only when the project declares `react` / `react-dom` / `next` / `preact`.",
362        docs_path: "explanations/dead-code#thin-wrapper",
363    },
364    RuleDef {
365        id: "fallow/duplicate-prop-shape",
366        category: "Dead code",
367        name: "Duplicate prop shape",
368        short: "Three or more React/Preact components across two or more files declare an identical prop-name set (a missing shared Props type)",
369        full: "Three or more distinct React/Preact components, living in two or more files, whose statically-harvested prop NAME set is byte-for-byte IDENTICAL after (a) excluding a fixed denylist of ubiquitous DOM / render-passthrough prop names (className, style, id, children, key, ref, the common event handlers, plus data-* / aria-* by prefix) and (b) requiring the REMAINING significant set to have four or more members. Identity is over NAMES only, never types (ADR-001 cannot resolve types). This is a structural-refactor health signal: the recurring shape is a missing shared abstraction, so extract one shared `Props` type (or a base component) that every member reuses. It is never a correctness error and never an auto-fix. fallow emits one located record per participating component, each naming the shared `shape`, the `group_size`, and the OTHER members in `sharing_components`. The rule defaults to OFF (opt-in), like thin-wrapper and the security rules: enable it with `duplicate-prop-shape: \"warn\"` in `rules`. Anti-noise gates (defended as rule-of-three plus a denylist-survivor floor, not tuned magic): the four-significant-prop floor turns `{label, onClick}` buttons into non-findings; the three-component floor is the rule-of-three abstraction trigger; the two-file floor keeps a local same-shaped variant pair (a render-prop pair, a Foo/FooImpl split) unflagged. A component whose props are not fully harvestable (a rest/spread signature, a forwardRef/memo over an imported interface) ABSTAINS, because a partial prop set can never be proven identical. Exact full-set identity ONLY: a superset / subset relationship does NOT group, so a four-prop group and a five-prop superset form TWO findings (the price of zero invalid groups: the finding always fits one extracted shared type). The check runs only when the project declares `react` / `react-dom` / `next` / `preact`.",
370        docs_path: "explanations/dead-code#duplicate-prop-shape",
371    },
372    RuleDef {
373        id: "fallow/route-collision",
374        category: "Policy",
375        name: "Route collision",
376        short: "Two or more Next.js App Router route files resolve to the same URL",
377        full: "Two or more App Router route files (a `page` or a `route` handler) resolve to the SAME URL within one app-root. Route groups `(name)` and parallel slots `@name` do not change the URL, so `app/(marketing)/about/page.tsx` and `app/(shop)/about/page.tsx` both own `/about`. Next.js fails the build (\"You cannot have two parallel pages that resolve to the same path\") because a URL can have at most one owner, whether a Page or a Route Handler. fallow surfaces every colliding file at once; the build error names only one. Buckets are scoped per app-root (per workspace package), so a monorepo with several independent Next apps sharing a path is not flagged. Files under a private `_folder` or an intercepting marker `(.)`/`(..)`/`(...)` are excluded. There is no safe auto-fix: move or merge one of the files so each URL has a single owner. The check runs only when the project declares `next`.",
378        docs_path: "explanations/dead-code#route-collisions",
379    },
380    RuleDef {
381        id: "fallow/dynamic-segment-name-conflict",
382        category: "Policy",
383        name: "Dynamic segment name conflict",
384        short: "Sibling Next.js dynamic route segments use different slug names at the same position",
385        full: "Two or more sibling dynamic route segments at the same App Router tree position use different param spellings (`[id]` vs `[slug]`, or a catch-all `[...x]` vs an optional catch-all `[[...x]]`). Next.js throws \"You cannot use different slug names for the same dynamic path\" at dev and production runtime when the position is hit, because one position must resolve to a single param name. `next build` does NOT catch this (the build succeeds), so CI passes while the route crashes on its first request; fallow's static catch closes that gap. Route groups are transparent to the position and parallel slots fork it, so only genuinely-sibling segments conflict. To fix: rename the dynamic segments at the position to one consistent slug name. The check runs only when the project declares `next`.",
386        docs_path: "explanations/dead-code#dynamic-segment-name-conflicts",
387    },
388];
389
390/// Look up a rule definition by its SARIF rule ID across all rule sets.
391#[must_use]
392pub fn rule_by_id(id: &str) -> Option<&'static RuleDef> {
393    CHECK_RULES
394        .iter()
395        .chain(HEALTH_RULES.iter())
396        .chain(DUPES_RULES.iter())
397        .chain(FLAGS_RULES.iter())
398        .chain(SECURITY_RULES.iter())
399        .find(|r| r.id == id)
400}
401
402/// Build the docs URL for a rule.
403#[must_use]
404pub fn rule_docs_url(rule: &RuleDef) -> String {
405    let docs_path = rule_result_meta(rule).map_or(rule.docs_path, |meta| meta.meta_docs_path);
406    format!("{DOCS_BASE}/{docs_path}")
407}
408
409fn rule_result_meta(rule: &RuleDef) -> Option<&'static fallow_types::issue_meta::IssueResultMeta> {
410    let code = rule.id.strip_prefix("fallow/")?;
411    fallow_types::issue_meta::issue_result_meta_by_code(code)
412}
413
414fn rule_explain_name(rule: &RuleDef) -> &'static str {
415    rule_result_meta(rule).map_or(rule.name, |meta| meta.meta_name)
416}
417
418fn rule_explain_summary(rule: &RuleDef) -> &'static str {
419    rule_result_meta(rule).map_or(rule.short, |meta| meta.sarif_description)
420}
421
422/// Extra educational content for the standalone `fallow explain <issue-type>`
423/// command. Kept separate from [`RuleDef`] so SARIF and `_meta` payloads remain
424/// compact while terminal users and agents can ask for worked examples on
425/// demand.
426pub struct RuleGuide {
427    pub example: &'static str,
428    pub how_to_fix: &'static str,
429}
430
431/// Look up an issue type from a user-facing token.
432///
433/// Accepts canonical SARIF ids (`fallow/unused-export`), issue tokens
434/// (`unused-export`), and common CLI filter spellings (`unused-exports`).
435#[must_use]
436pub fn rule_by_token(token: &str) -> Option<&'static RuleDef> {
437    let trimmed = token.trim();
438    if trimmed.is_empty() {
439        return None;
440    }
441    if let Some(rule) = rule_by_id(trimmed) {
442        return Some(rule);
443    }
444    let normalized = trimmed
445        .strip_prefix("fallow/")
446        .unwrap_or(trimmed)
447        .trim_start_matches("--")
448        .replace('_', "-")
449        .split_whitespace()
450        .collect::<Vec<_>>()
451        .join("-");
452    if let Some(rule) = dead_code_registry_rule(&normalized) {
453        return Some(rule);
454    }
455    let alias = health_alias_id(&normalized).or_else(|| security_alias_id(&normalized));
456    if let Some(id) = alias
457        && let Some(rule) = rule_by_id(id)
458    {
459        return Some(rule);
460    }
461    let security_token = normalized.strip_prefix("security-").unwrap_or(&normalized);
462    let security_id = format!("security/{security_token}");
463    if let Some(rule) = rule_by_id(&security_id) {
464        return Some(rule);
465    }
466    let singular = normalized
467        .strip_suffix('s')
468        .filter(|_| normalized != "unused-class")
469        .unwrap_or(&normalized);
470    let singular_security_token = singular.strip_prefix("security-").unwrap_or(singular);
471    let singular_security_id = format!("security/{singular_security_token}");
472    if let Some(rule) = rule_by_id(&singular_security_id) {
473        return Some(rule);
474    }
475    let id = format!("fallow/{singular}");
476    rule_by_id(&id).or_else(|| {
477        CHECK_RULES
478            .iter()
479            .chain(HEALTH_RULES.iter())
480            .chain(DUPES_RULES.iter())
481            .chain(FLAGS_RULES.iter())
482            .chain(SECURITY_RULES.iter())
483            .find(|rule| {
484                rule.docs_path.ends_with(&normalized)
485                    || rule.docs_path.ends_with(singular)
486                    || rule_result_meta(rule).is_some_and(|meta| {
487                        meta.meta_docs_path.ends_with(&normalized)
488                            || meta.meta_docs_path.ends_with(singular)
489                            || meta.meta_name.eq_ignore_ascii_case(trimmed)
490                    })
491                    || rule.name.eq_ignore_ascii_case(trimmed)
492            })
493    })
494}
495
496fn dead_code_registry_rule(normalized: &str) -> Option<&'static RuleDef> {
497    let meta = fallow_types::issue_meta::issue_meta_for_contract_token(normalized)?;
498    CHECK_RULES
499        .iter()
500        .find(|rule| rule.id.strip_prefix("fallow/") == Some(meta.code))
501}
502
503fn health_alias_id(normalized: &str) -> Option<&'static str> {
504    match normalized {
505        "complexity" | "high-complexity" => Some("fallow/high-complexity"),
506        "cyclomatic" | "high-cyclomatic" | "high-cyclomatic-complexity" => {
507            Some("fallow/high-cyclomatic-complexity")
508        }
509        "cognitive" | "high-cognitive" | "high-cognitive-complexity" => {
510            Some("fallow/high-cognitive-complexity")
511        }
512        "crap" | "high-crap" | "high-crap-score" => Some("fallow/high-crap-score"),
513        "duplication" | "dupes" | "code-duplication" => Some("fallow/code-duplication"),
514        "feature-flag" | "feature-flags" | "flags" => Some("fallow/feature-flag"),
515        _ => None,
516    }
517}
518
519fn security_alias_id(normalized: &str) -> Option<&'static str> {
520    match normalized {
521        "security"
522        | "security-candidate"
523        | "security-candidates"
524        | "tainted-sink"
525        | "tainted-sinks"
526        | "security-sink"
527        | "security-sinks" => Some("security/tainted-sink"),
528        "client-server-leak"
529        | "client-server-leaks"
530        | "security-client-server-leak"
531        | "security-client-server-leaks" => Some("security/client-server-leak"),
532        "hardcoded-secret" | "hardcoded-secrets" | "hard-coded-secret" | "hard-coded-secrets" => {
533            Some("security/hardcoded-secret")
534        }
535        _ => None,
536    }
537}
538
539/// Return worked-example and fix guidance for a rule.
540#[must_use]
541pub fn rule_guide(rule: &RuleDef) -> RuleGuide {
542    source_dead_code_rule_guide(rule.id)
543        .or_else(|| member_import_rule_guide(rule.id))
544        .or_else(|| architecture_rule_guide(rule.id))
545        .or_else(|| catalog_rule_guide(rule.id))
546        .or_else(|| health_runtime_rule_guide(rule.id))
547        .or_else(|| duplication_rule_guide(rule.id))
548        .or_else(|| security_rule_guide(rule.id))
549        .unwrap_or_else(fallback_rule_guide)
550}
551
552fn source_dead_code_rule_guide(id: &str) -> Option<RuleGuide> {
553    Some(match id {
554        "fallow/unused-file" => RuleGuide {
555            example: "src/old-widget.ts is not imported by any entry point, route, script, or config file.",
556            how_to_fix: "Delete the file if it is genuinely dead. If a framework loads it implicitly, add the right plugin/config pattern or mark it in alwaysUsed.",
557        },
558        "fallow/unused-export" => RuleGuide {
559            example: "export const formatPrice = ... exists in src/money.ts, but no module imports formatPrice.",
560            how_to_fix: "Remove the export or make it file-local. If it is public API, import it from an entry point or add an intentional suppression with context.",
561        },
562        "fallow/unused-type" => RuleGuide {
563            example: "export interface LegacyProps is exported, but no module imports the type.",
564            how_to_fix: "Remove the type export, inline it, or keep it behind an explicit API entry point when consumers rely on it.",
565        },
566        "fallow/private-type-leak" => RuleGuide {
567            example: "export function makeUser(): InternalUser exposes InternalUser even though InternalUser is not exported.",
568            how_to_fix: "Export the referenced type, change the public signature to an exported type, or keep the helper private.",
569        },
570        "fallow/unused-dependency"
571        | "fallow/unused-dev-dependency"
572        | "fallow/unused-optional-dependency" => RuleGuide {
573            example: "package.json lists left-pad, but no source, script, config, or plugin-recognized file imports it.",
574            how_to_fix: "Remove the dependency after checking runtime/plugin usage. If another workspace uses it, move the dependency to that workspace.",
575        },
576        "fallow/type-only-dependency" => RuleGuide {
577            example: "zod is in dependencies but only appears in import type declarations.",
578            how_to_fix: "Move the package to devDependencies unless runtime code imports it as a value.",
579        },
580        "fallow/test-only-dependency" => RuleGuide {
581            example: "vitest is listed in dependencies, but only test files import it.",
582            how_to_fix: "Move the package to devDependencies unless production code imports it at runtime.",
583        },
584        _ => return None,
585    })
586}
587
588fn member_import_rule_guide(id: &str) -> Option<RuleGuide> {
589    Some(match id {
590        "fallow/unused-enum-member" => RuleGuide {
591            example: "Status.Legacy remains in an exported enum, but no code reads that member.",
592            how_to_fix: "Remove the member after checking serialized/API compatibility, or suppress it with a reason when external data still uses it.",
593        },
594        "fallow/unused-class-member" => RuleGuide {
595            example: "class Parser has a public parseLegacy method that is never called in the project.",
596            how_to_fix: "Remove or privatize the member. For reflection/framework lifecycle hooks, configure or suppress the intentional entry point.",
597        },
598        "fallow/unused-store-member" => RuleGuide {
599            example: "useCartStore declares a discountTotal getter that no component, composable, or other store ever reads.",
600            how_to_fix: "Remove the unused state property, getter, or action. If it is consumed reflectively (a Pinia plugin, $onAction, or dynamic dispatch), suppress the line with // fallow-ignore-next-line unused-store-member.",
601        },
602        "fallow/unprovided-inject" => RuleGuide {
603            example: "A component calls inject(ThemeKey) (Vue) or getContext(ThemeKey) (Svelte) with an imported symbol key, but no provide(ThemeKey) / setContext(ThemeKey) exists anywhere in the project.",
604            how_to_fix: "Add a matching provide() / setContext() for the key, or remove the dead inject() / getContext(). If a provider lives outside the analyzed graph (an app-level provide registered elsewhere, a plugin, a host app), suppress the line with // fallow-ignore-next-line unprovided-inject.",
605        },
606        "fallow/unrendered-component" => RuleGuide {
607            example: "components/Orphan.vue is re-exported from a barrel (export { default as Orphan } from './Orphan.vue') but no template, registration, h() call, or dynamic import ever renders it.",
608            how_to_fix: "Render the component where it belongs, or delete it and remove the dead barrel re-export. If it is rendered reflectively (a dynamic <component :is> from a non-literal value), suppress the line with // fallow-ignore-next-line unrendered-component.",
609        },
610        "fallow/unused-component-prop" => RuleGuide {
611            example: "Widget.vue declares defineProps<{ size: string }>(), or a React Widget({ size }) destructures `size`, but `size` is referenced nowhere in the component (Vue: its script or template; React: its function body or JSX).",
612            how_to_fix: "Remove the unused prop, or reference it in the component (Vue: the script / template; React: the function body or JSX). If the prop is part of a deliberately-stable public component API, suppress the line with // fallow-ignore-next-line unused-component-prop.",
613        },
614        "fallow/unused-component-emit" => RuleGuide {
615            example: "Widget.vue declares defineEmits<{ close: [] }>() but `emit('close')` is called nowhere in the component's script.",
616            how_to_fix: "Remove the unused emit, or emit it in the script. If the emit is part of a deliberately-stable public component API, suppress the line with // fallow-ignore-next-line unused-component-emit.",
617        },
618        "fallow/unused-component-input" => RuleGuide {
619            example: "user-card.component.ts declares @Input() size: string (or size = input<string>()) but `size` is read nowhere in the template or the class body.",
620            how_to_fix: "Remove the unused input, or read it in the template or class body. If the input is part of a deliberately-stable public component API, suppress the line with // fallow-ignore-next-line unused-component-input.",
621        },
622        "fallow/unused-component-output" => RuleGuide {
623            example: "user-card.component.ts declares @Output() close = new EventEmitter<void>() (or close = output<void>()) but `this.close.emit(...)` is called nowhere in the class.",
624            how_to_fix: "Remove the unused output, or emit it from the class. If the output is part of a deliberately-stable public component API, suppress the line with // fallow-ignore-next-line unused-component-output.",
625        },
626        "fallow/unused-svelte-event" => RuleGuide {
627            example: "Child.svelte calls const dispatch = createEventDispatcher(); dispatch('dead'), but no parent listens for it (no <Child on:dead> anywhere in the project).",
628            how_to_fix: "Remove the dispatched event, or listen for it on the component (<Child on:dead={...}> or forward it via <Child on:dead>). If the event is dispatched reflectively (a dynamic name) or is part of a deliberately-stable public component API, suppress the line with // fallow-ignore-next-line unused-svelte-event.",
629        },
630        "fallow/unused-server-action" => RuleGuide {
631            example: "app/actions.ts has \"use server\" and exports submitForm, but no component imports it, binds it via action={submitForm}, or uses it in <form action={submitForm}>.",
632            how_to_fix: "Wire the action to a consumer (an import-and-call, an action={fn} binding, or a <form action={fn}>), or remove it. If it is invoked reflectively (an action registry dispatching by id, or a non-JS caller), suppress the line with // fallow-ignore-next-line unused-server-action.",
633        },
634        "fallow/unused-load-data-key" => RuleGuide {
635            example: "src/routes/blog/+page.ts returns { posts, draftCount } but +page.svelte only reads data.posts and no component reads page.data.draftCount.",
636            how_to_fix: "Delete the unused key from the load() return (and skip its fetch), or wire a consumer (read data.<key> in +page.svelte, or page.data.<key> in a shared component). If the load fetch has a side effect you must keep, suppress the line with // fallow-ignore-next-line unused-load-data-key.",
637        },
638        "fallow/prop-drilling" => RuleGuide {
639            example: "Page receives `user` and renders <Layout user={user}/>; Layout only re-passes it to <Sidebar user={user}/>; Sidebar only re-passes it to <Profile user={user}/>, which finally reads user.name. The prop is drilled through Layout and Sidebar untouched.",
640            how_to_fix: "Collapse the chain: colocate the consumer with the data, lift the value into a React context/provider at a mid-chain hop and consume it there, or compose the component (pass the rendered child as children) so the intermediates no longer thread the prop. Enable the rule with rules.prop-drilling = \"warn\" (it defaults to off). To accept one chain, suppress the source prop with // fallow-ignore-next-line prop-drilling.",
641        },
642        "fallow/thin-wrapper" => RuleGuide {
643            example: "const ButtonWrapper = (props) => <Button {...props}/>; the wrapper has no own markup, hooks, or logic, so it only re-points at Button.",
644            how_to_fix: "Inline the wrapper at its call sites (use <Button .../> directly) or delete it. Keep it only if it is a deliberate seam (a planned divergence point, a public-API re-brand): an exported wrapper already abstains. Enable the rule with rules.thin-wrapper = \"warn\" (it defaults to off). To accept one wrapper, suppress it with // fallow-ignore-next-line thin-wrapper above the component definition.",
645        },
646        "fallow/duplicate-prop-shape" => RuleGuide {
647            example: "FieldText, FieldNumber, and FieldSelect (across three files) each declare exactly { name, label, value, onChange, error }. The five significant prop names are identical, so they form one duplicate-prop-shape group.",
648            how_to_fix: "Extract one shared Props type (e.g. type FieldProps = { name; label; value; onChange; error }) that every member reuses, or a base component the variants compose. Keep them separate only if a per-variant prop divergence is planned. Enable the rule with rules.duplicate-prop-shape = \"warn\" (it defaults to off). To accept one member, suppress it with // fallow-ignore-next-line duplicate-prop-shape above the component definition; the suppressed member still appears in its siblings' sharing_components because the group is real regardless of suppression.",
649        },
650        "fallow/unresolved-import" => RuleGuide {
651            example: "src/app.ts imports ./routes/admin, but no matching file exists after extension and index resolution.",
652            how_to_fix: "Fix the specifier, restore the missing file, install the package, or align tsconfig path aliases with the runtime resolver.",
653        },
654        "fallow/unlisted-dependency" => RuleGuide {
655            example: "src/api.ts imports undici, but the nearest package.json does not list undici.",
656            how_to_fix: "Add the package to dependencies/devDependencies in the workspace that imports it instead of relying on hoisting or transitive deps.",
657        },
658        "fallow/duplicate-export" => RuleGuide {
659            example: "Button is exported from both src/ui/button.ts and src/components/button.ts.",
660            how_to_fix: "Rename or consolidate the exports so consumers have one intentional import target.",
661        },
662        _ => return None,
663    })
664}
665
666fn architecture_rule_guide(id: &str) -> Option<RuleGuide> {
667    Some(match id {
668        "fallow/circular-dependency" => RuleGuide {
669            example: "src/a.ts imports src/b.ts, and src/b.ts imports src/a.ts.",
670            how_to_fix: "Extract shared code to a third module, invert the dependency, or split initialization-time side effects from type-only contracts.",
671        },
672        "fallow/boundary-violation" => RuleGuide {
673            example: "features/billing imports app/admin even though the configured boundary only allows imports from shared and entities.",
674            how_to_fix: "Move the shared contract to an allowed zone, invert the dependency, or update the boundary config only if the architecture rule was wrong.",
675        },
676        "fallow/boundary-coverage" => RuleGuide {
677            example: "src/generated/client.ts is reachable but does not match any boundaries.zones[].patterns entry.",
678            how_to_fix: "Add the file to the intended zone pattern, move it under a zoned directory, or add a generated-file glob to boundaries.coverage.allowUnmatched.",
679        },
680        "fallow/boundary-call-violation" => RuleGuide {
681            example: "src/domain/policy.ts calls execSync from node:child_process while boundaries.calls.forbidden bans child_process.* from the domain zone.",
682            how_to_fix: "Move the call into a zone that may perform the effect, route it through an allowed abstraction, or narrow the forbidden pattern if the rule was wrong. To suppress, use the boundary family token: `// fallow-ignore-next-line boundary-violation` governs import, coverage, and call findings alike (the rule-id-shaped `boundary-call-violation` is accepted as an alias).",
683        },
684        "fallow/policy-violation" => RuleGuide {
685            example: "src/app.ts imports moment while a rule pack bans the moment specifier with the message 'Use date-fns.'",
686            how_to_fix: "Replace the banned call, import, or effectful usage with the alternative named in the rule's message. To waive one rule, use `// fallow-ignore-next-line policy-violation:<pack>/<rule-id>` or the file-level form. Use bare `policy-violation` only when you intend to suppress every rule-pack finding at that scope.",
687        },
688        "fallow/stale-suppression" => RuleGuide {
689            example: "// fallow-ignore-next-line unused-export remains above an export that is now used.",
690            how_to_fix: "Remove the suppression. If a different issue is still intentional, replace it with a current, specific suppression.",
691        },
692        "fallow/missing-suppression-reason" => RuleGuide {
693            example: "// fallow-ignore-next-line unused-export appears without the required explanatory reason.",
694            how_to_fix: "Add a concise reason after the suppression token, or remove the suppression if the issue is no longer intentional.",
695        },
696        _ => return None,
697    })
698}
699
700fn catalog_rule_guide(id: &str) -> Option<RuleGuide> {
701    Some(match id {
702        "fallow/unused-catalog-entry" => RuleGuide {
703            example: "The catalog source declares `catalog: { is-even: ^1.0.0 }`, but no workspace package.json declares `\"is-even\": \"catalog:\"`.",
704            how_to_fix: "Delete the entry from the catalog source file. If any consumer uses a hardcoded version (surfaced in `hardcoded_consumers`), switch that consumer to `catalog:` first to keep versions aligned.",
705        },
706        "fallow/empty-catalog-group" => RuleGuide {
707            example: "The catalog source declares `catalogs: { react17: {} }` after the last react17 entry was removed.",
708            how_to_fix: "Delete the empty named group from the catalog source file. Comments between the deleted header and the next sibling can stay in place for manual review.",
709        },
710        "fallow/unresolved-catalog-reference" => RuleGuide {
711            example: "packages/app/package.json declares `\"old-react\": \"catalog:react17\"`, but `catalogs.react17` in the catalog source does not declare `old-react`. The package manager install will fail.",
712            how_to_fix: "If `available_in_catalogs` is non-empty, change the reference to one of those catalogs (e.g. `catalog:react18`). Otherwise add the package to the named catalog in the catalog source, or remove the catalog reference and pin a hardcoded version. For staged migrations where the catalog edit lands separately, add the (package, catalog, consumer) triple to `ignoreCatalogReferences` in your fallow config.",
713        },
714        "fallow/unused-dependency-override" => RuleGuide {
715            example: "pnpm-workspace.yaml declares `overrides: { axios: ^1.6.0 }`, but no workspace package.json declares `axios` and `pnpm-lock.yaml` does not resolve it.",
716            how_to_fix: "Delete the entry from `pnpm-workspace.yaml` or `package.json#pnpm.overrides`. If the finding is caused by a stale or missing lockfile, refresh `pnpm-lock.yaml` and rerun fallow. If the override is intentionally retained, add it to `ignoreDependencyOverrides` in your fallow config.",
717        },
718        "fallow/misconfigured-dependency-override" => RuleGuide {
719            example: "pnpm-workspace.yaml declares `overrides: { \"@types/react@<<18\": \"18.0.0\" }`. The doubled `<<` is not a valid pnpm version selector and pnpm will reject the workspace at install time.",
720            how_to_fix: "Fix the key/value to match pnpm's override grammar: bare names (`axios`), scoped names (`@types/react`), targets with version selectors (`@types/react@<18`), parent matchers (`react>react-dom`), and parent chains with selectors on either side. Allowed value idioms: bare version range, `-` (delete), `$ref`, and `npm:alias`. If the entry was experimental, remove it.",
721        },
722        _ => return None,
723    })
724}
725
726fn health_runtime_rule_guide(id: &str) -> Option<RuleGuide> {
727    Some(match id {
728        "fallow/high-cyclomatic-complexity"
729        | "fallow/high-cognitive-complexity"
730        | "fallow/high-complexity" => RuleGuide {
731            example: "A function contains several nested conditionals, loops, and early exits, exceeding the configured complexity threshold. fallow also flags synthetic `<template>` findings on Angular .html templates and inline `@Component({ template: ... })` literals, and `<component>` rollup findings that combine the worst class method with its template.",
732            how_to_fix: "For function findings, extract named helpers, split independent branches, flatten guard clauses, and add tests around the behavior before refactoring. For `<template>` findings, split the template into child components, hoist data into the component class as computed signals, or replace nested `@if`/`@for` with a flatter structure. For `<component>` rollup findings, attack the larger half first; the per-half breakdown lives in `component_rollup`.",
733        },
734        "fallow/high-crap-score" => RuleGuide {
735            example: "A complex function has little or no matching Istanbul coverage, so its CRAP score crosses the configured gate.",
736            how_to_fix: "Add focused tests for the risky branches first, then simplify the function if the score remains high.",
737        },
738        "fallow/refactoring-target" => RuleGuide {
739            example: "A file combines high complexity density, churn, fan-in, and dead-code signals.",
740            how_to_fix: "Start with the listed evidence: remove dead exports, extract complex functions, then reduce fan-out or cycles in small steps.",
741        },
742        "fallow/untested-file" | "fallow/untested-export" => RuleGuide {
743            example: "Production-reachable code has no dependency path from discovered test entry points.",
744            how_to_fix: "Add or wire a test that imports the runtime path, or update entry-point/test discovery if the existing test is invisible to fallow.",
745        },
746        "fallow/runtime-safe-to-delete"
747        | "fallow/runtime-review-required"
748        | "fallow/runtime-low-traffic"
749        | "fallow/runtime-coverage-unavailable"
750        | "fallow/runtime-coverage" => RuleGuide {
751            example: "Runtime coverage shows a function was never called, barely called, or could not be matched during the capture window.",
752            how_to_fix: "Treat high-confidence cold static-dead code as delete candidates. For advisory or unavailable coverage, inspect seasonality, workers, source maps, and capture quality first.",
753        },
754        _ => return None,
755    })
756}
757
758fn duplication_rule_guide(id: &str) -> Option<RuleGuide> {
759    Some(match id {
760        "fallow/code-duplication" => RuleGuide {
761            example: "Two files contain the same normalized token sequence across a multi-line block.",
762            how_to_fix: "Extract the shared logic when the duplicated behavior should evolve together. Leave it duplicated when the similarity is accidental and likely to diverge.",
763        },
764        _ => return None,
765    })
766}
767
768fn security_rule_guide(id: &str) -> Option<RuleGuide> {
769    Some(match id {
770        "security/tainted-sink" => RuleGuide {
771            example: "A non-literal request field reaches a catalogue sink such as security/sql-injection or security/dangerous-html. The finding is a candidate, not proof of exploitability.",
772            how_to_fix: "Trace the source, sink, sanitization, and runtime context. Fix confirmed issues with parameterization, escaping, validation, or safer APIs, and suppress only reviewed false positives with context.",
773        },
774        "security/client-server-leak" => RuleGuide {
775            example: "A module marked `use client` imports code that reads a non-public `process.env` or `import.meta.env` value through a static path.",
776            how_to_fix: "Keep non-public env reads on the server side, move the value behind an API boundary, or rename only intentionally public values to the framework's public prefix.",
777        },
778        "security/hardcoded-secret" => RuleGuide {
779            example: "A provider-prefixed token-shaped literal is assigned to a secret-shaped variable, and the hardcoded-secret category is explicitly included.",
780            how_to_fix: "Rotate real credentials, move them to a secret manager or environment variable, and keep test-only literals clearly fake so they do not resemble provider tokens.",
781        },
782        id if id.starts_with("security/") => RuleGuide {
783            example: "A `fallow security` candidate uses this catalogue category as its SARIF rule id, for example security/sql-injection for a matched SQL sink.",
784            how_to_fix: "Review the candidate trace before acting. Confirm attacker control, missing sanitization, and reachable runtime context, then fix with the category-appropriate safer API or add a reviewed suppression.",
785        },
786        _ => return None,
787    })
788}
789
790fn fallback_rule_guide() -> RuleGuide {
791    RuleGuide {
792        example: "Run the relevant command with --format json --quiet --explain to inspect this rule in context.",
793        how_to_fix: "Use the issue action hints, source location, and docs URL to decide whether to remove, move, configure, or suppress the finding.",
794    }
795}
796
797/// Build the typed standalone explain output for a user-facing issue token.
798///
799/// # Errors
800///
801/// Returns a structured programmatic error when the token does not map to a
802/// registered rule.
803pub fn explain_issue_type(
804    issue_type: &str,
805) -> Result<fallow_output::ExplainOutput, crate::ProgrammaticError> {
806    let Some(rule) = rule_by_token(issue_type) else {
807        return Err(unknown_explain_error(issue_type));
808    };
809    let guide = rule_guide(rule);
810    Ok(fallow_output::ExplainOutput {
811        id: rule.id.to_string(),
812        name: rule_explain_name(rule).to_string(),
813        summary: rule_explain_summary(rule).to_string(),
814        rationale: rule.full.to_string(),
815        example: guide.example.to_string(),
816        how_to_fix: guide.how_to_fix.to_string(),
817        docs: rule_docs_url(rule),
818    })
819}
820
821/// Serialize standalone explain output using the programmatic API contract.
822///
823/// # Errors
824///
825/// Returns a structured programmatic error for unknown rule tokens or JSON
826/// serialization failures.
827pub fn serialize_explain_programmatic_json(
828    issue_type: &str,
829    mode: fallow_output::RootEnvelopeMode,
830    analysis_run_id: Option<&str>,
831) -> Result<serde_json::Value, crate::ProgrammaticError> {
832    let output = explain_issue_type(issue_type)?;
833    fallow_output::serialize_explain_json_output(output, mode, analysis_run_id).map_err(|error| {
834        crate::ProgrammaticError::new(format!("JSON serialization error: {error}"), 2)
835            .with_code("json_serialization")
836    })
837}
838
839#[must_use]
840pub fn unknown_explain_error(issue_type: &str) -> crate::ProgrammaticError {
841    let message = if looks_security_explain_token(issue_type) {
842        format!(
843            "unknown issue type '{issue_type}'. Try values like tainted-sink, client-server-leak, hardcoded-secret, sql-injection, or security/sql-injection"
844        )
845    } else {
846        format!(
847            "unknown issue type '{issue_type}'. Try values like unused files, unused-export, high complexity, or code duplication"
848        )
849    };
850    crate::ProgrammaticError::new(message, 2).with_code("unknown_issue_type")
851}
852
853fn looks_security_explain_token(issue_type: &str) -> bool {
854    let normalized = issue_type.trim().to_ascii_lowercase().replace('_', "-");
855    normalized.contains("security")
856        || normalized.contains("secret")
857        || normalized.contains("sink")
858        || normalized.contains("cwe")
859        || normalized.contains("client-server")
860        || normalized.contains("injection")
861}
862
863pub const HEALTH_RULES: &[RuleDef] = &[
864    RuleDef {
865        id: "fallow/high-cyclomatic-complexity",
866        category: "Health",
867        name: "High Cyclomatic Complexity",
868        short: "Function has high cyclomatic complexity",
869        full: "McCabe cyclomatic complexity exceeds the configured threshold. Cyclomatic complexity counts the number of independent paths through a function (1 + decision points: if/else, switch cases, loops, ternary, logical operators). High values indicate functions that are hard to test exhaustively. fallow also emits this rule on synthetic `<template>` findings (Angular .html templates and inline `@Component({ template: ... })` literals), counting template control-flow blocks (`@if`, `@else if`, `@for`, `@case`, `@defer (when ...)`, legacy `*ngIf`/`*ngFor`) plus ternary and logical operators inside bound attributes and `{{ }}` interpolations; and on synthetic `<component>` rollup findings whose `cyclomatic` is the worst class method's score plus the template's. Ranking and `--targets` use the rollup total; JSON exposes the per-half breakdown under `component_rollup`.",
870        docs_path: "explanations/health#cyclomatic-complexity",
871    },
872    RuleDef {
873        id: "fallow/high-cognitive-complexity",
874        category: "Health",
875        name: "High Cognitive Complexity",
876        short: "Function has high cognitive complexity",
877        full: "SonarSource cognitive complexity exceeds the configured threshold. Unlike cyclomatic complexity, cognitive complexity penalizes nesting depth and non-linear control flow (breaks, continues, early returns). It measures how hard a function is to understand when reading sequentially. fallow also emits this rule on synthetic `<template>` findings (Angular .html templates and inline `@Component({ template: ... })` literals), where nesting penalties accumulate on stacked `@if`/`@for`/`@switch` blocks; and on synthetic `<component>` rollup findings whose `cognitive` is the worst class method's score plus the template's. Ranking and `--targets` use the rollup total; JSON exposes the per-half breakdown under `component_rollup`.",
878        docs_path: "explanations/health#cognitive-complexity",
879    },
880    RuleDef {
881        id: "fallow/high-complexity",
882        category: "Health",
883        name: "High Complexity (Both)",
884        short: "Function exceeds both complexity thresholds",
885        full: "Function exceeds both cyclomatic and cognitive complexity thresholds. This is the strongest signal that a function needs refactoring, it has many paths AND is hard to understand. The same rule fires on synthetic `<template>` findings (Angular .html templates and inline `@Component({ template: ... })` literals) when both metrics exceed their thresholds, and on synthetic `<component>` rollup findings whose totals are the worst class method's score plus the template's. Ranking and `--targets` use the rollup totals; JSON exposes the per-half breakdown under `component_rollup`.",
886        docs_path: "explanations/health#complexity-metrics",
887    },
888    RuleDef {
889        id: "fallow/high-crap-score",
890        category: "Health",
891        name: "High CRAP Score",
892        short: "Function has a high CRAP score (complexity combined with low coverage)",
893        full: "The function's CRAP (Change Risk Anti-Patterns) score meets or exceeds the configured threshold. CRAP combines cyclomatic complexity with test coverage using the Savoia and Evans (2007) formula: `CC^2 * (1 - coverage/100)^3 + CC`. High CRAP indicates changes to this function carry high risk because it is complex AND poorly tested. Pair with `--coverage` for accurate per-function scoring; without it fallow estimates coverage from the module graph.",
894        docs_path: "explanations/health#crap-score",
895    },
896    RuleDef {
897        id: "fallow/refactoring-target",
898        category: "Health",
899        name: "Refactoring Target",
900        short: "File identified as a high-priority refactoring candidate",
901        full: "File identified as a refactoring candidate based on a weighted combination of complexity density, churn velocity, dead code ratio, fan-in (blast radius), and fan-out (coupling). Categories: urgent churn+complexity, break circular dependency, split high-impact file, remove dead code, extract complex functions, reduce coupling.",
902        docs_path: "explanations/health#refactoring-targets",
903    },
904    RuleDef {
905        id: "fallow/css-token-drift",
906        category: "Health",
907        name: "CSS Token Drift",
908        short: "CSS or CSS-in-JS hardcoded styling value bypasses the design token system",
909        full: "A styling value appears to bypass the project's design token system, for example a Tailwind arbitrary value in markup. The finding is advisory by default and does not affect the audit verdict unless rules.css-token-drift is set to error. Verify the value and replace it with an existing scale token when appropriate.",
910        docs_path: "explanations/health#css-token-drift",
911    },
912    RuleDef {
913        id: "fallow/css-duplicate-block",
914        category: "Health",
915        name: "CSS Duplicate Block",
916        short: "CSS or CSS-in-JS declaration block is duplicated across rules",
917        full: "A style rule declaration block is repeated across selectors, suggesting copy-pasted styling that can often be consolidated. The finding is advisory by default and does not affect the audit verdict unless rules.css-duplicate-block is set to error.",
918        docs_path: "explanations/health#css-duplicate-block",
919    },
920    RuleDef {
921        id: "fallow/css-selector-complexity",
922        category: "Health",
923        name: "CSS Selector Complexity",
924        short: "CSS selector, nesting, or important usage is structurally complex",
925        full: "A CSS or CSS-in-JS rule crosses the structural floor for selector specificity, selector complexity, nesting depth, or important usage. The finding is advisory by default and does not affect the audit verdict unless rules.css-selector-complexity is set to error.",
926        docs_path: "explanations/health#css-selector-complexity",
927    },
928    RuleDef {
929        id: "fallow/css-dead-surface",
930        category: "Health",
931        name: "CSS Dead Surface",
932        short: "CSS or CSS-in-JS surface appears unused",
933        full: "A styling surface appears unused in the analyzed project, such as a scoped SFC class with no component-local use. The finding is advisory by default and does not affect the audit verdict unless rules.css-dead-surface is set to error. Verify dynamic consumers before deleting.",
934        docs_path: "explanations/health#css-dead-surface",
935    },
936    RuleDef {
937        id: "fallow/css-broken-reference",
938        category: "Health",
939        name: "CSS Broken Reference",
940        short: "CSS or CSS-in-JS reference resolves to no stylesheet definition",
941        full: "A styling reference appears unresolved, such as a class token or keyframes name that has no stylesheet definition in the analyzed project. The finding is advisory by default and does not affect the audit verdict unless rules.css-broken-reference is set to error. Verify external or CSS-in-JS definitions before fixing.",
942        docs_path: "explanations/health#css-broken-reference",
943    },
944    RuleDef {
945        id: "fallow/untested-file",
946        category: "Health",
947        name: "Untested File",
948        short: "Runtime-reachable file has no test dependency path",
949        full: "A file is reachable from runtime entry points but not from any discovered test entry point. This indicates production code that no test imports, directly or transitively, according to the static module graph.",
950        docs_path: "explanations/health#coverage-gaps",
951    },
952    RuleDef {
953        id: "fallow/untested-export",
954        category: "Health",
955        name: "Untested Export",
956        short: "Runtime-reachable export has no test dependency path",
957        full: "A value export is reachable from runtime entry points but no test-reachable module references it. This is a static test dependency gap rather than line coverage, and highlights exports exercised only through production entry paths.",
958        docs_path: "explanations/health#coverage-gaps",
959    },
960    RuleDef {
961        id: "fallow/runtime-safe-to-delete",
962        category: "Health",
963        name: "Production Safe To Delete",
964        short: "Statically unused AND never invoked in production with V8 tracking",
965        full: "The function is both statically unreachable in the module graph and was never invoked during the observed runtime coverage window. This is the highest-confidence delete signal fallow emits.",
966        docs_path: "explanations/health#runtime-coverage",
967    },
968    RuleDef {
969        id: "fallow/runtime-review-required",
970        category: "Health",
971        name: "Production Review Required",
972        short: "Statically used but never invoked in production",
973        full: "The function is reachable in the module graph (or exercised by tests / untracked call sites) but was not invoked during the observed runtime coverage window. Needs a human look: may be seasonal, error-path only, or legitimately unused.",
974        docs_path: "explanations/health#runtime-coverage",
975    },
976    RuleDef {
977        id: "fallow/runtime-low-traffic",
978        category: "Health",
979        name: "Production Low Traffic",
980        short: "Function was invoked below the low-traffic threshold",
981        full: "The function was invoked in production but below the configured `--low-traffic-threshold` fraction of total trace count (spec default 0.1%). Effectively dead for the current period.",
982        docs_path: "explanations/health#runtime-coverage",
983    },
984    RuleDef {
985        id: "fallow/runtime-coverage-unavailable",
986        category: "Health",
987        name: "Runtime Coverage Unavailable",
988        short: "Runtime coverage could not be resolved for this function",
989        full: "The function could not be matched to a V8-tracked coverage entry. Common causes: the function lives in a worker thread (separate V8 isolate), it is lazy-parsed and never reached the JIT tier, or its source map did not resolve to the expected source path. This is advisory, not a dead-code signal.",
990        docs_path: "explanations/health#runtime-coverage",
991    },
992    RuleDef {
993        id: "fallow/runtime-coverage",
994        category: "Health",
995        name: "Runtime Coverage",
996        short: "Runtime coverage finding",
997        full: "Generic runtime-coverage finding for verdicts not covered by a more specific rule. Covers the forward-compat `unknown` sentinel; the CLI filters `active` entries out of `runtime_coverage.findings` so the surfaced list stays actionable.",
998        docs_path: "explanations/health#runtime-coverage",
999    },
1000    RuleDef {
1001        id: "fallow/coverage-intelligence-risky-change",
1002        category: "Health",
1003        name: "Coverage Intelligence Risky Change",
1004        short: "Changed hot path combines high CRAP and low test coverage",
1005        full: "Coverage intelligence combined change scope, runtime hot-path evidence, low test coverage, and high CRAP into a risky-change finding. Add focused tests or split the change before merging.",
1006        docs_path: "explanations/health#coverage-intelligence",
1007    },
1008    RuleDef {
1009        id: "fallow/coverage-intelligence-delete",
1010        category: "Health",
1011        name: "Coverage Intelligence Delete",
1012        short: "Static and runtime evidence indicate code can be deleted",
1013        full: "Coverage intelligence combined static unused status, runtime cold evidence, and lack of test reachability into a high-confidence delete recommendation.",
1014        docs_path: "explanations/health#coverage-intelligence",
1015    },
1016    RuleDef {
1017        id: "fallow/coverage-intelligence-review",
1018        category: "Health",
1019        name: "Coverage Intelligence Review",
1020        short: "Cold reachable uncovered code needs owner review",
1021        full: "Coverage intelligence found code that is statically reachable but cold in runtime evidence, uncovered by tests, and ownership-risky. Route it to an owner before changing or deleting it.",
1022        docs_path: "explanations/health#coverage-intelligence",
1023    },
1024    RuleDef {
1025        id: "fallow/coverage-intelligence-refactor",
1026        category: "Health",
1027        name: "Coverage Intelligence Refactor",
1028        short: "Hot covered code has high CRAP and should be refactored carefully",
1029        full: "Coverage intelligence found hot production code that is covered by tests but still has high CRAP. Refactor carefully while preserving behavior.",
1030        docs_path: "explanations/health#coverage-intelligence",
1031    },
1032];
1033
1034pub const DUPES_RULES: &[RuleDef] = &[RuleDef {
1035    id: "fallow/code-duplication",
1036    category: "Duplication",
1037    name: "Code Duplication",
1038    short: "Duplicated code block",
1039    full: "A block of code that appears in multiple locations with identical or near-identical token sequences. Clone detection uses normalized token comparison: identifier names and literals are abstracted away in non-strict modes.",
1040    docs_path: "explanations/duplication#clone-groups",
1041}];
1042
1043pub const FLAGS_RULES: &[RuleDef] = &[RuleDef {
1044    id: "fallow/feature-flag",
1045    category: "Flags",
1046    name: "Feature Flags",
1047    short: "Detected feature flag pattern",
1048    full: "A feature flag pattern detected by `fallow flags`: environment-variable checks, flag SDK calls (LaunchDarkly, Unleash, and similar), or config-object lookups. Long-lived flags accumulate dead branches; review old flags for retirement and pair with dead-code analysis to find branches that can no longer execute.",
1049    docs_path: "cli/flags",
1050}];
1051
1052macro_rules! security_catalogue_rule {
1053    ($id:literal, $name:literal, $cwe:literal) => {
1054        RuleDef {
1055            id: concat!("security/", $id),
1056            category: "Security",
1057            name: $name,
1058            short: concat!("Catalogue security candidate for CWE-", $cwe),
1059            full: concat!(
1060                $name,
1061                " is a data-driven `fallow security` tainted-sink catalogue category with CWE-",
1062                $cwe,
1063                " metadata. fallow reports it as an unverified candidate when a captured sink shape matches this category. Use it to understand or filter `security/",
1064                $id,
1065                "` findings, then inspect the trace, source, sink, sanitization, and application context before treating it as exploitable."
1066            ),
1067            docs_path: "cli/security",
1068        }
1069    };
1070}
1071
1072pub const SECURITY_RULES: &[RuleDef] = &[
1073    RuleDef {
1074        id: "security/tainted-sink",
1075        category: "Security",
1076        name: "Tainted Sink Candidates",
1077        short: "Syntactic security sink candidates require verification",
1078        full: "The `tainted-sink` family covers data-driven `fallow security` catalogue categories. These findings are unverified candidates, not confirmed vulnerabilities. fallow can connect known source signals to captured sink shapes and add CWE metadata, but it does not prove attacker control, missing sanitization, exploitability, or business impact.",
1079        docs_path: "cli/security",
1080    },
1081    RuleDef {
1082        id: "security/client-server-leak",
1083        category: "Security",
1084        name: "Client-server Secret Leak Candidates",
1085        short: "Client-bound code reaches a non-public env read",
1086        full: "`client-server-leak` reports a candidate when a `use client` module can transitively reach a static non-public `process.env` or `import.meta.env` read. Public-by-convention env prefixes are treated as public. The finding is advisory and still needs bundle, framework, and runtime verification before treating it as a real exposure.",
1087        docs_path: "cli/security",
1088    },
1089    RuleDef {
1090        id: "security/hardcoded-secret",
1091        category: "Security",
1092        name: "Hardcoded Secret Candidates",
1093        short: "Provider-prefixed or contextual secret literals require verification",
1094        full: "`hardcoded-secret` reports opt-in candidates for provider-prefixed or contextual secret-shaped literals. The category is include-required and only runs when listed in `security.categories.include`. It avoids raw entropy alone, but every result still requires review, secret rotation decisions, and context before acting.",
1095        docs_path: "cli/security",
1096    },
1097    security_catalogue_rule!("dangerous-html", "Dangerous HTML sink", "79"),
1098    security_catalogue_rule!(
1099        "template-escape-bypass",
1100        "Template escape bypass sink",
1101        "79"
1102    ),
1103    security_catalogue_rule!("command-injection", "OS command injection sink", "78"),
1104    security_catalogue_rule!("code-injection", "Code injection sink", "94"),
1105    security_catalogue_rule!("dynamic-regex", "Dynamic regular expression sink", "1333"),
1106    security_catalogue_rule!("redos-regex", "ReDoS regex sink", "1333"),
1107    security_catalogue_rule!(
1108        "resource-amplification",
1109        "Resource amplification sink",
1110        "400"
1111    ),
1112    security_catalogue_rule!("dynamic-module-load", "Dynamic module load sink", "95"),
1113    security_catalogue_rule!("sql-injection", "SQL injection sink", "89"),
1114    security_catalogue_rule!("ssrf", "Server-side request forgery sink", "918"),
1115    security_catalogue_rule!(
1116        "secret-to-network",
1117        "Secret reaches a network request",
1118        "201"
1119    ),
1120    security_catalogue_rule!("path-traversal", "Path traversal sink", "22"),
1121    security_catalogue_rule!(
1122        "header-injection",
1123        "HTTP response header injection sink",
1124        "113"
1125    ),
1126    security_catalogue_rule!("open-redirect", "Open redirect sink", "601"),
1127    security_catalogue_rule!(
1128        "postmessage-wildcard-origin",
1129        "Wildcard postMessage target origin",
1130        "346"
1131    ),
1132    security_catalogue_rule!("tls-validation-disabled", "TLS validation disabled", "295"),
1133    security_catalogue_rule!("cleartext-transport", "Cleartext transport URL", "319"),
1134    security_catalogue_rule!(
1135        "electron-unsafe-webpreferences",
1136        "Unsafe Electron BrowserWindow preferences",
1137        "1188"
1138    ),
1139    security_catalogue_rule!(
1140        "world-writable-permission",
1141        "World-writable chmod mode",
1142        "732"
1143    ),
1144    security_catalogue_rule!(
1145        "insecure-temp-file",
1146        "Predictable temporary file path",
1147        "377"
1148    ),
1149    security_catalogue_rule!(
1150        "mysql-multiple-statements",
1151        "MySQL multiple statements enabled",
1152        "89"
1153    ),
1154    security_catalogue_rule!("permissive-cors", "Permissive CORS policy", "942"),
1155    security_catalogue_rule!("insecure-cookie", "Insecure cookie options", "614"),
1156    security_catalogue_rule!("mass-assignment", "Mass assignment sink", "915"),
1157    security_catalogue_rule!("weak-crypto", "Runtime-selectable crypto algorithm", "327"),
1158    security_catalogue_rule!("insecure-randomness", "Insecure randomness sink", "338"),
1159    security_catalogue_rule!("jwt-alg-none", "JWT alg none", "347"),
1160    security_catalogue_rule!(
1161        "jwt-verify-missing-algorithms",
1162        "JWT verify missing algorithms allowlist",
1163        "347"
1164    ),
1165    security_catalogue_rule!("deprecated-cipher", "Deprecated cipher constructor", "327"),
1166    security_catalogue_rule!(
1167        "unsafe-buffer-alloc",
1168        "Unsafe Buffer allocation sink",
1169        "1188"
1170    ),
1171    security_catalogue_rule!(
1172        "unsafe-deserialization",
1173        "Unsafe deserialization sink",
1174        "502"
1175    ),
1176    security_catalogue_rule!(
1177        "angular-trusted-html",
1178        "Angular bypassSecurityTrust sink",
1179        "79"
1180    ),
1181    security_catalogue_rule!("nextjs-open-redirect", "Next.js open redirect sink", "601"),
1182    security_catalogue_rule!("dom-document-write", "DOM document.write sink", "79"),
1183    security_catalogue_rule!("jquery-html", "jQuery .html() sink", "79"),
1184    security_catalogue_rule!(
1185        "route-send-file",
1186        "Route file-send path traversal sink",
1187        "22"
1188    ),
1189    security_catalogue_rule!("webview-injection", "WebView injected-script sink", "94"),
1190    security_catalogue_rule!("prototype-pollution", "Prototype pollution sink", "1321"),
1191    security_catalogue_rule!("zip-slip", "Archive path-traversal (zip-slip) sink", "22"),
1192    security_catalogue_rule!("nosql-injection", "NoSQL injection sink", "943"),
1193    security_catalogue_rule!("ssti", "Server-side template injection sink", "1336"),
1194    security_catalogue_rule!("xxe", "XML external entity (XXE) sink", "611"),
1195    security_catalogue_rule!("secret-pii-log", "Secret or PII logged", "532"),
1196    security_catalogue_rule!("xpath-injection", "XPath injection sink", "643"),
1197    security_catalogue_rule!(
1198        "llm-call-injection",
1199        "Untrusted input reaches an LLM call",
1200        "1427"
1201    ),
1202];
1203
1204/// Build the `_meta` object for `fallow security --format json --explain`.
1205#[must_use]
1206pub fn security_meta() -> fallow_types::envelope::Meta {
1207    fallow_output::security_meta(SECURITY_RULES.iter().map(|rule| {
1208        fallow_output::SecurityRuleMeta {
1209            id: rule.id,
1210            name: rule.name,
1211            description: rule.full,
1212            docs_path: rule.docs_path,
1213        }
1214    }))
1215}
1216
1217/// Build the `_meta` object for `fallow coverage setup --json --explain`.
1218#[must_use]
1219pub fn coverage_setup_meta() -> Value {
1220    fallow_output::coverage_setup_meta()
1221}
1222
1223/// Build the `_meta` object for `fallow coverage analyze --format json --explain`.
1224#[must_use]
1225pub fn coverage_analyze_meta() -> Value {
1226    fallow_output::coverage_analyze_meta()
1227}
1228
1229#[cfg(test)]
1230#[allow(
1231    clippy::unwrap_used,
1232    reason = "registry tests intentionally index fixture JSON"
1233)]
1234mod tests {
1235    use super::*;
1236    use serde_json::json;
1237
1238    fn meta_value(meta: fallow_types::envelope::Meta) -> Value {
1239        serde_json::to_value(meta).expect("metadata should serialize")
1240    }
1241
1242    fn check_meta() -> Value {
1243        meta_value(fallow_output::check_meta())
1244    }
1245
1246    fn health_meta() -> Value {
1247        meta_value(fallow_output::health_meta())
1248    }
1249
1250    fn dupes_meta() -> Value {
1251        meta_value(fallow_output::dupes_meta())
1252    }
1253
1254    #[test]
1255    fn rule_by_id_finds_check_rule() {
1256        let rule = rule_by_id("fallow/unused-file").unwrap();
1257        assert_eq!(rule.name, "Unused Files");
1258    }
1259
1260    #[test]
1261    fn rule_by_id_finds_health_rule() {
1262        let rule = rule_by_id("fallow/high-cyclomatic-complexity").unwrap();
1263        assert_eq!(rule.name, "High Cyclomatic Complexity");
1264    }
1265
1266    #[test]
1267    fn rule_by_id_finds_dupes_rule() {
1268        let rule = rule_by_id("fallow/code-duplication").unwrap();
1269        assert_eq!(rule.name, "Code Duplication");
1270    }
1271
1272    #[test]
1273    fn rule_by_id_finds_security_rule() {
1274        let rule = rule_by_id("security/tainted-sink").unwrap();
1275        assert_eq!(rule.name, "Tainted Sink Candidates");
1276    }
1277
1278    #[test]
1279    fn rule_by_id_returns_none_for_unknown() {
1280        assert!(rule_by_id("fallow/nonexistent").is_none());
1281        assert!(rule_by_id("").is_none());
1282    }
1283
1284    #[test]
1285    fn rule_docs_url_format() {
1286        let rule = rule_by_id("fallow/unused-export").unwrap();
1287        let url = rule_docs_url(rule);
1288        assert!(url.starts_with("https://docs.fallow.tools/"));
1289        assert!(url.contains("unused-exports"));
1290    }
1291
1292    #[test]
1293    fn explain_output_prefers_issue_result_registry_contract_fields() {
1294        let output = explain_issue_type("unused-type").unwrap();
1295        let meta = fallow_types::issue_meta::issue_result_meta_by_code("unused-type").unwrap();
1296        assert_eq!(output.name, meta.meta_name);
1297        assert_eq!(output.summary, meta.sarif_description);
1298        assert_eq!(
1299            output.docs,
1300            format!("https://docs.fallow.tools/{}", meta.meta_docs_path)
1301        );
1302    }
1303
1304    #[test]
1305    fn result_sarif_rule_ids_have_explain_metadata() {
1306        for contract in fallow_output::issue_output_contracts() {
1307            for rule_id in contract.sarif_rule_ids {
1308                assert!(
1309                    rule_by_id(&rule_id).is_some(),
1310                    "result metadata code {} has SARIF rule id {rule_id} without RuleDef",
1311                    contract.code
1312                );
1313            }
1314        }
1315    }
1316
1317    #[test]
1318    fn registry_dead_code_tokens_resolve_to_explain_rules() {
1319        for meta in fallow_types::issue_meta::ISSUE_KIND_META {
1320            let Some(expected) = CHECK_RULES
1321                .iter()
1322                .find(|rule| rule.id.strip_prefix("fallow/") == Some(meta.code))
1323            else {
1324                continue;
1325            };
1326            assert_registry_token(expected, meta.code);
1327            for token in meta.aliases {
1328                assert_registry_token(expected, token);
1329            }
1330            if let Some(token) = meta.config_key {
1331                assert_registry_token(expected, token);
1332            }
1333            if let Some(token) = meta.mcp_issue_type {
1334                assert_registry_token(expected, token);
1335            }
1336            if let Some(token) = meta.filter_flag {
1337                assert_registry_token(expected, token);
1338            }
1339            if let Some(token) = meta.suppress_token {
1340                assert_registry_token(expected, token);
1341            }
1342        }
1343    }
1344
1345    fn assert_registry_token(expected: &RuleDef, token: &str) {
1346        if !registry_token_is_unique(token) {
1347            return;
1348        }
1349        let actual = rule_by_token(token)
1350            .unwrap_or_else(|| panic!("registry token {token} did not resolve to an explain rule"));
1351        assert_eq!(
1352            actual.id, expected.id,
1353            "registry token {token} resolved to the wrong explain rule"
1354        );
1355    }
1356
1357    fn registry_token_is_unique(token: &str) -> bool {
1358        fallow_types::issue_meta::ISSUE_KIND_META
1359            .iter()
1360            .filter(|meta| {
1361                CHECK_RULES
1362                    .iter()
1363                    .any(|rule| rule.id.strip_prefix("fallow/") == Some(meta.code))
1364                    && fallow_types::issue_meta::issue_meta_matches_contract_token(meta, token)
1365            })
1366            .count()
1367            == 1
1368    }
1369
1370    #[test]
1371    fn check_rules_all_have_fallow_prefix() {
1372        for rule in CHECK_RULES {
1373            assert!(
1374                rule.id.starts_with("fallow/"),
1375                "rule {} should start with fallow/",
1376                rule.id
1377            );
1378        }
1379    }
1380
1381    #[test]
1382    fn check_rules_all_have_docs_path() {
1383        for rule in CHECK_RULES {
1384            assert!(
1385                !rule.docs_path.is_empty(),
1386                "rule {} should have a docs_path",
1387                rule.id
1388            );
1389        }
1390    }
1391
1392    #[test]
1393    fn check_rules_no_duplicate_ids() {
1394        let mut seen = rustc_hash::FxHashSet::default();
1395        for rule in CHECK_RULES
1396            .iter()
1397            .chain(HEALTH_RULES)
1398            .chain(DUPES_RULES)
1399            .chain(FLAGS_RULES)
1400            .chain(SECURITY_RULES)
1401        {
1402            assert!(seen.insert(rule.id), "duplicate rule id: {}", rule.id);
1403        }
1404    }
1405
1406    #[test]
1407    fn check_meta_has_docs_and_rules() {
1408        let meta = check_meta();
1409        assert!(meta.get("docs").is_some());
1410        assert!(meta.get("rules").is_some());
1411        let rules = meta["rules"].as_object().unwrap();
1412        assert_eq!(rules.len(), CHECK_RULES.len());
1413        assert!(rules.contains_key("unused-file"));
1414        assert!(rules.contains_key("unused-export"));
1415        assert!(rules.contains_key("unused-type"));
1416        assert!(rules.contains_key("unused-dependency"));
1417        assert!(rules.contains_key("unused-dev-dependency"));
1418        assert!(rules.contains_key("unused-optional-dependency"));
1419        assert!(rules.contains_key("unused-enum-member"));
1420        assert!(rules.contains_key("unused-class-member"));
1421        assert!(rules.contains_key("unresolved-import"));
1422        assert!(rules.contains_key("unlisted-dependency"));
1423        assert!(rules.contains_key("duplicate-export"));
1424        assert!(rules.contains_key("type-only-dependency"));
1425        assert!(rules.contains_key("circular-dependency"));
1426    }
1427
1428    #[test]
1429    fn check_meta_documents_per_finding_auto_fixable() {
1430        let meta = check_meta();
1431        let defs = meta["field_definitions"].as_object().unwrap();
1432        let note = defs["actions[].auto_fixable"].as_str().unwrap();
1433        assert!(
1434            note.contains("PER FINDING"),
1435            "auto_fixable note must call out per-finding evaluation"
1436        );
1437        assert!(
1438            note.contains("remove-catalog-entry"),
1439            "auto_fixable note must cite remove-catalog-entry per-instance flip"
1440        );
1441        assert!(
1442            note.contains("used_in_workspaces"),
1443            "auto_fixable note must cite the dependency-action per-instance flip"
1444        );
1445        assert!(
1446            note.contains("ignoreExports"),
1447            "auto_fixable note must cite the duplicate-exports config-fixable flip"
1448        );
1449        assert!(defs.contains_key("actions[]"));
1450    }
1451
1452    #[test]
1453    fn health_and_dupes_meta_share_actions_field_definitions() {
1454        for meta in [health_meta(), dupes_meta()] {
1455            let defs = meta["field_definitions"].as_object().unwrap();
1456            assert_eq!(
1457                defs["actions[]"].as_str().unwrap(),
1458                fallow_output::ACTIONS_FIELD_DEFINITION,
1459            );
1460            assert_eq!(
1461                defs["actions[].auto_fixable"].as_str().unwrap(),
1462                fallow_output::ACTIONS_AUTO_FIXABLE_FIELD_DEFINITION,
1463            );
1464        }
1465    }
1466
1467    #[test]
1468    fn check_meta_rule_has_required_fields() {
1469        let meta = check_meta();
1470        let rules = meta["rules"].as_object().unwrap();
1471        for (key, value) in rules {
1472            assert!(value.get("name").is_some(), "rule {key} missing 'name'");
1473            assert!(
1474                value.get("description").is_some(),
1475                "rule {key} missing 'description'"
1476            );
1477            assert!(value.get("docs").is_some(), "rule {key} missing 'docs'");
1478        }
1479    }
1480
1481    #[test]
1482    fn health_meta_has_metrics() {
1483        let meta = health_meta();
1484        assert!(meta.get("docs").is_some());
1485        let metrics = meta["metrics"].as_object().unwrap();
1486        assert!(metrics.contains_key("cyclomatic"));
1487        assert!(metrics.contains_key("cognitive"));
1488        assert!(metrics.contains_key("maintainability_index"));
1489        assert!(metrics.contains_key("complexity_density"));
1490        assert!(metrics.contains_key("fan_in"));
1491        assert!(metrics.contains_key("fan_out"));
1492    }
1493
1494    #[test]
1495    fn dupes_meta_has_metrics() {
1496        let meta = dupes_meta();
1497        assert!(meta.get("docs").is_some());
1498        let metrics = meta["metrics"].as_object().unwrap();
1499        assert!(metrics.contains_key("duplication_percentage"));
1500        assert!(metrics.contains_key("token_count"));
1501        assert!(metrics.contains_key("clone_groups"));
1502        assert!(metrics.contains_key("clone_families"));
1503    }
1504
1505    #[test]
1506    fn coverage_setup_meta_has_docs_fields_enums_and_warnings() {
1507        let meta = coverage_setup_meta();
1508        assert_eq!(meta["docs_url"], fallow_output::COVERAGE_SETUP_DOCS);
1509        assert!(
1510            meta["field_definitions"]
1511                .as_object()
1512                .unwrap()
1513                .contains_key("members[]")
1514        );
1515        assert!(
1516            meta["field_definitions"]
1517                .as_object()
1518                .unwrap()
1519                .contains_key("config_written")
1520        );
1521        assert!(
1522            meta["field_definitions"]
1523                .as_object()
1524                .unwrap()
1525                .contains_key("members[].package_manager")
1526        );
1527        assert!(
1528            meta["field_definitions"]
1529                .as_object()
1530                .unwrap()
1531                .contains_key("members[].warnings")
1532        );
1533        assert!(
1534            meta["enums"]
1535                .as_object()
1536                .unwrap()
1537                .contains_key("framework_detected")
1538        );
1539        assert!(
1540            meta["warnings"]
1541                .as_object()
1542                .unwrap()
1543                .contains_key("No runtime workspace members were detected")
1544        );
1545        assert!(
1546            meta["warnings"]
1547                .as_object()
1548                .unwrap()
1549                .contains_key("Package manager was not detected")
1550        );
1551    }
1552
1553    #[test]
1554    fn coverage_analyze_meta_documents_data_source_and_action_vocabulary() {
1555        let meta = coverage_analyze_meta();
1556        assert_eq!(meta["docs_url"], fallow_output::COVERAGE_ANALYZE_DOCS);
1557        let fields = meta["field_definitions"].as_object().unwrap();
1558        assert!(fields.contains_key("runtime_coverage.summary.data_source"));
1559        assert!(fields.contains_key("runtime_coverage.summary.last_received_at"));
1560        assert!(fields.contains_key("runtime_coverage.findings[].evidence.test_coverage"));
1561        assert!(fields.contains_key("runtime_coverage.findings[].actions[].type"));
1562        let enums = meta["enums"].as_object().unwrap();
1563        assert_eq!(enums["data_source"], json!(["local", "cloud"]));
1564        assert_eq!(enums["test_coverage"], json!(["covered", "not_covered"]));
1565        assert_eq!(enums["v8_tracking"], json!(["tracked", "untracked"]));
1566        assert_eq!(
1567            enums["action_type"],
1568            json!(["delete-cold-code", "review-runtime"])
1569        );
1570        let warnings = meta["warnings"].as_object().unwrap();
1571        assert!(warnings.contains_key("cloud_functions_unmatched"));
1572    }
1573
1574    #[test]
1575    fn health_rules_all_have_fallow_prefix() {
1576        for rule in HEALTH_RULES {
1577            assert!(
1578                rule.id.starts_with("fallow/"),
1579                "health rule {} should start with fallow/",
1580                rule.id
1581            );
1582        }
1583    }
1584
1585    #[test]
1586    fn health_rules_all_have_docs_path() {
1587        for rule in HEALTH_RULES {
1588            assert!(
1589                !rule.docs_path.is_empty(),
1590                "health rule {} should have a docs_path",
1591                rule.id
1592            );
1593        }
1594    }
1595
1596    #[test]
1597    fn health_rules_all_have_non_empty_fields() {
1598        for rule in HEALTH_RULES {
1599            assert!(
1600                !rule.name.is_empty(),
1601                "health rule {} missing name",
1602                rule.id
1603            );
1604            assert!(
1605                !rule.short.is_empty(),
1606                "health rule {} missing short description",
1607                rule.id
1608            );
1609            assert!(
1610                !rule.full.is_empty(),
1611                "health rule {} missing full description",
1612                rule.id
1613            );
1614        }
1615    }
1616
1617    #[test]
1618    fn dupes_rules_all_have_fallow_prefix() {
1619        for rule in DUPES_RULES {
1620            assert!(
1621                rule.id.starts_with("fallow/"),
1622                "dupes rule {} should start with fallow/",
1623                rule.id
1624            );
1625        }
1626    }
1627
1628    #[test]
1629    fn dupes_rules_all_have_docs_path() {
1630        for rule in DUPES_RULES {
1631            assert!(
1632                !rule.docs_path.is_empty(),
1633                "dupes rule {} should have a docs_path",
1634                rule.id
1635            );
1636        }
1637    }
1638
1639    #[test]
1640    fn dupes_rules_all_have_non_empty_fields() {
1641        for rule in DUPES_RULES {
1642            assert!(!rule.name.is_empty(), "dupes rule {} missing name", rule.id);
1643            assert!(
1644                !rule.short.is_empty(),
1645                "dupes rule {} missing short description",
1646                rule.id
1647            );
1648            assert!(
1649                !rule.full.is_empty(),
1650                "dupes rule {} missing full description",
1651                rule.id
1652            );
1653        }
1654    }
1655
1656    #[test]
1657    fn security_rules_all_have_security_prefix() {
1658        for rule in SECURITY_RULES {
1659            assert!(
1660                rule.id.starts_with("security/"),
1661                "security rule {} should start with security/",
1662                rule.id
1663            );
1664        }
1665    }
1666
1667    #[test]
1668    fn security_rules_all_have_docs_path() {
1669        for rule in SECURITY_RULES {
1670            assert_eq!(
1671                rule.docs_path, "cli/security",
1672                "security rule {} should point at security docs",
1673                rule.id
1674            );
1675        }
1676    }
1677
1678    #[test]
1679    fn security_rules_all_have_non_empty_fields() {
1680        for rule in SECURITY_RULES {
1681            assert!(
1682                !rule.name.is_empty(),
1683                "security rule {} missing name",
1684                rule.id
1685            );
1686            assert!(
1687                !rule.short.is_empty(),
1688                "security rule {} missing short description",
1689                rule.id
1690            );
1691            assert!(
1692                !rule.full.is_empty(),
1693                "security rule {} missing full description",
1694                rule.id
1695            );
1696        }
1697    }
1698
1699    #[test]
1700    fn check_rules_all_have_non_empty_fields() {
1701        for rule in CHECK_RULES {
1702            assert!(!rule.name.is_empty(), "check rule {} missing name", rule.id);
1703            assert!(
1704                !rule.short.is_empty(),
1705                "check rule {} missing short description",
1706                rule.id
1707            );
1708            assert!(
1709                !rule.full.is_empty(),
1710                "check rule {} missing full description",
1711                rule.id
1712            );
1713        }
1714    }
1715
1716    #[test]
1717    fn rule_docs_url_health_rule() {
1718        let rule = rule_by_id("fallow/high-cyclomatic-complexity").unwrap();
1719        let url = rule_docs_url(rule);
1720        assert!(url.starts_with("https://docs.fallow.tools/"));
1721        assert!(url.contains("health"));
1722    }
1723
1724    #[test]
1725    fn rule_docs_url_dupes_rule() {
1726        let rule = rule_by_id("fallow/code-duplication").unwrap();
1727        let url = rule_docs_url(rule);
1728        assert!(url.starts_with("https://docs.fallow.tools/"));
1729        assert!(url.contains("duplication"));
1730    }
1731
1732    #[test]
1733    fn rule_docs_url_security_rule() {
1734        let rule = rule_by_id("security/sql-injection").unwrap();
1735        let url = rule_docs_url(rule);
1736        assert_eq!(url, "https://docs.fallow.tools/cli/security");
1737    }
1738
1739    #[test]
1740    fn health_meta_all_metrics_have_name_and_description() {
1741        let meta = health_meta();
1742        let metrics = meta["metrics"].as_object().unwrap();
1743        for (key, value) in metrics {
1744            assert!(
1745                value.get("name").is_some(),
1746                "health metric {key} missing 'name'"
1747            );
1748            assert!(
1749                value.get("description").is_some(),
1750                "health metric {key} missing 'description'"
1751            );
1752            assert!(
1753                value.get("interpretation").is_some(),
1754                "health metric {key} missing 'interpretation'"
1755            );
1756        }
1757    }
1758
1759    #[test]
1760    fn health_meta_has_all_expected_metrics() {
1761        let meta = health_meta();
1762        let metrics = meta["metrics"].as_object().unwrap();
1763        let expected = [
1764            "cyclomatic",
1765            "cognitive",
1766            "line_count",
1767            "lines",
1768            "maintainability_index",
1769            "complexity_density",
1770            "dead_code_ratio",
1771            "fan_in",
1772            "fan_out",
1773            "score",
1774            "weighted_commits",
1775            "trend",
1776            "priority",
1777            "efficiency",
1778            "effort",
1779            "confidence",
1780            "bus_factor",
1781            "contributor_count",
1782            "share",
1783            "stale_days",
1784            "drift",
1785            "unowned",
1786            "runtime_coverage_verdict",
1787            "runtime_coverage_state",
1788            "runtime_coverage_confidence",
1789            "production_invocations",
1790            "percent_dead_in_production",
1791        ];
1792        for key in &expected {
1793            assert!(
1794                metrics.contains_key(*key),
1795                "health_meta missing expected metric: {key}"
1796            );
1797        }
1798    }
1799
1800    #[test]
1801    fn dupes_meta_all_metrics_have_name_and_description() {
1802        let meta = dupes_meta();
1803        let metrics = meta["metrics"].as_object().unwrap();
1804        for (key, value) in metrics {
1805            assert!(
1806                value.get("name").is_some(),
1807                "dupes metric {key} missing 'name'"
1808            );
1809            assert!(
1810                value.get("description").is_some(),
1811                "dupes metric {key} missing 'description'"
1812            );
1813        }
1814    }
1815
1816    #[test]
1817    fn dupes_meta_has_line_count() {
1818        let meta = dupes_meta();
1819        let metrics = meta["metrics"].as_object().unwrap();
1820        assert!(metrics.contains_key("line_count"));
1821    }
1822
1823    #[test]
1824    fn check_docs_url_valid() {
1825        assert!(fallow_output::CHECK_DOCS.starts_with("https://"));
1826        assert!(fallow_output::CHECK_DOCS.contains("dead-code"));
1827    }
1828
1829    #[test]
1830    fn health_docs_url_valid() {
1831        assert!(fallow_output::HEALTH_DOCS.starts_with("https://"));
1832        assert!(fallow_output::HEALTH_DOCS.contains("health"));
1833    }
1834
1835    #[test]
1836    fn dupes_docs_url_valid() {
1837        assert!(fallow_output::DUPES_DOCS.starts_with("https://"));
1838        assert!(fallow_output::DUPES_DOCS.contains("dupes"));
1839    }
1840
1841    #[test]
1842    fn check_meta_docs_url_matches_constant() {
1843        let meta = check_meta();
1844        assert_eq!(meta["docs"].as_str().unwrap(), fallow_output::CHECK_DOCS);
1845    }
1846
1847    #[test]
1848    fn health_meta_docs_url_matches_constant() {
1849        let meta = health_meta();
1850        assert_eq!(meta["docs"].as_str().unwrap(), fallow_output::HEALTH_DOCS);
1851    }
1852
1853    #[test]
1854    fn dupes_meta_docs_url_matches_constant() {
1855        let meta = dupes_meta();
1856        assert_eq!(meta["docs"].as_str().unwrap(), fallow_output::DUPES_DOCS);
1857    }
1858
1859    #[test]
1860    fn rule_by_id_finds_all_check_rules() {
1861        for rule in CHECK_RULES {
1862            assert!(
1863                rule_by_id(rule.id).is_some(),
1864                "rule_by_id should find check rule {}",
1865                rule.id
1866            );
1867        }
1868    }
1869
1870    #[test]
1871    fn rule_by_id_finds_all_health_rules() {
1872        for rule in HEALTH_RULES {
1873            assert!(
1874                rule_by_id(rule.id).is_some(),
1875                "rule_by_id should find health rule {}",
1876                rule.id
1877            );
1878        }
1879    }
1880
1881    #[test]
1882    fn rule_by_id_finds_all_dupes_rules() {
1883        for rule in DUPES_RULES {
1884            assert!(
1885                rule_by_id(rule.id).is_some(),
1886                "rule_by_id should find dupes rule {}",
1887                rule.id
1888            );
1889        }
1890    }
1891
1892    #[test]
1893    fn rule_by_id_finds_all_security_rules() {
1894        for rule in SECURITY_RULES {
1895            assert!(
1896                rule_by_id(rule.id).is_some(),
1897                "rule_by_id should find security rule {}",
1898                rule.id
1899            );
1900        }
1901    }
1902
1903    #[test]
1904    fn check_rules_count() {
1905        assert_eq!(CHECK_RULES.len(), 45);
1906    }
1907
1908    #[test]
1909    fn health_rules_count() {
1910        assert_eq!(HEALTH_RULES.len(), 21);
1911    }
1912
1913    #[test]
1914    fn dupes_rules_count() {
1915        assert_eq!(DUPES_RULES.len(), 1);
1916    }
1917
1918    #[test]
1919    fn flags_rules_count() {
1920        assert_eq!(FLAGS_RULES.len(), 1);
1921    }
1922
1923    #[test]
1924    fn security_rules_count() {
1925        assert_eq!(
1926            SECURITY_RULES.len(),
1927            matcher_entries_from_security_catalogue().len() + 3
1928        );
1929    }
1930
1931    #[test]
1932    fn security_rules_cover_every_catalogue_matcher() {
1933        let mut rule_ids = rustc_hash::FxHashSet::default();
1934        for rule in SECURITY_RULES {
1935            rule_ids.insert(rule.id);
1936        }
1937
1938        for matcher in matcher_entries_from_security_catalogue() {
1939            let rule_id = format!("security/{}", matcher.id);
1940            assert!(
1941                rule_ids.contains(rule_id.as_str()),
1942                "security matcher {} has no explain rule",
1943                matcher.id
1944            );
1945        }
1946    }
1947
1948    #[test]
1949    fn security_catalogue_rules_match_catalogue_title_and_cwe() {
1950        for matcher in matcher_entries_from_security_catalogue() {
1951            let rule_id = format!("security/{}", matcher.id);
1952            let rule = rule_by_id(&rule_id)
1953                .unwrap_or_else(|| panic!("security matcher {} has no explain rule", matcher.id));
1954            let cwe = format!("CWE-{}", matcher.cwe);
1955            assert_eq!(
1956                rule.name, matcher.title,
1957                "security matcher {} has stale explain title",
1958                matcher.id
1959            );
1960            assert!(
1961                rule.short.contains(&cwe),
1962                "security matcher {} explain summary does not mention {cwe}",
1963                matcher.id
1964            );
1965            assert!(
1966                rule.full.contains(&cwe),
1967                "security matcher {} explain rationale does not mention {cwe}",
1968                matcher.id
1969            );
1970        }
1971    }
1972
1973    /// Every registered rule must declare a category. The PR/MR sticky
1974    /// renderer reads this via `category_for_rule`; without an entry the
1975    /// rule silently falls into the "Dead code" default and reviewers may
1976    /// see it grouped under an unexpected section. Catching this here is
1977    /// the same pattern as `check_rules_count` for the rule count itself.
1978    #[test]
1979    fn every_rule_declares_a_category() {
1980        let allowed = [
1981            "Dead code",
1982            "Dependencies",
1983            "Duplication",
1984            "Health",
1985            "Architecture",
1986            "Suppressions",
1987            "Security",
1988            "Policy",
1989            "Flags",
1990        ];
1991        for rule in CHECK_RULES
1992            .iter()
1993            .chain(HEALTH_RULES)
1994            .chain(DUPES_RULES)
1995            .chain(FLAGS_RULES)
1996            .chain(SECURITY_RULES)
1997        {
1998            assert!(
1999                !rule.category.is_empty(),
2000                "rule {} has empty category",
2001                rule.id
2002            );
2003            assert!(
2004                allowed.contains(&rule.category),
2005                "rule {} has unrecognised category {:?}; add to allowlist or pick from {:?}",
2006                rule.id,
2007                rule.category,
2008                allowed
2009            );
2010        }
2011    }
2012
2013    #[derive(Debug)]
2014    struct MatcherEntry {
2015        id: &'static str,
2016        title: &'static str,
2017        cwe: &'static str,
2018    }
2019
2020    fn matcher_entries_from_security_catalogue() -> Vec<MatcherEntry> {
2021        let toml = include_str!("../../security/data/security_matchers.toml");
2022        let mut entries = Vec::new();
2023        let mut in_matcher = false;
2024        let mut id = None;
2025        let mut title = None;
2026        let mut cwe = None;
2027
2028        for line in toml.lines() {
2029            let trimmed = line.trim();
2030            if trimmed == "[[matcher]]" {
2031                if let (Some(id), Some(title), Some(cwe)) = (id.take(), title.take(), cwe.take()) {
2032                    entries.push(MatcherEntry { id, title, cwe });
2033                }
2034                in_matcher = true;
2035                continue;
2036            }
2037            if trimmed.starts_with("[[") {
2038                if let (Some(id), Some(title), Some(cwe)) = (id.take(), title.take(), cwe.take()) {
2039                    entries.push(MatcherEntry { id, title, cwe });
2040                }
2041                in_matcher = false;
2042                continue;
2043            }
2044            if !in_matcher {
2045                continue;
2046            }
2047            if let Some(value) = trimmed
2048                .strip_prefix("id = \"")
2049                .and_then(|value| value.strip_suffix('"'))
2050            {
2051                id = Some(value);
2052            } else if let Some(value) = trimmed
2053                .strip_prefix("title = \"")
2054                .and_then(|value| value.strip_suffix('"'))
2055            {
2056                title = Some(value);
2057            } else if let Some(value) = trimmed.strip_prefix("cwe = ") {
2058                cwe = Some(value);
2059            }
2060        }
2061
2062        if let (Some(id), Some(title), Some(cwe)) = (id.take(), title.take(), cwe.take()) {
2063            entries.push(MatcherEntry { id, title, cwe });
2064        }
2065
2066        let mut seen = rustc_hash::FxHashSet::default();
2067        entries
2068            .into_iter()
2069            .filter(|entry| seen.insert(entry.id))
2070            .collect()
2071    }
2072}