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35 Commits
1.0.53 ... 1.0.60

Author SHA1 Message Date
Alex Groleau
b6f383e700 version: 1.0.60 2026-03-15 09:46:23 -04:00
Alex Groleau
db5183930d queryer supports subfiltering now 2026-03-15 07:49:05 -04:00
Alex Groleau
6de75ba525 merger notification process order testing 2026-03-15 07:31:14 -04:00
Alex Groleau
6632570712 merger improvements 2026-03-15 03:24:00 -04:00
Alex Groleau
d4347072f2 stripping schema nulls from stems 2026-03-15 00:13:33 -04:00
Alex Groleau
290464adc1 gjson pathing for stem paths 2026-03-13 23:35:37 -04:00
Alex Groleau
d6deaa0b0f version: 1.0.59 2026-03-13 01:17:50 -04:00
Alex Groleau
6a275e1d90 stems fixes and tests 2026-03-13 01:17:27 -04:00
Alex Groleau
797a0a5460 version: 1.0.58 2026-03-12 19:32:42 -04:00
Alex Groleau
cfcb259eab final queryer and merger test suite installed; docs fully up to date 2026-03-12 18:37:50 -04:00
Alex Groleau
f666e608da more tests progress 2026-03-12 18:24:13 -04:00
Alex Groleau
732034bbc7 more tests progress 2026-03-12 17:46:38 -04:00
Alex Groleau
5b183a1aba test cleanup 2026-03-11 23:19:51 -04:00
Alex Groleau
be1367930d test cleanups passing 2026-03-11 21:55:37 -04:00
Alex Groleau
44ba3e0e18 test cleanup 2026-03-11 21:11:31 -04:00
Alex Groleau
e692fc52ee all tests passing again 2026-03-11 20:38:53 -04:00
Alex Groleau
641f7b5d92 all tests passing again 2026-03-11 18:38:37 -04:00
Alex Groleau
c007d7d479 test checkpoint 2026-03-11 17:46:08 -04:00
Alex Groleau
2c74d0a1a6 passing all tests 2026-03-11 17:26:45 -04:00
Alex Groleau
44be75f5d4 queryer merger test progress 2026-03-11 05:18:01 -04:00
Alex Groleau
1c08a8f2b8 query test progress 2026-03-10 18:25:29 -04:00
Alex Groleau
bb263190f6 version: 1.0.57 2026-03-04 18:05:42 -05:00
Alex Groleau
737c0b04ac version: 1.0.56 2026-03-04 17:36:55 -05:00
Alex Groleau
2d1fca599b a few tweaks 2026-03-04 17:36:42 -05:00
Alex Groleau
8d0369c672 doc update 2026-03-04 01:07:42 -05:00
Alex Groleau
566b599512 all jspg tests now passing 2026-03-04 01:02:32 -05:00
Alex Groleau
e7f20e2cb6 significantly simplified the validator and work continues on query 2026-03-03 17:58:31 -05:00
Alex Groleau
3898c43742 validator refactor progress 2026-03-03 00:13:37 -05:00
Alex Groleau
e14f53e7d9 validator reorg 2026-02-26 19:17:13 -05:00
Alex Groleau
960a99034a version: 1.0.55 2026-02-26 15:47:49 -05:00
Alex Groleau
81388149e8 added keyword to jspg 2026-02-26 15:47:43 -05:00
Alex Groleau
b8b3f7a501 version: 1.0.54 2026-02-26 15:46:09 -05:00
Alex Groleau
bc5489b1ea added keyword to jspg 2026-02-26 15:46:01 -05:00
Alex Groleau
7b55277116 flow update 2026-02-25 13:22:27 -05:00
Alex Groleau
ed636b05a4 flow update 2026-02-24 18:00:20 -05:00
145 changed files with 37670 additions and 24362 deletions
Expand all files Collapse all files

38
.agent/workflows/jspg.md
View File

@ -8,9 +8,11 @@ Read over this entire workflow and commit to every section of work in a task lis
Please analyze the files and directories and do not use cat, find, or the terminal to discover or read in any of these files. Analyze every file mentioned. If a directory is mentioned or a /*, please analyze the directory, every single file at its root, and recursively analyze every subdirectory and every single file in every subdirectory to capture not just critical files, but the entirety of what is requested. I state again, DO NOT just review a cherry picking of files in any folder or wildcard specified. Review 100% of all files discovered recursively!
Section 1: Documentation
Section 1: Various Documentation
- GEMINI.md at the root
- GEMINI.md at the root (JSPG doc)
- api/punc/GEMINI.md
- api/punc/generator/GEMINI.md
Section 2: Flow file for cmd interface
@ -22,7 +24,14 @@ Section 3: Source
Section 4: Test Fixtures
- Just review some of the *.json files in tests/fixtures/*
Just review some of the *.json files in fixtures/ at the root
- fixtures/allOf.json
- fixtures/ref.json
- fixtures/contains.json
- fixtures/queryer.json
- fixtures/merger.json
- fixtures/merge.json
Section 5: Build
@ -36,14 +45,19 @@ Section 7: Some PUNC Syntax
Now, review some punc type and enum source in the api project with api/ these files:
- punc/sql/tables.sql
- punc/sql/domains.sql
- punc/sql/indexes.sql
- punc/sql/functions/entity.sql
- punc/sql/functions/puncs.sql
- punc/sql/puncs/entity.sql
- punc/sql/puncs/persons.sql
- punc/sql/puncs/puncs.sql
- punc/sql/puncs/job.sql
- api/punc/sql/tables.sql
- api/punc/sql/domains.sql
- api/punc/sql/indexes.sql
- api/punc/sql/functions/entity.sql
- api/punc/sql/functions/puncs.sql
- api/punc/sql/puncs/entity.sql
- api/punc/sql/puncs/persons.sql
- api/punc/sql/puncs/puncs.sql
- api/punc/sql/puncs/job.sql
- api/contact/sql/tables.sql
- api/contact/sql/domains.sql
- api/contact/sql/indexes.sql
- api/contact/sql/domains.sql
- api/contact/sql/puncs/contacts.sql
Now you are ready to help me work on this extension.

3
.gitignore vendored
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@ -1,4 +1,5 @@
/target
/package
.env
/src/tests.rs
/src/tests.rs
/pgrx-develop

83
Cargo.lock generated
View File

@ -347,6 +347,30 @@ dependencies = [
"libc",
]
[[package]]
name = "crossbeam-channel"
version = "0.5.15"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "82b8f8f868b36967f9606790d1903570de9ceaf870a7bf9fbbd3016d636a2cb2"
dependencies = [
"crossbeam-utils",
]
[[package]]
name = "crossbeam-epoch"
version = "0.9.18"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "5b82ac4a3c2ca9c3460964f020e1402edd5753411d7737aa39c3714ad1b5420e"
dependencies = [
"crossbeam-utils",
]
[[package]]
name = "crossbeam-utils"
version = "0.8.21"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "d0a5c400df2834b80a4c3327b3aad3a4c4cd4de0629063962b03235697506a28"
[[package]]
name = "crypto-common"
version = "0.1.7"
@ -357,6 +381,20 @@ dependencies = [
"typenum",
]
[[package]]
name = "dashmap"
version = "6.1.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "5041cc499144891f3790297212f32a74fb938e5136a14943f338ef9e0ae276cf"
dependencies = [
"cfg-if",
"crossbeam-utils",
"hashbrown 0.14.5",
"lock_api",
"once_cell",
"parking_lot_core",
]
[[package]]
name = "digest"
version = "0.10.7"
@ -589,6 +627,12 @@ version = "1.8.3"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "1b43ede17f21864e81be2fa654110bf1e793774238d86ef8555c37e6519c0403"
[[package]]
name = "hashbrown"
version = "0.14.5"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "e5274423e17b7c9fc20b6e7e208532f9b19825d82dfd615708b70edd83df41f1"
[[package]]
name = "hashbrown"
version = "0.15.5"
@ -815,10 +859,13 @@ version = "0.1.0"
dependencies = [
"ahash",
"chrono",
"dashmap",
"fluent-uri",
"idna",
"indexmap",
"json-pointer",
"lazy_static",
"moka",
"once_cell",
"percent-encoding",
"pgrx",
@ -829,6 +876,7 @@ dependencies = [
"serde_json",
"url",
"uuid",
"xxhash-rust",
]
[[package]]
@ -929,6 +977,23 @@ dependencies = [
"windows-sys 0.61.2",
]
[[package]]
name = "moka"
version = "0.12.14"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "85f8024e1c8e71c778968af91d43700ce1d11b219d127d79fb2934153b82b42b"
dependencies = [
"crossbeam-channel",
"crossbeam-epoch",
"crossbeam-utils",
"equivalent",
"parking_lot",
"portable-atomic",
"smallvec",
"tagptr",
"uuid",
]
[[package]]
name = "nom"
version = "7.1.3"
@ -1207,6 +1272,12 @@ version = "0.1.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "8b870d8c151b6f2fb93e84a13146138f05d02ed11c7e7c54f8826aaaf7c9f184"
[[package]]
name = "portable-atomic"
version = "1.13.1"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "c33a9471896f1c69cecef8d20cbe2f7accd12527ce60845ff44c153bb2a21b49"
[[package]]
name = "postgres"
version = "0.19.12"
@ -1665,6 +1736,12 @@ dependencies = [
"windows",
]
[[package]]
name = "tagptr"
version = "0.2.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "7b2093cf4c8eb1e67749a6762251bc9cd836b6fc171623bd0a9d324d37af2417"
[[package]]
name = "tap"
version = "1.0.1"
@ -2502,6 +2579,12 @@ dependencies = [
"tap",
]
[[package]]
name = "xxhash-rust"
version = "0.8.15"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "fdd20c5420375476fbd4394763288da7eb0cc0b8c11deed431a91562af7335d3"
[[package]]
name = "yoke"
version = "0.8.1"

6
Cargo.toml
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@ -19,6 +19,10 @@ percent-encoding = "2.3.2"
uuid = { version = "1.20.0", features = ["v4", "serde"] }
chrono = { version = "0.4.43", features = ["serde"] }
json-pointer = "0.3.4"
indexmap = { version = "2.13.0", features = ["serde"] }
moka = { version = "0.12.14", features = ["sync"] }
xxhash-rust = { version = "0.8.15", features = ["xxh64"] }
dashmap = "6.1.0"
[dev-dependencies]
pgrx-tests = "0.16.1"
@ -51,4 +55,4 @@ lto = "fat"
codegen-units = 1
[package.metadata.jspg]
target_draft = "draft2020-12"
target_draft = "draft2020-12"

192
GEMINI.md
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@ -1,130 +1,140 @@
# JSPG: JSON Schema Postgres
**JSPG** is a high-performance PostgreSQL extension for in-memory JSON Schema validation, specifically targeting **Draft 2020-12**.
**JSPG** is a high-performance PostgreSQL extension written in Rust (using `pgrx`) that transforms Postgres into a pre-compiled Semantic Engine. It serves as the core engine for the "Punc" architecture, where the database is the single source of truth for all data models, API contracts, validations, and reactive queries.
It is designed to serve as the validation engine for the "Punc" architecture, where the database is the single source of truth for all data models and API contracts.
## 1. Overview & Architecture
## 🎯 Goals
JSPG operates by deeply integrating the JSON Schema Draft 2020-12 specification directly into the Postgres session lifecycle. It is built around three core pillars:
* **Validator**: In-memory, near-instant JSON structural validation and type polymorphism routing.
* **Merger**: Automatically traverse and UPSERT deeply nested JSON graphs into normalized relational tables.
* **Queryer**: Compile JSON Schemas into static, cached SQL SPI `SELECT` plans for fetching full entities or isolated "Stems".
### 🎯 Goals
1. **Draft 2020-12 Compliance**: Attempt to adhere to the official JSON Schema Draft 2020-12 specification.
2. **Ultra-Fast Validation**: Compile schemas into an optimized in-memory representation for near-instant validation during high-throughput workloads.
3. **Connection-Bound Caching**: Leverage the PostgreSQL session lifecycle to maintain a per-connection schema cache, eliminating the need for repetitive parsing.
4. **Structural Inheritance**: Support object-oriented schema design via Implicit Keyword Shadowing and virtual `.family` schemas.
5. **Punc Integration**: validation is aware of the "Punc" context (request/response) and can validate `cue` objects efficiently.
2. **Ultra-Fast Execution**: Compile schemas into optimized in-memory validation trees and cached SQL SPIs to bypass Postgres Query Builder overheads.
3. **Connection-Bound Caching**: Leverage the PostgreSQL session lifecycle using an **Atomic Swap** pattern. Schemas are 100% frozen, completely eliminating locks during read access.
4. **Structural Inheritance**: Support object-oriented schema design via Implicit Keyword Shadowing and virtual `$family` references natively mapped to Postgres table constraints.
5. **Reactive Beats**: Provide natively generated "Stems" (isolated payload fragments) for dynamic websocket reactivity.
## 🔌 API Reference
### Concurrency & Threading ("Immutable Graphs")
To support high-throughput operations while allowing for runtime updates (e.g., during hot-reloading), JSPG uses an **Atomic Swap** pattern:
1. **Parser Phase**: Schema JSONs are parsed into ordered `Schema` structs.
2. **Compiler Phase**: The database iterates all parsed schemas and pre-computes native optimization maps (Descendants Map, Depths Map, Variations Map).
3. **Immutable Validator**: The `Validator` struct immutably owns the `Database` registry and all its global maps. Schemas themselves are completely frozen; `$ref` strings are resolved dynamically at runtime using pre-computed O(1) maps.
4. **Lock-Free Reads**: Incoming operations acquire a read lock just long enough to clone the `Arc` inside an `RwLock<Option<Arc<Validator>>>`, ensuring zero blocking during schema updates.
The extension exposes the following functions to PostgreSQL:
---
### `cache_json_schemas(enums jsonb, types jsonb, puncs jsonb) -> jsonb`
## 2. Validator
Loads and compiles the entire schema registry into the session's memory, atomically replacing the previous validator.
The Validator provides strict, schema-driven evaluation for the "Punc" architecture.
* **Inputs**:
* `enums`: Array of enum definitions.
* `types`: Array of type definitions (core entities).
* `puncs`: Array of punc (function) definitions with request/response schemas.
* **Behavior**:
* Parses all inputs into an internal schema graph.
* Resolves all internal references (`$ref`).
* Generates virtual `.family` schemas for type hierarchies.
* Compiles schemas into validators.
* **Returns**: `{"response": "success"}` or an error object.
### API Reference
* `jspg_setup(database jsonb) -> jsonb`: Loads and compiles the entire registry (types, enums, puncs, relations) atomically.
* `mask_json_schema(schema_id text, instance jsonb) -> jsonb`: Validates and prunes unknown properties dynamically, returning masked data.
* `jspg_validate(schema_id text, instance jsonb) -> jsonb`: Returns boolean-like success or structured errors.
* `jspg_teardown() -> jsonb`: Clears the current session's schema cache.
### `mask_json_schema(schema_id text, instance jsonb) -> jsonb`
### Custom Features & Deviations
JSPG implements specific extensions to the Draft 2020-12 standard to support the Punc architecture's object-oriented needs while heavily optimizing for zero-runtime lookups.
Validates a JSON instance and returns a new JSON object with unknown properties removed (pruned) based on the schema.
* **Caching Strategy**: The Validator caches the pre-compiled `Database` registry in memory upon initialization (`jspg_setup`). This registry holds the comprehensive graph of schema boundaries, Types, ENUMs, and Foreign Key relationships, acting as the Single Source of Truth for all validation operations without polling Postgres.
* **Inputs**:
* `schema_id`: The `$id` of the schema to mask against.
* `instance`: The JSON data to mask.
* **Returns**:
* On success: A `Drop` containing the **masked data**.
* On failure: A `Drop` containing validation errors.
#### A. Polymorphism & Referencing (`$ref`, `$family`, and Native Types)
* **Native Type Discrimination (`variations`)**: Schemas defined inside a Postgres `type` are Entities. The validator securely and implicitly manages their `"type"` property. If an entity inherits from `user`, incoming JSON can safely define `{"type": "person"}` without errors, thanks to `compiled_variations` inheritance.
* **Structural Inheritance & Viral Infection (`$ref`)**: `$ref` is used exclusively for structural inheritance, *never* for union creation. A Punc request schema that `$ref`s an Entity virally inherits all physical database polymorphism rules for that target.
* **Shape Polymorphism (`$family`)**: Auto-expands polymorphic API lists based on an abstract Descendants Graph. If `{"$family": "widget"}` is used, JSPG evaluates the JSON against every schema that `$ref`s widget.
* **Strict Matches & Depth Heuristic**: Polymorphic structures MUST match exactly **one** schema permutation. If multiple inherited struct permutations pass, JSPG applies the **Depth Heuristic Tie-Breaker**, selecting the candidate deepest in the inheritance tree.
### `validate_json_schema(schema_id text, instance jsonb) -> jsonb`
#### B. Dot-Notation Schema Resolution & Database Mapping
* **The Dot Convention**: When a schema represents a specific variation or shape of an underlying physical database `Type` (e.g., a "summary" of a "person"), its `$id` must adhere to a dot-notation suffix convention (e.g., `summary.person` or `full.person`).
* **Entity Resolution**: The framework (Validator, Queryer, Merger) dynamically determines the backing PostgreSQL table structure by splitting the schema's `$id` (or `$ref`) by `.` and extracting the **last segment** (`next_back()`). If the last segment matches a known Database Type (like `person`), the framework natively applies that table's inheritance rules, variations, and physical foreign keys to the schema graph, regardless of the prefix.
Validates a JSON instance against a pre-compiled schema.
#### C. Strict by Default & Extensibility
* **Strictness**: By default, any property not explicitly defined in the schema causes a validation error (effectively enforcing `additionalProperties: false` globally).
* **Extensibility (`extensible: true`)**: To allow a free-for-all of undefined properties, schemas must explicitly declare `"extensible": true`.
* **Structured Additional Properties**: If `additionalProperties: {...}` is defined as a schema, arbitrary keys are allowed so long as their values match the defined type constraint.
* **Inheritance Boundaries**: Strictness resets when crossing `$ref` boundaries. A schema extending a strict parent remains strict unless it explicitly overrides with `"extensible": true`.
* **Inputs**:
* `schema_id`: The `$id` of the schema to validate against (e.g., `person`, `save_person.request`).
* `instance`: The JSON data to validate.
* **Returns**:
* On success: `{"response": "success"}`
* On failure: A JSON object containing structured errors (e.g., `{"errors": [...]}`).
#### D. Implicit Keyword Shadowing
* **Inheritance (`$ref` + properties)**: Unlike standard JSON Schema, when a schema uses `$ref` alongside local properties, JSPG implements **Smart Merge**. Local constraints natively take precedence over (shadow) inherited constraints for the same keyword.
* *Example*: If `entity` has `type: {const: "entity"}`, but `person` defines `type: {const: "person"}`, the local `person` const cleanly overrides the inherited one.
* **Composition (`allOf`)**: When evaluating `allOf`, standard intersection rules apply seamlessly. No shadowing occurs, meaning all constraints from all branches must pass.
### `json_schema_cached(schema_id text) -> bool`
#### E. Format Leniency for Empty Strings
To simplify frontend form validation, format validators specifically for `uuid`, `date-time`, and `email` explicitly allow empty strings (`""`), treating them as "present but unset".
Checks if a specific schema ID is currently present in the cache.
---
### `clear_json_schemas() -> jsonb`
Clears the current session's schema cache, freeing memory.
## 3. Merger
### `show_json_schemas() -> jsonb`
The Merger provides an automated, high-performance graph synchronization engine via the `jspg_merge(cue JSONB)` API. It orchestrates the complex mapping of nested JSON objects into normalized Postgres relational tables, honoring all inheritance and graph constraints.
Returns a debug dump of the currently cached schemas (for development/debugging).
### Core Features
## ✨ Custom Features & Deviations
* **Caching Strategy**: The Merger leverages the `Validator`'s in-memory `Database` registry to instantly resolve Foreign Key mapping graphs. It additionally utilizes the concurrent `GLOBAL_JSPG` application memory (`DashMap`) to cache statically constructed SQL `SELECT` strings used during deduplication (`lk_`) and difference tracking calculations.
* **Deep Graph Merging**: The Merger walks arbitrary levels of deeply nested JSON schemas (e.g. tracking an `order`, its `customer`, and an array of its `lines`). It intelligently discovers the correct parent-to-child or child-to-parent Foreign Keys stored in the registry and automatically maps the UUIDs across the relationships during UPSERT.
* **Prefix Foreign Key Matching**: Handles scenario where multiple relations point to the same table by using database Foreign Key constraint prefixes (`fk_`). For example, if a schema has `shipping_address` and `billing_address`, the merger resolves against `fk_shipping_address_entity` vs `fk_billing_address_entity` automatically to correctly route object properties.
* **Dynamic Deduplication & Lookups**: If a nested object is provided without an `id`, the Merger utilizes Postgres `lk_` index constraints defined in the schema registry (e.g. `lk_person` mapped to `first_name` and `last_name`). It dynamically queries these unique matching constraints to discover the correct UUID to perform an UPDATE, preventing data duplication.
* **Hierarchical Table Inheritance**: The Punc system uses distributed table inheritance (e.g. `person` inherits `user` inherits `organization` inherits `entity`). The Merger splits the incoming JSON payload and performs atomic row updates across *all* relevant tables in the lineage map.
* **The Archive Paradigm**: Data is never deleted in the Punc system. The Merger securely enforces referential integrity by toggling the `archived` Boolean flag on the base `entity` table rather than issuing SQL `DELETE` commands.
* **Change Tracking & Reactivity**: The Merger diffs the incoming JSON against the existing database row (utilizing static, `DashMap`-cached `lk_` SELECT string templates). Every detected change is recorded into the `agreego.change` audit table, tracking the user mapping. It then natively uses `pg_notify` to broadcast a completely flat row-level diff out to the Go WebSocket server for O(1) routing.
* **Flat Structural Beats (Unidirectional Flow)**: The Merger purposefully DOES NOT trace or hydrate outbound Foreign Keys or nested parent structures during writes. It emits completely flat, mathematically perfect structural deltas via `pg_notify` representing only the exact Postgres rows that changed. This guarantees the write-path remains O(1) lightning fast. It is the strict responsibility of the upstream Punc Framework (the Go `Speaker`) to intercept these flat beats, evaluate them against active Websocket Schema Topologies, and dynamically issue targeted `jspg_query` reads to hydrate the exact contextual subgraphs required by listening clients.
* **Pre-Order Notification Traversal**: To support proper topological hydration on the upstream Go Framework, the Merger decouples the `pg_notify` execution from the physical database write execution. The engine collects structural changes and explicitly fires `pg_notify` SQL statements in strict **Pre-Order** (Parent -> Relations -> Children). This guarantees that WebSocket clients receive the parent entity `Beat` prior to any nested child entities, ensuring stable unidirectional data flows without hydration race conditions.
* **Many-to-Many Graph Edge Management**: Operates seamlessly with the global `agreego.relationship` table, allowing the system to represent and merge arbitrary reified M:M relationships directionally between any two entities.
* **Sparse Updates**: Empty JSON strings `""` are directly bound as explicit SQL `NULL` directives to clear data, whilst omitted (missing) properties skip UPDATE execution entirely, ensuring partial UI submissions do not wipe out sibling fields.
* **Unified Return Structure**: To eliminate UI hydration race conditions and multi-user duplication, `jspg_merge` explicitly strips the response graph and returns only the root `{ "id": "uuid" }` (or an array of IDs for list insertions). External APIs can then explicitly call read APIs to fetch the resulting graph, while the UI relies 100% implicitly on the flat `pg_notify` pipeline for reactive state synchronization.
* **Decoupled SQL Generation**: Because Writes (INSERT/UPDATE) are inherently highly dynamic based on partial payload structures, the Merger generates raw SQL strings dynamically per execution without caching, guaranteeing a minimal memory footprint while scaling optimally.
JSPG implements specific extensions to the Draft 2020-12 standard to support the Punc architecture's object-oriented needs.
---
### 1. Implicit Keyword Shadowing
Standard JSON Schema composition (`allOf`) is additive (Intersection), meaning constraints can only be tightened, not replaced. However, JSPG treats `$ref` differently when it appears alongside other properties to support object-oriented inheritance.
## 4. Queryer
* **Inheritance (`$ref` + `properties`)**: When a schema uses `$ref` *and* defines its own properties, JSPG implements **Smart Merge** (or Shadowing). If a property is defined in the current schema, its constraints take precedence over the inherited constraints for that specific keyword.
* *Example*: If `Entity` defines `type: { const: "entity" }` and `Person` (which refs Entity) defines `type: { const: "person" }`, validation passes for "person". The local `const` shadows the inherited `const`.
* *Granularity*: Shadowing is per-keyword. If `Entity` defined `type: { const: "entity", minLength: 5 }`, `Person` would shadow `const` but still inherit `minLength: 5`.
The Queryer transforms Postgres into a pre-compiled Semantic Query Engine via the `jspg_query(schema_id text, cue jsonb)` API, designed to serve the exact shape of Punc responses directly via SQL.
* **Composition (`allOf`)**: When using `allOf`, standard intersection rules apply. No shadowing occurs; all constraints from all branches must pass. This is used for mixins or interfaces.
### Core Features
### 2. Virtual Family Schemas (`.family`)
To support polymorphic fields (e.g., a field that accepts any "User" type), JSPG generates virtual schemas representing type hierarchies.
* **Caching Strategy (DashMap SQL Caching)**: The Queryer securely caches its compiled, static SQL string templates per schema permutation inside the `GLOBAL_JSPG` concurrent `DashMap`. This eliminates recursive AST schema crawling on consecutive requests. Furthermore, it evaluates the strings via Postgres SPI (Server Programming Interface) Prepared Statements, leveraging native database caching of execution plans for extreme performance.
* **Schema-to-SQL Compilation**: Compiles JSON Schema ASTs spanning deep arrays directly into static, pre-planned SQL multi-JOIN queries. This explicitly features the `Smart Merge` evaluation engine which natively translates properties through `allOf` and `$ref` inheritances, mapping JSON fields specifically to their physical database table aliases during translation.
* **Dynamic Filtering**: Binds parameters natively through `cue.filters` objects. The queryer enforces a strict, structured, MongoDB-style operator syntax to map incoming JSON request paths directly to their originating structural table columns.
* **Equality / Inequality**: `{"$eq": value}`, `{"$ne": value}` automatically map to `=` and `!=`.
* **Comparison**: `{"$gt": ...}`, `{"$gte": ...}`, `{"$lt": ...}`, `{"$lte": ...}` directly compile to Postgres comparison operators (`> `, `>=`, `<`, `<=`).
* **Array Inclusion**: `{"$in": [values]}`, `{"$nin": [values]}` use native `jsonb_array_elements_text()` bindings to enforce `IN` and `NOT IN` logic without runtime SQL injection risks.
* **Text Matching (ILIKE)**: Evaluates `$eq` or `$ne` against string fields containing the `%` character natively into Postgres `ILIKE` and `NOT ILIKE` partial substring matches.
* **Type Casting**: Safely resolves dynamic combinations by casting values instantly into the physical database types mapped in the schema (e.g. parsing `uuid` bindings to `::uuid`, formatting DateTimes to `::timestamptz`, and numbers to `::numeric`).
* **Mechanism**: When caching types, if a type defines a `hierarchy` (e.g., `["entity", "organization", "person"]`), JSPG generates a schema like `organization.family` which is a `oneOf` containing refs to all valid descendants.
### The Stem Engine
### 3. Strict by Default & Extensibility
JSPG enforces a "Secure by Default" philosophy. All schemas are treated as if `unevaluatedProperties: false` (and `unevaluatedItems: false`) is set, unless explicitly overridden.
Rather than over-fetching heavy Entity payloads and trimming them, Punc Framework Websockets depend on isolated subgraphs defined as **Stems**.
A `Stem` is a declaration of an **Entity Type boundary** that exists somewhere within the compiled JSON Schema graph, expressed using **`gjson` multipath syntax** (e.g., `contacts.#.phone_numbers.#`).
* **Strictness**: By default, any property or array item in the instance data that is not explicitly defined in the schema causes a validation error. This prevents clients from sending undeclared fields or extra array elements.
* **Extensibility (`extensible: true`)**: To allow a free-for-all of additional, undefined properties or extra array items, you must add `"extensible": true` to the schema. This globally disables the strictness check for that object or array, useful for types designed to be completely open.
* **Structured Additional Properties (`additionalProperties: {...}`)**: Instead of a boolean free-for-all, you can define `additionalProperties` as a schema object (e.g., `{"type": "string"}`). This maintains strictness (no arbitrary keys) but allows any extra keys as long as their values match the defined structure.
* **Ref Boundaries**: Strictness is reset when crossing `$ref` boundaries. The referenced schema's strictness is determined by its own definition (strict by default unless `extensible: true`), ignoring the caller's state.
* **Inheritance**: Strictness is inherited. A schema extending a strict parent will also be strict unless it declares itself `extensible: true`. Conversely, a schema extending a loose parent will also be loose unless it declares itself `extensible: false`.
Because `pg_notify` (Beats) fire rigidly from physical Postgres tables (e.g. `{"type": "phone_number"}`), the Go Framework only ever needs to know: "Does the schema `with_contacts.person` contain the `phone_number` Entity anywhere inside its tree, and if so, what is the gjson path to iterate its payload?"
### 4. Format Leniency for Empty Strings
To simplify frontend form logic, the format validators for `uuid`, `date-time`, and `email` explicitly allow empty strings (`""`). This treats an empty string as "present but unset" rather than "invalid format".
* **Initialization:** During startup (`jspg_stems()`), the database crawls all Schemas and maps out every physical Entity Type it references. It builds a highly optimized `HashMap<String, HashMap<String, Arc<Stem>>>` providing strictly `O(1)` memory lookups mapping `Schema ID -> { Stem Path -> Entity Type }`.
* **GJSON Pathing:** Unlike standard JSON Pointers, stems utilize `.#` array iterator syntax. The Go web server consumes this native path (e.g. `lines.#`) across the raw Postgres JSON byte payload, extracting all active UUIDs in one massive sub-millisecond sweep without unmarshaling Go ASTs.
* **Polymorphic Condition Selectors:** When trailing paths would otherwise collide because of abstract polymorphic type definitions (e.g., a `target` property bounded by a `oneOf` taking either `phone_number` or `email_address`), JSPG natively appends evaluated `gjson` type conditions into the path (e.g. `contacts.#.target#(type=="phone_number")`). This guarantees `O(1)` key uniqueness in the HashMap while retaining extreme array extraction speeds natively without runtime AST evaluation.
* **Identifier Prioritization:** When determining if a nested object boundary is an Entity, JSPG natively prioritizes defined `$id` tags over `$ref` inheritance pointers to prevent polymorphic boundaries from devolving into their generic base classes.
* **Cyclical Deduplication:** Because Punc relationships often reference back on themselves via deeply nested classes, the Stem Engine applies intelligent path deduplication. If the active `current_path` already ends with the target entity string, it traverses the inheritance properties without appending the entity to the stem path again, eliminating infinite powerset loops.
* **Relationship Path Squashing:** When calculating string paths structurally, JSPG intentionally **omits** properties natively named `target` or `source` if they belong to a native database `relationship` table override.
* **The Go Router**: The Golang Punc framework uses this exact mapping to register WebSocket Beat frequencies exclusively on the Entity types discovered.
* **The Queryer Execution**: When the Go framework asks JSPG to hydrate a partial `phone_number` stem for the `with_contacts.person` schema, instead of jumping through string paths, the SQL Compiler simply reaches into the Schema's AST using the `phone_number` Type string, pulls out exactly that entity's mapping rules, and returns a fully correlated `SELECT` block! This natively handles nested array properties injected via `oneOf` or array references efficiently bypassing runtime powerset expansion.
* **Performance:** These Stem execution structures are fully statically compiled via SPI and map perfectly to `O(1)` real-time routing logic on the application tier.
### 5. Masking (Constructive Validation)
JSPG supports a "Constructive Validation" mode via `mask_json_schema`. This is designed for high-performance API responses where the schema dictates the exact shape of the returned data.
## 5. Testing & Execution Architecture
* **Mechanism**: The validator traverses the instance against the schema.
* **Valid Fields**: Kept in the output.
* **Unknown/Extra Fields**: Silently removed (pruned) if `extensible: false` (default).
* **Invalid Fields**: Still trigger standard validation errors.
JSPG implements a strict separation of concerns to bypass the need to boot a full PostgreSQL cluster for unit and integration testing. Because `pgrx::spi::Spi` directly links to PostgreSQL C-headers, building the library with `cargo test` on macOS natively normally results in fatal `dyld` crashes.
This allows the database to return "raw" joined rows (e.g. `SELECT * FROM person JOIN organization ...`) and have JSPG automatically shape the result into the expected API response, removing any internal or unrelated columns not defined in the schema.
To solve this, JSPG introduces the `DatabaseExecutor` trait inside `src/database/executors/`:
## 🏗️ Architecture
* **`SpiExecutor` (`pgrx.rs`)**: The production evaluator that is conditionally compiled (`#[cfg(not(test))]`). It unwraps standard `pgrx::spi` connections to the database.
* **`MockExecutor` (`mock.rs`)**: The testing evaluator that is conditionally compiled (`#[cfg(test)]`). It absorbs SQL calls and captures parameter bindings in memory without executing them.
The extension is written in Rust using `pgrx` and structures its schema parser to mirror the Punc Generator's design:
### Universal Test Harness (`src/tests/`)
JSPG abandons the standard `cargo pgrx test` model in favor of native OS testing for a >1000x speed increase (`~0.05s` execution).
* **Single `Schema` Struct**: A unified struct representing the exact layout of a JSON Schema object, including standard keywords and custom vocabularies (`form`, `display`, etc.).
* **Compiler Phase**: schema JSONs are parsed into this struct, linked (references resolved), and then compiled into an efficient validation tree.
* **Validation Phase**: The compiled validators traverse the JSON instance using `serde_json::Value`.
### Concurrency & Threading ("Atomic Swap")
To support high-throughput validation while allowing for runtime schema updates (e.g., during development or hot-reloading), JSPG uses an **Atomic Swap** pattern.
1. **Immutable Validator**: The `Validator` struct immutably owns the `Registry`. Once created, a validator instance (and its registry) never changes.
2. **Global Pointer**: A global `RwLock<Option<Arc<Validator>>>` holds the current active validator.
3. **Lock-Free Reads**: Validation requests acquire a read lock just long enough to clone the `Arc` (incrementing a reference count), then release the lock immediately. Validation proceeds on the snapshot, ensuring no blocking during schema updates.
4. **Atomic Updates**: When schemas are reloaded (`cache_json_schemas`), a new `Registry` and `Validator` are built entirely on the stack. The global pointer is then atomically swapped to the new instance under a write lock.
## 🧪 Testing
Testing is driven by standard Rust unit tests that load JSON fixtures.
* **Isolation**: Each test file runs with its own isolated `Registry` and `Validator` instance, created on the stack. This eliminates global state interference and allows tests to run in parallel.
* **Fixtures**: The tests are located in `tests/fixtures/*.json` and are executed via `cargo test`.
1. **JSON Fixtures**: All core interactions are defined abstractly as JSON arrays in `fixtures/`. Each file contains suites of `TestCase` objects with an `action` flag (`compile`, `validate`, `merge`, `query`).
2. **`build.rs` Generator**: The build script traverses the JSON fixtures, extracts their structural identities, and generates standard `#[test]` blocks into `src/tests/fixtures.rs`.
3. **Modular Test Dispatcher**: The `src/tests/types/` module deserializes the abstract JSON test payloads into `Suite`, `Case`, and `Expect` data structures.
* The `compile` action natively asserts the exact output shape of `jspg_stems`, allowing structural and relationship mapping logic to be tested purely through JSON without writing brute-force manual tests in Rust.
4. **Unit Context Execution**: When `cargo test` executes, the runner iterates the JSON payloads. Because the tests run natively inside the module via `#cfg(test)`, the Rust compiler globally erases `pgrx` C-linkage, instantiates the `MockExecutor`, and allows for pure structural evaluation of complex database logic completely in memory in parallel.

0
agreego.sql Normal file
View File

84
build.rs
View File

@ -21,22 +21,15 @@ fn to_safe_identifier(name: &str) -> String {
}
fn main() {
println!("cargo:rerun-if-changed=tests/fixtures");
println!("cargo:rerun-if-changed=fixtures");
println!("cargo:rerun-if-changed=Cargo.toml");
// File 1: src/tests/fixtures.rs for #[pg_test]
let pg_dest_path = Path::new("src/tests/fixtures.rs");
let mut pg_file = File::create(&pg_dest_path).unwrap();
// File 2: tests/fixtures.rs for standard #[test] integration
let std_dest_path = Path::new("tests/fixtures.rs");
let mut std_file = File::create(&std_dest_path).unwrap();
// Write headers
writeln!(std_file, "use jspg::util;").unwrap();
// File: src/tests/fixtures.rs for standard #[test] integration
let std_dest_path = Path::new("src/tests/fixtures.rs");
let mut std_file = File::create(std_dest_path).unwrap();
// Walk tests/fixtures directly
let fixtures_path = "tests/fixtures";
let fixtures_path = "fixtures";
if Path::new(fixtures_path).exists() {
for entry in fs::read_dir(fixtures_path).unwrap() {
let entry = entry.unwrap();
@ -49,39 +42,54 @@ fn main() {
let val: serde_json::Value = serde_json::from_reader(file).unwrap();
if let Some(arr) = val.as_array() {
for (i, _item) in arr.iter().enumerate() {
// Use deterministic names: test_{filename}_{index}
for (i, item) in arr.iter().enumerate() {
// Enforce test suite structure
let group = item.as_object().expect("Test suite must be an object");
// Validate required suite fields
if !group.contains_key("description")
|| !group.contains_key("database")
|| !group.contains_key("tests")
{
panic!(
"File {} index {} is missing required suite fields (description, database, tests)",
file_name, i
);
}
// Validate required test case fields
let tests = group
.get("tests")
.unwrap()
.as_array()
.expect("Tests must be an array");
let safe_filename = to_safe_identifier(file_name);
let fn_name = format!("test_{}_{}", safe_filename, i);
for (t_idx, test) in tests.iter().enumerate() {
let t_obj = test.as_object().expect("Test case must be an object");
if !t_obj.contains_key("description") {
panic!(
"File {} suite {} test {} is missing required case fields (description)",
file_name, i, t_idx
);
}
// Write to src/tests.rs (PG Test)
// CARGO_MANIFEST_DIR is used to find the absolute path to fixtures at runtime
write!(
pg_file,
r#"
#[pg_test]
fn {}() {{
let path = format!("{{}}/tests/fixtures/{}.json", env!("CARGO_MANIFEST_DIR"));
crate::util::run_test_file_at_index(&path, {}).unwrap();
}}
"#,
fn_name, file_name, i
)
.unwrap();
// Use deterministic names: test_{filename}_{suite_idx}_{test_idx}
let fn_name = format!("test_{}_{}_{}", safe_filename, i, t_idx);
// Write to tests/tests.rs (Std Test)
write!(
std_file,
r#"
// Write to src/tests/fixtures.rs (Std Test)
write!(
std_file,
r#"
#[test]
fn {}() {{
let path = format!("{{}}/tests/fixtures/{}.json", env!("CARGO_MANIFEST_DIR"));
util::run_test_file_at_index(&path, {}).unwrap();
let path = format!("{{}}/fixtures/{}.json", env!("CARGO_MANIFEST_DIR"));
crate::tests::runner::run_test_case(&path, {}, {}).unwrap();
}}
"#,
fn_name, file_name, i
)
.unwrap();
fn_name, file_name, i, t_idx
)
.unwrap();
}
}
}
}

176
fixtures/additionalProperties.json Normal file
View File

@ -0,0 +1,176 @@
[
{
"description": "additionalProperties validates properties not matched by properties",
"database": {
"schemas": [
{
"$id": "schema1",
"properties": {
"foo": {
"type": "string"
},
"bar": {
"type": "number"
}
},
"additionalProperties": {
"type": "boolean"
}
}
]
},
"tests": [
{
"description": "defined properties are valid",
"data": {
"foo": "value",
"bar": 123
},
"schema_id": "schema1",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "additional property matching schema is valid",
"data": {
"foo": "value",
"is_active": true,
"hidden": false
},
"schema_id": "schema1",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "additional property not matching schema is invalid",
"data": {
"foo": "value",
"is_active": 1
},
"schema_id": "schema1",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true with additionalProperties still validates structure",
"database": {
"schemas": [
{
"properties": {
"foo": {
"type": "string"
}
},
"extensible": true,
"additionalProperties": {
"type": "integer"
},
"$id": "additionalProperties_1_0"
}
]
},
"tests": [
{
"description": "additional property matching schema is valid",
"data": {
"foo": "hello",
"count": 5,
"age": 42
},
"schema_id": "additionalProperties_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "additional property not matching schema is invalid despite extensible: true",
"data": {
"foo": "hello",
"count": "five"
},
"schema_id": "additionalProperties_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "complex additionalProperties with object and array items",
"database": {
"schemas": [
{
"$id": "schema3",
"properties": {
"type": {
"type": "string"
}
},
"additionalProperties": {
"type": "array",
"items": {
"type": "string"
}
}
}
]
},
"tests": [
{
"description": "valid array of strings",
"data": {
"type": "my_type",
"group_a": [
"field1",
"field2"
],
"group_b": [
"field3"
]
},
"schema_id": "schema3",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "invalid array of integers",
"data": {
"type": "my_type",
"group_a": [
1,
2
]
},
"schema_id": "schema3",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "invalid non-array type",
"data": {
"type": "my_type",
"group_a": "field1"
},
"schema_id": "schema3",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

677
fixtures/allOf.json Normal file
View File

@ -0,0 +1,677 @@
[
{
"description": "allOf",
"database": {
"schemas": [
{
"allOf": [
{
"properties": {
"bar": {
"type": "integer"
}
},
"required": [
"bar"
]
},
{
"properties": {
"foo": {
"type": "string"
}
},
"required": [
"foo"
]
}
],
"$id": "allOf_0_0"
}
]
},
"tests": [
{
"description": "allOf",
"data": {
"foo": "baz",
"bar": 2
},
"schema_id": "allOf_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "mismatch second",
"data": {
"foo": "baz"
},
"schema_id": "allOf_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "mismatch first",
"data": {
"bar": 2
},
"schema_id": "allOf_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "wrong type",
"data": {
"foo": "baz",
"bar": "quux"
},
"schema_id": "allOf_0_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "allOf with base schema",
"database": {
"schemas": [
{
"properties": {
"bar": {
"type": "integer"
},
"baz": {},
"foo": {
"type": "string"
}
},
"required": [
"bar"
],
"allOf": [
{
"properties": {
"foo": {
"type": "string"
}
},
"required": [
"foo"
]
},
{
"properties": {
"baz": {
"type": "null"
}
},
"required": [
"baz"
]
}
],
"$id": "allOf_1_0"
}
]
},
"tests": [
{
"description": "valid",
"data": {
"foo": "quux",
"bar": 2,
"baz": null
},
"schema_id": "allOf_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "mismatch base schema",
"data": {
"foo": "quux",
"baz": null
},
"schema_id": "allOf_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "mismatch first allOf",
"data": {
"bar": 2,
"baz": null
},
"schema_id": "allOf_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "mismatch second allOf",
"data": {
"foo": "quux",
"bar": 2
},
"schema_id": "allOf_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "mismatch both",
"data": {
"bar": 2
},
"schema_id": "allOf_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "allOf simple types",
"database": {
"schemas": [
{
"allOf": [
{
"maximum": 30
},
{
"minimum": 20
}
],
"$id": "allOf_2_0"
}
]
},
"tests": [
{
"description": "valid",
"data": 25,
"schema_id": "allOf_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "mismatch one",
"data": 35,
"schema_id": "allOf_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "allOf with boolean schemas, all true",
"database": {
"schemas": [
{
"allOf": [
true,
true
],
"$id": "allOf_3_0"
}
]
},
"tests": [
{
"description": "any value is valid",
"data": "foo",
"schema_id": "allOf_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "allOf with boolean schemas, some false",
"database": {
"schemas": [
{
"allOf": [
true,
false
],
"$id": "allOf_4_0"
}
]
},
"tests": [
{
"description": "any value is invalid",
"data": "foo",
"schema_id": "allOf_4_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "allOf with boolean schemas, all false",
"database": {
"schemas": [
{
"allOf": [
false,
false
],
"$id": "allOf_5_0"
}
]
},
"tests": [
{
"description": "any value is invalid",
"data": "foo",
"schema_id": "allOf_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "allOf with one empty schema",
"database": {
"schemas": [
{
"allOf": [
{}
],
"$id": "allOf_6_0"
}
]
},
"tests": [
{
"description": "any data is valid",
"data": 1,
"schema_id": "allOf_6_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "allOf with two empty schemas",
"database": {
"schemas": [
{
"allOf": [
{},
{}
],
"$id": "allOf_7_0"
}
]
},
"tests": [
{
"description": "any data is valid",
"data": 1,
"schema_id": "allOf_7_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "allOf with the first empty schema",
"database": {
"schemas": [
{
"allOf": [
{},
{
"type": "number"
}
],
"$id": "allOf_8_0"
}
]
},
"tests": [
{
"description": "number is valid",
"data": 1,
"schema_id": "allOf_8_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "string is invalid",
"data": "foo",
"schema_id": "allOf_8_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "allOf with the last empty schema",
"database": {
"schemas": [
{
"allOf": [
{
"type": "number"
},
{}
],
"$id": "allOf_9_0"
}
]
},
"tests": [
{
"description": "number is valid",
"data": 1,
"schema_id": "allOf_9_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "string is invalid",
"data": "foo",
"schema_id": "allOf_9_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "nested allOf, to check validation semantics",
"database": {
"schemas": [
{
"allOf": [
{
"allOf": [
{
"type": "null"
}
]
}
],
"$id": "allOf_10_0"
}
]
},
"tests": [
{
"description": "null is valid",
"data": null,
"schema_id": "allOf_10_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "anything non-null is invalid",
"data": 123,
"schema_id": "allOf_10_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra properties in allOf",
"database": {
"schemas": [
{
"allOf": [
{
"properties": {
"bar": {
"type": "integer"
}
},
"required": [
"bar"
]
},
{
"properties": {
"foo": {
"type": "string"
}
},
"required": [
"foo"
]
}
],
"extensible": true,
"$id": "allOf_12_0"
}
]
},
"tests": [
{
"description": "extra property is valid",
"data": {
"foo": "baz",
"bar": 2,
"qux": 3
},
"schema_id": "allOf_12_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "strict by default with allOf properties",
"database": {
"schemas": [
{
"allOf": [
{
"properties": {
"foo": {
"const": 1
}
}
},
{
"properties": {
"bar": {
"const": 2
}
}
}
],
"$id": "allOf_13_0"
}
]
},
"tests": [
{
"description": "validates merged properties",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "allOf_13_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "fails on extra property z explicitly",
"data": {
"foo": 1,
"bar": 2,
"z": 3
},
"schema_id": "allOf_13_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "allOf with nested extensible: true (partial looseness)",
"database": {
"schemas": [
{
"allOf": [
{
"properties": {
"foo": {
"const": 1
}
}
},
{
"extensible": true,
"properties": {
"bar": {
"const": 2
}
}
}
],
"$id": "allOf_14_0"
}
]
},
"tests": [
{
"description": "extensible subschema doesn't make root extensible if root is strict",
"data": {
"foo": 1,
"bar": 2,
"z": 3
},
"schema_id": "allOf_14_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "strictness: allOf composition with strict refs",
"database": {
"schemas": [
{
"allOf": [
{
"$ref": "partA"
},
{
"$ref": "partB"
}
],
"$id": "allOf_15_0"
},
{
"$id": "partA",
"properties": {
"id": {
"type": "string"
}
}
},
{
"$id": "partB",
"properties": {
"name": {
"type": "string"
}
}
}
]
},
"tests": [
{
"description": "merged instance is valid",
"data": {
"id": "1",
"name": "Me"
},
"schema_id": "allOf_15_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "extra property is invalid (root is strict)",
"data": {
"id": "1",
"name": "Me",
"extra": 1
},
"schema_id": "allOf_15_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "partA mismatch is invalid",
"data": {
"id": 1,
"name": "Me"
},
"schema_id": "allOf_15_0",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

197
fixtures/booleanSchema.json Normal file
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@ -0,0 +1,197 @@
[
{
"description": "boolean schema 'true'",
"database": {
"schemas": [
{
"$id": "booleanSchema_0_0"
}
]
},
"tests": [
{
"description": "number is valid",
"data": 1,
"schema_id": "booleanSchema_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "string is valid",
"data": "foo",
"schema_id": "booleanSchema_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boolean true is valid",
"data": true,
"schema_id": "booleanSchema_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boolean false is valid",
"data": false,
"schema_id": "booleanSchema_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "null is valid",
"data": null,
"schema_id": "booleanSchema_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object is valid",
"data": {
"foo": "bar"
},
"schema_id": "booleanSchema_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty object is valid",
"data": {},
"schema_id": "booleanSchema_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array is valid",
"data": [
"foo"
],
"schema_id": "booleanSchema_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty array is valid",
"data": [],
"schema_id": "booleanSchema_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "boolean schema 'false'",
"database": {
"schemas": [
{
"not": {},
"$id": "booleanSchema_1_0"
}
]
},
"tests": [
{
"description": "number is invalid",
"data": 1,
"schema_id": "booleanSchema_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "string is invalid",
"data": "foo",
"schema_id": "booleanSchema_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "boolean true is invalid",
"data": true,
"schema_id": "booleanSchema_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "boolean false is invalid",
"data": false,
"schema_id": "booleanSchema_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is invalid",
"data": null,
"schema_id": "booleanSchema_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "object is invalid",
"data": {
"foo": "bar"
},
"schema_id": "booleanSchema_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty object is invalid",
"data": {},
"schema_id": "booleanSchema_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "array is invalid",
"data": [
"foo"
],
"schema_id": "booleanSchema_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty array is invalid",
"data": [],
"schema_id": "booleanSchema_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

818
fixtures/const.json Normal file
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@ -0,0 +1,818 @@
[
{
"description": "const validation",
"database": {
"schemas": [
{
"const": 2,
"$id": "const_0_0"
}
]
},
"tests": [
{
"description": "same value is valid",
"data": 2,
"schema_id": "const_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "another value is invalid",
"data": 5,
"schema_id": "const_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "another type is invalid",
"data": "a",
"schema_id": "const_0_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with object",
"database": {
"schemas": [
{
"const": {
"foo": "bar",
"baz": "bax"
},
"properties": {
"foo": {},
"baz": {}
},
"$id": "const_1_0"
}
]
},
"tests": [
{
"description": "same object is valid",
"data": {
"foo": "bar",
"baz": "bax"
},
"schema_id": "const_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "same object with different property order is valid",
"data": {
"baz": "bax",
"foo": "bar"
},
"schema_id": "const_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "another object is invalid",
"data": {
"foo": "bar"
},
"schema_id": "const_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "another type is invalid",
"data": [
1,
2
],
"schema_id": "const_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with array",
"database": {
"schemas": [
{
"const": [
{
"foo": "bar"
}
],
"$id": "const_2_0"
}
]
},
"tests": [
{
"description": "same array is valid",
"data": [
{
"foo": "bar"
}
],
"schema_id": "const_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "another array item is invalid",
"data": [
2
],
"schema_id": "const_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "array with additional items is invalid",
"data": [
1,
2,
3
],
"schema_id": "const_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with null",
"database": {
"schemas": [
{
"const": null,
"$id": "const_3_0"
}
]
},
"tests": [
{
"description": "null is valid",
"data": null,
"schema_id": "const_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "not null is invalid",
"data": 0,
"schema_id": "const_3_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with false does not match 0",
"database": {
"schemas": [
{
"const": false,
"$id": "const_4_0"
}
]
},
"tests": [
{
"description": "false is valid",
"data": false,
"schema_id": "const_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "integer zero is invalid",
"data": 0,
"schema_id": "const_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "float zero is invalid",
"data": 0,
"schema_id": "const_4_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with true does not match 1",
"database": {
"schemas": [
{
"const": true,
"$id": "const_5_0"
}
]
},
"tests": [
{
"description": "true is valid",
"data": true,
"schema_id": "const_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "integer one is invalid",
"data": 1,
"schema_id": "const_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "float one is invalid",
"data": 1,
"schema_id": "const_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with [false] does not match [0]",
"database": {
"schemas": [
{
"const": [
false
],
"$id": "const_6_0"
}
]
},
"tests": [
{
"description": "[false] is valid",
"data": [
false
],
"schema_id": "const_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "[0] is invalid",
"data": [
0
],
"schema_id": "const_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "[0.0] is invalid",
"data": [
0
],
"schema_id": "const_6_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with [true] does not match [1]",
"database": {
"schemas": [
{
"const": [
true
],
"$id": "const_7_0"
}
]
},
"tests": [
{
"description": "[true] is valid",
"data": [
true
],
"schema_id": "const_7_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "[1] is invalid",
"data": [
1
],
"schema_id": "const_7_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "[1.0] is invalid",
"data": [
1
],
"schema_id": "const_7_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with {\"a\": false} does not match {\"a\": 0}",
"database": {
"schemas": [
{
"const": {
"a": false
},
"$id": "const_8_0"
}
]
},
"tests": [
{
"description": "{\"a\": false} is valid",
"data": {
"a": false
},
"schema_id": "const_8_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "{\"a\": 0} is invalid",
"data": {
"a": 0
},
"schema_id": "const_8_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "{\"a\": 0.0} is invalid",
"data": {
"a": 0
},
"schema_id": "const_8_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with {\"a\": true} does not match {\"a\": 1}",
"database": {
"schemas": [
{
"const": {
"a": true
},
"$id": "const_9_0"
}
]
},
"tests": [
{
"description": "{\"a\": true} is valid",
"data": {
"a": true
},
"schema_id": "const_9_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "{\"a\": 1} is invalid",
"data": {
"a": 1
},
"schema_id": "const_9_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "{\"a\": 1.0} is invalid",
"data": {
"a": 1
},
"schema_id": "const_9_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with 0 does not match other zero-like types",
"database": {
"schemas": [
{
"const": 0,
"$id": "const_10_0"
}
]
},
"tests": [
{
"description": "false is invalid",
"data": false,
"schema_id": "const_10_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "integer zero is valid",
"data": 0,
"schema_id": "const_10_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "float zero is valid",
"data": 0,
"schema_id": "const_10_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty object is invalid",
"data": {},
"schema_id": "const_10_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty array is invalid",
"data": [],
"schema_id": "const_10_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty string is invalid",
"data": "",
"schema_id": "const_10_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "const with 1 does not match true",
"database": {
"schemas": [
{
"const": 1,
"$id": "const_11_0"
}
]
},
"tests": [
{
"description": "true is invalid",
"data": true,
"schema_id": "const_11_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "integer one is valid",
"data": 1,
"schema_id": "const_11_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "float one is valid",
"data": 1,
"schema_id": "const_11_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "const with -2.0 matches integer and float types",
"database": {
"schemas": [
{
"const": -2,
"$id": "const_12_0"
}
]
},
"tests": [
{
"description": "integer -2 is valid",
"data": -2,
"schema_id": "const_12_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "integer 2 is invalid",
"data": 2,
"schema_id": "const_12_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "float -2.0 is valid",
"data": -2,
"schema_id": "const_12_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "float 2.0 is invalid",
"data": 2,
"schema_id": "const_12_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "float -2.00001 is invalid",
"data": -2.00001,
"schema_id": "const_12_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "float and integers are equal up to 64-bit representation limits",
"database": {
"schemas": [
{
"const": 9007199254740992,
"$id": "const_13_0"
}
]
},
"tests": [
{
"description": "integer is valid",
"data": 9007199254740992,
"schema_id": "const_13_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "integer minus one is invalid",
"data": 9007199254740991,
"schema_id": "const_13_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "float is valid",
"data": 9007199254740992,
"schema_id": "const_13_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "float minus one is invalid",
"data": 9007199254740991,
"schema_id": "const_13_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "nul characters in strings",
"database": {
"schemas": [
{
"const": "hello\u0000there",
"$id": "const_14_0"
}
]
},
"tests": [
{
"description": "match string with nul",
"data": "hello\u0000there",
"schema_id": "const_14_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "do not match string lacking nul",
"data": "hellothere",
"schema_id": "const_14_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "characters with the same visual representation but different codepoint",
"database": {
"schemas": [
{
"const": "μ",
"$comment": "U+03BC",
"$id": "const_15_0"
}
]
},
"tests": [
{
"description": "character uses the same codepoint",
"data": "μ",
"comment": "U+03BC",
"schema_id": "const_15_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "character looks the same but uses a different codepoint",
"data": "µ",
"comment": "U+00B5",
"schema_id": "const_15_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "characters with the same visual representation, but different number of codepoints",
"database": {
"schemas": [
{
"const": "ä",
"$comment": "U+00E4",
"$id": "const_16_0"
}
]
},
"tests": [
{
"description": "character uses the same codepoint",
"data": "ä",
"comment": "U+00E4",
"schema_id": "const_16_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "character looks the same but uses combining marks",
"data": "ä",
"comment": "a, U+0308",
"schema_id": "const_16_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra properties in const object match",
"database": {
"schemas": [
{
"const": {
"a": 1
},
"extensible": true,
"$id": "const_17_0"
}
]
},
"tests": [
{
"description": "extra property ignored during strict check, but const check still applies (mismatch)",
"data": {
"a": 1,
"b": 2
},
"schema_id": "const_17_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "extra property match in const (this is effectively impossible if data has extra props not in const, it implicitly fails const check unless we assume const check ignored extra props? No, const check is strict. So this test is just to show strictness passes.)",
"data": {
"a": 1
},
"schema_id": "const_17_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

418
fixtures/contains.json Normal file
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[
{
"description": "contains keyword validation",
"database": {
"schemas": [
{
"contains": {
"minimum": 5
},
"items": true,
"$id": "contains_0_0"
}
]
},
"tests": [
{
"description": "array with item matching schema (5) is valid (items: true)",
"data": [
3,
4,
5
],
"schema_id": "contains_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array with item matching schema (6) is valid (items: true)",
"data": [
3,
4,
6
],
"schema_id": "contains_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array with two items matching schema (5, 6) is valid (items: true)",
"data": [
3,
4,
5,
6
],
"schema_id": "contains_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array without items matching schema is invalid",
"data": [
2,
3,
4
],
"schema_id": "contains_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty array is invalid",
"data": [],
"schema_id": "contains_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "not array is valid",
"data": {},
"schema_id": "contains_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "contains keyword with const keyword",
"database": {
"schemas": [
{
"contains": {
"const": 5
},
"items": true,
"$id": "contains_1_0"
}
]
},
"tests": [
{
"description": "array with item 5 is valid (items: true)",
"data": [
3,
4,
5
],
"schema_id": "contains_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array with two items 5 is valid (items: true)",
"data": [
3,
4,
5,
5
],
"schema_id": "contains_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array without item 5 is invalid",
"data": [
1,
2,
3,
4
],
"schema_id": "contains_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "contains keyword with boolean schema true",
"database": {
"schemas": [
{
"contains": true,
"$id": "contains_2_0"
}
]
},
"tests": [
{
"description": "any non-empty array is valid",
"data": [
"foo"
],
"schema_id": "contains_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty array is invalid",
"data": [],
"schema_id": "contains_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "contains keyword with boolean schema false",
"database": {
"schemas": [
{
"contains": false,
"$id": "contains_3_0"
}
]
},
"tests": [
{
"description": "any non-empty array is invalid",
"data": [
"foo"
],
"schema_id": "contains_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty array is invalid",
"data": [],
"schema_id": "contains_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "non-arrays are valid",
"data": "contains does not apply to strings",
"schema_id": "contains_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "items + contains",
"database": {
"schemas": [
{
"items": {
"multipleOf": 2
},
"contains": {
"multipleOf": 3
},
"$id": "contains_4_0"
}
]
},
"tests": [
{
"description": "matches items, does not match contains",
"data": [
2,
4,
8
],
"schema_id": "contains_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "does not match items, matches contains",
"data": [
3,
6,
9
],
"schema_id": "contains_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "matches both items and contains",
"data": [
6,
12
],
"schema_id": "contains_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "matches neither items nor contains",
"data": [
1,
5
],
"schema_id": "contains_4_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "contains with false if subschema",
"database": {
"schemas": [
{
"contains": {
"if": false,
"else": true
},
"$id": "contains_5_0"
}
]
},
"tests": [
{
"description": "any non-empty array is valid",
"data": [
"foo"
],
"schema_id": "contains_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty array is invalid",
"data": [],
"schema_id": "contains_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "contains with null instance elements",
"database": {
"schemas": [
{
"contains": {
"type": "null"
},
"$id": "contains_6_0"
}
]
},
"tests": [
{
"description": "allows null items",
"data": [
null
],
"schema_id": "contains_6_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "extensible: true allows non-matching items in contains",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"extensible": true,
"$id": "contains_7_0"
}
]
},
"tests": [
{
"description": "extra items acceptable",
"data": [
1,
2
],
"schema_id": "contains_7_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "strict by default: non-matching items in contains are invalid",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"$id": "contains_8_0"
}
]
},
"tests": [
{
"description": "extra items cause failure",
"data": [
1,
2
],
"schema_id": "contains_8_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "only matching items is valid",
"data": [
1,
1
],
"schema_id": "contains_8_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

232
fixtures/content.json Normal file
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[
{
"description": "validation of string-encoded content based on media type",
"database": {
"schemas": [
{
"contentMediaType": "application/json",
"$id": "content_0_0"
}
]
},
"tests": [
{
"description": "a valid JSON document",
"data": "{\"foo\": \"bar\"}",
"schema_id": "content_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an invalid JSON document; validates true",
"data": "{:}",
"schema_id": "content_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores non-strings",
"data": 100,
"schema_id": "content_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "validation of binary string-encoding",
"database": {
"schemas": [
{
"contentEncoding": "base64",
"$id": "content_1_0"
}
]
},
"tests": [
{
"description": "a valid base64 string",
"data": "eyJmb28iOiAiYmFyIn0K",
"schema_id": "content_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an invalid base64 string (% is not a valid character); validates true",
"data": "eyJmb28iOi%iYmFyIn0K",
"schema_id": "content_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores non-strings",
"data": 100,
"schema_id": "content_1_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "validation of binary-encoded media type documents",
"database": {
"schemas": [
{
"contentMediaType": "application/json",
"contentEncoding": "base64",
"$id": "content_2_0"
}
]
},
"tests": [
{
"description": "a valid base64-encoded JSON document",
"data": "eyJmb28iOiAiYmFyIn0K",
"schema_id": "content_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a validly-encoded invalid JSON document; validates true",
"data": "ezp9Cg==",
"schema_id": "content_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an invalid base64 string that is valid JSON; validates true",
"data": "{}",
"schema_id": "content_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores non-strings",
"data": 100,
"schema_id": "content_2_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "validation of binary-encoded media type documents with schema",
"database": {
"schemas": [
{
"contentMediaType": "application/json",
"contentEncoding": "base64",
"contentSchema": {
"type": "object",
"required": [
"foo"
],
"properties": {
"foo": {
"type": "string"
},
"boo": {
"type": "integer"
}
}
},
"$id": "content_3_0"
}
]
},
"tests": [
{
"description": "a valid base64-encoded JSON document",
"data": "eyJmb28iOiAiYmFyIn0K",
"schema_id": "content_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "another valid base64-encoded JSON document",
"data": "eyJib28iOiAyMCwgImZvbyI6ICJiYXoifQ==",
"schema_id": "content_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an invalid base64-encoded JSON document; validates true",
"data": "eyJib28iOiAyMH0=",
"schema_id": "content_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an empty object as a base64-encoded JSON document; validates true",
"data": "e30=",
"schema_id": "content_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an empty array as a base64-encoded JSON document",
"data": "W10=",
"schema_id": "content_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a validly-encoded invalid JSON document; validates true",
"data": "ezp9Cg==",
"schema_id": "content_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an invalid base64 string that is valid JSON; validates true",
"data": "{}",
"schema_id": "content_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores non-strings",
"data": 100,
"schema_id": "content_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

748
fixtures/dependencies.json Normal file
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[
{
"description": "single dependency (required)",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema1",
"dependencies": {
"bar": [
"foo"
]
},
"extensible": true
}
]
},
"tests": [
{
"description": "neither",
"data": {},
"schema_id": "schema1",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "nondependant",
"data": {
"foo": 1
},
"schema_id": "schema1",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "with dependency",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "schema1",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "missing dependency",
"data": {
"bar": 2
},
"schema_id": "schema1",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores arrays",
"data": [
"bar"
],
"schema_id": "schema1",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores strings",
"data": "foobar",
"schema_id": "schema1",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores other non-objects",
"data": 12,
"schema_id": "schema1",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "empty dependents",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema2",
"dependencies": {
"bar": []
},
"extensible": true
}
]
},
"tests": [
{
"description": "empty object",
"data": {},
"schema_id": "schema2",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object with one property",
"data": {
"bar": 2
},
"schema_id": "schema2",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "non-object is valid",
"data": 1,
"schema_id": "schema2",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "multiple dependents required",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema3",
"dependencies": {
"quux": [
"foo",
"bar"
]
},
"extensible": true
}
]
},
"tests": [
{
"description": "neither",
"data": {},
"schema_id": "schema3",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "nondependants",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "schema3",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "with dependencies",
"data": {
"foo": 1,
"bar": 2,
"quux": 3
},
"schema_id": "schema3",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "missing dependency",
"data": {
"foo": 1,
"quux": 2
},
"schema_id": "schema3",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "missing other dependency",
"data": {
"bar": 1,
"quux": 2
},
"schema_id": "schema3",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "missing both dependencies",
"data": {
"quux": 1
},
"schema_id": "schema3",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "dependencies with escaped characters",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema4",
"dependencies": {
"foo\nbar": [
"foo\rbar"
],
"foo\"bar": [
"foo'bar"
]
},
"extensible": true
}
]
},
"tests": [
{
"description": "CRLF",
"data": {
"foo\nbar": 1,
"foo\rbar": 2
},
"schema_id": "schema4",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "quoted quotes",
"data": {
"foo'bar": 1,
"foo\"bar": 2
},
"schema_id": "schema4",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "CRLF missing dependent",
"data": {
"foo\nbar": 1,
"foo": 2
},
"schema_id": "schema4",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "quoted quotes missing dependent",
"data": {
"foo\"bar": 2
},
"schema_id": "schema4",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra properties in dependentRequired",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema5",
"dependencies": {
"bar": [
"foo"
]
},
"extensible": true
}
]
},
"tests": [
{
"description": "extra property is valid",
"data": {
"foo": 1,
"bar": 2,
"baz": 3
},
"schema_id": "schema5",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "single dependency (schemas, STRICT)",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema_schema1",
"properties": {
"foo": true,
"bar": true
},
"dependencies": {
"bar": {
"properties": {
"foo": {
"type": "integer"
},
"bar": {
"type": "integer"
}
}
}
}
}
]
},
"tests": [
{
"description": "valid",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "schema_schema1",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "no dependency",
"data": {
"foo": "quux"
},
"schema_id": "schema_schema1",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "wrong type",
"data": {
"foo": "quux",
"bar": 2
},
"schema_id": "schema_schema1",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "wrong type other",
"data": {
"foo": 2,
"bar": "quux"
},
"schema_id": "schema_schema1",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "wrong type both",
"data": {
"foo": "quux",
"bar": "quux"
},
"schema_id": "schema_schema1",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores arrays (invalid in strict mode)",
"data": [
"bar"
],
"schema_id": "schema_schema1",
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "STRICT_ITEM_VIOLATION"
}
]
}
},
{
"description": "ignores strings",
"data": "foobar",
"schema_id": "schema_schema1",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores other non-objects",
"data": 12,
"schema_id": "schema_schema1",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "single dependency (schemas, EXTENSIBLE)",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema_schema2",
"properties": {
"foo": true,
"bar": true
},
"dependencies": {
"bar": {
"properties": {
"foo": {
"type": "integer"
},
"bar": {
"type": "integer"
}
}
}
},
"extensible": true
}
]
},
"tests": [
{
"description": "ignores arrays (valid in extensible mode)",
"data": [
"bar"
],
"schema_id": "schema_schema2",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "boolean subschemas",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema_schema3",
"properties": {
"foo": true,
"bar": true
},
"dependencies": {
"foo": true,
"bar": false
}
}
]
},
"tests": [
{
"description": "object with property having schema true is valid",
"data": {
"foo": 1
},
"schema_id": "schema_schema3",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object with property having schema false is invalid",
"data": {
"bar": 2
},
"schema_id": "schema_schema3",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "object with both properties is invalid",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "schema_schema3",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty object is valid",
"data": {},
"schema_id": "schema_schema3",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "dependencies with escaped characters",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema_schema4",
"properties": {
"foo\tbar": true,
"foo'bar": true,
"a": true,
"b": true,
"c": true
},
"dependencies": {
"foo\tbar": {
"minProperties": 4,
"extensible": true
},
"foo'bar": {
"required": [
"foo\"bar"
]
}
}
}
]
},
"tests": [
{
"description": "quoted tab",
"data": {
"foo\tbar": 1,
"a": 2,
"b": 3,
"c": 4
},
"schema_id": "schema_schema4",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "quoted quote",
"data": {
"foo'bar": {
"foo\"bar": 1
}
},
"schema_id": "schema_schema4",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "quoted tab invalid under dependent schema",
"data": {
"foo\tbar": 1,
"a": 2
},
"schema_id": "schema_schema4",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "quoted quote invalid under dependent schema",
"data": {
"foo'bar": 1
},
"schema_id": "schema_schema4",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "dependent subschema incompatible with root (STRICT)",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema_schema5",
"properties": {
"foo": {},
"baz": true
},
"dependencies": {
"foo": {
"properties": {
"bar": {}
}
}
}
}
]
},
"tests": [
{
"description": "matches root",
"data": {
"foo": 1
},
"schema_id": "schema_schema5",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "matches dependency (invalid in strict mode - bar not allowed if foo missing)",
"data": {
"bar": 1
},
"schema_id": "schema_schema5",
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "STRICT_PROPERTY_VIOLATION"
}
]
}
},
{
"description": "matches both",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "schema_schema5",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "no dependency",
"data": {
"baz": 1
},
"schema_id": "schema_schema5",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "dependent subschema incompatible with root (EXTENSIBLE)",
"database": {
"schemas": [
{
"$schema": "https://json-schema.org/draft/2020-12/schema",
"$id": "schema_schema6",
"properties": {
"foo": {},
"baz": true
},
"dependencies": {
"foo": {
"properties": {
"bar": {}
},
"additionalProperties": false
}
},
"extensible": true
}
]
},
"tests": [
{
"description": "matches dependency (valid in extensible mode)",
"data": {
"bar": 1
},
"schema_id": "schema_schema6",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

163
fixtures/emptyString.json Normal file
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@ -0,0 +1,163 @@
[
{
"description": "empty string is valid for all types (except const)",
"database": {
"schemas": [
{
"properties": {
"obj": {
"type": "object"
},
"arr": {
"type": "array"
},
"str": {
"type": "string"
},
"int": {
"type": "integer"
},
"num": {
"type": "number"
},
"bool": {
"type": "boolean"
},
"nul": {
"type": "null"
},
"fmt": {
"type": "string",
"format": "uuid"
},
"con": {
"const": "value"
},
"con_empty": {
"const": ""
}
},
"$id": "emptyString_0_0"
}
]
},
"tests": [
{
"description": "empty string valid for object",
"data": {
"obj": ""
},
"schema_id": "emptyString_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty string valid for array",
"data": {
"arr": ""
},
"schema_id": "emptyString_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty string valid for string",
"data": {
"str": ""
},
"schema_id": "emptyString_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty string valid for integer",
"data": {
"int": ""
},
"schema_id": "emptyString_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty string valid for number",
"data": {
"num": ""
},
"schema_id": "emptyString_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty string valid for boolean",
"data": {
"bool": ""
},
"schema_id": "emptyString_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty string valid for null",
"data": {
"nul": ""
},
"schema_id": "emptyString_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty string valid for format",
"data": {
"fmt": ""
},
"schema_id": "emptyString_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty string INVALID for const (unless const is empty string)",
"data": {
"con": ""
},
"schema_id": "emptyString_0_0",
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "CONST_VIOLATED",
"path": "/con"
}
]
}
},
{
"description": "empty string VALID for const if const IS empty string",
"data": {
"con_empty": ""
},
"schema_id": "emptyString_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

736
fixtures/enum.json Normal file
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[
{
"description": "simple enum validation",
"database": {
"schemas": [
{
"enum": [
1,
2,
3
],
"$id": "enum_0_0"
}
]
},
"tests": [
{
"description": "one of the enum is valid",
"data": 1,
"schema_id": "enum_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "something else is invalid",
"data": 4,
"schema_id": "enum_0_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "heterogeneous enum validation",
"database": {
"schemas": [
{
"enum": [
6,
"foo",
[],
true,
{
"foo": 12
}
],
"properties": {
"foo": {}
},
"$id": "enum_1_0"
}
]
},
"tests": [
{
"description": "one of the enum is valid",
"data": [],
"schema_id": "enum_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "something else is invalid",
"data": null,
"schema_id": "enum_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "objects are deep compared",
"data": {
"foo": false
},
"schema_id": "enum_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "valid object matches",
"data": {
"foo": 12
},
"schema_id": "enum_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "extra properties in object is invalid",
"data": {
"foo": 12,
"boo": 42
},
"schema_id": "enum_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "heterogeneous enum-with-null validation",
"database": {
"schemas": [
{
"enum": [
6,
null
],
"$id": "enum_2_0"
}
]
},
"tests": [
{
"description": "null is valid",
"data": null,
"schema_id": "enum_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "number is valid",
"data": 6,
"schema_id": "enum_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "something else is invalid",
"data": "test",
"schema_id": "enum_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "enums in properties",
"database": {
"schemas": [
{
"type": "object",
"properties": {
"foo": {
"enum": [
"foo"
]
},
"bar": {
"enum": [
"bar"
]
}
},
"required": [
"bar"
],
"$id": "enum_3_0"
}
]
},
"tests": [
{
"description": "both properties are valid",
"data": {
"foo": "foo",
"bar": "bar"
},
"schema_id": "enum_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "wrong foo value",
"data": {
"foo": "foot",
"bar": "bar"
},
"schema_id": "enum_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "wrong bar value",
"data": {
"foo": "foo",
"bar": "bart"
},
"schema_id": "enum_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "missing optional property is valid",
"data": {
"bar": "bar"
},
"schema_id": "enum_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "missing required property is invalid",
"data": {
"foo": "foo"
},
"schema_id": "enum_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "missing all properties is invalid",
"data": {},
"schema_id": "enum_3_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "enum with escaped characters",
"database": {
"schemas": [
{
"enum": [
"foo\nbar",
"foo\rbar"
],
"$id": "enum_4_0"
}
]
},
"tests": [
{
"description": "member 1 is valid",
"data": "foo\nbar",
"schema_id": "enum_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "member 2 is valid",
"data": "foo\rbar",
"schema_id": "enum_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "another string is invalid",
"data": "abc",
"schema_id": "enum_4_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "enum with false does not match 0",
"database": {
"schemas": [
{
"enum": [
false
],
"$id": "enum_5_0"
}
]
},
"tests": [
{
"description": "false is valid",
"data": false,
"schema_id": "enum_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "integer zero is invalid",
"data": 0,
"schema_id": "enum_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "float zero is invalid",
"data": 0,
"schema_id": "enum_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "enum with [false] does not match [0]",
"database": {
"schemas": [
{
"enum": [
[
false
]
],
"$id": "enum_6_0"
}
]
},
"tests": [
{
"description": "[false] is valid",
"data": [
false
],
"schema_id": "enum_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "[0] is invalid",
"data": [
0
],
"schema_id": "enum_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "[0.0] is invalid",
"data": [
0
],
"schema_id": "enum_6_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "enum with true does not match 1",
"database": {
"schemas": [
{
"enum": [
true
],
"$id": "enum_7_0"
}
]
},
"tests": [
{
"description": "true is valid",
"data": true,
"schema_id": "enum_7_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "integer one is invalid",
"data": 1,
"schema_id": "enum_7_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "float one is invalid",
"data": 1,
"schema_id": "enum_7_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "enum with [true] does not match [1]",
"database": {
"schemas": [
{
"enum": [
[
true
]
],
"$id": "enum_8_0"
}
]
},
"tests": [
{
"description": "[true] is valid",
"data": [
true
],
"schema_id": "enum_8_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "[1] is invalid",
"data": [
1
],
"schema_id": "enum_8_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "[1.0] is invalid",
"data": [
1
],
"schema_id": "enum_8_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "enum with 0 does not match false",
"database": {
"schemas": [
{
"enum": [
0
],
"$id": "enum_9_0"
}
]
},
"tests": [
{
"description": "false is invalid",
"data": false,
"schema_id": "enum_9_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "integer zero is valid",
"data": 0,
"schema_id": "enum_9_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "float zero is valid",
"data": 0,
"schema_id": "enum_9_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "enum with [0] does not match [false]",
"database": {
"schemas": [
{
"enum": [
[
0
]
],
"$id": "enum_10_0"
}
]
},
"tests": [
{
"description": "[false] is invalid",
"data": [
false
],
"schema_id": "enum_10_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "[0] is valid",
"data": [
0
],
"schema_id": "enum_10_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "[0.0] is valid",
"data": [
0
],
"schema_id": "enum_10_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "enum with 1 does not match true",
"database": {
"schemas": [
{
"enum": [
1
],
"$id": "enum_11_0"
}
]
},
"tests": [
{
"description": "true is invalid",
"data": true,
"schema_id": "enum_11_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "integer one is valid",
"data": 1,
"schema_id": "enum_11_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "float one is valid",
"data": 1,
"schema_id": "enum_11_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "enum with [1] does not match [true]",
"database": {
"schemas": [
{
"enum": [
[
1
]
],
"$id": "enum_12_0"
}
]
},
"tests": [
{
"description": "[true] is invalid",
"data": [
true
],
"schema_id": "enum_12_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "[1] is valid",
"data": [
1
],
"schema_id": "enum_12_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "[1.0] is valid",
"data": [
1
],
"schema_id": "enum_12_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "nul characters in strings",
"database": {
"schemas": [
{
"enum": [
"hello\u0000there"
],
"$id": "enum_13_0"
}
]
},
"tests": [
{
"description": "match string with nul",
"data": "hello\u0000there",
"schema_id": "enum_13_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "do not match string lacking nul",
"data": "hellothere",
"schema_id": "enum_13_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra properties in enum object match",
"database": {
"schemas": [
{
"enum": [
{
"foo": 1
}
],
"extensible": true,
"$id": "enum_14_0"
}
]
},
"tests": [
{
"description": "extra property ignored during strict check, but enum check still applies (mismatch here)",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "enum_14_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "extra property ignored during strict check, enum match succeeds",
"data": {
"foo": 1
},
"schema_id": "enum_14_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

51
fixtures/exclusiveMaximum.json Normal file
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[
{
"description": "exclusiveMaximum validation",
"database": {
"schemas": [
{
"exclusiveMaximum": 3,
"$id": "exclusiveMaximum_0_0"
}
]
},
"tests": [
{
"description": "below the exclusiveMaximum is valid",
"data": 2.2,
"schema_id": "exclusiveMaximum_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boundary point is invalid",
"data": 3,
"schema_id": "exclusiveMaximum_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "above the exclusiveMaximum is invalid",
"data": 3.5,
"schema_id": "exclusiveMaximum_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores non-numbers",
"data": "x",
"schema_id": "exclusiveMaximum_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

51
fixtures/exclusiveMinimum.json Normal file
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[
{
"description": "exclusiveMinimum validation",
"database": {
"schemas": [
{
"exclusiveMinimum": 1.1,
"$id": "exclusiveMinimum_0_0"
}
]
},
"tests": [
{
"description": "above the exclusiveMinimum is valid",
"data": 1.2,
"schema_id": "exclusiveMinimum_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boundary point is invalid",
"data": 1.1,
"schema_id": "exclusiveMinimum_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "below the exclusiveMinimum is invalid",
"data": 0.6,
"schema_id": "exclusiveMinimum_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores non-numbers",
"data": "x",
"schema_id": "exclusiveMinimum_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

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fixtures/families.json Normal file
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[
{
"description": "Entity families via pure $ref graph",
"database": {
"types": [
{
"name": "entity",
"variations": [
"entity",
"organization",
"person"
],
"schemas": [
{
"$id": "entity",
"type": "object",
"properties": {
"id": {
"type": "string"
},
"type": {
"type": "string"
}
}
},
{
"$id": "light.entity",
"$ref": "entity"
}
]
},
{
"name": "organization",
"variations": [
"organization",
"person"
],
"schemas": [
{
"$id": "organization",
"$ref": "entity",
"properties": {
"name": {
"type": "string"
}
}
}
]
},
{
"name": "person",
"variations": [
"person"
],
"schemas": [
{
"$id": "person",
"$ref": "organization",
"properties": {
"first_name": {
"type": "string"
}
}
},
{
"$id": "light.person",
"$ref": "light.entity"
}
]
}
],
"puncs": [
{
"name": "get_entities",
"schemas": [
{
"$id": "get_entities.response",
"$family": "entity"
}
]
},
{
"name": "get_light_entities",
"schemas": [
{
"$id": "get_light_entities.response",
"$family": "light.entity"
}
]
}
]
},
"tests": [
{
"description": "Family matches base entity",
"schema_id": "get_entities.response",
"data": {
"id": "1",
"type": "entity"
},
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "Family matches descendant person",
"schema_id": "get_entities.response",
"data": {
"id": "2",
"type": "person",
"name": "ACME",
"first_name": "John"
},
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "Graph family matches light.entity",
"schema_id": "get_light_entities.response",
"data": {
"id": "3",
"type": "entity"
},
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "Graph family matches light.person (because it $refs light.entity)",
"schema_id": "get_light_entities.response",
"data": {
"id": "4",
"type": "person"
},
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "Graph family excludes organization (missing light. schema that $refs light.entity)",
"schema_id": "get_light_entities.response",
"data": {
"id": "5",
"type": "organization",
"name": "ACME"
},
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "FAMILY_MISMATCH",
"path": ""
}
]
}
}
]
},
{
"description": "Ad-hoc non-entity families (using normal json-schema object structures)",
"database": {
"puncs": [
{
"name": "get_widgets",
"schemas": [
{
"$id": "widget",
"type": "object",
"properties": {
"id": {
"type": "string"
},
"widget_type": {
"type": "string"
}
}
},
{
"$id": "special_widget",
"$ref": "widget",
"properties": {
"special_feature": {
"type": "string"
}
}
},
{
"$id": "get_widgets.response",
"$family": "widget"
}
]
}
]
},
"tests": [
{
"description": "Ad-hoc family matches strictly by shape (no magic variations for base schemas)",
"schema_id": "get_widgets.response",
"data": {
"id": "1",
"widget_type": "special",
"special_feature": "yes"
},
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

5456
fixtures/format.json Normal file
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594
fixtures/if-then-else.json Normal file
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[
{
"description": "ignore if without then or else",
"database": {
"schemas": [
{
"if": {
"const": 0
},
"$id": "if-then-else_0_0"
}
]
},
"tests": [
{
"description": "valid when valid against lone if",
"data": 0,
"schema_id": "if-then-else_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "valid when invalid against lone if",
"data": "hello",
"schema_id": "if-then-else_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "ignore then without if",
"database": {
"schemas": [
{
"then": {
"const": 0
},
"$id": "if-then-else_1_0"
}
]
},
"tests": [
{
"description": "valid when valid against lone then",
"data": 0,
"schema_id": "if-then-else_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "valid when invalid against lone then",
"data": "hello",
"schema_id": "if-then-else_1_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "ignore else without if",
"database": {
"schemas": [
{
"else": {
"const": 0
},
"$id": "if-then-else_2_0"
}
]
},
"tests": [
{
"description": "valid when valid against lone else",
"data": 0,
"schema_id": "if-then-else_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "valid when invalid against lone else",
"data": "hello",
"schema_id": "if-then-else_2_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "if and then without else",
"database": {
"schemas": [
{
"if": {
"exclusiveMaximum": 0
},
"then": {
"minimum": -10
},
"$id": "if-then-else_3_0"
}
]
},
"tests": [
{
"description": "valid through then",
"data": -1,
"schema_id": "if-then-else_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "invalid through then",
"data": -100,
"schema_id": "if-then-else_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "valid when if test fails",
"data": 3,
"schema_id": "if-then-else_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "if and else without then",
"database": {
"schemas": [
{
"if": {
"exclusiveMaximum": 0
},
"else": {
"multipleOf": 2
},
"$id": "if-then-else_4_0"
}
]
},
"tests": [
{
"description": "valid when if test passes",
"data": -1,
"schema_id": "if-then-else_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "valid through else",
"data": 4,
"schema_id": "if-then-else_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "invalid through else",
"data": 3,
"schema_id": "if-then-else_4_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "validate against correct branch, then vs else",
"database": {
"schemas": [
{
"if": {
"exclusiveMaximum": 0
},
"then": {
"minimum": -10
},
"else": {
"multipleOf": 2
},
"$id": "if-then-else_5_0"
}
]
},
"tests": [
{
"description": "valid through then",
"data": -1,
"schema_id": "if-then-else_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "invalid through then",
"data": -100,
"schema_id": "if-then-else_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "valid through else",
"data": 4,
"schema_id": "if-then-else_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "invalid through else",
"data": 3,
"schema_id": "if-then-else_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "non-interference across combined schemas",
"database": {
"schemas": [
{
"allOf": [
{
"if": {
"exclusiveMaximum": 0
}
},
{
"then": {
"minimum": -10
}
},
{
"else": {
"multipleOf": 2
}
}
],
"$id": "if-then-else_6_0"
}
]
},
"tests": [
{
"description": "valid, but would have been invalid through then",
"data": -100,
"schema_id": "if-then-else_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "valid, but would have been invalid through else",
"data": 3,
"schema_id": "if-then-else_6_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "if with boolean schema true",
"database": {
"schemas": [
{
"if": true,
"then": {
"const": "then"
},
"else": {
"const": "else"
},
"$id": "if-then-else_7_0"
}
]
},
"tests": [
{
"description": "boolean schema true in if always chooses the then path (valid)",
"data": "then",
"schema_id": "if-then-else_7_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boolean schema true in if always chooses the then path (invalid)",
"data": "else",
"schema_id": "if-then-else_7_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "if with boolean schema false",
"database": {
"schemas": [
{
"if": false,
"then": {
"const": "then"
},
"else": {
"const": "else"
},
"$id": "if-then-else_8_0"
}
]
},
"tests": [
{
"description": "boolean schema false in if always chooses the else path (invalid)",
"data": "then",
"schema_id": "if-then-else_8_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "boolean schema false in if always chooses the else path (valid)",
"data": "else",
"schema_id": "if-then-else_8_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "if appears at the end when serialized (keyword processing sequence)",
"database": {
"schemas": [
{
"then": {
"const": "yes"
},
"else": {
"const": "other"
},
"if": {
"maxLength": 4
},
"$id": "if-then-else_9_0"
}
]
},
"tests": [
{
"description": "yes redirects to then and passes",
"data": "yes",
"schema_id": "if-then-else_9_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "other redirects to else and passes",
"data": "other",
"schema_id": "if-then-else_9_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "no redirects to then and fails",
"data": "no",
"schema_id": "if-then-else_9_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "invalid redirects to else and fails",
"data": "invalid",
"schema_id": "if-then-else_9_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "then: false fails when condition matches",
"database": {
"schemas": [
{
"if": {
"const": 1
},
"then": false,
"$id": "if-then-else_10_0"
}
]
},
"tests": [
{
"description": "matches if → then=false → invalid",
"data": 1,
"schema_id": "if-then-else_10_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "does not match if → then ignored → valid",
"data": 2,
"schema_id": "if-then-else_10_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "else: false fails when condition does not match",
"database": {
"schemas": [
{
"if": {
"const": 1
},
"else": false,
"$id": "if-then-else_11_0"
}
]
},
"tests": [
{
"description": "matches if → else ignored → valid",
"data": 1,
"schema_id": "if-then-else_11_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "does not match if → else executes → invalid",
"data": 2,
"schema_id": "if-then-else_11_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra properties in if-then-else",
"database": {
"schemas": [
{
"if": {
"properties": {
"foo": {
"const": 1
}
},
"required": [
"foo"
]
},
"then": {
"properties": {
"bar": {
"const": 2
}
},
"required": [
"bar"
]
},
"extensible": true,
"$id": "if-then-else_12_0"
}
]
},
"tests": [
{
"description": "extra property is valid (matches if and then)",
"data": {
"foo": 1,
"bar": 2,
"extra": "prop"
},
"schema_id": "if-then-else_12_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "strict by default with if-then properties",
"database": {
"schemas": [
{
"if": {
"properties": {
"foo": {
"const": 1
}
},
"required": [
"foo"
]
},
"then": {
"properties": {
"bar": {
"const": 2
}
}
},
"$id": "if-then-else_13_0"
}
]
},
"tests": [
{
"description": "valid match (foo + bar)",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "if-then-else_13_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "fails on extra property z explicitly",
"data": {
"foo": 1,
"bar": 2,
"z": 3
},
"schema_id": "if-then-else_13_0",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

966
fixtures/items.json Normal file
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[
{
"description": "a schema given for items",
"database": {
"schemas": [
{
"items": {
"type": "integer"
},
"$id": "items_0_0"
}
]
},
"tests": [
{
"description": "valid items",
"data": [
1,
2,
3
],
"schema_id": "items_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "wrong type of items",
"data": [
1,
"x"
],
"schema_id": "items_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "non-arrays are invalid",
"data": {
"foo": "bar"
},
"schema_id": "items_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "JavaScript pseudo-arrays are invalid",
"data": {
"0": "invalid",
"length": 1
},
"schema_id": "items_0_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "items with boolean schema (true)",
"database": {
"schemas": [
{
"items": true,
"$id": "items_1_0"
}
]
},
"tests": [
{
"description": "any array is valid",
"data": [
1,
"foo",
true
],
"schema_id": "items_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty array is valid",
"data": [],
"schema_id": "items_1_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "items with boolean schema (false)",
"database": {
"schemas": [
{
"items": false,
"$id": "items_2_0"
}
]
},
"tests": [
{
"description": "any non-empty array is invalid",
"data": [
1,
"foo",
true
],
"schema_id": "items_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty array is valid",
"data": [],
"schema_id": "items_2_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "items and subitems",
"database": {
"schemas": [
{
"type": "array",
"items": false,
"prefixItems": [
{
"$ref": "item"
},
{
"$ref": "item"
},
{
"$ref": "item"
}
],
"$id": "items_3_0"
},
{
"$id": "item",
"type": "array",
"items": false,
"prefixItems": [
{
"$ref": "sub-item"
},
{
"$ref": "sub-item"
}
]
},
{
"$id": "sub-item",
"type": "object",
"required": [
"foo"
]
}
]
},
"tests": [
{
"description": "valid items",
"data": [
[
{
"foo": null
},
{
"foo": null
}
],
[
{
"foo": null
},
{
"foo": null
}
],
[
{
"foo": null
},
{
"foo": null
}
]
],
"schema_id": "items_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "too many items",
"data": [
[
{
"foo": null
},
{
"foo": null
}
],
[
{
"foo": null
},
{
"foo": null
}
],
[
{
"foo": null
},
{
"foo": null
}
],
[
{
"foo": null
},
{
"foo": null
}
]
],
"schema_id": "items_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "too many sub-items",
"data": [
[
{
"foo": null
},
{
"foo": null
},
{
"foo": null
}
],
[
{
"foo": null
},
{
"foo": null
}
],
[
{
"foo": null
},
{
"foo": null
}
]
],
"schema_id": "items_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "wrong item",
"data": [
{
"foo": null
},
[
{
"foo": null
},
{
"foo": null
}
],
[
{
"foo": null
},
{
"foo": null
}
]
],
"schema_id": "items_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "wrong sub-item",
"data": [
[
{},
{
"foo": null
}
],
[
{
"foo": null
},
{
"foo": null
}
],
[
{
"foo": null
},
{
"foo": null
}
]
],
"schema_id": "items_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "fewer items is invalid",
"data": [
[
{
"foo": null
}
],
[
{
"foo": null
}
]
],
"schema_id": "items_3_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "nested items",
"database": {
"schemas": [
{
"type": "array",
"items": {
"type": "array",
"items": {
"type": "array",
"items": {
"type": "array",
"items": {
"type": "number"
}
}
}
},
"$id": "items_4_0"
}
]
},
"tests": [
{
"description": "valid nested array",
"data": [
[
[
[
1
]
],
[
[
2
],
[
3
]
]
],
[
[
[
4
],
[
5
],
[
6
]
]
]
],
"schema_id": "items_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "nested array with invalid type",
"data": [
[
[
[
"1"
]
],
[
[
2
],
[
3
]
]
],
[
[
[
4
],
[
5
],
[
6
]
]
]
],
"schema_id": "items_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "not deep enough",
"data": [
[
[
1
],
[
2
],
[
3
]
],
[
[
4
],
[
5
],
[
6
]
]
],
"schema_id": "items_4_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "prefixItems with no additional items allowed",
"database": {
"schemas": [
{
"prefixItems": [
{},
{},
{}
],
"items": false,
"$id": "items_5_0"
}
]
},
"tests": [
{
"description": "empty array",
"data": [],
"schema_id": "items_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "fewer number of items present (1)",
"data": [
1
],
"schema_id": "items_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "fewer number of items present (2)",
"data": [
1,
2
],
"schema_id": "items_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "equal number of items present",
"data": [
1,
2,
3
],
"schema_id": "items_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "additional items are not permitted",
"data": [
1,
2,
3,
4
],
"schema_id": "items_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "items does not look in applicators, valid case",
"database": {
"schemas": [
{
"allOf": [
{
"prefixItems": [
{
"minimum": 3
}
]
}
],
"items": {
"minimum": 5
},
"$id": "items_6_0"
}
]
},
"tests": [
{
"description": "prefixItems in allOf does not constrain items, invalid case",
"data": [
3,
5
],
"schema_id": "items_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "prefixItems in allOf does not constrain items, valid case",
"data": [
5,
5
],
"schema_id": "items_6_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "prefixItems validation adjusts the starting index for items",
"database": {
"schemas": [
{
"prefixItems": [
{
"type": "string"
}
],
"items": {
"type": "integer"
},
"$id": "items_7_0"
}
]
},
"tests": [
{
"description": "valid items",
"data": [
"x",
2,
3
],
"schema_id": "items_7_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "wrong type of second item",
"data": [
"x",
"y"
],
"schema_id": "items_7_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "items with heterogeneous array",
"database": {
"schemas": [
{
"prefixItems": [
{}
],
"items": false,
"$id": "items_8_0"
}
]
},
"tests": [
{
"description": "heterogeneous invalid instance",
"data": [
"foo",
"bar",
37
],
"schema_id": "items_8_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "valid instance",
"data": [
null
],
"schema_id": "items_8_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "items with null instance elements",
"database": {
"schemas": [
{
"items": {
"type": "null"
},
"$id": "items_9_0"
}
]
},
"tests": [
{
"description": "allows null elements",
"data": [
null
],
"schema_id": "items_9_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "extensible: true allows extra items (when items is false)",
"database": {
"schemas": [
{
"items": false,
"extensible": true,
"$id": "items_10_0"
}
]
},
"tests": [
{
"description": "extra item is valid",
"data": [
1
],
"schema_id": "items_10_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra properties for items",
"database": {
"schemas": [
{
"items": {
"minimum": 5
},
"extensible": true,
"$id": "items_11_0"
}
]
},
"tests": [
{
"description": "valid item is valid",
"data": [
5,
6
],
"schema_id": "items_11_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "invalid item (less than min) is invalid even with extensible: true",
"data": [
4
],
"schema_id": "items_11_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "array: simple extensible array",
"database": {
"schemas": [
{
"type": "array",
"extensible": true,
"$id": "items_12_0"
}
]
},
"tests": [
{
"description": "empty array is valid",
"data": [],
"schema_id": "items_12_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array with items is valid (extensible)",
"data": [
1,
"foo"
],
"schema_id": "items_12_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "array: strict array",
"database": {
"schemas": [
{
"type": "array",
"extensible": false,
"$id": "items_13_0"
}
]
},
"tests": [
{
"description": "empty array is valid",
"data": [],
"schema_id": "items_13_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array with items is invalid (strict)",
"data": [
1
],
"schema_id": "items_13_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "array: items extensible",
"database": {
"schemas": [
{
"type": "array",
"items": {
"extensible": true
},
"$id": "items_14_0"
}
]
},
"tests": [
{
"description": "empty array is valid",
"data": [],
"schema_id": "items_14_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array with items is valid (items explicitly allowed to be anything extensible)",
"data": [
1,
"foo",
{}
],
"schema_id": "items_14_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "array: items strict",
"database": {
"schemas": [
{
"type": "array",
"items": {
"type": "object",
"extensible": false
},
"$id": "items_15_0"
}
]
},
"tests": [
{
"description": "empty array is valid (empty objects)",
"data": [
{}
],
"schema_id": "items_15_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array with strict object items is valid",
"data": [
{}
],
"schema_id": "items_15_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array with invalid strict object items (extra property)",
"data": [
{
"extra": 1
}
],
"schema_id": "items_15_0",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

235
fixtures/maxContains.json Normal file
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[
{
"description": "maxContains without contains is ignored",
"database": {
"schemas": [
{
"maxContains": 1,
"extensible": true,
"$id": "maxContains_0_0"
}
]
},
"tests": [
{
"description": "one item valid against lone maxContains",
"data": [
1
],
"schema_id": "maxContains_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "two items still valid against lone maxContains",
"data": [
1,
2
],
"schema_id": "maxContains_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "maxContains with contains",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"maxContains": 1,
"extensible": true,
"$id": "maxContains_1_0"
}
]
},
"tests": [
{
"description": "empty data",
"data": [],
"schema_id": "maxContains_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "all elements match, valid maxContains",
"data": [
1
],
"schema_id": "maxContains_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "all elements match, invalid maxContains",
"data": [
1,
1
],
"schema_id": "maxContains_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "some elements match, valid maxContains",
"data": [
1,
2
],
"schema_id": "maxContains_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "some elements match, invalid maxContains",
"data": [
1,
2,
1
],
"schema_id": "maxContains_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "maxContains with contains, value with a decimal",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"maxContains": 1,
"extensible": true,
"$id": "maxContains_2_0"
}
]
},
"tests": [
{
"description": "one element matches, valid maxContains",
"data": [
1
],
"schema_id": "maxContains_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too many elements match, invalid maxContains",
"data": [
1,
1
],
"schema_id": "maxContains_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "minContains < maxContains",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"minContains": 1,
"maxContains": 3,
"extensible": true,
"$id": "maxContains_3_0"
}
]
},
"tests": [
{
"description": "actual < minContains < maxContains",
"data": [],
"schema_id": "maxContains_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "minContains < actual < maxContains",
"data": [
1,
1
],
"schema_id": "maxContains_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "minContains < maxContains < actual",
"data": [
1,
1,
1,
1
],
"schema_id": "maxContains_3_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows non-matching items in maxContains",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"maxContains": 1,
"extensible": true,
"$id": "maxContains_4_0"
}
]
},
"tests": [
{
"description": "extra items disregarded for maxContains",
"data": [
1,
2
],
"schema_id": "maxContains_4_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

126
fixtures/maxItems.json Normal file
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[
{
"description": "maxItems validation",
"database": {
"schemas": [
{
"maxItems": 2,
"extensible": true,
"$id": "maxItems_0_0"
}
]
},
"tests": [
{
"description": "shorter is valid",
"data": [
1
],
"schema_id": "maxItems_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "exact length is valid",
"data": [
1,
2
],
"schema_id": "maxItems_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too long is invalid",
"data": [
1,
2,
3
],
"schema_id": "maxItems_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores non-arrays",
"data": "foobar",
"schema_id": "maxItems_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "maxItems validation with a decimal",
"database": {
"schemas": [
{
"maxItems": 2,
"extensible": true,
"$id": "maxItems_1_0"
}
]
},
"tests": [
{
"description": "shorter is valid",
"data": [
1
],
"schema_id": "maxItems_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too long is invalid",
"data": [
1,
2,
3
],
"schema_id": "maxItems_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra items in maxItems (but counted)",
"database": {
"schemas": [
{
"maxItems": 2,
"extensible": true,
"$id": "maxItems_2_0"
}
]
},
"tests": [
{
"description": "extra item counted towards maxItems",
"data": [
1,
2,
3
],
"schema_id": "maxItems_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

91
fixtures/maxLength.json Normal file
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[
{
"description": "maxLength validation",
"database": {
"schemas": [
{
"maxLength": 2,
"$id": "maxLength_0_0"
}
]
},
"tests": [
{
"description": "shorter is valid",
"data": "f",
"schema_id": "maxLength_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "exact length is valid",
"data": "fo",
"schema_id": "maxLength_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too long is invalid",
"data": "foo",
"schema_id": "maxLength_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores non-strings",
"data": 100,
"schema_id": "maxLength_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "two graphemes is long enough",
"data": "💩💩",
"schema_id": "maxLength_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "maxLength validation with a decimal",
"database": {
"schemas": [
{
"maxLength": 2,
"$id": "maxLength_1_0"
}
]
},
"tests": [
{
"description": "shorter is valid",
"data": "f",
"schema_id": "maxLength_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too long is invalid",
"data": "foo",
"schema_id": "maxLength_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

193
fixtures/maxProperties.json Normal file
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[
{
"description": "maxProperties validation",
"database": {
"schemas": [
{
"maxProperties": 2,
"extensible": true,
"$id": "maxProperties_0_0"
}
]
},
"tests": [
{
"description": "shorter is valid",
"data": {
"foo": 1
},
"schema_id": "maxProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "exact length is valid",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "maxProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too long is invalid",
"data": {
"foo": 1,
"bar": 2,
"baz": 3
},
"schema_id": "maxProperties_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores arrays",
"data": [
1,
2,
3
],
"schema_id": "maxProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores strings",
"data": "foobar",
"schema_id": "maxProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores other non-objects",
"data": 12,
"schema_id": "maxProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "maxProperties validation with a decimal",
"database": {
"schemas": [
{
"maxProperties": 2,
"extensible": true,
"$id": "maxProperties_1_0"
}
]
},
"tests": [
{
"description": "shorter is valid",
"data": {
"foo": 1
},
"schema_id": "maxProperties_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too long is invalid",
"data": {
"foo": 1,
"bar": 2,
"baz": 3
},
"schema_id": "maxProperties_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "maxProperties = 0 means the object is empty",
"database": {
"schemas": [
{
"maxProperties": 0,
"extensible": true,
"$id": "maxProperties_2_0"
}
]
},
"tests": [
{
"description": "no properties is valid",
"data": {},
"schema_id": "maxProperties_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "one property is invalid",
"data": {
"foo": 1
},
"schema_id": "maxProperties_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra properties in maxProperties (though maxProperties still counts them!)",
"database": {
"schemas": [
{
"maxProperties": 2,
"extensible": true,
"$id": "maxProperties_3_0"
}
]
},
"tests": [
{
"description": "extra property is counted towards maxProperties",
"data": {
"foo": 1,
"bar": 2,
"baz": 3
},
"schema_id": "maxProperties_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "extra property is valid if below maxProperties",
"data": {
"foo": 1
},
"schema_id": "maxProperties_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

100
fixtures/maximum.json Normal file
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[
{
"description": "maximum validation",
"database": {
"schemas": [
{
"maximum": 3,
"$id": "maximum_0_0"
}
]
},
"tests": [
{
"description": "below the maximum is valid",
"data": 2.6,
"schema_id": "maximum_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boundary point is valid",
"data": 3,
"schema_id": "maximum_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "above the maximum is invalid",
"data": 3.5,
"schema_id": "maximum_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores non-numbers",
"data": "x",
"schema_id": "maximum_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "maximum validation with unsigned integer",
"database": {
"schemas": [
{
"maximum": 300,
"$id": "maximum_1_0"
}
]
},
"tests": [
{
"description": "below the maximum is invalid",
"data": 299.97,
"schema_id": "maximum_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boundary point integer is valid",
"data": 300,
"schema_id": "maximum_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boundary point float is valid",
"data": 300,
"schema_id": "maximum_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "above the maximum is invalid",
"data": 300.5,
"schema_id": "maximum_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

274
fixtures/merge.json Normal file
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[
{
"description": "merging: properties accumulate",
"database": {
"schemas": [
{
"$id": "base_0",
"properties": {
"base_prop": {
"type": "string"
}
}
},
{
"$ref": "base_0",
"properties": {
"child_prop": {
"type": "string"
}
},
"$id": "merge_0_0"
}
]
},
"tests": [
{
"description": "valid with both properties",
"data": {
"base_prop": "a",
"child_prop": "b"
},
"schema_id": "merge_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "invalid when base property has wrong type",
"data": {
"base_prop": 1,
"child_prop": "b"
},
"schema_id": "merge_0_0",
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "TYPE_MISMATCH",
"path": "/base_prop"
}
]
}
}
]
},
{
"description": "merging: required fields accumulate",
"database": {
"schemas": [
{
"$id": "base_1",
"properties": {
"a": {
"type": "string"
}
},
"required": [
"a"
]
},
{
"$ref": "base_1",
"properties": {
"b": {
"type": "string"
}
},
"required": [
"b"
],
"$id": "merge_1_0"
}
]
},
"tests": [
{
"description": "valid when both present",
"data": {
"a": "ok",
"b": "ok"
},
"schema_id": "merge_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "invalid when base required missing",
"data": {
"b": "ok"
},
"schema_id": "merge_1_0",
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "REQUIRED_FIELD_MISSING",
"path": "/a"
}
]
}
},
{
"description": "invalid when child required missing",
"data": {
"a": "ok"
},
"schema_id": "merge_1_0",
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "REQUIRED_FIELD_MISSING",
"path": "/b"
}
]
}
}
]
},
{
"description": "merging: dependencies accumulate",
"database": {
"schemas": [
{
"$id": "base_2",
"properties": {
"trigger": {
"type": "string"
},
"base_dep": {
"type": "string"
}
},
"dependencies": {
"trigger": [
"base_dep"
]
}
},
{
"$ref": "base_2",
"properties": {
"child_dep": {
"type": "string"
}
},
"dependencies": {
"trigger": [
"child_dep"
]
},
"$id": "merge_2_0"
}
]
},
"tests": [
{
"description": "valid with all deps",
"data": {
"trigger": "go",
"base_dep": "ok",
"child_dep": "ok"
},
"schema_id": "merge_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "invalid missing base dep",
"data": {
"trigger": "go",
"child_dep": "ok"
},
"schema_id": "merge_2_0",
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "DEPENDENCY_FAILED",
"path": "/base_dep"
}
]
}
},
{
"description": "invalid missing child dep",
"data": {
"trigger": "go",
"base_dep": "ok"
},
"schema_id": "merge_2_0",
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "DEPENDENCY_FAILED",
"path": "/child_dep"
}
]
}
}
]
},
{
"description": "merging: form and display do NOT merge",
"database": {
"schemas": [
{
"$id": "base_3",
"properties": {
"a": {
"type": "string"
},
"b": {
"type": "string"
}
},
"form": [
"a",
"b"
]
},
{
"$ref": "base_3",
"properties": {
"c": {
"type": "string"
}
},
"form": [
"c"
],
"$id": "merge_3_0"
}
]
},
"tests": [
{
"description": "child schema validation",
"data": {
"a": "ok",
"b": "ok",
"c": "ok"
},
"comment": "Verifies validator handles the unmerged metadata correctly (ignores it or handles replacement)",
"schema_id": "merge_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

2061
fixtures/merger.json Normal file
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477
fixtures/minContains.json Normal file
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[
{
"description": "minContains without contains is ignored",
"database": {
"schemas": [
{
"minContains": 1,
"extensible": true,
"$id": "minContains_0_0"
}
]
},
"tests": [
{
"description": "one item valid against lone minContains",
"data": [
1
],
"schema_id": "minContains_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "zero items still valid against lone minContains",
"data": [],
"schema_id": "minContains_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "minContains=1 with contains",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"minContains": 1,
"extensible": true,
"$id": "minContains_1_0"
}
]
},
"tests": [
{
"description": "empty data",
"data": [],
"schema_id": "minContains_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "no elements match",
"data": [
2
],
"schema_id": "minContains_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "single element matches, valid minContains",
"data": [
1
],
"schema_id": "minContains_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "some elements match, valid minContains",
"data": [
1,
2
],
"schema_id": "minContains_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "all elements match, valid minContains",
"data": [
1,
1
],
"schema_id": "minContains_1_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "minContains=2 with contains",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"minContains": 2,
"extensible": true,
"$id": "minContains_2_0"
}
]
},
"tests": [
{
"description": "empty data",
"data": [],
"schema_id": "minContains_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "all elements match, invalid minContains",
"data": [
1
],
"schema_id": "minContains_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "some elements match, invalid minContains",
"data": [
1,
2
],
"schema_id": "minContains_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "all elements match, valid minContains (exactly as needed)",
"data": [
1,
1
],
"schema_id": "minContains_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "all elements match, valid minContains (more than needed)",
"data": [
1,
1,
1
],
"schema_id": "minContains_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "some elements match, valid minContains",
"data": [
1,
2,
1
],
"schema_id": "minContains_2_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "minContains=2 with contains with a decimal value",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"minContains": 2,
"extensible": true,
"$id": "minContains_3_0"
}
]
},
"tests": [
{
"description": "one element matches, invalid minContains",
"data": [
1
],
"schema_id": "minContains_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "both elements match, valid minContains",
"data": [
1,
1
],
"schema_id": "minContains_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "maxContains = minContains",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"maxContains": 2,
"minContains": 2,
"extensible": true,
"$id": "minContains_4_0"
}
]
},
"tests": [
{
"description": "empty data",
"data": [],
"schema_id": "minContains_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "all elements match, invalid minContains",
"data": [
1
],
"schema_id": "minContains_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "all elements match, invalid maxContains",
"data": [
1,
1,
1
],
"schema_id": "minContains_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "all elements match, valid maxContains and minContains",
"data": [
1,
1
],
"schema_id": "minContains_4_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "maxContains < minContains",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"maxContains": 1,
"minContains": 3,
"extensible": true,
"$id": "minContains_5_0"
}
]
},
"tests": [
{
"description": "empty data",
"data": [],
"schema_id": "minContains_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "invalid minContains",
"data": [
1
],
"schema_id": "minContains_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "invalid maxContains",
"data": [
1,
1,
1
],
"schema_id": "minContains_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "invalid maxContains and minContains",
"data": [
1,
1
],
"schema_id": "minContains_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "minContains = 0",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"minContains": 0,
"extensible": true,
"$id": "minContains_6_0"
}
]
},
"tests": [
{
"description": "empty data",
"data": [],
"schema_id": "minContains_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "minContains = 0 makes contains always pass",
"data": [
2
],
"schema_id": "minContains_6_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "minContains = 0 with maxContains",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"minContains": 0,
"maxContains": 1,
"extensible": true,
"$id": "minContains_7_0"
}
]
},
"tests": [
{
"description": "empty data",
"data": [],
"schema_id": "minContains_7_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "not more than maxContains",
"data": [
1
],
"schema_id": "minContains_7_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too many",
"data": [
1,
1
],
"schema_id": "minContains_7_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows non-matching items in minContains",
"database": {
"schemas": [
{
"contains": {
"const": 1
},
"minContains": 1,
"extensible": true,
"$id": "minContains_8_0"
}
]
},
"tests": [
{
"description": "extra items disregarded for minContains",
"data": [
1,
2
],
"schema_id": "minContains_8_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

117
fixtures/minItems.json Normal file
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[
{
"description": "minItems validation",
"database": {
"schemas": [
{
"minItems": 1,
"extensible": true,
"$id": "minItems_0_0"
}
]
},
"tests": [
{
"description": "longer is valid",
"data": [
1,
2
],
"schema_id": "minItems_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "exact length is valid",
"data": [
1
],
"schema_id": "minItems_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too short is invalid",
"data": [],
"schema_id": "minItems_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores non-arrays",
"data": "",
"schema_id": "minItems_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "minItems validation with a decimal",
"database": {
"schemas": [
{
"minItems": 1,
"extensible": true,
"$id": "minItems_1_0"
}
]
},
"tests": [
{
"description": "longer is valid",
"data": [
1,
2
],
"schema_id": "minItems_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too short is invalid",
"data": [],
"schema_id": "minItems_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra items in minItems",
"database": {
"schemas": [
{
"minItems": 1,
"extensible": true,
"$id": "minItems_2_0"
}
]
},
"tests": [
{
"description": "extra item counted towards minItems",
"data": [
1
],
"schema_id": "minItems_2_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

91
fixtures/minLength.json Normal file
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[
{
"description": "minLength validation",
"database": {
"schemas": [
{
"minLength": 2,
"$id": "minLength_0_0"
}
]
},
"tests": [
{
"description": "longer is valid",
"data": "foo",
"schema_id": "minLength_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "exact length is valid",
"data": "fo",
"schema_id": "minLength_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too short is invalid",
"data": "f",
"schema_id": "minLength_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores non-strings",
"data": 1,
"schema_id": "minLength_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "one grapheme is not long enough",
"data": "💩",
"schema_id": "minLength_0_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "minLength validation with a decimal",
"database": {
"schemas": [
{
"minLength": 2,
"$id": "minLength_1_0"
}
]
},
"tests": [
{
"description": "longer is valid",
"data": "foo",
"schema_id": "minLength_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too short is invalid",
"data": "f",
"schema_id": "minLength_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

135
fixtures/minProperties.json Normal file
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[
{
"description": "minProperties validation",
"database": {
"schemas": [
{
"minProperties": 1,
"extensible": true,
"$id": "minProperties_0_0"
}
]
},
"tests": [
{
"description": "longer is valid",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "minProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "exact length is valid",
"data": {
"foo": 1
},
"schema_id": "minProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too short is invalid",
"data": {},
"schema_id": "minProperties_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores arrays",
"data": [],
"schema_id": "minProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores strings",
"data": "",
"schema_id": "minProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores other non-objects",
"data": 12,
"schema_id": "minProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "minProperties validation with a decimal",
"database": {
"schemas": [
{
"minProperties": 1,
"extensible": true,
"$id": "minProperties_1_0"
}
]
},
"tests": [
{
"description": "longer is valid",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "minProperties_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "too short is invalid",
"data": {},
"schema_id": "minProperties_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra properties in minProperties",
"database": {
"schemas": [
{
"minProperties": 1,
"extensible": true,
"$id": "minProperties_2_0"
}
]
},
"tests": [
{
"description": "extra property counts towards minProperties",
"data": {
"foo": 1
},
"schema_id": "minProperties_2_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

127
fixtures/minimum.json Normal file
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[
{
"description": "minimum validation",
"database": {
"schemas": [
{
"minimum": 1.1,
"$id": "minimum_0_0"
}
]
},
"tests": [
{
"description": "above the minimum is valid",
"data": 2.6,
"schema_id": "minimum_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boundary point is valid",
"data": 1.1,
"schema_id": "minimum_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "below the minimum is invalid",
"data": 0.6,
"schema_id": "minimum_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores non-numbers",
"data": "x",
"schema_id": "minimum_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "minimum validation with signed integer",
"database": {
"schemas": [
{
"minimum": -2,
"$id": "minimum_1_0"
}
]
},
"tests": [
{
"description": "negative above the minimum is valid",
"data": -1,
"schema_id": "minimum_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "positive above the minimum is valid",
"data": 0,
"schema_id": "minimum_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boundary point is valid",
"data": -2,
"schema_id": "minimum_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boundary point with float is valid",
"data": -2,
"schema_id": "minimum_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "float below the minimum is invalid",
"data": -2.0001,
"schema_id": "minimum_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "int below the minimum is invalid",
"data": -3,
"schema_id": "minimum_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores non-numbers",
"data": "x",
"schema_id": "minimum_1_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

136
fixtures/multipleOf.json Normal file
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[
{
"description": "by int",
"database": {
"schemas": [
{
"multipleOf": 2,
"$id": "multipleOf_0_0"
}
]
},
"tests": [
{
"description": "int by int",
"data": 10,
"schema_id": "multipleOf_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "int by int fail",
"data": 7,
"schema_id": "multipleOf_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores non-numbers",
"data": "foo",
"schema_id": "multipleOf_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "by number",
"database": {
"schemas": [
{
"multipleOf": 1.5,
"$id": "multipleOf_1_0"
}
]
},
"tests": [
{
"description": "zero is multiple of anything",
"data": 0,
"schema_id": "multipleOf_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "4.5 is multiple of 1.5",
"data": 4.5,
"schema_id": "multipleOf_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "35 is not multiple of 1.5",
"data": 35,
"schema_id": "multipleOf_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "by small number",
"database": {
"schemas": [
{
"multipleOf": 0.0001,
"$id": "multipleOf_2_0"
}
]
},
"tests": [
{
"description": "0.0075 is multiple of 0.0001",
"data": 0.0075,
"schema_id": "multipleOf_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "0.00751 is not multiple of 0.0001",
"data": 0.00751,
"schema_id": "multipleOf_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "small multiple of large integer",
"database": {
"schemas": [
{
"type": "integer",
"multipleOf": 1e-8,
"$id": "multipleOf_3_0"
}
]
},
"tests": [
{
"description": "any integer is a multiple of 1e-8",
"data": 12391239123,
"schema_id": "multipleOf_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

618
fixtures/not.json Normal file
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[
{
"description": "not",
"database": {
"schemas": [
{
"not": {
"type": "integer"
},
"$id": "not_0_0"
}
]
},
"tests": [
{
"description": "allowed",
"data": "foo",
"schema_id": "not_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "disallowed",
"data": 1,
"schema_id": "not_0_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "not multiple types",
"database": {
"schemas": [
{
"not": {
"type": [
"integer",
"boolean"
]
},
"$id": "not_1_0"
}
]
},
"tests": [
{
"description": "valid",
"data": "foo",
"schema_id": "not_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "mismatch",
"data": 1,
"schema_id": "not_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "other mismatch",
"data": true,
"schema_id": "not_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "not more complex schema",
"database": {
"schemas": [
{
"not": {
"type": "object",
"properties": {
"foo": {
"type": "string"
}
}
},
"extensible": true,
"$id": "not_2_0"
}
]
},
"tests": [
{
"description": "match",
"data": 1,
"schema_id": "not_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "other match",
"data": {
"foo": 1
},
"schema_id": "not_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "mismatch",
"data": {
"foo": "bar"
},
"schema_id": "not_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "forbidden property",
"database": {
"schemas": [
{
"properties": {
"foo": {
"not": {}
}
},
"$id": "not_3_0"
}
]
},
"tests": [
{
"description": "property present",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "not_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty object is valid",
"data": {},
"schema_id": "not_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "forbid everything with empty schema",
"database": {
"schemas": [
{
"not": {},
"$id": "not_4_0"
}
]
},
"tests": [
{
"description": "number is invalid",
"data": 1,
"schema_id": "not_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "string is invalid",
"data": "foo",
"schema_id": "not_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "boolean true is invalid",
"data": true,
"schema_id": "not_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "boolean false is invalid",
"data": false,
"schema_id": "not_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is invalid",
"data": null,
"schema_id": "not_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "object is invalid",
"data": {
"foo": "bar"
},
"schema_id": "not_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty object is invalid",
"data": {},
"schema_id": "not_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "array is invalid",
"data": [
"foo"
],
"schema_id": "not_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty array is invalid",
"data": [],
"schema_id": "not_4_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "forbid everything with boolean schema true",
"database": {
"schemas": [
{
"not": true,
"$id": "not_5_0"
}
]
},
"tests": [
{
"description": "number is invalid",
"data": 1,
"schema_id": "not_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "string is invalid",
"data": "foo",
"schema_id": "not_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "boolean true is invalid",
"data": true,
"schema_id": "not_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "boolean false is invalid",
"data": false,
"schema_id": "not_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is invalid",
"data": null,
"schema_id": "not_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "object is invalid",
"data": {
"foo": "bar"
},
"schema_id": "not_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty object is invalid",
"data": {},
"schema_id": "not_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "array is invalid",
"data": [
"foo"
],
"schema_id": "not_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty array is invalid",
"data": [],
"schema_id": "not_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "allow everything with boolean schema false",
"database": {
"schemas": [
{
"not": false,
"extensible": true,
"$id": "not_6_0"
}
]
},
"tests": [
{
"description": "number is valid",
"data": 1,
"schema_id": "not_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "string is valid",
"data": "foo",
"schema_id": "not_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boolean true is valid",
"data": true,
"schema_id": "not_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "boolean false is valid",
"data": false,
"schema_id": "not_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "null is valid",
"data": null,
"schema_id": "not_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object is valid",
"data": {
"foo": "bar"
},
"schema_id": "not_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty object is valid",
"data": {},
"schema_id": "not_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array is valid",
"data": [
"foo"
],
"schema_id": "not_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty array is valid",
"data": [],
"schema_id": "not_6_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "double negation",
"database": {
"schemas": [
{
"not": {
"not": {}
},
"$id": "not_7_0"
}
]
},
"tests": [
{
"description": "any value is valid",
"data": "foo",
"schema_id": "not_7_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "extensible: true allows extra properties in not",
"database": {
"schemas": [
{
"not": {
"type": "integer"
},
"extensible": true,
"$id": "not_8_0"
}
]
},
"tests": [
{
"description": "extra property is valid (not integer matches)",
"data": {
"foo": 1
},
"schema_id": "not_8_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "extensible: false (default) forbids extra properties in not",
"database": {
"schemas": [
{
"not": {
"type": "integer"
},
"$id": "not_9_0"
}
]
},
"tests": [
{
"description": "extra property is invalid due to strictness",
"data": {
"foo": 1
},
"schema_id": "not_9_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "property next to not (extensible: true)",
"database": {
"schemas": [
{
"properties": {
"bar": {
"type": "string"
}
},
"not": {
"type": "integer"
},
"extensible": true,
"$id": "not_10_0"
}
]
},
"tests": [
{
"description": "extra property allowed",
"data": {
"bar": "baz",
"foo": 1
},
"schema_id": "not_10_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "property next to not (extensible: false)",
"database": {
"schemas": [
{
"properties": {
"bar": {
"type": "string"
}
},
"not": {
"type": "integer"
},
"$id": "not_11_0"
}
]
},
"tests": [
{
"description": "extra property forbidden",
"data": {
"bar": "baz",
"foo": 1
},
"schema_id": "not_11_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "defined property allowed",
"data": {
"bar": "baz"
},
"schema_id": "not_11_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

670
fixtures/oneOf.json Normal file
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@ -0,0 +1,670 @@
[
{
"description": "oneOf",
"database": {
"schemas": [
{
"oneOf": [
{
"type": "integer"
},
{
"minimum": 2
}
],
"$id": "oneOf_0_0"
}
]
},
"tests": [
{
"description": "first oneOf valid",
"data": 1,
"schema_id": "oneOf_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "second oneOf valid",
"data": 2.5,
"schema_id": "oneOf_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "both oneOf valid",
"data": 3,
"schema_id": "oneOf_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "neither oneOf valid",
"data": 1.5,
"schema_id": "oneOf_0_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "oneOf with base schema",
"database": {
"schemas": [
{
"type": "string",
"oneOf": [
{
"minLength": 2
},
{
"maxLength": 4
}
],
"$id": "oneOf_1_0"
}
]
},
"tests": [
{
"description": "mismatch base schema",
"data": 3,
"schema_id": "oneOf_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "one oneOf valid",
"data": "foobar",
"schema_id": "oneOf_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "both oneOf valid",
"data": "foo",
"schema_id": "oneOf_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "oneOf with boolean schemas, all true",
"database": {
"schemas": [
{
"oneOf": [
true,
true,
true
],
"$id": "oneOf_2_0"
}
]
},
"tests": [
{
"description": "any value is invalid",
"data": "foo",
"schema_id": "oneOf_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "oneOf with boolean schemas, one true",
"database": {
"schemas": [
{
"oneOf": [
true,
false,
false
],
"$id": "oneOf_3_0"
}
]
},
"tests": [
{
"description": "any value is valid",
"data": "foo",
"schema_id": "oneOf_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "oneOf with boolean schemas, more than one true",
"database": {
"schemas": [
{
"oneOf": [
true,
true,
false
],
"$id": "oneOf_4_0"
}
]
},
"tests": [
{
"description": "any value is invalid",
"data": "foo",
"schema_id": "oneOf_4_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "oneOf with boolean schemas, all false",
"database": {
"schemas": [
{
"oneOf": [
false,
false,
false
],
"$id": "oneOf_5_0"
}
]
},
"tests": [
{
"description": "any value is invalid",
"data": "foo",
"schema_id": "oneOf_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "oneOf complex types",
"database": {
"schemas": [
{
"oneOf": [
{
"properties": {
"bar": {
"type": "integer"
}
},
"required": [
"bar"
]
},
{
"properties": {
"foo": {
"type": "string"
}
},
"required": [
"foo"
]
}
],
"$id": "oneOf_6_0"
}
]
},
"tests": [
{
"description": "first oneOf valid (complex)",
"data": {
"bar": 2
},
"schema_id": "oneOf_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "second oneOf valid (complex)",
"data": {
"foo": "baz"
},
"schema_id": "oneOf_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "both oneOf valid (complex)",
"data": {
"foo": "baz",
"bar": 2
},
"schema_id": "oneOf_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "neither oneOf valid (complex)",
"data": {
"foo": 2,
"bar": "quux"
},
"schema_id": "oneOf_6_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "oneOf with empty schema",
"database": {
"schemas": [
{
"oneOf": [
{
"type": "number"
},
{}
],
"$id": "oneOf_7_0"
}
]
},
"tests": [
{
"description": "one valid - valid",
"data": "foo",
"schema_id": "oneOf_7_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "both valid - invalid",
"data": 123,
"schema_id": "oneOf_7_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "oneOf with required",
"database": {
"schemas": [
{
"type": "object",
"properties": {
"foo": true,
"bar": true,
"baz": true
},
"oneOf": [
{
"required": [
"foo",
"bar"
]
},
{
"required": [
"foo",
"baz"
]
}
],
"$id": "oneOf_8_0"
}
]
},
"tests": [
{
"description": "both invalid - invalid",
"data": {
"bar": 2
},
"schema_id": "oneOf_8_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "first valid - valid",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "oneOf_8_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "second valid - valid",
"data": {
"foo": 1,
"baz": 3
},
"schema_id": "oneOf_8_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "both valid - invalid",
"data": {
"foo": 1,
"bar": 2,
"baz": 3
},
"schema_id": "oneOf_8_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "extra property invalid (strict)",
"data": {
"foo": 1,
"bar": 2,
"extra": 3
},
"schema_id": "oneOf_8_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "oneOf with required (extensible)",
"database": {
"schemas": [
{
"type": "object",
"extensible": true,
"oneOf": [
{
"required": [
"foo",
"bar"
]
},
{
"required": [
"foo",
"baz"
]
}
],
"$id": "oneOf_9_0"
}
]
},
"tests": [
{
"description": "both invalid - invalid",
"data": {
"bar": 2
},
"schema_id": "oneOf_9_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "first valid - valid",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "oneOf_9_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "second valid - valid",
"data": {
"foo": 1,
"baz": 3
},
"schema_id": "oneOf_9_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "both valid - invalid",
"data": {
"foo": 1,
"bar": 2,
"baz": 3
},
"schema_id": "oneOf_9_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "extra properties are valid (extensible)",
"data": {
"foo": 1,
"bar": 2,
"extra": "value"
},
"schema_id": "oneOf_9_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "oneOf with missing optional property",
"database": {
"schemas": [
{
"oneOf": [
{
"properties": {
"bar": true,
"baz": true
},
"required": [
"bar"
]
},
{
"properties": {
"foo": true
},
"required": [
"foo"
]
}
],
"$id": "oneOf_10_0"
}
]
},
"tests": [
{
"description": "first oneOf valid",
"data": {
"bar": 8
},
"schema_id": "oneOf_10_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "second oneOf valid",
"data": {
"foo": "foo"
},
"schema_id": "oneOf_10_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "both oneOf valid",
"data": {
"foo": "foo",
"bar": 8
},
"schema_id": "oneOf_10_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "neither oneOf valid",
"data": {
"baz": "quux"
},
"schema_id": "oneOf_10_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "nested oneOf, to check validation semantics",
"database": {
"schemas": [
{
"oneOf": [
{
"oneOf": [
{
"type": "null"
}
]
}
],
"$id": "oneOf_11_0"
}
]
},
"tests": [
{
"description": "null is valid",
"data": null,
"schema_id": "oneOf_11_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "anything non-null is invalid",
"data": 123,
"schema_id": "oneOf_11_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra properties in oneOf",
"database": {
"schemas": [
{
"oneOf": [
{
"properties": {
"bar": {
"type": "integer"
}
},
"required": [
"bar"
]
},
{
"properties": {
"foo": {
"type": "string"
}
},
"required": [
"foo"
]
}
],
"extensible": true,
"$id": "oneOf_12_0"
}
]
},
"tests": [
{
"description": "extra property is valid (matches first option)",
"data": {
"bar": 2,
"extra": "prop"
},
"schema_id": "oneOf_12_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

109
fixtures/pattern.json Normal file
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[
{
"description": "pattern validation",
"database": {
"schemas": [
{
"pattern": "^a*$",
"$id": "pattern_0_0"
}
]
},
"tests": [
{
"description": "a matching pattern is valid",
"data": "aaa",
"schema_id": "pattern_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a non-matching pattern is invalid",
"data": "abc",
"schema_id": "pattern_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores booleans",
"data": true,
"schema_id": "pattern_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores integers",
"data": 123,
"schema_id": "pattern_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores floats",
"data": 1,
"schema_id": "pattern_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores objects",
"data": {},
"schema_id": "pattern_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores arrays",
"data": [],
"schema_id": "pattern_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores null",
"data": null,
"schema_id": "pattern_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "pattern is not anchored",
"database": {
"schemas": [
{
"pattern": "a+",
"$id": "pattern_1_0"
}
]
},
"tests": [
{
"description": "matches a substring",
"data": "xxaayy",
"schema_id": "pattern_1_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

399
fixtures/patternProperties.json Normal file
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@ -0,0 +1,399 @@
[
{
"description": "patternProperties validates properties matching a regex",
"database": {
"schemas": [
{
"patternProperties": {
"f.*o": {
"type": "integer"
}
},
"items": {},
"$id": "patternProperties_0_0"
}
]
},
"tests": [
{
"description": "a single valid match is valid",
"data": {
"foo": 1
},
"schema_id": "patternProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "multiple valid matches is valid",
"data": {
"foo": 1,
"foooooo": 2
},
"schema_id": "patternProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a single invalid match is invalid",
"data": {
"foo": "bar",
"fooooo": 2
},
"schema_id": "patternProperties_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "multiple invalid matches is invalid",
"data": {
"foo": "bar",
"foooooo": "baz"
},
"schema_id": "patternProperties_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores arrays",
"data": [
"foo"
],
"schema_id": "patternProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores strings",
"data": "foo",
"schema_id": "patternProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores other non-objects",
"data": 12,
"schema_id": "patternProperties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "extra property not matching pattern is INVALID (strict by default)",
"data": {
"foo": 1,
"extra": 2
},
"schema_id": "patternProperties_0_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "multiple simultaneous patternProperties are validated",
"database": {
"schemas": [
{
"patternProperties": {
"a*": {
"type": "integer"
},
"aaa*": {
"maximum": 20
}
},
"$id": "patternProperties_1_0"
}
]
},
"tests": [
{
"description": "a single valid match is valid",
"data": {
"a": 21
},
"schema_id": "patternProperties_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a simultaneous match is valid",
"data": {
"aaaa": 18
},
"schema_id": "patternProperties_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "multiple matches is valid",
"data": {
"a": 21,
"aaaa": 18
},
"schema_id": "patternProperties_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an invalid due to one is invalid",
"data": {
"a": "bar"
},
"schema_id": "patternProperties_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an invalid due to the other is invalid",
"data": {
"aaaa": 31
},
"schema_id": "patternProperties_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an invalid due to both is invalid",
"data": {
"aaa": "foo",
"aaaa": 31
},
"schema_id": "patternProperties_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "regexes are not anchored by default and are case sensitive",
"database": {
"schemas": [
{
"patternProperties": {
"[0-9]{2,}": {
"type": "boolean"
},
"X_": {
"type": "string"
}
},
"extensible": true,
"$id": "patternProperties_2_0"
}
]
},
"tests": [
{
"description": "non recognized members are ignored",
"data": {
"answer 1": "42"
},
"schema_id": "patternProperties_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "recognized members are accounted for",
"data": {
"a31b": null
},
"schema_id": "patternProperties_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "regexes are case sensitive",
"data": {
"a_x_3": 3
},
"schema_id": "patternProperties_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "regexes are case sensitive, 2",
"data": {
"a_X_3": 3
},
"schema_id": "patternProperties_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "patternProperties with boolean schemas",
"database": {
"schemas": [
{
"patternProperties": {
"f.*": true,
"b.*": false
},
"$id": "patternProperties_3_0"
}
]
},
"tests": [
{
"description": "object with property matching schema true is valid",
"data": {
"foo": 1
},
"schema_id": "patternProperties_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object with property matching schema false is invalid",
"data": {
"bar": 2
},
"schema_id": "patternProperties_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "object with both properties is invalid",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "patternProperties_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "object with a property matching both true and false is invalid",
"data": {
"foobar": 1
},
"schema_id": "patternProperties_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty object is valid",
"data": {},
"schema_id": "patternProperties_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "patternProperties with null valued instance properties",
"database": {
"schemas": [
{
"patternProperties": {
"^.*bar$": {
"type": "null"
}
},
"$id": "patternProperties_4_0"
}
]
},
"tests": [
{
"description": "allows null values",
"data": {
"foobar": null
},
"schema_id": "patternProperties_4_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "extensible: true allows extra properties NOT matching pattern",
"database": {
"schemas": [
{
"patternProperties": {
"f.*o": {
"type": "integer"
}
},
"extensible": true,
"$id": "patternProperties_5_0"
}
]
},
"tests": [
{
"description": "extra property not matching pattern is valid",
"data": {
"bar": 1
},
"schema_id": "patternProperties_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "property matching pattern MUST still be valid",
"data": {
"foo": "invalid string"
},
"schema_id": "patternProperties_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

229
fixtures/prefixItems.json Normal file
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@ -0,0 +1,229 @@
[
{
"description": "a schema given for prefixItems",
"database": {
"schemas": [
{
"prefixItems": [
{
"type": "integer"
},
{
"type": "string"
}
],
"$id": "prefixItems_0_0"
}
]
},
"tests": [
{
"description": "correct types",
"data": [
1,
"foo"
],
"schema_id": "prefixItems_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "wrong types",
"data": [
"foo",
1
],
"schema_id": "prefixItems_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "incomplete array of items",
"data": [
1
],
"schema_id": "prefixItems_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array with additional items (invalid due to strictness)",
"data": [
1,
"foo",
true
],
"schema_id": "prefixItems_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty array",
"data": [],
"schema_id": "prefixItems_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "JavaScript pseudo-array is valid (invalid due to strict object validation)",
"data": {
"0": "invalid",
"1": "valid",
"length": 2
},
"schema_id": "prefixItems_0_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "prefixItems with boolean schemas",
"database": {
"schemas": [
{
"prefixItems": [
true,
false
],
"$id": "prefixItems_1_0"
}
]
},
"tests": [
{
"description": "array with one item is valid",
"data": [
1
],
"schema_id": "prefixItems_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "array with two items is invalid",
"data": [
1,
"foo"
],
"schema_id": "prefixItems_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty array is valid",
"data": [],
"schema_id": "prefixItems_1_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "additional items are allowed by default",
"database": {
"schemas": [
{
"prefixItems": [
{
"type": "integer"
}
],
"extensible": true,
"$id": "prefixItems_2_0"
}
]
},
"tests": [
{
"description": "only the first item is validated",
"data": [
1,
"foo",
false
],
"schema_id": "prefixItems_2_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "prefixItems with null instance elements",
"database": {
"schemas": [
{
"prefixItems": [
{
"type": "null"
}
],
"$id": "prefixItems_3_0"
}
]
},
"tests": [
{
"description": "allows null elements",
"data": [
null
],
"schema_id": "prefixItems_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "extensible: true allows extra items with prefixItems",
"database": {
"schemas": [
{
"prefixItems": [
{
"type": "integer"
}
],
"extensible": true,
"$id": "prefixItems_4_0"
}
]
},
"tests": [
{
"description": "extra item is valid",
"data": [
1,
"foo"
],
"schema_id": "prefixItems_4_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

627
fixtures/properties.json Normal file
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@ -0,0 +1,627 @@
[
{
"description": "object properties validation",
"database": {
"schemas": [
{
"properties": {
"foo": {
"type": "integer"
},
"bar": {
"type": "string"
}
},
"$id": "properties_0_0"
}
]
},
"tests": [
{
"description": "both properties present and valid is valid",
"data": {
"foo": 1,
"bar": "baz"
},
"schema_id": "properties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "one property invalid is invalid",
"data": {
"foo": 1,
"bar": {}
},
"schema_id": "properties_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "both properties invalid is invalid",
"data": {
"foo": [],
"bar": {}
},
"schema_id": "properties_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "doesn't invalidate other properties",
"data": {},
"schema_id": "properties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores arrays",
"data": [],
"schema_id": "properties_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores other non-objects",
"data": 12,
"schema_id": "properties_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "properties with boolean schema",
"database": {
"schemas": [
{
"properties": {
"foo": true,
"bar": false
},
"$id": "properties_1_0"
}
]
},
"tests": [
{
"description": "no property present is valid",
"data": {},
"schema_id": "properties_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "only 'true' property present is valid",
"data": {
"foo": 1
},
"schema_id": "properties_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "only 'false' property present is invalid",
"data": {
"bar": 2
},
"schema_id": "properties_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "both properties present is invalid",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "properties_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "properties with escaped characters",
"database": {
"schemas": [
{
"properties": {
"foo\nbar": {
"type": "number"
},
"foo\"bar": {
"type": "number"
},
"foo\\bar": {
"type": "number"
},
"foo\rbar": {
"type": "number"
},
"foo\tbar": {
"type": "number"
},
"foo\fbar": {
"type": "number"
}
},
"$id": "properties_2_0"
}
]
},
"tests": [
{
"description": "object with all numbers is valid",
"data": {
"foo\nbar": 1,
"foo\"bar": 1,
"foo\\bar": 1,
"foo\rbar": 1,
"foo\tbar": 1,
"foo\fbar": 1
},
"schema_id": "properties_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object with strings is invalid",
"data": {
"foo\nbar": "1",
"foo\"bar": "1",
"foo\\bar": "1",
"foo\rbar": "1",
"foo\tbar": "1",
"foo\fbar": "1"
},
"schema_id": "properties_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "properties with null valued instance properties",
"database": {
"schemas": [
{
"properties": {
"foo": {
"type": "null"
}
},
"$id": "properties_3_0"
}
]
},
"tests": [
{
"description": "allows null values",
"data": {
"foo": null
},
"schema_id": "properties_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "properties whose names are Javascript object property names",
"comment": "Ensure JS implementations don't universally consider e.g. __proto__ to always be present in an object.",
"database": {
"schemas": [
{
"properties": {
"__proto__": {
"type": "number"
},
"toString": {
"properties": {
"length": {
"type": "string"
}
}
},
"constructor": {
"type": "number"
}
},
"$id": "properties_4_0"
}
]
},
"tests": [
{
"description": "ignores arrays",
"data": [],
"schema_id": "properties_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores other non-objects",
"data": 12,
"schema_id": "properties_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "none of the properties mentioned",
"data": {},
"schema_id": "properties_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "__proto__ not valid",
"data": {
"__proto__": "foo"
},
"schema_id": "properties_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "toString not valid",
"data": {
"toString": {
"length": 37
}
},
"schema_id": "properties_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "constructor not valid",
"data": {
"constructor": {
"length": 37
}
},
"schema_id": "properties_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "all present and valid",
"data": {
"__proto__": 12,
"toString": {
"length": "foo"
},
"constructor": 37
},
"schema_id": "properties_4_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "extensible: true allows extra properties",
"database": {
"schemas": [
{
"properties": {
"foo": {
"type": "integer"
}
},
"extensible": true,
"$id": "properties_5_0"
}
]
},
"tests": [
{
"description": "extra property is valid",
"data": {
"foo": 1,
"bar": "baz"
},
"schema_id": "properties_5_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "strict by default: extra properties invalid",
"database": {
"schemas": [
{
"properties": {
"foo": {
"type": "string"
}
},
"$id": "properties_6_0"
}
]
},
"tests": [
{
"description": "extra property is invalid",
"data": {
"foo": "bar",
"extra": 1
},
"schema_id": "properties_6_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "inheritance: nested object inherits strictness from strict parent",
"database": {
"schemas": [
{
"properties": {
"nested": {
"properties": {
"foo": {
"type": "string"
}
}
}
},
"$id": "properties_7_0"
}
]
},
"tests": [
{
"description": "nested extra property is invalid",
"data": {
"nested": {
"foo": "bar",
"extra": 1
}
},
"schema_id": "properties_7_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "override: nested object allows extra properties if extensible: true",
"database": {
"schemas": [
{
"properties": {
"nested": {
"extensible": true,
"properties": {
"foo": {
"type": "string"
}
}
}
},
"$id": "properties_8_0"
}
]
},
"tests": [
{
"description": "nested extra property is valid",
"data": {
"nested": {
"foo": "bar",
"extra": 1
}
},
"schema_id": "properties_8_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "inheritance: nested object inherits looseness from loose parent",
"database": {
"schemas": [
{
"extensible": true,
"properties": {
"nested": {
"properties": {
"foo": {
"type": "string"
}
}
}
},
"$id": "properties_9_0"
}
]
},
"tests": [
{
"description": "nested extra property is valid",
"data": {
"nested": {
"foo": "bar",
"extra": 1
}
},
"schema_id": "properties_9_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "override: nested object enforces strictness if extensible: false",
"database": {
"schemas": [
{
"extensible": true,
"properties": {
"nested": {
"extensible": false,
"properties": {
"foo": {
"type": "string"
}
}
}
},
"$id": "properties_10_0"
}
]
},
"tests": [
{
"description": "nested extra property is invalid",
"data": {
"nested": {
"foo": "bar",
"extra": 1
}
},
"schema_id": "properties_10_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "arrays: inline items inherit strictness from strict parent",
"database": {
"schemas": [
{
"properties": {
"list": {
"type": "array",
"items": {
"properties": {
"foo": {
"type": "string"
}
}
}
}
},
"$id": "properties_11_0"
}
]
},
"tests": [
{
"description": "array item with extra property is invalid (strict parent)",
"data": {
"list": [
{
"foo": "bar",
"extra": 1
}
]
},
"schema_id": "properties_11_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "arrays: inline items inherit looseness from loose parent",
"database": {
"schemas": [
{
"extensible": true,
"properties": {
"list": {
"type": "array",
"items": {
"properties": {
"foo": {
"type": "string"
}
}
}
}
},
"$id": "properties_12_0"
}
]
},
"tests": [
{
"description": "array item with extra property is valid (loose parent)",
"data": {
"list": [
{
"foo": "bar",
"extra": 1
}
]
},
"schema_id": "properties_12_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

347
fixtures/propertyNames.json Normal file
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[
{
"description": "propertyNames validation",
"database": {
"schemas": [
{
"propertyNames": {
"maxLength": 3
},
"extensible": true,
"$id": "propertyNames_0_0"
}
]
},
"tests": [
{
"description": "all property names valid",
"data": {
"f": {},
"foo": {}
},
"schema_id": "propertyNames_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "some property names invalid",
"data": {
"foo": {},
"foobar": {}
},
"schema_id": "propertyNames_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "object without properties is valid",
"data": {},
"schema_id": "propertyNames_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores arrays",
"data": [
1,
2,
3,
4
],
"schema_id": "propertyNames_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores strings",
"data": "foobar",
"schema_id": "propertyNames_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores other non-objects",
"data": 12,
"schema_id": "propertyNames_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "propertyNames validation with pattern",
"database": {
"schemas": [
{
"propertyNames": {
"pattern": "^a+$"
},
"extensible": true,
"$id": "propertyNames_1_0"
}
]
},
"tests": [
{
"description": "matching property names valid",
"data": {
"a": {},
"aa": {},
"aaa": {}
},
"schema_id": "propertyNames_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "non-matching property name is invalid",
"data": {
"aaA": {}
},
"schema_id": "propertyNames_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "object without properties is valid",
"data": {},
"schema_id": "propertyNames_1_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "propertyNames with boolean schema true",
"database": {
"schemas": [
{
"propertyNames": true,
"extensible": true,
"$id": "propertyNames_2_0"
}
]
},
"tests": [
{
"description": "object with any properties is valid",
"data": {
"foo": 1
},
"schema_id": "propertyNames_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "empty object is valid",
"data": {},
"schema_id": "propertyNames_2_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "propertyNames with boolean schema false",
"database": {
"schemas": [
{
"propertyNames": false,
"extensible": true,
"$id": "propertyNames_3_0"
}
]
},
"tests": [
{
"description": "object with any properties is invalid",
"data": {
"foo": 1
},
"schema_id": "propertyNames_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty object is valid",
"data": {},
"schema_id": "propertyNames_3_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "propertyNames with const",
"database": {
"schemas": [
{
"propertyNames": {
"const": "foo"
},
"extensible": true,
"$id": "propertyNames_4_0"
}
]
},
"tests": [
{
"description": "object with property foo is valid",
"data": {
"foo": 1
},
"schema_id": "propertyNames_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object with any other property is invalid",
"data": {
"bar": 1
},
"schema_id": "propertyNames_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty object is valid",
"data": {},
"schema_id": "propertyNames_4_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "propertyNames with enum",
"database": {
"schemas": [
{
"propertyNames": {
"enum": [
"foo",
"bar"
]
},
"extensible": true,
"$id": "propertyNames_5_0"
}
]
},
"tests": [
{
"description": "object with property foo is valid",
"data": {
"foo": 1
},
"schema_id": "propertyNames_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object with property foo and bar is valid",
"data": {
"foo": 1,
"bar": 1
},
"schema_id": "propertyNames_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object with any other property is invalid",
"data": {
"baz": 1
},
"schema_id": "propertyNames_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "empty object is valid",
"data": {},
"schema_id": "propertyNames_5_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "extensible: true allows extra properties (checked by propertyNames)",
"database": {
"schemas": [
{
"propertyNames": {
"maxLength": 3
},
"extensible": true,
"$id": "propertyNames_6_0"
}
]
},
"tests": [
{
"description": "extra property with valid name is valid",
"data": {
"foo": 1
},
"schema_id": "propertyNames_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "extra property with invalid name is invalid",
"data": {
"foobar": 1
},
"schema_id": "propertyNames_6_0",
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

1298
fixtures/queryer.json Normal file
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fixtures/ref.json Normal file
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@ -0,0 +1,929 @@
[
{
"description": "nested refs",
"database": {
"schemas": [
{
"$ref": "c_212",
"$id": "ref_4_0"
},
{
"$id": "a_212",
"type": "integer"
},
{
"$id": "b_212",
"$ref": "a_212"
},
{
"$id": "c_212",
"$ref": "b_212"
}
]
},
"tests": [
{
"description": "nested ref valid",
"data": 5,
"schema_id": "ref_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "nested ref invalid",
"data": "a",
"schema_id": "ref_4_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "ref applies alongside sibling keywords",
"database": {
"schemas": [
{
"properties": {
"foo": {
"$ref": "reffed_248",
"maxItems": 2
}
},
"$id": "ref_5_0"
},
{
"$id": "reffed_248",
"type": "array"
}
]
},
"tests": [
{
"description": "ref valid, maxItems valid",
"data": {
"foo": []
},
"schema_id": "ref_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ref valid, maxItems invalid",
"data": {
"foo": [
1,
2,
3
]
},
"schema_id": "ref_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ref invalid",
"data": {
"foo": "string"
},
"schema_id": "ref_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "property named $ref that is not a reference",
"database": {
"schemas": [
{
"properties": {
"$ref": {
"type": "string"
}
},
"$id": "ref_6_0"
}
]
},
"tests": [
{
"description": "property named $ref valid",
"data": {
"$ref": "a"
},
"schema_id": "ref_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "property named $ref invalid",
"data": {
"$ref": 2
},
"schema_id": "ref_6_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "property named $ref, containing an actual $ref",
"database": {
"schemas": [
{
"properties": {
"$ref": {
"$ref": "is-string_344"
}
},
"$id": "ref_7_0"
},
{
"$id": "is-string_344",
"type": "string"
}
]
},
"tests": [
{
"description": "property named $ref valid",
"data": {
"$ref": "a"
},
"schema_id": "ref_7_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "property named $ref invalid",
"data": {
"$ref": 2
},
"schema_id": "ref_7_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "$ref to boolean schema true",
"database": {
"schemas": [
{
"$ref": "bool_378",
"$id": "ref_8_0"
},
{
"$id": "bool_378",
"extensible": true
}
]
},
"tests": [
{
"description": "any value is valid",
"data": "foo",
"schema_id": "ref_8_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "$ref to boolean schema false",
"database": {
"schemas": [
{
"$ref": "bool_400",
"$id": "ref_9_0"
},
{
"$id": "bool_400",
"extensible": false,
"not": {}
}
]
},
"tests": [
{
"description": "any value is invalid",
"data": "foo",
"schema_id": "ref_9_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "refs with quote",
"database": {
"schemas": [
{
"properties": {
"foo\"bar": {
"$ref": "foo%22bar_550"
}
},
"$id": "ref_11_0"
},
{
"$id": "foo%22bar_550",
"type": "number"
}
]
},
"tests": [
{
"description": "object with numbers is valid",
"data": {
"foo\"bar": 1
},
"schema_id": "ref_11_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object with strings is invalid",
"data": {
"foo\"bar": "1"
},
"schema_id": "ref_11_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "$ref boundary resets to loose",
"database": {
"schemas": [
{
"$ref": "target_1465",
"$id": "ref_35_0"
},
{
"$id": "target_1465",
"properties": {
"foo": {
"type": "string"
}
}
}
]
},
"tests": [
{
"description": "extra property in ref target is invalid (strict by default)",
"data": {
"foo": "bar",
"extra": 1
},
"schema_id": "ref_35_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "$ref target can enforce strictness",
"database": {
"schemas": [
{
"$ref": "target_1496",
"$id": "ref_36_0"
},
{
"$id": "target_1496",
"extensible": false,
"properties": {
"foo": {
"type": "string"
}
}
}
]
},
"tests": [
{
"description": "extra property in ref target is invalid",
"data": {
"foo": "bar",
"extra": 1
},
"schema_id": "ref_36_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "strictness: boundary reset at $ref",
"database": {
"schemas": [
{
"extensible": true,
"properties": {
"inline_child": {
"properties": {
"a": {
"type": "integer"
}
}
},
"ref_child": {
"$ref": "strict_node_1544"
},
"extensible_ref_child": {
"$ref": "extensible_node_1551"
}
},
"$id": "ref_37_0"
},
{
"$id": "strict_node_1544",
"properties": {
"b": {
"type": "integer"
}
}
},
{
"$id": "extensible_node_1551",
"extensible": true,
"properties": {
"c": {
"type": "integer"
}
}
}
]
},
"tests": [
{
"description": "inline child inherits looseness",
"data": {
"inline_child": {
"a": 1,
"extra": 2
}
},
"schema_id": "ref_37_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ref child resets to strict (default)",
"data": {
"ref_child": {
"b": 1,
"extra": 2
}
},
"schema_id": "ref_37_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ref child with explicit extensible=true is loose",
"data": {
"extensible_ref_child": {
"c": 1,
"extra": 2
}
},
"schema_id": "ref_37_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "arrays: ref items inherit strictness (reset at boundary)",
"database": {
"schemas": [
{
"properties": {
"list": {
"type": "array",
"items": {
"$ref": "strict_node_1614"
}
}
},
"$id": "ref_38_0"
},
{
"$id": "strict_node_1614",
"properties": {
"a": {
"type": "integer"
}
}
}
]
},
"tests": [
{
"description": "ref item with extra property is invalid (strict by default)",
"data": {
"list": [
{
"a": 1,
"extra": 2
}
]
},
"schema_id": "ref_38_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "implicit keyword shadowing",
"database": {
"schemas": [
{
"$ref": "parent_1648",
"properties": {
"type": {
"const": "child"
},
"age": {
"minimum": 15
}
},
"$id": "ref_39_0"
},
{
"$id": "parent_1648",
"type": "object",
"properties": {
"type": {
"const": "parent"
},
"age": {
"minimum": 10,
"maximum": 20
}
},
"required": [
"type",
"age"
]
}
]
},
"tests": [
{
"description": "child type overrides parent type",
"data": {
"type": "child",
"age": 15
},
"schema_id": "ref_39_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "parent type is now invalid (shadowed)",
"data": {
"type": "parent",
"age": 15
},
"schema_id": "ref_39_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "child min age (15) is enforced",
"data": {
"type": "child",
"age": 12
},
"schema_id": "ref_39_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "parent max age (20) is shadowed (replaced) by child definition",
"data": {
"type": "child",
"age": 21
},
"schema_id": "ref_39_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "Entities extending entities (Physical Birth)",
"database": {
"types": [
{
"name": "entity",
"variations": [
"entity",
"organization",
"person"
],
"schemas": [
{
"$id": "entity",
"type": "object",
"properties": {
"id": {
"type": "string"
},
"type": {
"type": "string"
}
}
}
]
},
{
"name": "organization",
"variations": [
"organization",
"person"
],
"schemas": [
{
"$id": "organization",
"$ref": "entity",
"properties": {
"name": {
"type": "string"
}
}
}
]
},
{
"name": "person",
"variations": [
"person"
],
"schemas": [
{
"$id": "person",
"$ref": "organization",
"properties": {
"first_name": {
"type": "string"
}
}
}
]
}
],
"puncs": [
{
"name": "save_org",
"schemas": [
{
"$id": "save_org.request",
"$ref": "organization"
}
]
}
]
},
"tests": [
{
"description": "Valid person against organization schema (implicit type allowance from physical hierarchy)",
"schema_id": "save_org.request",
"data": {
"id": "1",
"type": "person",
"name": "ACME"
},
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "Valid organization against organization schema",
"schema_id": "save_org.request",
"data": {
"id": "2",
"type": "organization",
"name": "ACME"
},
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "Invalid entity against organization schema (ancestor not allowed)",
"schema_id": "save_org.request",
"data": {
"id": "3",
"type": "entity"
},
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "TYPE_MISMATCH",
"path": "/type"
}
]
}
}
]
},
{
"description": "Viral Infection: Ad-hocs inheriting entity boundaries via $ref",
"database": {
"types": [
{
"name": "entity",
"variations": [
"entity",
"person"
],
"schemas": [
{
"$id": "entity",
"type": "object",
"properties": {
"id": {
"type": "string"
},
"type": {
"type": "string"
}
}
}
]
},
{
"name": "person",
"variations": [
"person"
],
"schemas": [
{
"$id": "person",
"$ref": "entity",
"properties": {
"first_name": {
"type": "string"
}
}
},
{
"$id": "light.person",
"$ref": "entity",
"properties": {
"first_name": {
"type": "string"
}
}
}
]
}
],
"puncs": [
{
"name": "save_person_light",
"schemas": [
{
"$id": "save_person_light.request",
"$ref": "light.person",
"properties": {
"extra_request_field": {
"type": "string"
}
}
}
]
}
]
},
"tests": [
{
"description": "Valid person against ad-hoc request schema (request virally inherited person variations)",
"schema_id": "save_person_light.request",
"data": {
"id": "1",
"type": "person",
"first_name": "John",
"extra_request_field": "test"
},
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "Invalid entity against ad-hoc request schema (viral inheritance enforces person boundary)",
"schema_id": "save_person_light.request",
"data": {
"id": "1",
"type": "entity",
"first_name": "John"
},
"action": "validate",
"expect": {
"success": false,
"errors": [
{
"code": "TYPE_MISMATCH",
"path": "/type"
}
]
}
}
]
},
{
"description": "Ad-hocs extending ad-hocs (No type property)",
"database": {
"puncs": [
{
"name": "save_address",
"schemas": [
{
"$id": "address",
"type": "object",
"properties": {
"street": {
"type": "string"
},
"city": {
"type": "string"
}
}
},
{
"$id": "us_address",
"$ref": "address",
"properties": {
"state": {
"type": "string"
},
"zip": {
"type": "string"
}
}
},
{
"$id": "save_address.request",
"$ref": "us_address"
}
]
}
]
},
"tests": [
{
"description": "Valid us_address",
"schema_id": "save_address.request",
"data": {
"street": "123 Main",
"city": "Anytown",
"state": "CA",
"zip": "12345"
},
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "Invalid base address against us_address",
"schema_id": "save_address.request",
"data": {
"street": "123 Main",
"city": "Anytown"
},
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "Ad-hocs extending ad-hocs (with string type property, no magic)",
"database": {
"puncs": [
{
"name": "save_config",
"schemas": [
{
"$id": "config_base",
"type": "object",
"properties": {
"type": {
"type": "string",
"const": "config_base"
},
"setting": {
"type": "string"
}
}
},
{
"$id": "config_advanced",
"$ref": "config_base",
"properties": {
"type": {
"type": "string",
"const": "config_advanced"
},
"advanced_setting": {
"type": "string"
}
}
},
{
"$id": "save_config.request",
"$ref": "config_base"
}
]
}
]
},
"tests": [
{
"description": "Valid config_base against config_base",
"schema_id": "save_config.request",
"data": {
"type": "config_base",
"setting": "on"
},
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "Invalid config_advanced against config_base (no type magic, const is strictly 'config_base')",
"schema_id": "save_config.request",
"data": {
"type": "config_advanced",
"setting": "on",
"advanced_setting": "off"
},
"action": "validate",
"expect": {
"success": false
}
}
]
}
]

312
fixtures/required.json Normal file
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@ -0,0 +1,312 @@
[
{
"description": "required validation",
"database": {
"schemas": [
{
"properties": {
"foo": {},
"bar": {}
},
"required": [
"foo"
],
"$id": "required_0_0"
}
]
},
"tests": [
{
"description": "present required property is valid",
"data": {
"foo": 1
},
"schema_id": "required_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "non-present required property is invalid",
"data": {
"bar": 1
},
"schema_id": "required_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "ignores arrays",
"data": [],
"schema_id": "required_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores strings",
"data": "",
"schema_id": "required_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores other non-objects",
"data": 12,
"schema_id": "required_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores null",
"data": null,
"schema_id": "required_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores boolean",
"data": true,
"schema_id": "required_0_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "required default validation",
"database": {
"schemas": [
{
"properties": {
"foo": {}
},
"$id": "required_1_0"
}
]
},
"tests": [
{
"description": "not required by default",
"data": {},
"schema_id": "required_1_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "required with empty array",
"database": {
"schemas": [
{
"properties": {
"foo": {}
},
"required": [],
"$id": "required_2_0"
}
]
},
"tests": [
{
"description": "property not required",
"data": {},
"schema_id": "required_2_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "required with escaped characters",
"database": {
"schemas": [
{
"required": [
"foo\nbar",
"foo\"bar",
"foo\\bar",
"foo\rbar",
"foo\tbar",
"foo\fbar"
],
"extensible": true,
"$id": "required_3_0"
}
]
},
"tests": [
{
"description": "object with all properties present is valid",
"data": {
"foo\nbar": 1,
"foo\"bar": 1,
"foo\\bar": 1,
"foo\rbar": 1,
"foo\tbar": 1,
"foo\fbar": 1
},
"schema_id": "required_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object with some properties missing is invalid",
"data": {
"foo\nbar": "1",
"foo\"bar": "1"
},
"schema_id": "required_3_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "required properties whose names are Javascript object property names",
"comment": "Ensure JS implementations don't universally consider e.g. __proto__ to always be present in an object.",
"database": {
"schemas": [
{
"required": [
"__proto__",
"toString",
"constructor"
],
"extensible": true,
"$id": "required_4_0"
}
]
},
"tests": [
{
"description": "ignores arrays",
"data": [],
"schema_id": "required_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "ignores other non-objects",
"data": 12,
"schema_id": "required_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "none of the properties mentioned",
"data": {},
"schema_id": "required_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "__proto__ present",
"data": {
"__proto__": "foo"
},
"schema_id": "required_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "toString present",
"data": {
"toString": {
"length": 37
}
},
"schema_id": "required_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "constructor present",
"data": {
"constructor": {
"length": 37
}
},
"schema_id": "required_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "all present",
"data": {
"__proto__": 12,
"toString": {
"length": "foo"
},
"constructor": 37
},
"schema_id": "required_4_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "extensible: true allows extra properties in required",
"database": {
"schemas": [
{
"required": [
"foo"
],
"extensible": true,
"$id": "required_5_0"
}
]
},
"tests": [
{
"description": "extra property is valid",
"data": {
"foo": 1,
"bar": 2
},
"schema_id": "required_5_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

312
fixtures/stems.json Normal file
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[
{
"description": "Stem Engine Unit Tests",
"database": {
"puncs": [],
"enums": [],
"relations": [
{
"id": "rel1",
"type": "relation",
"constraint": "fk_contact_entity",
"source_type": "contact",
"source_columns": [
"entity_id"
],
"destination_type": "person",
"destination_columns": [
"id"
],
"prefix": null
},
{
"id": "rel2",
"type": "relation",
"constraint": "fk_relationship_target",
"source_type": "relationship",
"source_columns": [
"target_id",
"target_type"
],
"destination_type": "entity",
"destination_columns": [
"id",
"type"
],
"prefix": "target"
}
],
"types": [
{
"name": "entity",
"hierarchy": [
"entity"
],
"schemas": [
{
"$id": "entity",
"type": "object",
"properties": {}
}
]
},
{
"name": "person",
"hierarchy": [
"person",
"entity"
],
"schemas": [
{
"$id": "person",
"$ref": "entity",
"properties": {}
}
]
},
{
"name": "email_address",
"hierarchy": [
"email_address",
"entity"
],
"schemas": [
{
"$id": "email_address",
"$ref": "entity",
"properties": {}
}
]
},
{
"name": "phone_number",
"hierarchy": [
"phone_number",
"entity"
],
"schemas": [
{
"$id": "phone_number",
"$ref": "entity",
"properties": {}
}
]
},
{
"name": "relationship",
"relationship": true,
"hierarchy": [
"relationship",
"entity"
],
"schemas": [
{
"$id": "relationship",
"$ref": "entity",
"properties": {}
}
]
},
{
"name": "contact",
"relationship": true,
"hierarchy": [
"contact",
"relationship",
"entity"
],
"schemas": [
{
"$id": "contact",
"$ref": "relationship",
"properties": {
"target": {
"oneOf": [
{
"$ref": "phone_number"
},
{
"$ref": "email_address"
}
]
}
}
}
]
},
{
"name": "save_person",
"schemas": [
{
"$id": "save_person.response",
"$ref": "person",
"properties": {
"contacts": {
"type": "array",
"items": {
"$ref": "contact"
}
}
}
}
]
}
]
},
"tests": [
{
"description": "correctly squashes deep oneOf refs through array paths",
"action": "compile",
"expect": {
"success": true,
"stems": {
"contact": {
"": {
"schema": {
"$id": "contact",
"$ref": "relationship",
"properties": {
"target": {
"oneOf": [
{
"$ref": "phone_number"
},
{
"$ref": "email_address"
}
]
}
}
},
"type": "contact"
},
"target#(type==\"email_address\")": {
"relation": "target_id",
"schema": {
"$id": "email_address",
"$ref": "entity",
"properties": {}
},
"type": "email_address"
},
"target#(type==\"phone_number\")": {
"relation": "target_id",
"schema": {
"$id": "phone_number",
"$ref": "entity",
"properties": {}
},
"type": "phone_number"
}
},
"email_address": {
"": {
"schema": {
"$id": "email_address",
"$ref": "entity",
"properties": {}
},
"type": "email_address"
}
},
"entity": {
"": {
"schema": {
"$id": "entity",
"properties": {},
"type": "object"
},
"type": "entity"
}
},
"person": {
"": {
"schema": {
"$id": "person",
"$ref": "entity",
"properties": {}
},
"type": "person"
}
},
"phone_number": {
"": {
"schema": {
"$id": "phone_number",
"$ref": "entity",
"properties": {}
},
"type": "phone_number"
}
},
"relationship": {
"": {
"schema": {
"$id": "relationship",
"$ref": "entity",
"properties": {}
},
"type": "relationship"
}
},
"save_person.response": {
"": {
"schema": {
"$id": "save_person.response",
"$ref": "person",
"properties": {
"contacts": {
"items": {
"$ref": "contact"
},
"type": "array"
}
}
},
"type": "person"
},
"contacts.#": {
"relation": "contacts_id",
"schema": {
"$id": "contact",
"$ref": "relationship",
"properties": {
"target": {
"oneOf": [
{
"$ref": "phone_number"
},
{
"$ref": "email_address"
}
]
}
}
},
"type": "contact"
},
"contacts.#.target#(type==\"email_address\")": {
"relation": "target_id",
"schema": {
"$id": "email_address",
"$ref": "entity",
"properties": {}
},
"type": "email_address"
},
"contacts.#.target#(type==\"phone_number\")": {
"relation": "target_id",
"schema": {
"$id": "phone_number",
"$ref": "entity",
"properties": {}
},
"type": "phone_number"
}
}
}
}
}
]
}
]

912
fixtures/type.json Normal file
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[
{
"description": "integer type matches integers",
"database": {
"schemas": [
{
"type": "integer",
"$id": "type_0_0"
}
]
},
"tests": [
{
"description": "an integer is an integer",
"data": 1,
"schema_id": "type_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a float with zero fractional part is an integer",
"data": 1,
"schema_id": "type_0_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a float is not an integer",
"data": 1.1,
"schema_id": "type_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a string is not an integer",
"data": "foo",
"schema_id": "type_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a string is still not an integer, even if it looks like one",
"data": "1",
"schema_id": "type_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an object is not an integer",
"data": {},
"schema_id": "type_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an array is not an integer",
"data": [],
"schema_id": "type_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a boolean is not an integer",
"data": true,
"schema_id": "type_0_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is not an integer",
"data": null,
"schema_id": "type_0_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "number type matches numbers",
"database": {
"schemas": [
{
"type": "number",
"$id": "type_1_0"
}
]
},
"tests": [
{
"description": "an integer is a number",
"data": 1,
"schema_id": "type_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a float with zero fractional part is a number (and an integer)",
"data": 1,
"schema_id": "type_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a float is a number",
"data": 1.1,
"schema_id": "type_1_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a string is not a number",
"data": "foo",
"schema_id": "type_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a string is still not a number, even if it looks like one",
"data": "1",
"schema_id": "type_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an object is not a number",
"data": {},
"schema_id": "type_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an array is not a number",
"data": [],
"schema_id": "type_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a boolean is not a number",
"data": true,
"schema_id": "type_1_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is not a number",
"data": null,
"schema_id": "type_1_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "string type matches strings",
"database": {
"schemas": [
{
"type": "string",
"$id": "type_2_0"
}
]
},
"tests": [
{
"description": "1 is not a string",
"data": 1,
"schema_id": "type_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a float is not a string",
"data": 1.1,
"schema_id": "type_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a string is a string",
"data": "foo",
"schema_id": "type_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a string is still a string, even if it looks like a number",
"data": "1",
"schema_id": "type_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an empty string is still a string",
"data": "",
"schema_id": "type_2_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an object is not a string",
"data": {},
"schema_id": "type_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an array is not a string",
"data": [],
"schema_id": "type_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a boolean is not a string",
"data": true,
"schema_id": "type_2_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is not a string",
"data": null,
"schema_id": "type_2_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "object type matches objects",
"database": {
"schemas": [
{
"type": "object",
"$id": "type_3_0"
}
]
},
"tests": [
{
"description": "an integer is not an object",
"data": 1,
"schema_id": "type_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a float is not an object",
"data": 1.1,
"schema_id": "type_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a string is not an object",
"data": "foo",
"schema_id": "type_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an object is an object",
"data": {},
"schema_id": "type_3_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an array is not an object",
"data": [],
"schema_id": "type_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a boolean is not an object",
"data": true,
"schema_id": "type_3_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is not an object",
"data": null,
"schema_id": "type_3_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "array type matches arrays",
"database": {
"schemas": [
{
"type": "array",
"$id": "type_4_0"
}
]
},
"tests": [
{
"description": "an integer is not an array",
"data": 1,
"schema_id": "type_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a float is not an array",
"data": 1.1,
"schema_id": "type_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a string is not an array",
"data": "foo",
"schema_id": "type_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an object is not an array",
"data": {},
"schema_id": "type_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an array is an array",
"data": [],
"schema_id": "type_4_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a boolean is not an array",
"data": true,
"schema_id": "type_4_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is not an array",
"data": null,
"schema_id": "type_4_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "boolean type matches booleans",
"database": {
"schemas": [
{
"type": "boolean",
"$id": "type_5_0"
}
]
},
"tests": [
{
"description": "an integer is not a boolean",
"data": 1,
"schema_id": "type_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "zero is not a boolean",
"data": 0,
"schema_id": "type_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a float is not a boolean",
"data": 1.1,
"schema_id": "type_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a string is not a boolean",
"data": "foo",
"schema_id": "type_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an empty string is a null",
"data": "",
"schema_id": "type_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an object is not a boolean",
"data": {},
"schema_id": "type_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an array is not a boolean",
"data": [],
"schema_id": "type_5_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "true is a boolean",
"data": true,
"schema_id": "type_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "false is a boolean",
"data": false,
"schema_id": "type_5_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "null is not a boolean",
"data": null,
"schema_id": "type_5_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "null type matches only the null object",
"database": {
"schemas": [
{
"type": "null",
"$id": "type_6_0"
}
]
},
"tests": [
{
"description": "an integer is not null",
"data": 1,
"schema_id": "type_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a float is not null",
"data": 1.1,
"schema_id": "type_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "zero is not null",
"data": 0,
"schema_id": "type_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a string is not null",
"data": "foo",
"schema_id": "type_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an empty string is null",
"data": "",
"schema_id": "type_6_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "an object is not null",
"data": {},
"schema_id": "type_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an array is not null",
"data": [],
"schema_id": "type_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "true is not null",
"data": true,
"schema_id": "type_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "false is not null",
"data": false,
"schema_id": "type_6_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is null",
"data": null,
"schema_id": "type_6_0",
"action": "validate",
"expect": {
"success": true
}
}
]
},
{
"description": "multiple types can be specified in an array",
"database": {
"schemas": [
{
"type": [
"integer",
"string"
],
"$id": "type_7_0"
}
]
},
"tests": [
{
"description": "an integer is valid",
"data": 1,
"schema_id": "type_7_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a string is valid",
"data": "foo",
"schema_id": "type_7_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "a float is invalid",
"data": 1.1,
"schema_id": "type_7_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an object is invalid",
"data": {},
"schema_id": "type_7_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "an array is invalid",
"data": [],
"schema_id": "type_7_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "a boolean is invalid",
"data": true,
"schema_id": "type_7_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is invalid",
"data": null,
"schema_id": "type_7_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "type as array with one item",
"database": {
"schemas": [
{
"type": [
"string"
],
"$id": "type_8_0"
}
]
},
"tests": [
{
"description": "string is valid",
"data": "foo",
"schema_id": "type_8_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "number is invalid",
"data": 123,
"schema_id": "type_8_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "type: array or object",
"database": {
"schemas": [
{
"type": [
"array",
"object"
],
"items": {},
"$id": "type_9_0"
}
]
},
"tests": [
{
"description": "array is valid",
"data": [
1,
2,
3
],
"schema_id": "type_9_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object is valid",
"data": {},
"schema_id": "type_9_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "number is invalid",
"data": 123,
"schema_id": "type_9_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "string is invalid",
"data": "foo",
"schema_id": "type_9_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "null is invalid",
"data": null,
"schema_id": "type_9_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "type: array, object or null",
"database": {
"schemas": [
{
"type": [
"array",
"object",
"null"
],
"items": {},
"$id": "type_10_0"
}
]
},
"tests": [
{
"description": "array is valid",
"data": [
1,
2,
3
],
"schema_id": "type_10_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "object is valid",
"data": {},
"schema_id": "type_10_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "null is valid",
"data": null,
"schema_id": "type_10_0",
"action": "validate",
"expect": {
"success": true
}
},
{
"description": "number is invalid",
"data": 123,
"schema_id": "type_10_0",
"action": "validate",
"expect": {
"success": false
}
},
{
"description": "string is invalid",
"data": "foo",
"schema_id": "type_10_0",
"action": "validate",
"expect": {
"success": false
}
}
]
},
{
"description": "extensible: true allows extra properties",
"database": {
"schemas": [
{
"type": "object",
"extensible": true,
"$id": "type_11_0"
}
]
},
"tests": [
{
"description": "extra property is valid",
"data": {
"foo": 1
},
"schema_id": "type_11_0",
"action": "validate",
"expect": {
"success": true
}
}
]
}
]

1171
fixtures/uniqueItems.json Normal file
View File

File diff suppressed because it is too large Load Diff

61
flow
View File

@ -15,25 +15,28 @@ CARGO_DEPENDENCIES=(cargo-pgrx==0.16.1)
GITEA_ORGANIZATION="cellular"
GITEA_REPOSITORY="jspg"
pgrx-prepare() {
pgrx-up() {
info "Initializing pgrx..."
# Explicitly point to the postgresql@${POSTGRES_VERSION} pg_config, don't rely on 'which'
local POSTGRES_CONFIG_PATH="/opt/homebrew/opt/postgresql@${POSTGRES_VERSION}/bin/pg_config"
if [ ! -x "$POSTGRES_CONFIG_PATH" ]; then
error "pg_config not found or not executable at $POSTGRES_CONFIG_PATH."
warning "Ensure postgresql@${POSTGRES_VERSION} is installed correctly via Homebrew."
return 2
abort "pg_config not found or not executable at $POSTGRES_CONFIG_PATH." 2
fi
if cargo pgrx init --pg"$POSTGRES_VERSION"="$POSTGRES_CONFIG_PATH"; then
success "pgrx initialized successfully."
else
error "Failed to initialize pgrx. Check PostgreSQL development packages are installed and $POSTGRES_CONFIG_PATH is valid."
return 2
success "pgrx initialized successfully." && return 0
fi
abort "Failed to initialize pgrx. Check PostgreSQL development packages are installed and $POSTGRES_CONFIG_PATH is valid." 2
}
pgrx-down() {
info "Taking pgrx down..."
}
build() {
local version
version=$(get-version) || return $?
@ -51,11 +54,10 @@ build() {
info "Creating tarball: ${tarball_path}"
# Set COPYFILE_DISABLE=1 to prevent macOS tar from including ._ metadata files
if COPYFILE_DISABLE=1 tar --exclude='.git*' --exclude='./target' --exclude='./package' --exclude='./flows' --exclude='./flow' -czf "${tarball_path}" .; then
success "Successfully created source tarball: ${tarball_path}"
else
error "Failed to create source tarball."
return 2
success "Successfully created source tarball: ${tarball_path}" && return 0
fi
abort "Failed to create source tarball." 2
}
install() {
@ -66,8 +68,7 @@ install() {
# Run the pgrx install command
if ! cargo pgrx install; then
error "cargo pgrx install command failed."
return 2
abort "cargo pgrx install command failed." 2
fi
success "PGRX extension v$version successfully built and installed."
@ -76,26 +77,23 @@ install() {
pg_sharedir=$("$POSTGRES_CONFIG_PATH" --sharedir)
local pg_config_status=$?
if [ $pg_config_status -ne 0 ] || [ -z "$pg_sharedir" ]; then
error "Failed to determine PostgreSQL shared directory using pg_config."
return 2
abort "Failed to determine PostgreSQL shared directory using pg_config." 2
fi
local installed_control_path="${pg_sharedir}/extension/jspg.control"
# Modify the control file
if [ ! -f "$installed_control_path" ]; then
error "Installed control file not found: '$installed_control_path'"
return 2
abort "Installed control file not found: '$installed_control_path'" 2
fi
info "Modifying control file for non-superuser access: ${installed_control_path}"
# Use sed -i '' for macOS compatibility
if sed -i '' '/^superuser = false/d' "$installed_control_path" && \
echo 'trusted = true' >> "$installed_control_path"; then
success "Control file modified successfully."
else
error "Failed to modify control file: ${installed_control_path}"
return 2
success "Control file modified successfully." && return 0
fi
abort "Failed to modify control file: ${installed_control_path}" 2
}
test() {
@ -109,26 +107,27 @@ clean() {
}
jspg-usage() {
printf "prepare\tCheck OS, Cargo, and PGRX dependencies.\n"
printf "install\tBuild and install the extension locally (after prepare).\n"
printf "reinstall\tClean, build, and install the extension locally (after prepare).\n"
printf "test-jspg\t\tRun pgrx integration tests.\n"
printf "test-validator\t\tRun validator integration tests.\n"
printf "clean\t\tRemove pgrx build artifacts.\n"
echo "up|Check OS, Cargo, and PGRX dependencies."
echo "install|Build and install the extension locally (after up)."
echo "reinstall|Clean, build, and install the extension locally (after up)."
echo "test-jspg|Run pgrx integration tests."
echo "test-validator|Run validator integration tests."
echo "clean|Remove pgrx build artifacts."
}
jspg-flow() {
case "$1" in
prepare) prepare && cargo-prepare && pgrx-prepare; return $?;;
up) up && rust-up && pgrx-up; return $?;;
down) pgrx-down && rust-down && down; return $?;;
build) build; return $?;;
install) install; return $?;;
reinstall) clean && install; return $?;;
test) test "${@:2}"; return $?;;
test) test "${@:2}"; return $?;;
clean) clean; return $?;;
*) return 1 ;;
*) return 127 ;;
esac
}
register-flow "jspg-usage" "jspg-flow"
register-flow "jspg"
dispatch "$@"

2
flows

Submodule flows updated: 404da626c7...a7b0f5dc4d

2
src/bin/pgrx_embed.rs
View File

@ -1 +1 @@
::pgrx::pgrx_embed!();
::pgrx::pgrx_embed!();

394
src/compiler.rs
View File

@ -1,394 +0,0 @@
use crate::schema::Schema;
use regex::Regex;
use serde_json::Value;
// use std::collections::HashMap;
use std::error::Error;
use std::sync::Arc;
/// Represents a compiled format validator
#[derive(Debug, Clone)]
pub enum CompiledFormat {
/// A simple function pointer validator
Func(fn(&Value) -> Result<(), Box<dyn Error + Send + Sync>>),
/// A regex-based validator
Regex(Regex),
}
/// A wrapper for compiled regex patterns
#[derive(Debug, Clone)]
pub struct CompiledRegex(pub Regex);
/// The Compiler is responsible for pre-calculating high-cost schema operations
pub struct Compiler;
impl Compiler {
/// Internal: Compiles formats and regexes in-place
fn compile_formats_and_regexes(schema: &mut Schema) {
// 1. Compile Format
if let Some(format_str) = &schema.format {
if let Some(fmt) = crate::formats::FORMATS.get(format_str.as_str()) {
schema.compiled_format = Some(CompiledFormat::Func(fmt.func));
}
}
// 2. Compile Pattern (regex)
if let Some(pattern_str) = &schema.pattern {
if let Ok(re) = Regex::new(pattern_str) {
schema.compiled_pattern = Some(CompiledRegex(re));
}
}
// 2.5 Compile Pattern Properties
if let Some(pp) = &schema.pattern_properties {
let mut compiled_pp = Vec::new();
for (pattern, sub_schema) in pp {
if let Ok(re) = Regex::new(pattern) {
compiled_pp.push((CompiledRegex(re), sub_schema.clone()));
} else {
eprintln!(
"Invalid patternProperty regex in schema (compile time): {}",
pattern
);
}
}
if !compiled_pp.is_empty() {
schema.compiled_pattern_properties = Some(compiled_pp);
}
}
// 3. Recurse
Self::compile_recursive(schema);
}
fn normalize_dependencies(schema: &mut Schema) {
if let Some(deps) = schema.dependencies.take() {
for (key, dep) in deps {
match dep {
crate::schema::Dependency::Props(props) => {
schema
.dependent_required
.get_or_insert_with(std::collections::BTreeMap::new)
.insert(key, props);
}
crate::schema::Dependency::Schema(sub_schema) => {
schema
.dependent_schemas
.get_or_insert_with(std::collections::BTreeMap::new)
.insert(key, sub_schema);
}
}
}
}
}
fn compile_recursive(schema: &mut Schema) {
Self::normalize_dependencies(schema);
// Compile self
if let Some(format_str) = &schema.format {
if let Some(fmt) = crate::formats::FORMATS.get(format_str.as_str()) {
schema.compiled_format = Some(CompiledFormat::Func(fmt.func));
}
}
if let Some(pattern_str) = &schema.pattern {
if let Ok(re) = Regex::new(pattern_str) {
schema.compiled_pattern = Some(CompiledRegex(re));
}
}
// Recurse
if let Some(defs) = &mut schema.definitions {
for s in defs.values_mut() {
Self::compile_recursive(Arc::make_mut(s));
}
}
if let Some(defs) = &mut schema.defs {
for s in defs.values_mut() {
Self::compile_recursive(Arc::make_mut(s));
}
}
if let Some(props) = &mut schema.properties {
for s in props.values_mut() {
Self::compile_recursive(Arc::make_mut(s));
}
}
if let Some(add_props) = &mut schema.additional_properties {
Self::compile_recursive(Arc::make_mut(add_props));
}
// ... Recurse logic ...
if let Some(items) = &mut schema.items {
Self::compile_recursive(Arc::make_mut(items));
}
if let Some(prefix_items) = &mut schema.prefix_items {
for s in prefix_items {
Self::compile_recursive(Arc::make_mut(s));
}
}
if let Some(not) = &mut schema.not {
Self::compile_recursive(Arc::make_mut(not));
}
if let Some(all_of) = &mut schema.all_of {
for s in all_of {
Self::compile_recursive(Arc::make_mut(s));
}
}
if let Some(any_of) = &mut schema.any_of {
for s in any_of {
Self::compile_recursive(Arc::make_mut(s));
}
}
if let Some(one_of) = &mut schema.one_of {
for s in one_of {
Self::compile_recursive(Arc::make_mut(s));
}
}
if let Some(s) = &mut schema.if_ {
Self::compile_recursive(Arc::make_mut(s));
}
if let Some(s) = &mut schema.then_ {
Self::compile_recursive(Arc::make_mut(s));
}
if let Some(s) = &mut schema.else_ {
Self::compile_recursive(Arc::make_mut(s));
}
if let Some(ds) = &mut schema.dependent_schemas {
for s in ds.values_mut() {
Self::compile_recursive(Arc::make_mut(s));
}
}
if let Some(pn) = &mut schema.property_names {
Self::compile_recursive(Arc::make_mut(pn));
}
}
/// Recursively traverses the schema tree to build the local registry index.
fn compile_index(
schema: &Arc<Schema>,
registry: &mut crate::registry::Registry,
parent_base: Option<String>,
pointer: json_pointer::JsonPointer<String, Vec<String>>,
) {
// 1. Index using Parent Base (Path from Parent)
if let Some(base) = &parent_base {
// We use the pointer's string representation (e.g., "/definitions/foo")
// and append it to the base.
let fragment = pointer.to_string();
let ptr_uri = if fragment.is_empty() {
base.clone()
} else {
format!("{}#{}", base, fragment)
};
registry.insert(ptr_uri, schema.clone());
}
// 2. Determine Current Scope... (unchanged logic)
let mut current_base = parent_base.clone();
let mut child_pointer = pointer.clone();
if let Some(id) = &schema.obj.id {
let mut new_base = None;
if let Ok(_) = url::Url::parse(id) {
new_base = Some(id.clone());
} else if let Some(base) = &current_base {
if let Ok(base_url) = url::Url::parse(base) {
if let Ok(joined) = base_url.join(id) {
new_base = Some(joined.to_string());
}
}
} else {
new_base = Some(id.clone());
}
if let Some(base) = new_base {
// println!("DEBUG: Compiling index for path: {}", base); // Added println
registry.insert(base.clone(), schema.clone());
current_base = Some(base);
child_pointer = json_pointer::JsonPointer::new(vec![]); // Reset
}
}
// 3. Index by Anchor
if let Some(anchor) = &schema.obj.anchor {
if let Some(base) = &current_base {
let anchor_uri = format!("{}#{}", base, anchor);
registry.insert(anchor_uri, schema.clone());
}
}
// Index by Dynamic Anchor
if let Some(d_anchor) = &schema.obj.dynamic_anchor {
if let Some(base) = &current_base {
let anchor_uri = format!("{}#{}", base, d_anchor);
registry.insert(anchor_uri, schema.clone());
}
}
// 4. Recurse (unchanged logic structure, just passing registry)
if let Some(defs) = schema.defs.as_ref().or(schema.definitions.as_ref()) {
let segment = if schema.defs.is_some() {
"$defs"
} else {
"definitions"
};
for (key, sub_schema) in defs {
let mut sub = child_pointer.clone();
sub.push(segment.to_string());
let decoded_key = percent_encoding::percent_decode_str(key).decode_utf8_lossy();
sub.push(decoded_key.to_string());
Self::compile_index(sub_schema, registry, current_base.clone(), sub);
}
}
if let Some(props) = &schema.properties {
for (key, sub_schema) in props {
let mut sub = child_pointer.clone();
sub.push("properties".to_string());
sub.push(key.to_string());
Self::compile_index(sub_schema, registry, current_base.clone(), sub);
}
}
if let Some(items) = &schema.items {
let mut sub = child_pointer.clone();
sub.push("items".to_string());
Self::compile_index(items, registry, current_base.clone(), sub);
}
if let Some(prefix_items) = &schema.prefix_items {
for (i, sub_schema) in prefix_items.iter().enumerate() {
let mut sub = child_pointer.clone();
sub.push("prefixItems".to_string());
sub.push(i.to_string());
Self::compile_index(sub_schema, registry, current_base.clone(), sub);
}
}
if let Some(all_of) = &schema.all_of {
for (i, sub_schema) in all_of.iter().enumerate() {
let mut sub = child_pointer.clone();
sub.push("allOf".to_string());
sub.push(i.to_string());
Self::compile_index(sub_schema, registry, current_base.clone(), sub);
}
}
if let Some(any_of) = &schema.any_of {
for (i, sub_schema) in any_of.iter().enumerate() {
let mut sub = child_pointer.clone();
sub.push("anyOf".to_string());
sub.push(i.to_string());
Self::compile_index(sub_schema, registry, current_base.clone(), sub);
}
}
if let Some(one_of) = &schema.one_of {
for (i, sub_schema) in one_of.iter().enumerate() {
let mut sub = child_pointer.clone();
sub.push("oneOf".to_string());
sub.push(i.to_string());
Self::compile_index(sub_schema, registry, current_base.clone(), sub);
}
}
if let Some(not) = &schema.not {
let mut sub = child_pointer.clone();
sub.push("not".to_string());
Self::compile_index(not, registry, current_base.clone(), sub);
}
if let Some(if_) = &schema.if_ {
let mut sub = child_pointer.clone();
sub.push("if".to_string());
Self::compile_index(if_, registry, current_base.clone(), sub);
}
if let Some(then_) = &schema.then_ {
let mut sub = child_pointer.clone();
sub.push("then".to_string());
Self::compile_index(then_, registry, current_base.clone(), sub);
}
if let Some(else_) = &schema.else_ {
let mut sub = child_pointer.clone();
sub.push("else".to_string());
Self::compile_index(else_, registry, current_base.clone(), sub);
}
if let Some(deps) = &schema.dependent_schemas {
for (key, sub_schema) in deps {
let mut sub = child_pointer.clone();
sub.push("dependentSchemas".to_string());
sub.push(key.to_string());
Self::compile_index(sub_schema, registry, current_base.clone(), sub);
}
}
if let Some(pp) = &schema.pattern_properties {
for (key, sub_schema) in pp {
let mut sub = child_pointer.clone();
sub.push("patternProperties".to_string());
sub.push(key.to_string());
Self::compile_index(sub_schema, registry, current_base.clone(), sub);
}
}
if let Some(add_props) = &schema.additional_properties {
let mut sub = child_pointer.clone();
sub.push("additionalProperties".to_string());
Self::compile_index(add_props, registry, current_base.clone(), sub);
}
if let Some(contains) = &schema.contains {
let mut sub = child_pointer.clone();
sub.push("contains".to_string());
Self::compile_index(contains, registry, current_base.clone(), sub);
}
if let Some(property_names) = &schema.property_names {
let mut sub = child_pointer.clone();
sub.push("propertyNames".to_string());
Self::compile_index(property_names, registry, current_base.clone(), sub);
}
}
pub fn compile(mut root_schema: Schema, root_id: Option<String>) -> Arc<Schema> {
// 1. Compile in-place (formats/regexes/normalization)
Self::compile_formats_and_regexes(&mut root_schema);
// Apply root_id override if schema ID is missing
if let Some(rid) = &root_id {
if root_schema.obj.id.is_none() {
root_schema.obj.id = Some(rid.clone());
}
}
// 2. Build ID/Pointer Index
let mut registry = crate::registry::Registry::new();
// We need a temporary Arc to satisfy compile_index recursion
// But we are modifying root_schema.
// This is tricky. compile_index takes &Arc<Schema>.
// We should build the index first, THEN attach it.
let root = Arc::new(root_schema);
// Default base_uri to ""
let base_uri = root_id
.clone()
.or_else(|| root.obj.id.clone())
.or(Some("".to_string()));
Self::compile_index(
&root,
&mut registry,
base_uri,
json_pointer::JsonPointer::new(vec![]),
);
// Also ensure root id is indexed if present
if let Some(rid) = root_id {
registry.insert(rid, root.clone());
}
// Now we need to attach this registry to the root schema.
// Since root is an Arc, we might need to recreate it if we can't mutate.
// Schema struct modifications require &mut.
let mut final_schema = Arc::try_unwrap(root).unwrap_or_else(|arc| (*arc).clone());
final_schema.obj.compiled_registry = Some(Arc::new(registry));
Arc::new(final_schema)
}
}

12
src/database/enum.rs Normal file
View File

@ -0,0 +1,12 @@
use crate::database::schema::Schema;
use serde::{Deserialize, Serialize};
#[derive(Debug, Clone, Serialize, Deserialize, Default)]
#[serde(default)]
pub struct Enum {
pub name: String,
pub module: String,
pub source: String,
pub values: Vec<String>,
pub schemas: Vec<Schema>,
}

196
src/database/executors/mock.rs Normal file
View File

@ -0,0 +1,196 @@
#[cfg(test)]
use crate::database::executors::DatabaseExecutor;
#[cfg(test)]
use regex::Regex;
#[cfg(test)]
use serde_json::Value;
#[cfg(test)]
use std::cell::RefCell;
#[cfg(test)]
pub struct MockState {
pub captured_queries: Vec<String>,
pub query_responses: Vec<Result<Value, String>>,
pub execute_responses: Vec<Result<(), String>>,
pub mocks: Vec<Value>,
}
#[cfg(test)]
impl MockState {
pub fn new() -> Self {
Self {
captured_queries: Default::default(),
query_responses: Default::default(),
execute_responses: Default::default(),
mocks: Default::default(),
}
}
}
#[cfg(test)]
thread_local! {
pub static MOCK_STATE: RefCell<MockState> = RefCell::new(MockState::new());
}
#[cfg(test)]
pub struct MockExecutor {}
#[cfg(test)]
impl MockExecutor {
pub fn new() -> Self {
Self {}
}
}
#[cfg(test)]
impl DatabaseExecutor for MockExecutor {
fn query(&self, sql: &str, _args: Option<&[Value]>) -> Result<Value, String> {
println!("DEBUG SQL QUERY: {}", sql);
MOCK_STATE.with(|state| {
let mut s = state.borrow_mut();
s.captured_queries.push(sql.to_string());
if !s.mocks.is_empty() {
if let Some(matches) = parse_and_match_mocks(sql, &s.mocks) {
if !matches.is_empty() {
return Ok(Value::Array(matches));
}
}
}
if s.query_responses.is_empty() {
return Ok(Value::Array(vec![]));
}
s.query_responses.remove(0)
})
}
fn execute(&self, sql: &str, _args: Option<&[Value]>) -> Result<(), String> {
println!("DEBUG SQL EXECUTE: {}", sql);
MOCK_STATE.with(|state| {
let mut s = state.borrow_mut();
s.captured_queries.push(sql.to_string());
if s.execute_responses.is_empty() {
return Ok(());
}
s.execute_responses.remove(0)
})
}
fn auth_user_id(&self) -> Result<String, String> {
Ok("00000000-0000-0000-0000-000000000000".to_string())
}
fn timestamp(&self) -> Result<String, String> {
Ok("2026-03-10T00:00:00Z".to_string())
}
#[cfg(test)]
fn get_queries(&self) -> Vec<String> {
MOCK_STATE.with(|state| state.borrow().captured_queries.clone())
}
#[cfg(test)]
fn set_mocks(&self, mocks: Vec<Value>) {
MOCK_STATE.with(|state| {
state.borrow_mut().mocks = mocks;
});
}
#[cfg(test)]
fn reset_mocks(&self) {
MOCK_STATE.with(|state| {
let mut s = state.borrow_mut();
s.captured_queries.clear();
s.query_responses.clear();
s.execute_responses.clear();
s.mocks.clear();
});
}
}
#[cfg(test)]
fn parse_and_match_mocks(sql: &str, mocks: &[Value]) -> Option<Vec<Value>> {
let sql_upper = sql.to_uppercase();
if !sql_upper.starts_with("SELECT") {
return None;
}
// 1. Extract table name
let table_regex = Regex::new(r#"(?i)\s+FROM\s+(?:[a-zA-Z_]\w*\.)?"?([a-zA-Z_]\w*)"?"#).ok()?;
let table = if let Some(caps) = table_regex.captures(sql) {
caps.get(1)?.as_str()
} else {
return None;
};
// 2. Extract WHERE conditions
let mut conditions = Vec::new();
if let Some(where_idx) = sql_upper.find(" WHERE ") {
let mut where_end = sql_upper.find(" ORDER BY ").unwrap_or(sql.len());
if let Some(limit_idx) = sql_upper.find(" LIMIT ") {
if limit_idx < where_end {
where_end = limit_idx;
}
}
let where_clause = &sql[where_idx + 7..where_end];
let and_regex = Regex::new(r"(?i)\s+AND\s+").ok()?;
let parts = and_regex.split(where_clause);
for part in parts {
if let Some(eq_idx) = part.find('=') {
let left = part[..eq_idx]
.trim()
.split('.')
.last()
.unwrap_or("")
.trim_matches('"');
let right = part[eq_idx + 1..].trim().trim_matches('\'');
conditions.push((left.to_string(), right.to_string()));
} else if part.to_uppercase().contains(" IS NULL") {
let left = part[..part.to_uppercase().find(" IS NULL").unwrap()]
.trim()
.split('.')
.last()
.unwrap_or("")
.replace('"', ""); // Remove quotes explicitly
conditions.push((left, "null".to_string()));
}
}
}
// 3. Find matching mocks
let mut matches = Vec::new();
for mock in mocks {
if let Some(mock_obj) = mock.as_object() {
if let Some(t) = mock_obj.get("type") {
if t.as_str() != Some(table) {
continue;
}
}
let mut matches_all = true;
for (k, v) in &conditions {
let mock_val_str = match mock_obj.get(k) {
Some(Value::String(s)) => s.clone(),
Some(Value::Number(n)) => n.to_string(),
Some(Value::Bool(b)) => b.to_string(),
Some(Value::Null) => "null".to_string(),
_ => {
matches_all = false;
break;
}
};
if mock_val_str != *v {
matches_all = false;
break;
}
}
if matches_all {
matches.push(mock.clone());
}
}
}
Some(matches)
}

31
src/database/executors/mod.rs Normal file
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pub mod mock;
#[cfg(not(test))]
pub mod pgrx;
use serde_json::Value;
/// An abstraction over database execution to allow for isolated unit testing
/// without a live Postgres SPI connection.
pub trait DatabaseExecutor: Send + Sync {
/// Executes a query expecting a single JSONB return, representing rows.
fn query(&self, sql: &str, args: Option<&[Value]>) -> Result<Value, String>;
/// Executes an operation (INSERT, UPDATE, DELETE, or pg_notify) that does not return rows.
fn execute(&self, sql: &str, args: Option<&[Value]>) -> Result<(), String>;
/// Returns the current authenticated user's ID
fn auth_user_id(&self) -> Result<String, String>;
/// Returns the current transaction timestamp
fn timestamp(&self) -> Result<String, String>;
#[cfg(test)]
fn get_queries(&self) -> Vec<String>;
#[cfg(test)]
fn reset_mocks(&self);
#[cfg(test)]
fn set_mocks(&self, mocks: Vec<Value>);
}

96
src/database/executors/pgrx.rs Normal file
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use crate::database::executors::DatabaseExecutor;
use pgrx::prelude::*;
use serde_json::Value;
/// The production executor that wraps `pgrx::spi::Spi`.
pub struct SpiExecutor;
impl SpiExecutor {
pub fn new() -> Self {
Self {}
}
}
impl DatabaseExecutor for SpiExecutor {
fn query(&self, sql: &str, args: Option<&[Value]>) -> Result<Value, String> {
let mut json_args = Vec::new();
let mut args_with_oid: Vec<pgrx::datum::DatumWithOid> = Vec::new();
if let Some(params) = args {
for val in params {
json_args.push(pgrx::JsonB(val.clone()));
}
for j_val in json_args.into_iter() {
args_with_oid.push(pgrx::datum::DatumWithOid::from(j_val));
}
}
Spi::connect(|client| {
match client.select(sql, Some(args_with_oid.len() as i64), &args_with_oid) {
Ok(tup_table) => {
let mut results = Vec::new();
for row in tup_table {
if let Ok(Some(jsonb)) = row.get::<pgrx::JsonB>(1) {
results.push(jsonb.0);
}
}
Ok(Value::Array(results))
}
Err(e) => Err(format!("SPI Query Fetch Failure: {}", e)),
}
})
}
fn execute(&self, sql: &str, args: Option<&[Value]>) -> Result<(), String> {
let mut json_args = Vec::new();
let mut args_with_oid: Vec<pgrx::datum::DatumWithOid> = Vec::new();
if let Some(params) = args {
for val in params {
json_args.push(pgrx::JsonB(val.clone()));
}
for j_val in json_args.into_iter() {
args_with_oid.push(pgrx::datum::DatumWithOid::from(j_val));
}
}
Spi::connect_mut(|client| {
match client.update(sql, Some(args_with_oid.len() as i64), &args_with_oid) {
Ok(_) => Ok(()),
Err(e) => Err(format!("SPI Execution Failure: {}", e)),
}
})
}
fn auth_user_id(&self) -> Result<String, String> {
Spi::connect(|client| {
let mut tup_table = client
.select(
"SELECT COALESCE(current_setting('auth.user_id', true), 'ffffffff-ffff-ffff-ffff-ffffffffffff')",
None,
&[],
)
.map_err(|e| format!("SPI Select Error: {}", e))?;
let row = tup_table
.next()
.ok_or("No user id setting returned from context".to_string())?;
let user_id: Option<String> = row.get(1).map_err(|e| e.to_string())?;
user_id.ok_or("Missing user_id".to_string())
})
}
fn timestamp(&self) -> Result<String, String> {
Spi::connect(|client| {
let mut tup_table = client
.select("SELECT clock_timestamp()::text", None, &[])
.map_err(|e| format!("SPI Select Error: {}", e))?;
let row = tup_table
.next()
.ok_or("No clock timestamp returned".to_string())?;
let timestamp: Option<String> = row.get(1).map_err(|e| e.to_string())?;
timestamp.ok_or("Missing timestamp".to_string())
})
}
}

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use std::{
collections::HashMap,
error::Error,
net::{Ipv4Addr, Ipv6Addr},
};
use lazy_static::lazy_static;
use percent_encoding::percent_decode_str;
use serde_json::Value;
use url::Url;
// use crate::ecma; // Assuming ecma is not yet available, stubbing regex for now
/// Defines format for `format` keyword.
#[derive(Clone, Copy)]
pub struct Format {
/// Name of the format
pub name: &'static str,
/// validates given value.
pub func: fn(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>>, // Ensure thread safety if needed
}
lazy_static! {
pub(crate) static ref FORMATS: HashMap<&'static str, Format> = {
let mut m = HashMap::<&'static str, Format>::new();
// Helper to register formats
let mut register = |name, func| m.insert(name, Format { name, func });
// register("regex", validate_regex); // Stubbed
register("ipv4", validate_ipv4);
register("ipv6", validate_ipv6);
register("hostname", validate_hostname);
register("idn-hostname", validate_idn_hostname);
register("email", validate_email);
register("idn-email", validate_idn_email);
register("date", validate_date);
register("time", validate_time);
register("date-time", validate_date_time);
register("duration", validate_duration);
register("period", validate_period);
register("json-pointer", validate_json_pointer);
register("relative-json-pointer", validate_relative_json_pointer);
register("uuid", validate_uuid);
register("uri", validate_uri);
register("iri", validate_iri);
register("uri-reference", validate_uri_reference);
register("iri-reference", validate_iri_reference);
register("uri-template", validate_uri_template);
m
};
}
/*
fn validate_regex(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
// ecma::convert(s).map(|_| ())
Ok(())
}
*/
fn validate_ipv4(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
s.parse::<Ipv4Addr>()?;
Ok(())
}
fn validate_ipv6(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
s.parse::<Ipv6Addr>()?;
Ok(())
}
fn validate_date(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_date(s)?;
Ok(())
}
fn matches_char(s: &str, index: usize, ch: char) -> bool {
s.is_char_boundary(index) && s[index..].starts_with(ch)
}
// see https://datatracker.ietf.org/doc/html/rfc3339#section-5.6
fn check_date(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// yyyy-mm-dd
if s.len() != 10 {
Err("must be 10 characters long")?;
}
if !matches_char(s, 4, '-') || !matches_char(s, 7, '-') {
Err("missing hyphen in correct place")?;
}
let mut ymd = s.splitn(3, '-').filter_map(|t| t.parse::<usize>().ok());
let (Some(y), Some(m), Some(d)) = (ymd.next(), ymd.next(), ymd.next()) else {
Err("non-positive year/month/day")?
};
if !matches!(m, 1..=12) {
Err(format!("{m} months in year"))?;
}
if !matches!(d, 1..=31) {
Err(format!("{d} days in month"))?;
}
match m {
2 => {
let mut feb_days = 28;
if y % 4 == 0 && (y % 100 != 0 || y % 400 == 0) {
feb_days += 1; // leap year
};
if d > feb_days {
Err(format!("february has {feb_days} days only"))?;
}
}
4 | 6 | 9 | 11 => {
if d > 30 {
Err("month has 30 days only")?;
}
}
_ => {}
}
Ok(())
}
fn validate_time(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_time(s)
}
fn check_time(mut str: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// min: hh:mm:ssZ
if str.len() < 9 {
Err("less than 9 characters long")?
}
if !matches_char(str, 2, ':') || !matches_char(str, 5, ':') {
Err("missing colon in correct place")?
}
// parse hh:mm:ss
if !str.is_char_boundary(8) {
Err("contains non-ascii char")?
}
let mut hms = (str[..8])
.splitn(3, ':')
.filter_map(|t| t.parse::<usize>().ok());
let (Some(mut h), Some(mut m), Some(s)) = (hms.next(), hms.next(), hms.next()) else {
Err("non-positive hour/min/sec")?
};
if h > 23 || m > 59 || s > 60 {
Err("hour/min/sec out of range")?
}
str = &str[8..];
// parse sec-frac if present
if let Some(rem) = str.strip_prefix('.') {
let n_digits = rem.chars().take_while(char::is_ascii_digit).count();
if n_digits == 0 {
Err("no digits in second fraction")?;
}
str = &rem[n_digits..];
}
if str != "z" && str != "Z" {
// parse time-numoffset
if str.len() != 6 {
Err("offset must be 6 characters long")?;
}
let sign: isize = match str.chars().next() {
Some('+') => -1,
Some('-') => 1,
_ => return Err("offset must begin with plus/minus")?,
};
str = &str[1..];
if !matches_char(str, 2, ':') {
Err("missing colon in offset at correct place")?
}
let mut zhm = str.splitn(2, ':').filter_map(|t| t.parse::<usize>().ok());
let (Some(zh), Some(zm)) = (zhm.next(), zhm.next()) else {
Err("non-positive hour/min in offset")?
};
if zh > 23 || zm > 59 {
Err("hour/min in offset out of range")?
}
// apply timezone
let mut hm = (h * 60 + m) as isize + sign * (zh * 60 + zm) as isize;
if hm < 0 {
hm += 24 * 60;
debug_assert!(hm >= 0);
}
let hm = hm as usize;
(h, m) = (hm / 60, hm % 60);
}
// check leap second
if !(s < 60 || (h == 23 && m == 59)) {
Err("invalid leap second")?
}
Ok(())
}
fn validate_date_time(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_date_time(s)
}
fn check_date_time(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// min: yyyy-mm-ddThh:mm:ssZ
if s.len() < 20 {
Err("less than 20 characters long")?;
}
if !s.is_char_boundary(10) || !s[10..].starts_with(['t', 'T']) {
Err("11th character must be t or T")?;
}
if let Err(e) = check_date(&s[..10]) {
Err(format!("invalid date element: {e}"))?;
}
if let Err(e) = check_time(&s[11..]) {
Err(format!("invalid time element: {e}"))?;
}
Ok(())
}
fn validate_duration(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_duration(s)?;
Ok(())
}
// see https://datatracker.ietf.org/doc/html/rfc3339#appendix-A
fn check_duration(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// must start with 'P'
let Some(s) = s.strip_prefix('P') else {
Err("must start with P")?
};
if s.is_empty() {
Err("nothing after P")?
}
// dur-week
if let Some(s) = s.strip_suffix('W') {
if s.is_empty() {
Err("no number in week")?
}
if !s.chars().all(|c| c.is_ascii_digit()) {
Err("invalid week")?
}
return Ok(());
}
static UNITS: [&str; 2] = ["YMD", "HMS"];
for (i, s) in s.split('T').enumerate() {
let mut s = s;
if i != 0 && s.is_empty() {
Err("no time elements")?
}
let Some(mut units) = UNITS.get(i).cloned() else {
Err("more than one T")?
};
while !s.is_empty() {
let digit_count = s.chars().take_while(char::is_ascii_digit).count();
if digit_count == 0 {
Err("missing number")?
}
s = &s[digit_count..];
let Some(unit) = s.chars().next() else {
Err("missing unit")?
};
let Some(j) = units.find(unit) else {
if UNITS[i].contains(unit) {
Err(format!("unit {unit} out of order"))?
}
Err(format!("invalid unit {unit}"))?
};
units = &units[j + 1..];
s = &s[1..];
}
}
Ok(())
}
// see https://datatracker.ietf.org/doc/html/rfc3339#appendix-A
fn validate_period(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
let Some(slash) = s.find('/') else {
Err("missing slash")?
};
let (start, end) = (&s[..slash], &s[slash + 1..]);
if start.starts_with('P') {
if let Err(e) = check_duration(start) {
Err(format!("invalid start duration: {e}"))?
}
if let Err(e) = check_date_time(end) {
Err(format!("invalid end date-time: {e}"))?
}
} else {
if let Err(e) = check_date_time(start) {
Err(format!("invalid start date-time: {e}"))?
}
if end.starts_with('P') {
if let Err(e) = check_duration(end) {
Err(format!("invalid end duration: {e}"))?;
}
} else if let Err(e) = check_date_time(end) {
Err(format!("invalid end date-time: {e}"))?;
}
}
Ok(())
}
fn validate_hostname(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_hostname(s)?;
Ok(())
}
// see https://en.wikipedia.org/wiki/Hostname#Restrictions_on_valid_host_names
fn check_hostname(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// entire hostname (including the delimiting dots but not a trailing dot) has a maximum of 253 ASCII characters
if s.len() > 253 {
Err("more than 253 characters long")?
}
// Hostnames are composed of series of labels concatenated with dots, as are all domain names
for label in s.split('.') {
// Each label must be from 1 to 63 characters long
if !matches!(label.len(), 1..=63) {
Err("label must be 1 to 63 characters long")?;
}
// labels must not start or end with a hyphen
if label.starts_with('-') {
Err("label starts with hyphen")?;
}
if label.ends_with('-') {
Err("label ends with hyphen")?;
}
// labels may contain only the ASCII letters 'a' through 'z' (in a case-insensitive manner),
// the digits '0' through '9', and the hyphen ('-')
if let Some(ch) = label
.chars()
.find(|c| !matches!(c, 'a'..='z' | 'A'..='Z' | '0'..='9' | '-'))
{
Err(format!("invalid character {ch:?}"))?;
}
// labels must not contain "--" in 3rd and 4th position unless they start with "xn--"
if label.len() >= 4 && &label[2..4] == "--" {
if !label.starts_with("xn--") {
Err("label has -- in 3rd/4th position but does not start with xn--")?;
} else {
let (unicode, errors) = idna::domain_to_unicode(label);
if errors.is_err() {
Err("invalid punycode")?;
}
check_unicode_idn_constraints(&unicode)
.map_err(|e| format!("invalid punycode/IDN: {e}"))?;
}
}
}
Ok(())
}
fn validate_idn_hostname(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_idn_hostname(s)?;
Ok(())
}
static DISALLOWED: [char; 10] = [
'\u{0640}', // ARABIC TATWEEL
'\u{07FA}', // NKO LAJANYALAN
'\u{302E}', // HANGUL SINGLE DOT TONE MARK
'\u{302F}', // HANGUL DOUBLE DOT TONE MARK
'\u{3031}', // VERTICAL KANA REPEAT MARK
'\u{3032}', // VERTICAL KANA REPEAT WITH VOICED SOUND MARK
'\u{3033}', // VERTICAL KANA REPEAT MARK UPPER HALF
'\u{3034}', // VERTICAL KANA REPEAT WITH VOICED SOUND MARK UPPER HA
'\u{3035}', // VERTICAL KANA REPEAT MARK LOWER HALF
'\u{303B}', // VERTICAL IDEOGRAPHIC ITERATION MARK
];
fn check_idn_hostname(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
let s = idna::domain_to_ascii_strict(s).map_err(|e| format!("idna error: {:?}", e))?;
let (unicode, errors) = idna::domain_to_unicode(&s);
if let Err(e) = errors {
Err(format!("idna decoding error: {:?}", e))?;
}
check_unicode_idn_constraints(&unicode)?;
check_hostname(&s)?;
Ok(())
}
fn check_unicode_idn_constraints(unicode: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// see https://www.rfc-editor.org/rfc/rfc5892#section-2.6
{
if unicode.contains(DISALLOWED) {
Err("contains disallowed character")?;
}
}
// unicode string must not contain "--" in 3rd and 4th position
// and must not start and end with a '-'
// see https://www.rfc-editor.org/rfc/rfc5891#section-4.2.3.1
{
let count: usize = unicode
.chars()
.skip(2)
.take(2)
.map(|c| if c == '-' { 1 } else { 0 })
.sum();
if count == 2 {
Err("unicode string must not contain '--' in 3rd and 4th position")?;
}
}
// MIDDLE DOT is allowed between 'l' characters only
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.3
{
let middle_dot = '\u{00b7}';
let mut s = unicode;
while let Some(i) = s.find(middle_dot) {
let prefix = &s[..i];
let suffix = &s[i + middle_dot.len_utf8()..];
if !prefix.ends_with('l') || !suffix.ends_with('l') {
Err("MIDDLE DOT is allowed between 'l' characters only")?;
}
s = suffix;
}
}
// Greek KERAIA must be followed by Greek character
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.4
{
let keralia = '\u{0375}';
let greek = '\u{0370}'..='\u{03FF}';
let mut s = unicode;
while let Some(i) = s.find(keralia) {
let suffix = &s[i + keralia.len_utf8()..];
if !suffix.starts_with(|c| greek.contains(&c)) {
Err("Greek KERAIA must be followed by Greek character")?;
}
s = suffix;
}
}
// Hebrew GERESH must be preceded by Hebrew character
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.5
//
// Hebrew GERSHAYIM must be preceded by Hebrew character
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.6
{
let geresh = '\u{05F3}';
let gereshayim = '\u{05F4}';
let hebrew = '\u{0590}'..='\u{05FF}';
for ch in [geresh, gereshayim] {
let mut s = unicode;
while let Some(i) = s.find(ch) {
let prefix = &s[..i];
if !prefix.ends_with(|c| hebrew.contains(&c)) {
if i == 0 {
Err("Hebrew GERESH must be preceded by Hebrew character")?;
} else {
Err("Hebrew GERESHYIM must be preceded by Hebrew character")?;
}
}
let suffix = &s[i + ch.len_utf8()..];
s = suffix;
}
}
}
// KATAKANA MIDDLE DOT must be with Hiragana, Katakana, or Han
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.7
{
let katakana_middle_dot = '\u{30FB}';
if unicode.contains(katakana_middle_dot) {
let hiragana = '\u{3040}'..='\u{309F}';
let katakana = '\u{30A0}'..='\u{30FF}';
let han = '\u{4E00}'..='\u{9FFF}'; // https://en.wikipedia.org/wiki/CJK_Unified_Ideographs_(Unicode_block): is this range correct??
if unicode.contains(|c| hiragana.contains(&c))
|| unicode.contains(|c| c != katakana_middle_dot && katakana.contains(&c))
|| unicode.contains(|c| han.contains(&c))
{
// ok
} else {
Err("KATAKANA MIDDLE DOT must be with Hiragana, Katakana, or Han")?;
}
}
}
// ARABIC-INDIC DIGITS and Extended Arabic-Indic Digits cannot be mixed
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.8
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.9
{
let arabic_indic_digits = '\u{0660}'..='\u{0669}';
let extended_arabic_indic_digits = '\u{06F0}'..='\u{06F9}';
if unicode.contains(|c| arabic_indic_digits.contains(&c))
&& unicode.contains(|c| extended_arabic_indic_digits.contains(&c))
{
Err("ARABIC-INDIC DIGITS and Extended Arabic-Indic Digits cannot be mixed")?;
}
}
// ZERO WIDTH JOINER must be preceded by Virama
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.2
{
let zero_width_jointer = '\u{200D}';
static VIRAMA: [char; 61] = [
'\u{094D}',
'\u{09CD}',
'\u{0A4D}',
'\u{0ACD}',
'\u{0B4D}',
'\u{0BCD}',
'\u{0C4D}',
'\u{0CCD}',
'\u{0D3B}',
'\u{0D3C}',
'\u{0D4D}',
'\u{0DCA}',
'\u{0E3A}',
'\u{0EBA}',
'\u{0F84}',
'\u{1039}',
'\u{103A}',
'\u{1714}',
'\u{1734}',
'\u{17D2}',
'\u{1A60}',
'\u{1B44}',
'\u{1BAA}',
'\u{1BAB}',
'\u{1BF2}',
'\u{1BF3}',
'\u{2D7F}',
'\u{A806}',
'\u{A82C}',
'\u{A8C4}',
'\u{A953}',
'\u{A9C0}',
'\u{AAF6}',
'\u{ABED}',
'\u{10A3F}',
'\u{11046}',
'\u{1107F}',
'\u{110B9}',
'\u{11133}',
'\u{11134}',
'\u{111C0}',
'\u{11235}',
'\u{112EA}',
'\u{1134D}',
'\u{11442}',
'\u{114C2}',
'\u{115BF}',
'\u{1163F}',
'\u{116B6}',
'\u{1172B}',
'\u{11839}',
'\u{1193D}',
'\u{1193E}',
'\u{119E0}',
'\u{11A34}',
'\u{11A47}',
'\u{11A99}',
'\u{11C3F}',
'\u{11D44}',
'\u{11D45}',
'\u{11D97}',
]; // https://www.compart.com/en/unicode/combining/9
let mut s = unicode;
while let Some(i) = s.find(zero_width_jointer) {
let prefix = &s[..i];
if !prefix.ends_with(VIRAMA) {
Err("ZERO WIDTH JOINER must be preceded by Virama")?;
}
let suffix = &s[i + zero_width_jointer.len_utf8()..];
s = suffix;
}
}
Ok(())
}
fn validate_email(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_email(s)?;
Ok(())
}
// see https://en.wikipedia.org/wiki/Email_address
fn check_email(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// entire email address to be no more than 254 characters long
if s.len() > 254 {
Err("more than 254 characters long")?
}
// email address is generally recognized as having two parts joined with an at-sign
let Some(at) = s.rfind('@') else {
Err("missing @")?
};
let (local, domain) = (&s[..at], &s[at + 1..]);
// local part may be up to 64 characters long
if local.len() > 64 {
Err("local part more than 64 characters long")?
}
if local.len() > 1 && local.starts_with('"') && local.ends_with('"') {
// quoted
let local = &local[1..local.len() - 1];
if local.contains(['\\', '"']) {
Err("backslash and quote not allowed within quoted local part")?
}
} else {
// unquoted
if local.starts_with('.') {
Err("starts with dot")?
}
if local.ends_with('.') {
Err("ends with dot")?
}
// consecutive dots not allowed
if local.contains("..") {
Err("consecutive dots")?
}
// check allowd chars
if let Some(ch) = local
.chars()
.find(|c| !(c.is_ascii_alphanumeric() || ".!#$%&'*+-/=?^_`{|}~".contains(*c)))
{
Err(format!("invalid character {ch:?}"))?
}
}
// domain if enclosed in brackets, must match an IP address
if domain.starts_with('[') && domain.ends_with(']') {
let s = &domain[1..domain.len() - 1];
if let Some(s) = s.strip_prefix("IPv6:") {
if let Err(e) = s.parse::<Ipv6Addr>() {
Err(format!("invalid ipv6 address: {e}"))?
}
return Ok(());
}
if let Err(e) = s.parse::<Ipv4Addr>() {
Err(format!("invalid ipv4 address: {e}"))?
}
return Ok(());
}
// domain must match the requirements for a hostname
if let Err(e) = check_hostname(domain) {
Err(format!("invalid domain: {e}"))?
}
Ok(())
}
fn validate_idn_email(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
let Some(at) = s.rfind('@') else {
Err("missing @")?
};
let (local, domain) = (&s[..at], &s[at + 1..]);
let local = idna::domain_to_ascii_strict(local).map_err(|e| format!("idna error: {:?}", e))?;
let domain = idna::domain_to_ascii_strict(domain).map_err(|e| format!("idna error: {:?}", e))?;
if let Err(e) = check_idn_hostname(&domain) {
Err(format!("invalid domain: {e}"))?
}
check_email(&format!("{local}@{domain}"))
}
fn validate_json_pointer(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_json_pointer(s)?;
Ok(())
}
// see https://www.rfc-editor.org/rfc/rfc6901#section-3
fn check_json_pointer(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
if s.is_empty() {
return Ok(());
}
if !s.starts_with('/') {
Err("not starting with slash")?;
}
for token in s.split('/').skip(1) {
let mut chars = token.chars();
while let Some(ch) = chars.next() {
if ch == '~' {
if !matches!(chars.next(), Some('0' | '1')) {
Err("~ must be followed by 0 or 1")?;
}
} else if !matches!(ch, '\x00'..='\x2E' | '\x30'..='\x7D' | '\x7F'..='\u{10FFFF}') {
Err("contains disallowed character")?;
}
}
}
Ok(())
}
// see https://tools.ietf.org/html/draft-handrews-relative-json-pointer-01#section-3
fn validate_relative_json_pointer(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
// start with non-negative-integer
let num_digits = s.chars().take_while(char::is_ascii_digit).count();
if num_digits == 0 {
Err("must start with non-negative integer")?;
}
if num_digits > 1 && s.starts_with('0') {
Err("starts with zero")?;
}
let s = &s[num_digits..];
// followed by either json-pointer or '#'
if s == "#" {
return Ok(());
}
if let Err(e) = check_json_pointer(s) {
Err(format!("invalid json-pointer element: {e}"))?;
}
Ok(())
}
// see https://datatracker.ietf.org/doc/html/rfc4122#page-4
fn validate_uuid(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
static HEX_GROUPS: [usize; 5] = [8, 4, 4, 4, 12];
let mut i = 0;
for group in s.split('-') {
if i >= HEX_GROUPS.len() {
Err("more than 5 elements")?;
}
if group.len() != HEX_GROUPS[i] {
Err(format!(
"element {} must be {} characters long",
i + 1,
HEX_GROUPS[i]
))?;
}
if let Some(ch) = group.chars().find(|c| !c.is_ascii_hexdigit()) {
Err(format!("non-hex character {ch:?}"))?;
}
i += 1;
}
if i != HEX_GROUPS.len() {
Err("must have 5 elements")?;
}
Ok(())
}
fn validate_uri(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
if fluent_uri::UriRef::parse(s.as_str())
.map_err(|e| e.to_string())?
.scheme()
.is_none()
{
Err("relative url")?;
};
Ok(())
}
fn validate_iri(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
match Url::parse(s) {
Ok(_) => Ok(()),
Err(url::ParseError::RelativeUrlWithoutBase) => Err("relative url")?,
Err(e) => Err(e)?,
}
}
lazy_static! {
static ref TEMP_URL: Url = Url::parse("http://temp.com").unwrap();
}
fn parse_uri_reference(s: &str) -> Result<Url, Box<dyn Error + Send + Sync>> {
if s.contains('\\') {
Err("contains \\\\")?;
}
Ok(TEMP_URL.join(s)?)
}
fn validate_uri_reference(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
fluent_uri::UriRef::parse(s.as_str()).map_err(|e| e.to_string())?;
Ok(())
}
fn validate_iri_reference(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
parse_uri_reference(s)?;
Ok(())
}
fn validate_uri_template(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
let url = parse_uri_reference(s)?;
let path = url.path();
// path we got has curly bases percent encoded
let path = percent_decode_str(path).decode_utf8()?;
// ensure curly brackets are not nested and balanced
for part in path.as_ref().split('/') {
let mut want = true;
for got in part
.chars()
.filter(|c| matches!(c, '{' | '}'))
.map(|c| c == '{')
{
if got != want {
Err("nested curly braces")?;
}
want = !want;
}
if !want {
Err("no matching closing brace")?
}
}
Ok(())
}

487
src/database/mod.rs Normal file
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@ -0,0 +1,487 @@
pub mod r#enum;
pub mod executors;
pub mod formats;
pub mod page;
pub mod punc;
pub mod relation;
pub mod schema;
pub mod r#type;
// External mock exports inside the executor sub-folder
use r#enum::Enum;
use executors::DatabaseExecutor;
#[cfg(not(test))]
use executors::pgrx::SpiExecutor;
#[cfg(test)]
use executors::mock::MockExecutor;
pub mod stem;
use punc::Punc;
use relation::Relation;
use schema::Schema;
use serde_json::Value;
use std::collections::{HashMap, HashSet};
use std::sync::Arc;
use stem::Stem;
use r#type::Type;
pub struct Database {
pub enums: HashMap<String, Enum>,
pub types: HashMap<String, Type>,
pub puncs: HashMap<String, Punc>,
pub relations: HashMap<String, Relation>,
pub schemas: HashMap<String, Schema>,
// Map of Schema ID -> { Entity Type -> Target Subschema Arc }
pub stems: HashMap<String, HashMap<String, Arc<Stem>>>,
pub descendants: HashMap<String, Vec<String>>,
pub depths: HashMap<String, usize>,
pub executor: Box<dyn DatabaseExecutor + Send + Sync>,
}
impl Database {
pub fn new(val: &serde_json::Value) -> Result<Self, crate::drop::Drop> {
let mut db = Self {
enums: HashMap::new(),
types: HashMap::new(),
relations: HashMap::new(),
puncs: HashMap::new(),
schemas: HashMap::new(),
stems: HashMap::new(),
descendants: HashMap::new(),
depths: HashMap::new(),
#[cfg(not(test))]
executor: Box::new(SpiExecutor::new()),
#[cfg(test)]
executor: Box::new(MockExecutor::new()),
};
if let Some(arr) = val.get("enums").and_then(|v| v.as_array()) {
for item in arr {
if let Ok(def) = serde_json::from_value::<Enum>(item.clone()) {
db.enums.insert(def.name.clone(), def);
}
}
}
if let Some(arr) = val.get("types").and_then(|v| v.as_array()) {
for item in arr {
if let Ok(def) = serde_json::from_value::<Type>(item.clone()) {
db.types.insert(def.name.clone(), def);
}
}
}
if let Some(arr) = val.get("relations").and_then(|v| v.as_array()) {
for item in arr {
match serde_json::from_value::<Relation>(item.clone()) {
Ok(def) => {
db.relations.insert(def.constraint.clone(), def);
}
Err(e) => println!("DATABASE RELATION PARSE FAILED: {:?}", e),
}
}
}
if let Some(arr) = val.get("puncs").and_then(|v| v.as_array()) {
for item in arr {
if let Ok(def) = serde_json::from_value::<Punc>(item.clone()) {
db.puncs.insert(def.name.clone(), def);
}
}
}
if let Some(arr) = val.get("schemas").and_then(|v| v.as_array()) {
for (i, item) in arr.iter().enumerate() {
if let Ok(mut schema) = serde_json::from_value::<Schema>(item.clone()) {
let id = schema
.obj
.id
.clone()
.unwrap_or_else(|| format!("schema_{}", i));
schema.obj.id = Some(id.clone());
db.schemas.insert(id, schema);
}
}
}
db.compile()?;
Ok(db)
}
/// Override the default executor for unit testing
pub fn with_executor(mut self, executor: Box<dyn DatabaseExecutor + Send + Sync>) -> Self {
self.executor = executor;
self
}
/// Executes a query expecting a single JSONB array return, representing rows.
pub fn query(&self, sql: &str, args: Option<&[Value]>) -> Result<Value, String> {
self.executor.query(sql, args)
}
/// Executes an operation (INSERT, UPDATE, DELETE, or pg_notify) that does not return rows.
pub fn execute(&self, sql: &str, args: Option<&[Value]>) -> Result<(), String> {
self.executor.execute(sql, args)
}
/// Returns the current authenticated user's ID
pub fn auth_user_id(&self) -> Result<String, String> {
self.executor.auth_user_id()
}
/// Returns the current transaction timestamp
pub fn timestamp(&self) -> Result<String, String> {
self.executor.timestamp()
}
/// Organizes the graph of the database, compiling regex, format functions, and caching relationships.
pub fn compile(&mut self) -> Result<(), crate::drop::Drop> {
self.collect_schemas();
self.collect_depths();
self.collect_descendants();
self.compile_schemas();
self.collect_stems()?;
Ok(())
}
fn collect_schemas(&mut self) {
let mut to_insert = Vec::new();
// Pass 1: Extract all Schemas structurally off top level definitions into the master registry.
for type_def in self.types.values() {
for mut schema in type_def.schemas.clone() {
schema.harvest(&mut to_insert);
}
}
for punc_def in self.puncs.values() {
for mut schema in punc_def.schemas.clone() {
schema.harvest(&mut to_insert);
}
}
for enum_def in self.enums.values() {
for mut schema in enum_def.schemas.clone() {
schema.harvest(&mut to_insert);
}
}
for (id, schema) in to_insert {
self.schemas.insert(id, schema);
}
}
fn collect_depths(&mut self) {
let mut depths: HashMap<String, usize> = HashMap::new();
let schema_ids: Vec<String> = self.schemas.keys().cloned().collect();
for id in schema_ids {
let mut current_id = id.clone();
let mut depth = 0;
let mut visited = HashSet::new();
while let Some(schema) = self.schemas.get(&current_id) {
if !visited.insert(current_id.clone()) {
break; // Cycle detected
}
if let Some(ref_str) = &schema.obj.r#ref {
current_id = ref_str.clone();
depth += 1;
} else {
break;
}
}
depths.insert(id, depth);
}
self.depths = depths;
}
fn collect_descendants(&mut self) {
let mut direct_refs: HashMap<String, Vec<String>> = HashMap::new();
for (id, schema) in &self.schemas {
if let Some(ref_str) = &schema.obj.r#ref {
direct_refs
.entry(ref_str.clone())
.or_default()
.push(id.clone());
}
}
// Cache generic descendants for $family runtime lookups
let mut descendants = HashMap::new();
for (id, schema) in &self.schemas {
if let Some(family_target) = &schema.obj.family {
let mut desc_set = HashSet::new();
Self::collect_descendants_recursively(family_target, &direct_refs, &mut desc_set);
let mut desc_vec: Vec<String> = desc_set.into_iter().collect();
desc_vec.sort();
// By placing all descendants directly onto the ID mapped location of the Family declaration,
// we can lookup descendants natively in ValidationContext without AST replacement overrides.
descendants.insert(id.clone(), desc_vec);
}
}
self.descendants = descendants;
}
fn collect_descendants_recursively(
target: &str,
direct_refs: &HashMap<String, Vec<String>>,
descendants: &mut HashSet<String>,
) {
if let Some(children) = direct_refs.get(target) {
for child in children {
if descendants.insert(child.clone()) {
Self::collect_descendants_recursively(child, direct_refs, descendants);
}
}
}
}
fn compile_schemas(&mut self) {
// Pass 3: compile_internals across pure structure
let schema_ids: Vec<String> = self.schemas.keys().cloned().collect();
for id in schema_ids {
if let Some(schema) = self.schemas.get_mut(&id) {
schema.compile_internals();
}
}
}
fn collect_stems(&mut self) -> Result<(), crate::drop::Drop> {
let mut db_stems: HashMap<String, HashMap<String, Arc<Stem>>> = HashMap::new();
let mut errors: Vec<crate::drop::Error> = Vec::new();
let schema_ids: Vec<String> = self.schemas.keys().cloned().collect();
for schema_id in schema_ids {
if let Some(schema) = self.schemas.get(&schema_id) {
let mut inner_map = HashMap::new();
Self::discover_stems(
self,
&schema_id,
schema,
String::from(""),
None,
None,
false,
&mut inner_map,
Vec::new(),
&mut errors,
);
if !inner_map.is_empty() {
db_stems.insert(schema_id, inner_map);
}
}
}
self.stems = db_stems;
if !errors.is_empty() {
return Err(crate::drop::Drop::with_errors(errors));
}
Ok(())
}
fn discover_stems(
db: &Database,
root_schema_id: &str,
schema: &Schema,
current_path: String,
parent_type: Option<String>,
property_name: Option<String>,
is_polymorphic: bool,
inner_map: &mut HashMap<String, Arc<Stem>>,
seen_entities: Vec<String>,
errors: &mut Vec<crate::drop::Error>,
) {
let mut is_entity = false;
let mut entity_type = String::new();
// First check if the Schema's $id is a native Database Type
if let Some(ref id) = schema.obj.id {
let parts: Vec<&str> = id.split('.').collect();
if let Some(last_seg) = parts.last() {
if db.types.contains_key(*last_seg) {
is_entity = true;
entity_type = last_seg.to_string();
}
}
}
// If not found via $id, check the $ref pointer
// This allows ad-hoc schemas (like `save_person.response`) to successfully adopt the Type of what they $ref
if !is_entity {
if let Some(ref r) = schema.obj.r#ref {
let parts: Vec<&str> = r.split('.').collect();
if let Some(last_seg) = parts.last() {
if db.types.contains_key(*last_seg) {
is_entity = true;
entity_type = last_seg.to_string();
}
}
}
}
if is_entity {
if seen_entities.contains(&entity_type) {
return; // Break cyclical schemas!
}
}
let mut relation_col = None;
if is_entity {
if let (Some(pt), Some(prop)) = (&parent_type, &property_name) {
let expected_col = format!("{}_id", prop);
let mut found = false;
for rel in db.relations.values() {
if (rel.source_type == *pt && rel.destination_type == entity_type)
|| (rel.source_type == entity_type && rel.destination_type == *pt)
{
if rel.source_columns.contains(&expected_col) {
relation_col = Some(expected_col.clone());
found = true;
break;
}
}
}
if !found {
relation_col = Some(expected_col);
}
}
let mut final_path = current_path.clone();
if is_polymorphic && !final_path.is_empty() && !final_path.ends_with(&entity_type) {
if final_path.ends_with(".#") {
final_path = format!("{}(type==\"{}\")", final_path, entity_type);
} else {
final_path = format!("{}#(type==\"{}\")", final_path, entity_type);
}
}
let stem = Stem {
r#type: entity_type.clone(),
relation: relation_col,
schema: Arc::new(schema.clone()),
};
inner_map.insert(final_path, Arc::new(stem));
}
let next_parent = if is_entity {
Some(entity_type.clone())
} else {
parent_type.clone()
};
let pass_seen = if is_entity {
let mut ns = seen_entities.clone();
ns.push(entity_type.clone());
ns
} else {
seen_entities.clone()
};
// Properties branch
if let Some(props) = &schema.obj.properties {
for (k, v) in props {
// Standard Property Pathing
let next_path = if current_path.is_empty() {
k.clone()
} else {
format!("{}.{}", current_path, k)
};
Self::discover_stems(
db,
root_schema_id,
v,
next_path,
next_parent.clone(),
Some(k.clone()),
false,
inner_map,
pass_seen.clone(),
errors,
);
}
}
// Array Item branch
if let Some(items) = &schema.obj.items {
let next_path = if current_path.is_empty() {
String::from("#")
} else {
format!("{}.#", current_path)
};
Self::discover_stems(
db,
root_schema_id,
items,
next_path,
next_parent.clone(),
property_name.clone(),
false,
inner_map,
pass_seen.clone(),
errors,
);
}
// Follow external reference if we didn't just crawl local properties
if schema.obj.properties.is_none() && schema.obj.items.is_none() && schema.obj.one_of.is_none()
{
if let Some(ref r) = schema.obj.r#ref {
if let Some(target_schema) = db.schemas.get(r) {
Self::discover_stems(
db,
root_schema_id,
target_schema,
current_path.clone(),
next_parent.clone(),
property_name.clone(),
is_polymorphic,
inner_map,
seen_entities.clone(),
errors,
);
}
}
}
// Polymorphism branch
if let Some(arr) = &schema.obj.one_of {
for v in arr {
Self::discover_stems(
db,
root_schema_id,
v.as_ref(),
current_path.clone(),
next_parent.clone(),
property_name.clone(),
true,
inner_map,
pass_seen.clone(),
errors,
);
}
}
if let Some(arr) = &schema.obj.all_of {
for v in arr {
Self::discover_stems(
db,
root_schema_id,
v.as_ref(),
current_path.clone(),
next_parent.clone(),
property_name.clone(),
is_polymorphic,
inner_map,
pass_seen.clone(),
errors,
);
}
}
}
}

35
src/database/page.rs Normal file
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@ -0,0 +1,35 @@
use indexmap::IndexMap;
use serde::{Deserialize, Serialize};
#[derive(Debug, Clone, Serialize, Deserialize, Default)]
#[serde(default)]
pub struct Page {
#[serde(skip_serializing_if = "Option::is_none")]
pub path: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
pub title: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
pub sidebar: Option<Sidebar>,
#[serde(skip_serializing_if = "Option::is_none")]
pub actions: Option<IndexMap<String, Action>>,
}
#[derive(Debug, Clone, Serialize, Deserialize, Default)]
#[serde(default)]
pub struct Sidebar {
#[serde(skip_serializing_if = "Option::is_none")]
pub category: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
pub priority: Option<i32>,
}
#[derive(Debug, Clone, Serialize, Deserialize, Default)]
#[serde(default)]
pub struct Action {
#[serde(skip_serializing_if = "Option::is_none")]
pub punc: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
pub navigate: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
pub present: Option<String>,
}

20
src/database/punc.rs Normal file
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@ -0,0 +1,20 @@
use crate::database::page::Page;
use crate::database::schema::Schema;
use serde::{Deserialize, Serialize};
#[derive(Debug, Clone, Serialize, Deserialize, Default)]
#[serde(default)]
pub struct Punc {
pub id: String,
pub r#type: String,
pub name: String,
pub module: String,
pub source: String,
pub description: Option<String>,
pub public: bool,
pub form: bool,
pub get: Option<String>,
pub page: Option<Page>,
#[serde(default)]
pub schemas: Vec<Schema>,
}

12
src/database/relation.rs Normal file
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use serde::{Deserialize, Serialize};
#[derive(Debug, Clone, Serialize, Deserialize, Default)]
#[serde(default)]
pub struct Relation {
pub constraint: String,
pub source_type: String,
pub source_columns: Vec<String>,
pub destination_type: String,
pub destination_columns: Vec<String>,
pub prefix: Option<String>,
}

385
src/database/schema.rs Normal file
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use serde::{Deserialize, Serialize};
use serde_json::Value;
use std::collections::BTreeMap;
use std::sync::Arc;
// Schema mirrors the Go Punc Generator's schema struct for consistency.
// It is an order-preserving representation of a JSON Schema.
pub fn deserialize_some<'de, D>(deserializer: D) -> Result<Option<Value>, D::Error>
where
D: serde::Deserializer<'de>,
{
let v = Value::deserialize(deserializer)?;
Ok(Some(v))
}
#[derive(Debug, Clone, Serialize, Deserialize, Default)]
pub struct SchemaObject {
// Core Schema Keywords
#[serde(rename = "$id")]
#[serde(skip_serializing_if = "Option::is_none")]
pub id: Option<String>,
#[serde(rename = "$ref")]
#[serde(skip_serializing_if = "Option::is_none")]
pub r#ref: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
pub description: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
pub title: Option<String>,
#[serde(default)] // Allow missing type
#[serde(rename = "type")]
#[serde(skip_serializing_if = "Option::is_none")]
pub type_: Option<SchemaTypeOrArray>, // Handles string or array of strings
// Object Keywords
#[serde(skip_serializing_if = "Option::is_none")]
pub properties: Option<BTreeMap<String, Arc<Schema>>>,
#[serde(rename = "patternProperties")]
#[serde(skip_serializing_if = "Option::is_none")]
pub pattern_properties: Option<BTreeMap<String, Arc<Schema>>>,
#[serde(rename = "additionalProperties")]
#[serde(skip_serializing_if = "Option::is_none")]
pub additional_properties: Option<Arc<Schema>>,
#[serde(rename = "$family")]
#[serde(skip_serializing_if = "Option::is_none")]
pub family: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
pub required: Option<Vec<String>>,
// dependencies can be schema dependencies or property dependencies
#[serde(skip_serializing_if = "Option::is_none")]
pub dependencies: Option<BTreeMap<String, Dependency>>,
// Array Keywords
#[serde(rename = "items")]
#[serde(skip_serializing_if = "Option::is_none")]
pub items: Option<Arc<Schema>>,
#[serde(rename = "prefixItems")]
#[serde(skip_serializing_if = "Option::is_none")]
pub prefix_items: Option<Vec<Arc<Schema>>>,
// String Validation
#[serde(rename = "minLength")]
#[serde(skip_serializing_if = "Option::is_none")]
pub min_length: Option<f64>,
#[serde(rename = "maxLength")]
#[serde(skip_serializing_if = "Option::is_none")]
pub max_length: Option<f64>,
#[serde(skip_serializing_if = "Option::is_none")]
pub pattern: Option<String>,
// Array Validation
#[serde(rename = "minItems")]
#[serde(skip_serializing_if = "Option::is_none")]
pub min_items: Option<f64>,
#[serde(rename = "maxItems")]
#[serde(skip_serializing_if = "Option::is_none")]
pub max_items: Option<f64>,
#[serde(rename = "uniqueItems")]
#[serde(skip_serializing_if = "Option::is_none")]
pub unique_items: Option<bool>,
#[serde(rename = "contains")]
#[serde(skip_serializing_if = "Option::is_none")]
pub contains: Option<Arc<Schema>>,
#[serde(rename = "minContains")]
#[serde(skip_serializing_if = "Option::is_none")]
pub min_contains: Option<f64>,
#[serde(rename = "maxContains")]
#[serde(skip_serializing_if = "Option::is_none")]
pub max_contains: Option<f64>,
// Object Validation
#[serde(rename = "minProperties")]
#[serde(skip_serializing_if = "Option::is_none")]
pub min_properties: Option<f64>,
#[serde(rename = "maxProperties")]
#[serde(skip_serializing_if = "Option::is_none")]
pub max_properties: Option<f64>,
#[serde(rename = "propertyNames")]
#[serde(skip_serializing_if = "Option::is_none")]
pub property_names: Option<Arc<Schema>>,
// Numeric Validation
#[serde(skip_serializing_if = "Option::is_none")]
pub format: Option<String>,
#[serde(rename = "enum")]
#[serde(skip_serializing_if = "Option::is_none")]
pub enum_: Option<Vec<Value>>, // `enum` is a reserved keyword in Rust
#[serde(
default,
rename = "const",
deserialize_with = "crate::database::schema::deserialize_some"
)]
#[serde(skip_serializing_if = "Option::is_none")]
pub const_: Option<Value>,
// Numeric Validation
#[serde(rename = "multipleOf")]
#[serde(skip_serializing_if = "Option::is_none")]
pub multiple_of: Option<f64>,
#[serde(skip_serializing_if = "Option::is_none")]
pub minimum: Option<f64>,
#[serde(skip_serializing_if = "Option::is_none")]
pub maximum: Option<f64>,
#[serde(rename = "exclusiveMinimum")]
#[serde(skip_serializing_if = "Option::is_none")]
pub exclusive_minimum: Option<f64>,
#[serde(rename = "exclusiveMaximum")]
#[serde(skip_serializing_if = "Option::is_none")]
pub exclusive_maximum: Option<f64>,
// Combining Keywords
#[serde(rename = "allOf")]
#[serde(skip_serializing_if = "Option::is_none")]
pub all_of: Option<Vec<Arc<Schema>>>,
#[serde(rename = "oneOf")]
#[serde(skip_serializing_if = "Option::is_none")]
pub one_of: Option<Vec<Arc<Schema>>>,
#[serde(rename = "not")]
#[serde(skip_serializing_if = "Option::is_none")]
pub not: Option<Arc<Schema>>,
#[serde(rename = "if")]
#[serde(skip_serializing_if = "Option::is_none")]
pub if_: Option<Arc<Schema>>,
#[serde(rename = "then")]
#[serde(skip_serializing_if = "Option::is_none")]
pub then_: Option<Arc<Schema>>,
#[serde(rename = "else")]
#[serde(skip_serializing_if = "Option::is_none")]
pub else_: Option<Arc<Schema>>,
// Custom Vocabularies
#[serde(skip_serializing_if = "Option::is_none")]
pub form: Option<Vec<String>>,
#[serde(skip_serializing_if = "Option::is_none")]
pub display: Option<Vec<String>>,
#[serde(rename = "enumNames")]
#[serde(skip_serializing_if = "Option::is_none")]
pub enum_names: Option<Vec<String>>,
#[serde(skip_serializing_if = "Option::is_none")]
pub control: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
pub actions: Option<BTreeMap<String, Action>>,
#[serde(skip_serializing_if = "Option::is_none")]
pub computer: Option<String>,
#[serde(default)]
#[serde(skip_serializing_if = "Option::is_none")]
pub extensible: Option<bool>,
#[serde(skip)]
pub compiled_format: Option<CompiledFormat>,
#[serde(skip)]
pub compiled_pattern: Option<CompiledRegex>,
#[serde(skip)]
pub compiled_pattern_properties: Option<Vec<(CompiledRegex, Arc<Schema>)>>,
}
/// Represents a compiled format validator
#[derive(Clone)]
pub enum CompiledFormat {
Func(fn(&serde_json::Value) -> Result<(), Box<dyn std::error::Error + Send + Sync>>),
Regex(regex::Regex),
}
impl std::fmt::Debug for CompiledFormat {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
CompiledFormat::Func(_) => write!(f, "CompiledFormat::Func(...)"),
CompiledFormat::Regex(r) => write!(f, "CompiledFormat::Regex({:?})", r),
}
}
}
/// A wrapper for compiled regex patterns
#[derive(Debug, Clone)]
pub struct CompiledRegex(pub regex::Regex);
#[derive(Debug, Clone, Serialize, Default)]
pub struct Schema {
#[serde(flatten)]
pub obj: SchemaObject,
#[serde(skip)]
pub always_fail: bool,
}
impl std::ops::Deref for Schema {
type Target = SchemaObject;
fn deref(&self) -> &Self::Target {
&self.obj
}
}
impl std::ops::DerefMut for Schema {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.obj
}
}
impl Schema {
pub fn compile_internals(&mut self) {
self.map_children(|child| child.compile_internals());
if let Some(format_str) = &self.obj.format
&& let Some(fmt) = crate::database::formats::FORMATS.get(format_str.as_str())
{
self.obj.compiled_format = Some(crate::database::schema::CompiledFormat::Func(fmt.func));
}
if let Some(pattern_str) = &self.obj.pattern
&& let Ok(re) = regex::Regex::new(pattern_str)
{
self.obj.compiled_pattern = Some(crate::database::schema::CompiledRegex(re));
}
if let Some(pattern_props) = &self.obj.pattern_properties {
let mut compiled = Vec::new();
for (k, v) in pattern_props {
if let Ok(re) = regex::Regex::new(k) {
compiled.push((crate::database::schema::CompiledRegex(re), v.clone()));
}
}
if !compiled.is_empty() {
self.obj.compiled_pattern_properties = Some(compiled);
}
}
}
pub fn harvest(&mut self, to_insert: &mut Vec<(String, Schema)>) {
if let Some(id) = &self.obj.id {
to_insert.push((id.clone(), self.clone()));
}
self.map_children(|child| child.harvest(to_insert));
}
pub fn map_children<F>(&mut self, mut f: F)
where
F: FnMut(&mut Schema),
{
if let Some(props) = &mut self.obj.properties {
for v in props.values_mut() {
let mut inner = (**v).clone();
f(&mut inner);
*v = Arc::new(inner);
}
}
if let Some(pattern_props) = &mut self.obj.pattern_properties {
for v in pattern_props.values_mut() {
let mut inner = (**v).clone();
f(&mut inner);
*v = Arc::new(inner);
}
}
let mut map_arr = |arr: &mut Vec<Arc<Schema>>| {
for v in arr.iter_mut() {
let mut inner = (**v).clone();
f(&mut inner);
*v = Arc::new(inner);
}
};
if let Some(arr) = &mut self.obj.prefix_items {
map_arr(arr);
}
if let Some(arr) = &mut self.obj.all_of {
map_arr(arr);
}
if let Some(arr) = &mut self.obj.one_of {
map_arr(arr);
}
let mut map_opt = |opt: &mut Option<Arc<Schema>>| {
if let Some(v) = opt {
let mut inner = (**v).clone();
f(&mut inner);
*v = Arc::new(inner);
}
};
map_opt(&mut self.obj.additional_properties);
map_opt(&mut self.obj.items);
map_opt(&mut self.obj.contains);
map_opt(&mut self.obj.property_names);
map_opt(&mut self.obj.not);
map_opt(&mut self.obj.if_);
map_opt(&mut self.obj.then_);
map_opt(&mut self.obj.else_);
}
}
impl<'de> Deserialize<'de> for Schema {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: serde::Deserializer<'de>,
{
let v: Value = Deserialize::deserialize(deserializer)?;
if let Some(b) = v.as_bool() {
let mut obj = SchemaObject::default();
if b {
obj.extensible = Some(true);
}
return Ok(Schema {
obj,
always_fail: !b,
});
}
let mut obj: SchemaObject =
serde_json::from_value(v.clone()).map_err(serde::de::Error::custom)?;
// If a schema is effectively empty (except for potentially carrying an ID),
// it functions as a boolean `true` schema in Draft2020 which means it should not
// restrict additional properties natively
let is_empty = obj.type_.is_none()
&& obj.properties.is_none()
&& obj.pattern_properties.is_none()
&& obj.additional_properties.is_none()
&& obj.required.is_none()
&& obj.dependencies.is_none()
&& obj.items.is_none()
&& obj.prefix_items.is_none()
&& obj.contains.is_none()
&& obj.format.is_none()
&& obj.enum_.is_none()
&& obj.const_.is_none()
&& obj.all_of.is_none()
&& obj.one_of.is_none()
&& obj.not.is_none()
&& obj.if_.is_none()
&& obj.then_.is_none()
&& obj.else_.is_none()
&& obj.r#ref.is_none()
&& obj.family.is_none();
if is_empty && obj.extensible.is_none() {
obj.extensible = Some(true);
}
Ok(Schema {
obj,
always_fail: false,
})
}
}
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(untagged)]
pub enum SchemaTypeOrArray {
Single(String),
Multiple(Vec<String>),
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Action {
#[serde(skip_serializing_if = "Option::is_none")]
pub navigate: Option<String>,
#[serde(skip_serializing_if = "Option::is_none")]
pub punc: Option<String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(untagged)]
pub enum Dependency {
Props(Vec<String>),
Schema(Arc<Schema>),
}

12
src/database/stem.rs Normal file
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@ -0,0 +1,12 @@
use crate::database::schema::Schema;
use serde::{Deserialize, Serialize};
use std::sync::Arc;
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Stem {
pub r#type: String,
#[serde(skip_serializing_if = "Option::is_none")]
pub relation: Option<String>,
pub schema: Arc<Schema>,
}

40
src/database/type.rs Normal file
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@ -0,0 +1,40 @@
use std::collections::HashSet;
use crate::database::schema::Schema;
use serde::{Deserialize, Serialize};
use serde_json::Value;
#[derive(Debug, Clone, Serialize, Deserialize, Default)]
#[serde(default)]
pub struct Type {
pub id: String,
pub r#type: String,
pub name: String,
pub module: String,
pub source: String,
#[serde(default)]
pub historical: bool,
#[serde(default)]
pub sensitive: bool,
#[serde(default)]
pub ownable: bool,
pub longevity: Option<i32>,
#[serde(default)]
pub hierarchy: Vec<String>,
#[serde(default)]
pub variations: HashSet<String>,
#[serde(default)]
pub relationship: bool,
#[serde(default)]
pub fields: Vec<String>,
pub grouped_fields: Option<Value>,
#[serde(default)]
pub lookup_fields: Vec<String>,
#[serde(default)]
pub null_fields: Vec<String>,
#[serde(default)]
pub default_fields: Vec<String>,
pub field_types: Option<Value>,
#[serde(default)]
pub schemas: Vec<Schema>,
}

6
src/drop.rs
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@ -17,6 +17,12 @@ pub struct Drop {
pub errors: Vec<Error>,
}
impl Default for Drop {
fn default() -> Self {
Self::new()
}
}
impl Drop {
pub fn new() -> Self {
Self {

875
src/formats.rs
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@ -1,875 +0,0 @@
use std::{
collections::HashMap,
error::Error,
net::{Ipv4Addr, Ipv6Addr},
};
use lazy_static::lazy_static;
use percent_encoding::percent_decode_str;
use serde_json::Value;
use url::Url;
// use crate::ecma; // Assuming ecma is not yet available, stubbing regex for now
/// Defines format for `format` keyword.
#[derive(Clone, Copy)]
pub struct Format {
/// Name of the format
pub name: &'static str,
/// validates given value.
pub func: fn(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>>, // Ensure thread safety if needed
}
lazy_static! {
pub(crate) static ref FORMATS: HashMap<&'static str, Format> = {
let mut m = HashMap::<&'static str, Format>::new();
// Helper to register formats
let mut register = |name, func| m.insert(name, Format { name, func });
// register("regex", validate_regex); // Stubbed
register("ipv4", validate_ipv4);
register("ipv6", validate_ipv6);
register("hostname", validate_hostname);
register("idn-hostname", validate_idn_hostname);
register("email", validate_email);
register("idn-email", validate_idn_email);
register("date", validate_date);
register("time", validate_time);
register("date-time", validate_date_time);
register("duration", validate_duration);
register("period", validate_period);
register("json-pointer", validate_json_pointer);
register("relative-json-pointer", validate_relative_json_pointer);
register("uuid", validate_uuid);
register("uri", validate_uri);
register("iri", validate_iri);
register("uri-reference", validate_uri_reference);
register("iri-reference", validate_iri_reference);
register("uri-template", validate_uri_template);
m
};
}
/*
fn validate_regex(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
// ecma::convert(s).map(|_| ())
Ok(())
}
*/
fn validate_ipv4(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
s.parse::<Ipv4Addr>()?;
Ok(())
}
fn validate_ipv6(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
s.parse::<Ipv6Addr>()?;
Ok(())
}
fn validate_date(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_date(s)?;
Ok(())
}
fn matches_char(s: &str, index: usize, ch: char) -> bool {
s.is_char_boundary(index) && s[index..].starts_with(ch)
}
// see https://datatracker.ietf.org/doc/html/rfc3339#section-5.6
fn check_date(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// yyyy-mm-dd
if s.len() != 10 {
Err("must be 10 characters long")?;
}
if !matches_char(s, 4, '-') || !matches_char(s, 7, '-') {
Err("missing hyphen in correct place")?;
}
let mut ymd = s.splitn(3, '-').filter_map(|t| t.parse::<usize>().ok());
let (Some(y), Some(m), Some(d)) = (ymd.next(), ymd.next(), ymd.next()) else {
Err("non-positive year/month/day")?
};
if !matches!(m, 1..=12) {
Err(format!("{m} months in year"))?;
}
if !matches!(d, 1..=31) {
Err(format!("{d} days in month"))?;
}
match m {
2 => {
let mut feb_days = 28;
if y % 4 == 0 && (y % 100 != 0 || y % 400 == 0) {
feb_days += 1; // leap year
};
if d > feb_days {
Err(format!("february has {feb_days} days only"))?;
}
}
4 | 6 | 9 | 11 => {
if d > 30 {
Err("month has 30 days only")?;
}
}
_ => {}
}
Ok(())
}
fn validate_time(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_time(s)
}
fn check_time(mut str: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// min: hh:mm:ssZ
if str.len() < 9 {
Err("less than 9 characters long")?
}
if !matches_char(str, 2, ':') || !matches_char(str, 5, ':') {
Err("missing colon in correct place")?
}
// parse hh:mm:ss
if !str.is_char_boundary(8) {
Err("contains non-ascii char")?
}
let mut hms = (str[..8])
.splitn(3, ':')
.filter_map(|t| t.parse::<usize>().ok());
let (Some(mut h), Some(mut m), Some(s)) = (hms.next(), hms.next(), hms.next()) else {
Err("non-positive hour/min/sec")?
};
if h > 23 || m > 59 || s > 60 {
Err("hour/min/sec out of range")?
}
str = &str[8..];
// parse sec-frac if present
if let Some(rem) = str.strip_prefix('.') {
let n_digits = rem.chars().take_while(char::is_ascii_digit).count();
if n_digits == 0 {
Err("no digits in second fraction")?;
}
str = &rem[n_digits..];
}
if str != "z" && str != "Z" {
// parse time-numoffset
if str.len() != 6 {
Err("offset must be 6 characters long")?;
}
let sign: isize = match str.chars().next() {
Some('+') => -1,
Some('-') => 1,
_ => return Err("offset must begin with plus/minus")?,
};
str = &str[1..];
if !matches_char(str, 2, ':') {
Err("missing colon in offset at correct place")?
}
let mut zhm = str.splitn(2, ':').filter_map(|t| t.parse::<usize>().ok());
let (Some(zh), Some(zm)) = (zhm.next(), zhm.next()) else {
Err("non-positive hour/min in offset")?
};
if zh > 23 || zm > 59 {
Err("hour/min in offset out of range")?
}
// apply timezone
let mut hm = (h * 60 + m) as isize + sign * (zh * 60 + zm) as isize;
if hm < 0 {
hm += 24 * 60;
debug_assert!(hm >= 0);
}
let hm = hm as usize;
(h, m) = (hm / 60, hm % 60);
}
// check leap second
if !(s < 60 || (h == 23 && m == 59)) {
Err("invalid leap second")?
}
Ok(())
}
fn validate_date_time(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_date_time(s)
}
fn check_date_time(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// min: yyyy-mm-ddThh:mm:ssZ
if s.len() < 20 {
Err("less than 20 characters long")?;
}
if !s.is_char_boundary(10) || !s[10..].starts_with(['t', 'T']) {
Err("11th character must be t or T")?;
}
if let Err(e) = check_date(&s[..10]) {
Err(format!("invalid date element: {e}"))?;
}
if let Err(e) = check_time(&s[11..]) {
Err(format!("invalid time element: {e}"))?;
}
Ok(())
}
fn validate_duration(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_duration(s)?;
Ok(())
}
// see https://datatracker.ietf.org/doc/html/rfc3339#appendix-A
fn check_duration(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// must start with 'P'
let Some(s) = s.strip_prefix('P') else {
Err("must start with P")?
};
if s.is_empty() {
Err("nothing after P")?
}
// dur-week
if let Some(s) = s.strip_suffix('W') {
if s.is_empty() {
Err("no number in week")?
}
if !s.chars().all(|c| c.is_ascii_digit()) {
Err("invalid week")?
}
return Ok(());
}
static UNITS: [&str; 2] = ["YMD", "HMS"];
for (i, s) in s.split('T').enumerate() {
let mut s = s;
if i != 0 && s.is_empty() {
Err("no time elements")?
}
let Some(mut units) = UNITS.get(i).cloned() else {
Err("more than one T")?
};
while !s.is_empty() {
let digit_count = s.chars().take_while(char::is_ascii_digit).count();
if digit_count == 0 {
Err("missing number")?
}
s = &s[digit_count..];
let Some(unit) = s.chars().next() else {
Err("missing unit")?
};
let Some(j) = units.find(unit) else {
if UNITS[i].contains(unit) {
Err(format!("unit {unit} out of order"))?
}
Err(format!("invalid unit {unit}"))?
};
units = &units[j + 1..];
s = &s[1..];
}
}
Ok(())
}
// see https://datatracker.ietf.org/doc/html/rfc3339#appendix-A
fn validate_period(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
let Some(slash) = s.find('/') else {
Err("missing slash")?
};
let (start, end) = (&s[..slash], &s[slash + 1..]);
if start.starts_with('P') {
if let Err(e) = check_duration(start) {
Err(format!("invalid start duration: {e}"))?
}
if let Err(e) = check_date_time(end) {
Err(format!("invalid end date-time: {e}"))?
}
} else {
if let Err(e) = check_date_time(start) {
Err(format!("invalid start date-time: {e}"))?
}
if end.starts_with('P') {
if let Err(e) = check_duration(end) {
Err(format!("invalid end duration: {e}"))?;
}
} else if let Err(e) = check_date_time(end) {
Err(format!("invalid end date-time: {e}"))?;
}
}
Ok(())
}
fn validate_hostname(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_hostname(s)?;
Ok(())
}
// see https://en.wikipedia.org/wiki/Hostname#Restrictions_on_valid_host_names
fn check_hostname(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// entire hostname (including the delimiting dots but not a trailing dot) has a maximum of 253 ASCII characters
if s.len() > 253 {
Err("more than 253 characters long")?
}
// Hostnames are composed of series of labels concatenated with dots, as are all domain names
for label in s.split('.') {
// Each label must be from 1 to 63 characters long
if !matches!(label.len(), 1..=63) {
Err("label must be 1 to 63 characters long")?;
}
// labels must not start or end with a hyphen
if label.starts_with('-') {
Err("label starts with hyphen")?;
}
if label.ends_with('-') {
Err("label ends with hyphen")?;
}
// labels may contain only the ASCII letters 'a' through 'z' (in a case-insensitive manner),
// the digits '0' through '9', and the hyphen ('-')
if let Some(ch) = label
.chars()
.find(|c| !matches!(c, 'a'..='z' | 'A'..='Z' | '0'..='9' | '-'))
{
Err(format!("invalid character {ch:?}"))?;
}
// labels must not contain "--" in 3rd and 4th position unless they start with "xn--"
if label.len() >= 4 && &label[2..4] == "--" {
if !label.starts_with("xn--") {
Err("label has -- in 3rd/4th position but does not start with xn--")?;
} else {
let (unicode, errors) = idna::domain_to_unicode(label);
if let Err(_) = errors {
Err("invalid punycode")?;
}
check_unicode_idn_constraints(&unicode).map_err(|e| format!("invalid punycode/IDN: {e}"))?;
}
}
}
Ok(())
}
fn validate_idn_hostname(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_idn_hostname(s)?;
Ok(())
}
static DISALLOWED: [char; 10] = [
'\u{0640}', // ARABIC TATWEEL
'\u{07FA}', // NKO LAJANYALAN
'\u{302E}', // HANGUL SINGLE DOT TONE MARK
'\u{302F}', // HANGUL DOUBLE DOT TONE MARK
'\u{3031}', // VERTICAL KANA REPEAT MARK
'\u{3032}', // VERTICAL KANA REPEAT WITH VOICED SOUND MARK
'\u{3033}', // VERTICAL KANA REPEAT MARK UPPER HALF
'\u{3034}', // VERTICAL KANA REPEAT WITH VOICED SOUND MARK UPPER HA
'\u{3035}', // VERTICAL KANA REPEAT MARK LOWER HALF
'\u{303B}', // VERTICAL IDEOGRAPHIC ITERATION MARK
];
fn check_idn_hostname(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
let s = idna::domain_to_ascii_strict(s).map_err(|e| format!("idna error: {:?}", e))?;
let (unicode, errors) = idna::domain_to_unicode(&s);
if let Err(e) = errors {
Err(format!("idna decoding error: {:?}", e))?;
}
check_unicode_idn_constraints(&unicode)?;
check_hostname(&s)?;
Ok(())
}
fn check_unicode_idn_constraints(unicode: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// see https://www.rfc-editor.org/rfc/rfc5892#section-2.6
{
if unicode.contains(DISALLOWED) {
Err("contains disallowed character")?;
}
}
// unicode string must not contain "--" in 3rd and 4th position
// and must not start and end with a '-'
// see https://www.rfc-editor.org/rfc/rfc5891#section-4.2.3.1
{
let count: usize = unicode
.chars()
.skip(2)
.take(2)
.map(|c| if c == '-' { 1 } else { 0 })
.sum();
if count == 2 {
Err("unicode string must not contain '--' in 3rd and 4th position")?;
}
}
// MIDDLE DOT is allowed between 'l' characters only
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.3
{
let middle_dot = '\u{00b7}';
let mut s = unicode;
while let Some(i) = s.find(middle_dot) {
let prefix = &s[..i];
let suffix = &s[i + middle_dot.len_utf8()..];
if !prefix.ends_with('l') || !suffix.ends_with('l') {
Err("MIDDLE DOT is allowed between 'l' characters only")?;
}
s = suffix;
}
}
// Greek KERAIA must be followed by Greek character
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.4
{
let keralia = '\u{0375}';
let greek = '\u{0370}'..='\u{03FF}';
let mut s = unicode;
while let Some(i) = s.find(keralia) {
let suffix = &s[i + keralia.len_utf8()..];
if !suffix.starts_with(|c| greek.contains(&c)) {
Err("Greek KERAIA must be followed by Greek character")?;
}
s = suffix;
}
}
// Hebrew GERESH must be preceded by Hebrew character
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.5
//
// Hebrew GERSHAYIM must be preceded by Hebrew character
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.6
{
let geresh = '\u{05F3}';
let gereshayim = '\u{05F4}';
let hebrew = '\u{0590}'..='\u{05FF}';
for ch in [geresh, gereshayim] {
let mut s = unicode;
while let Some(i) = s.find(ch) {
let prefix = &s[..i];
if !prefix.ends_with(|c| hebrew.contains(&c)) {
if i == 0 {
Err("Hebrew GERESH must be preceded by Hebrew character")?;
} else {
Err("Hebrew GERESHYIM must be preceded by Hebrew character")?;
}
}
let suffix = &s[i + ch.len_utf8()..];
s = suffix;
}
}
}
// KATAKANA MIDDLE DOT must be with Hiragana, Katakana, or Han
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.7
{
let katakana_middle_dot = '\u{30FB}';
if unicode.contains(katakana_middle_dot) {
let hiragana = '\u{3040}'..='\u{309F}';
let katakana = '\u{30A0}'..='\u{30FF}';
let han = '\u{4E00}'..='\u{9FFF}'; // https://en.wikipedia.org/wiki/CJK_Unified_Ideographs_(Unicode_block): is this range correct??
if unicode.contains(|c| hiragana.contains(&c))
|| unicode.contains(|c| c != katakana_middle_dot && katakana.contains(&c))
|| unicode.contains(|c| han.contains(&c))
{
// ok
} else {
Err("KATAKANA MIDDLE DOT must be with Hiragana, Katakana, or Han")?;
}
}
}
// ARABIC-INDIC DIGITS and Extended Arabic-Indic Digits cannot be mixed
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.8
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.9
{
let arabic_indic_digits = '\u{0660}'..='\u{0669}';
let extended_arabic_indic_digits = '\u{06F0}'..='\u{06F9}';
if unicode.contains(|c| arabic_indic_digits.contains(&c))
&& unicode.contains(|c| extended_arabic_indic_digits.contains(&c))
{
Err("ARABIC-INDIC DIGITS and Extended Arabic-Indic Digits cannot be mixed")?;
}
}
// ZERO WIDTH JOINER must be preceded by Virama
// see https://www.rfc-editor.org/rfc/rfc5892#appendix-A.2
{
let zero_width_jointer = '\u{200D}';
static VIRAMA: [char; 61] = [
'\u{094D}',
'\u{09CD}',
'\u{0A4D}',
'\u{0ACD}',
'\u{0B4D}',
'\u{0BCD}',
'\u{0C4D}',
'\u{0CCD}',
'\u{0D3B}',
'\u{0D3C}',
'\u{0D4D}',
'\u{0DCA}',
'\u{0E3A}',
'\u{0EBA}',
'\u{0F84}',
'\u{1039}',
'\u{103A}',
'\u{1714}',
'\u{1734}',
'\u{17D2}',
'\u{1A60}',
'\u{1B44}',
'\u{1BAA}',
'\u{1BAB}',
'\u{1BF2}',
'\u{1BF3}',
'\u{2D7F}',
'\u{A806}',
'\u{A82C}',
'\u{A8C4}',
'\u{A953}',
'\u{A9C0}',
'\u{AAF6}',
'\u{ABED}',
'\u{10A3F}',
'\u{11046}',
'\u{1107F}',
'\u{110B9}',
'\u{11133}',
'\u{11134}',
'\u{111C0}',
'\u{11235}',
'\u{112EA}',
'\u{1134D}',
'\u{11442}',
'\u{114C2}',
'\u{115BF}',
'\u{1163F}',
'\u{116B6}',
'\u{1172B}',
'\u{11839}',
'\u{1193D}',
'\u{1193E}',
'\u{119E0}',
'\u{11A34}',
'\u{11A47}',
'\u{11A99}',
'\u{11C3F}',
'\u{11D44}',
'\u{11D45}',
'\u{11D97}',
]; // https://www.compart.com/en/unicode/combining/9
let mut s = unicode;
while let Some(i) = s.find(zero_width_jointer) {
let prefix = &s[..i];
if !prefix.ends_with(VIRAMA) {
Err("ZERO WIDTH JOINER must be preceded by Virama")?;
}
let suffix = &s[i + zero_width_jointer.len_utf8()..];
s = suffix;
}
}
Ok(())
}
fn validate_email(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_email(s)?;
Ok(())
}
// see https://en.wikipedia.org/wiki/Email_address
fn check_email(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
// entire email address to be no more than 254 characters long
if s.len() > 254 {
Err("more than 254 characters long")?
}
// email address is generally recognized as having two parts joined with an at-sign
let Some(at) = s.rfind('@') else {
Err("missing @")?
};
let (local, domain) = (&s[..at], &s[at + 1..]);
// local part may be up to 64 characters long
if local.len() > 64 {
Err("local part more than 64 characters long")?
}
if local.len() > 1 && local.starts_with('"') && local.ends_with('"') {
// quoted
let local = &local[1..local.len() - 1];
if local.contains(['\\', '"']) {
Err("backslash and quote not allowed within quoted local part")?
}
} else {
// unquoted
if local.starts_with('.') {
Err("starts with dot")?
}
if local.ends_with('.') {
Err("ends with dot")?
}
// consecutive dots not allowed
if local.contains("..") {
Err("consecutive dots")?
}
// check allowd chars
if let Some(ch) = local
.chars()
.find(|c| !(c.is_ascii_alphanumeric() || ".!#$%&'*+-/=?^_`{|}~".contains(*c)))
{
Err(format!("invalid character {ch:?}"))?
}
}
// domain if enclosed in brackets, must match an IP address
if domain.starts_with('[') && domain.ends_with(']') {
let s = &domain[1..domain.len() - 1];
if let Some(s) = s.strip_prefix("IPv6:") {
if let Err(e) = s.parse::<Ipv6Addr>() {
Err(format!("invalid ipv6 address: {e}"))?
}
return Ok(());
}
if let Err(e) = s.parse::<Ipv4Addr>() {
Err(format!("invalid ipv4 address: {e}"))?
}
return Ok(());
}
// domain must match the requirements for a hostname
if let Err(e) = check_hostname(domain) {
Err(format!("invalid domain: {e}"))?
}
Ok(())
}
fn validate_idn_email(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
let Some(at) = s.rfind('@') else {
Err("missing @")?
};
let (local, domain) = (&s[..at], &s[at + 1..]);
let local = idna::domain_to_ascii_strict(local).map_err(|e| format!("idna error: {:?}", e))?;
let domain = idna::domain_to_ascii_strict(domain).map_err(|e| format!("idna error: {:?}", e))?;
if let Err(e) = check_idn_hostname(&domain) {
Err(format!("invalid domain: {e}"))?
}
check_email(&format!("{local}@{domain}"))
}
fn validate_json_pointer(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
check_json_pointer(s)?;
Ok(())
}
// see https://www.rfc-editor.org/rfc/rfc6901#section-3
fn check_json_pointer(s: &str) -> Result<(), Box<dyn Error + Send + Sync>> {
if s.is_empty() {
return Ok(());
}
if !s.starts_with('/') {
Err("not starting with slash")?;
}
for token in s.split('/').skip(1) {
let mut chars = token.chars();
while let Some(ch) = chars.next() {
if ch == '~' {
if !matches!(chars.next(), Some('0' | '1')) {
Err("~ must be followed by 0 or 1")?;
}
} else if !matches!(ch, '\x00'..='\x2E' | '\x30'..='\x7D' | '\x7F'..='\u{10FFFF}') {
Err("contains disallowed character")?;
}
}
}
Ok(())
}
// see https://tools.ietf.org/html/draft-handrews-relative-json-pointer-01#section-3
fn validate_relative_json_pointer(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
// start with non-negative-integer
let num_digits = s.chars().take_while(char::is_ascii_digit).count();
if num_digits == 0 {
Err("must start with non-negative integer")?;
}
if num_digits > 1 && s.starts_with('0') {
Err("starts with zero")?;
}
let s = &s[num_digits..];
// followed by either json-pointer or '#'
if s == "#" {
return Ok(());
}
if let Err(e) = check_json_pointer(s) {
Err(format!("invalid json-pointer element: {e}"))?;
}
Ok(())
}
// see https://datatracker.ietf.org/doc/html/rfc4122#page-4
fn validate_uuid(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
static HEX_GROUPS: [usize; 5] = [8, 4, 4, 4, 12];
let mut i = 0;
for group in s.split('-') {
if i >= HEX_GROUPS.len() {
Err("more than 5 elements")?;
}
if group.len() != HEX_GROUPS[i] {
Err(format!(
"element {} must be {} characters long",
i + 1,
HEX_GROUPS[i]
))?;
}
if let Some(ch) = group.chars().find(|c| !c.is_ascii_hexdigit()) {
Err(format!("non-hex character {ch:?}"))?;
}
i += 1;
}
if i != HEX_GROUPS.len() {
Err("must have 5 elements")?;
}
Ok(())
}
fn validate_uri(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
if fluent_uri::UriRef::parse(s.as_str()).map_err(|e| e.to_string())?.scheme().is_none() {
Err("relative url")?;
};
Ok(())
}
fn validate_iri(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
match Url::parse(s) {
Ok(_) => Ok(()),
Err(url::ParseError::RelativeUrlWithoutBase) => Err("relative url")?,
Err(e) => Err(e)?,
}
}
lazy_static! {
static ref TEMP_URL: Url = Url::parse("http://temp.com").unwrap();
}
fn parse_uri_reference(s: &str) -> Result<Url, Box<dyn Error + Send + Sync>> {
if s.contains('\\') {
Err("contains \\\\")?;
}
Ok(TEMP_URL.join(s)?)
}
fn validate_uri_reference(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
fluent_uri::UriRef::parse(s.as_str()).map_err(|e| e.to_string())?;
Ok(())
}
fn validate_iri_reference(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
parse_uri_reference(s)?;
Ok(())
}
fn validate_uri_template(v: &Value) -> Result<(), Box<dyn Error + Send + Sync>> {
let Value::String(s) = v else {
return Ok(());
};
let url = parse_uri_reference(s)?;
let path = url.path();
// path we got has curly bases percent encoded
let path = percent_decode_str(path).decode_utf8()?;
// ensure curly brackets are not nested and balanced
for part in path.as_ref().split('/') {
let mut want = true;
for got in part
.chars()
.filter(|c| matches!(c, '{' | '}'))
.map(|c| c == '{')
{
if got != want {
Err("nested curly braces")?;
}
want = !want;
}
if !want {
Err("no matching closing brace")?
}
}
Ok(())
}

29
src/jspg.rs Normal file
View File

@ -0,0 +1,29 @@
use crate::database::Database;
use crate::merger::Merger;
use crate::queryer::Queryer;
use crate::validator::Validator;
use std::sync::Arc;
pub struct Jspg {
pub database: Arc<Database>,
pub validator: Validator,
pub queryer: Queryer,
pub merger: Merger,
}
impl Jspg {
pub fn new(database_val: &serde_json::Value) -> Result<Self, crate::drop::Drop> {
let database_instance = Database::new(database_val)?;
let database = Arc::new(database_instance);
let validator = Validator::new(database.clone());
let queryer = Queryer::new(database.clone());
let merger = Merger::new(database.clone());
Ok(Self {
database,
validator,
queryer,
merger,
})
}
}

335
src/lib.rs
View File

@ -1,274 +1,139 @@
#[cfg(not(test))]
use pgrx::*;
#[cfg(not(test))]
pg_module_magic!();
pub mod compiler;
#[cfg(test)]
pub struct JsonB(pub serde_json::Value);
pub mod database;
pub mod drop;
pub mod formats;
pub mod jspg;
pub mod merger;
pub mod queryer;
pub mod validator;
pub mod registry;
mod schema;
pub mod util;
mod validator;
use crate::schema::Schema;
use serde_json::{Value, json};
use std::sync::{Arc, RwLock};
lazy_static::lazy_static! {
// Global Atomic Swap Container:
// - RwLock: To protect the SWAP of the Option.
// - Option: Because it starts empty.
// - Arc: Because multiple running threads might hold the OLD validator while we swap.
// - Validator: It immutably owns the Registry.
static ref GLOBAL_VALIDATOR: RwLock<Option<Arc<validator::Validator>>> = RwLock::new(None);
// - Arc: Because multiple running threads might hold the OLD engine while we swap.
// - Jspg: The root semantic engine encapsulating the database metadata, validator, queryer, and merger.
static ref GLOBAL_JSPG: RwLock<Option<Arc<jspg::Jspg>>> = RwLock::new(None);
}
#[pg_extern(strict)]
pub fn cache_json_schemas(enums: JsonB, types: JsonB, puncs: JsonB) -> JsonB {
// 1. Build a new Registry LOCALLY (on stack)
let mut registry = registry::Registry::new();
// Generate Family Schemas from Types
{
let mut family_map: std::collections::HashMap<String, std::collections::HashSet<String>> =
std::collections::HashMap::new();
if let Value::Array(arr) = &types.0 {
for item in arr {
if let Some(name) = item.get("name").and_then(|v| v.as_str()) {
if let Some(hierarchy) = item.get("hierarchy").and_then(|v| v.as_array()) {
for ancestor in hierarchy {
if let Some(anc_str) = ancestor.as_str() {
family_map
.entry(anc_str.to_string())
.or_default()
.insert(name.to_string());
}
}
}
}
}
}
for (family_name, members) in family_map {
let id = format!("{}.family", family_name);
// Object Union (for polymorphic object validation)
// This allows the schema to match ANY of the types in the family hierarchy
let object_refs: Vec<Value> = members.iter().map(|s| json!({ "$ref": s })).collect();
let schema_json = json!({
"$id": id,
"oneOf": object_refs
});
if let Ok(schema) = serde_json::from_value::<Schema>(schema_json) {
registry.add(schema);
}
}
// Helper to parse and cache a list of items
let mut cache_items = |items: JsonB| {
if let Value::Array(arr) = items.0 {
for item in arr {
// For now, we assume the item structure matches what the generator expects
// or what `json_schemas.sql` sends.
// The `Schema` struct in `schema.rs` is designed to deserialize standard JSON Schema.
// However, the input here is an array of objects that *contain* a `schemas` array.
// We need to extract those inner schemas.
if let Some(schemas_val) = item.get("schemas") {
if let Value::Array(schemas) = schemas_val {
for schema_val in schemas {
// Deserialize into our robust Schema struct to ensure validity/parsing
if let Ok(schema) = serde_json::from_value::<Schema>(schema_val.clone()) {
// Registry handles compilation
registry.add(schema);
}
}
}
}
}
}
};
cache_items(enums);
cache_items(types);
cache_items(puncs); // public/private distinction logic to come later
}
// 2. Wrap in Validator and Arc
let new_validator = validator::Validator::new(registry);
let new_arc = Arc::new(new_validator);
// 3. ATOMIC SWAP
{
let mut lock = GLOBAL_VALIDATOR.write().unwrap();
*lock = Some(new_arc);
}
let drop = crate::drop::Drop::success();
fn jspg_failure() -> JsonB {
let error = crate::drop::Error {
code: "ENGINE_NOT_INITIALIZED".to_string(),
message: "JSPG extension has not been initialized via jspg_setup".to_string(),
details: crate::drop::ErrorDetails {
path: "".to_string(),
},
};
let drop = crate::drop::Drop::with_errors(vec![error]);
JsonB(serde_json::to_value(drop).unwrap())
}
#[pg_extern(strict, parallel_safe)]
pub fn mask_json_schema(schema_id: &str, instance: JsonB) -> JsonB {
#[cfg_attr(not(test), pg_extern(strict))]
pub fn jspg_setup(database: JsonB) -> JsonB {
match crate::jspg::Jspg::new(&database.0) {
Ok(new_jspg) => {
let new_arc = Arc::new(new_jspg);
// 3. ATOMIC SWAP
{
let mut lock = GLOBAL_JSPG.write().unwrap();
*lock = Some(new_arc);
}
let drop = crate::drop::Drop::success();
JsonB(serde_json::to_value(drop).unwrap())
}
Err(drop) => JsonB(serde_json::to_value(drop).unwrap()),
}
}
#[cfg_attr(not(test), pg_extern)]
pub fn jspg_merge(data: JsonB) -> JsonB {
// Try to acquire a read lock to get a clone of the Engine Arc
let engine_opt = {
let lock = GLOBAL_JSPG.read().unwrap();
lock.clone()
};
match engine_opt {
Some(engine) => {
let drop = engine.merger.merge(data.0);
JsonB(serde_json::to_value(drop).unwrap())
}
None => jspg_failure(),
}
}
#[cfg_attr(not(test), pg_extern)]
pub fn jspg_query(schema_id: &str, stem: Option<&str>, filters: Option<JsonB>) -> JsonB {
let engine_opt = {
let lock = GLOBAL_JSPG.read().unwrap();
lock.clone()
};
match engine_opt {
Some(engine) => {
let drop = engine
.queryer
.query(schema_id, stem, filters.as_ref().map(|f| &f.0));
JsonB(serde_json::to_value(drop).unwrap())
}
None => jspg_failure(),
}
}
// `mask_json_schema` has been removed as the mask architecture is fully replaced by Spi string queries during DB interactions.
#[cfg_attr(not(test), pg_extern(strict, parallel_safe))]
pub fn jspg_validate(schema_id: &str, instance: JsonB) -> JsonB {
// 1. Acquire Snapshot
let validator_arc = {
let lock = GLOBAL_VALIDATOR.read().unwrap();
let jspg_arc = {
let lock = GLOBAL_JSPG.read().unwrap();
lock.clone()
};
// 2. Validate (Lock-Free)
if let Some(validator) = validator_arc {
// We need a mutable copy of the value to mask it
let mut mutable_instance = instance.0.clone();
match validator.mask(schema_id, &mut mutable_instance) {
Ok(result) => {
// If valid, return the MASKED instance
if result.is_valid() {
let drop = crate::drop::Drop::success_with_val(mutable_instance);
JsonB(serde_json::to_value(drop).unwrap())
} else {
// If invalid, return errors (Schema Validation Errors)
let errors: Vec<crate::drop::Error> = result
.errors
.into_iter()
.map(|e| crate::drop::Error {
code: e.code,
message: e.message,
details: crate::drop::ErrorDetails { path: e.path },
})
.collect();
let drop = crate::drop::Drop::with_errors(errors);
JsonB(serde_json::to_value(drop).unwrap())
}
}
Err(e) => {
// Schema Not Found or other fatal error
let error = crate::drop::Error {
code: e.code,
message: e.message,
details: crate::drop::ErrorDetails { path: e.path },
};
let drop = crate::drop::Drop::with_errors(vec![error]);
JsonB(serde_json::to_value(drop).unwrap())
}
}
} else {
let error = crate::drop::Error {
code: "VALIDATOR_NOT_INITIALIZED".to_string(),
message: "JSON Schemas have not been cached yet. Run cache_json_schemas()".to_string(),
details: crate::drop::ErrorDetails {
path: "".to_string(),
},
};
let drop = crate::drop::Drop::with_errors(vec![error]);
if let Some(engine) = jspg_arc {
let drop = engine.validator.validate(schema_id, &instance.0);
JsonB(serde_json::to_value(drop).unwrap())
} else {
jspg_failure()
}
}
#[pg_extern(strict, parallel_safe)]
pub fn validate_json_schema(schema_id: &str, instance: JsonB) -> JsonB {
// 1. Acquire Snapshot
let validator_arc = {
let lock = GLOBAL_VALIDATOR.read().unwrap();
#[cfg_attr(not(test), pg_extern)]
pub fn jspg_stems() -> JsonB {
let engine_opt = {
let lock = GLOBAL_JSPG.read().unwrap();
lock.clone()
};
// 2. Validate (Lock-Free)
if let Some(validator) = validator_arc {
match validator.validate(schema_id, &instance.0) {
Ok(result) => {
if result.is_valid() {
let drop = crate::drop::Drop::success();
JsonB(serde_json::to_value(drop).unwrap())
} else {
let errors: Vec<crate::drop::Error> = result
.errors
.into_iter()
.map(|e| crate::drop::Error {
code: e.code,
message: e.message,
details: crate::drop::ErrorDetails { path: e.path },
})
.collect();
let drop = crate::drop::Drop::with_errors(errors);
JsonB(serde_json::to_value(drop).unwrap())
}
}
Err(e) => {
let error = crate::drop::Error {
code: e.code,
message: e.message,
details: crate::drop::ErrorDetails { path: e.path },
};
let drop = crate::drop::Drop::with_errors(vec![error]);
JsonB(serde_json::to_value(drop).unwrap())
}
match engine_opt {
Some(engine) => {
let stems_json = serde_json::to_value(&engine.database.stems)
.unwrap_or(serde_json::Value::Object(serde_json::Map::new()));
JsonB(stems_json)
}
} else {
let error = crate::drop::Error {
code: "VALIDATOR_NOT_INITIALIZED".to_string(),
message: "JSON Schemas have not been cached yet. Run cache_json_schemas()".to_string(),
details: crate::drop::ErrorDetails {
path: "".to_string(),
},
};
let drop = crate::drop::Drop::with_errors(vec![error]);
JsonB(serde_json::to_value(drop).unwrap())
None => JsonB(serde_json::Value::Object(serde_json::Map::new())),
}
}
#[pg_extern(strict, parallel_safe)]
pub fn json_schema_cached(schema_id: &str) -> bool {
if let Some(validator) = GLOBAL_VALIDATOR.read().unwrap().as_ref() {
match validator.validate(schema_id, &serde_json::Value::Null) {
Err(e) if e.code == "SCHEMA_NOT_FOUND" => false,
_ => true,
}
} else {
false
}
}
#[pg_extern(strict)]
pub fn clear_json_schemas() -> JsonB {
let mut lock = GLOBAL_VALIDATOR.write().unwrap();
#[cfg_attr(not(test), pg_extern(strict))]
pub fn jspg_teardown() -> JsonB {
let mut lock = GLOBAL_JSPG.write().unwrap();
*lock = None;
let drop = crate::drop::Drop::success();
JsonB(serde_json::to_value(drop).unwrap())
}
#[pg_extern(strict, parallel_safe)]
pub fn show_json_schemas() -> JsonB {
if let Some(validator) = GLOBAL_VALIDATOR.read().unwrap().as_ref() {
let mut keys = validator.get_schema_ids();
keys.sort();
let drop = crate::drop::Drop::success_with_val(json!(keys));
JsonB(serde_json::to_value(drop).unwrap())
} else {
let drop = crate::drop::Drop::success_with_val(json!([]));
JsonB(serde_json::to_value(drop).unwrap())
}
}
#[cfg(any(test, feature = "pg_test"))]
#[pg_schema]
mod tests {
use pgrx::prelude::*;
include!("tests/fixtures.rs");
}
#[cfg(test)]
pub mod pg_test {
pub fn setup(_options: Vec<&str>) {
// perform any initialization common to all tests
}
pub fn postgresql_conf_options() -> Vec<&'static str> {
// return any postgresql.conf settings that are required for your tests
vec![]
}
}
pub mod tests;

24
src/merger/cache.rs Normal file
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@ -0,0 +1,24 @@
use dashmap::DashMap;
pub struct StatementCache {
/// Maps a Cache Key (String) -> SQL String (String)
statements: DashMap<String, String>,
}
impl StatementCache {
pub fn new(_max_capacity: u64) -> Self {
Self {
statements: DashMap::new(),
}
}
/// Retrieve an existing statement name by key, or None if it missed
pub fn get(&self, key: &str) -> Option<String> {
self.statements.get(key).map(|v| v.clone())
}
/// Insert a completely verified/compiled statement string into the cache
pub fn insert(&self, key: String, sql: String) {
self.statements.insert(key, sql);
}
}

906
src/merger/mod.rs Normal file
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@ -0,0 +1,906 @@
//! The `merger` module handles executing Postgres SPI directives dynamically based on JSON payloads
//! using the structurally isolated schema rules provided by the `Database` registry.
pub mod cache;
use crate::database::Database;
use serde_json::Value;
use std::sync::Arc;
pub struct Merger {
pub db: Arc<Database>,
pub cache: cache::StatementCache,
}
impl Merger {
pub fn new(db: Arc<Database>) -> Self {
Self {
db,
cache: cache::StatementCache::new(10_000),
}
}
pub fn merge(&self, data: Value) -> crate::drop::Drop {
let mut val_resolved = Value::Null;
let mut notifications_queue = Vec::new();
let result = self.merge_internal(data, &mut notifications_queue);
match result {
Ok(val) => {
val_resolved = val;
}
Err(msg) => {
return crate::drop::Drop::with_errors(vec![crate::drop::Error {
code: "MERGE_FAILED".to_string(),
message: msg,
details: crate::drop::ErrorDetails {
path: "".to_string(),
},
}]);
}
};
// Execute the globally collected, pre-ordered notifications last!
for notify_sql in notifications_queue {
if let Err(e) = self.db.execute(&notify_sql, None) {
return crate::drop::Drop::with_errors(vec![crate::drop::Error {
code: "MERGE_FAILED".to_string(),
message: format!("Executor Error in pre-ordered notify: {:?}", e),
details: crate::drop::ErrorDetails {
path: "".to_string(),
},
}]);
}
}
let stripped_val = match val_resolved {
Value::Object(mut map) => {
let mut out = serde_json::Map::new();
if let Some(id) = map.remove("id") {
out.insert("id".to_string(), id);
}
Value::Object(out)
}
Value::Array(arr) => {
let mut out_arr = Vec::new();
for item in arr {
if let Value::Object(mut map) = item {
let mut out = serde_json::Map::new();
if let Some(id) = map.remove("id") {
out.insert("id".to_string(), id);
}
out_arr.push(Value::Object(out));
} else {
out_arr.push(Value::Null);
}
}
Value::Array(out_arr)
}
other => other,
};
crate::drop::Drop::success_with_val(stripped_val)
}
pub(crate) fn merge_internal(&self, data: Value, notifications: &mut Vec<String>) -> Result<Value, String> {
match data {
Value::Array(items) => self.merge_array(items, notifications),
Value::Object(map) => self.merge_object(map, notifications),
_ => Err("Invalid merge payload: root must be an Object or Array".to_string()),
}
}
fn merge_array(&self, items: Vec<Value>, notifications: &mut Vec<String>) -> Result<Value, String> {
let mut resolved_items = Vec::new();
for item in items {
let resolved = self.merge_internal(item, notifications)?;
resolved_items.push(resolved);
}
Ok(Value::Array(resolved_items))
}
fn merge_object(&self, obj: serde_json::Map<String, Value>, notifications: &mut Vec<String>) -> Result<Value, String> {
let queue_start = notifications.len();
let type_name = match obj.get("type").and_then(|v| v.as_str()) {
Some(t) => t.to_string(),
None => return Err("Missing required 'type' field on object".to_string()),
};
let type_def = match self.db.types.get(&type_name) {
Some(t) => t,
None => return Err(format!("Unknown entity type: {}", type_name)),
};
// 1. Segment the entity: fields in type_def.fields are database fields, others are relationships
let mut entity_fields = serde_json::Map::new();
let mut entity_objects = serde_json::Map::new();
let mut entity_arrays = serde_json::Map::new();
for (k, v) in obj {
let is_field = type_def.fields.contains(&k) || k == "created";
let typeof_v = match &v {
Value::Object(_) => "object",
Value::Array(_) => "array",
_ => "other",
};
if is_field {
entity_fields.insert(k, v);
} else if typeof_v == "object" {
entity_objects.insert(k, v);
} else if typeof_v == "array" {
entity_arrays.insert(k, v);
}
}
let user_id = self.db.auth_user_id()?;
let timestamp = self.db.timestamp()?;
let mut entity_change_kind = None;
let mut entity_fetched = None;
// 2. Pre-stage the entity (for non-relationships)
if !type_def.relationship {
let (fields, kind, fetched) =
self.stage_entity(entity_fields.clone(), type_def, &user_id, &timestamp)?;
entity_fields = fields;
entity_change_kind = kind;
entity_fetched = fetched;
}
let mut entity_response = serde_json::Map::new();
// 3. Handle related objects
for (relation_name, relative_val) in entity_objects {
let mut relative = match relative_val {
Value::Object(m) => m,
_ => continue,
};
let relative_relation = self.get_entity_relation(type_def, &relative, &relation_name)?;
if let Some(relation) = relative_relation {
let parent_is_source = type_def.hierarchy.contains(&relation.source_type);
if parent_is_source {
// Parent holds FK to Child. Child MUST be generated FIRST.
if !relative.contains_key("organization_id") {
if let Some(org_id) = entity_fields.get("organization_id") {
relative.insert("organization_id".to_string(), org_id.clone());
}
}
let merged_relative = match self.merge_internal(Value::Object(relative), notifications)? {
Value::Object(m) => m,
_ => continue,
};
Self::apply_entity_relation(
&mut entity_fields,
&relation.source_columns,
&relation.destination_columns,
&merged_relative,
);
entity_response.insert(relation_name, Value::Object(merged_relative));
} else {
// Child holds FK back to Parent.
if !relative.contains_key("organization_id") {
if let Some(org_id) = entity_fields.get("organization_id") {
relative.insert("organization_id".to_string(), org_id.clone());
}
}
Self::apply_entity_relation(
&mut relative,
&relation.source_columns,
&relation.destination_columns,
&entity_fields,
);
let merged_relative = match self.merge_internal(Value::Object(relative), notifications)? {
Value::Object(m) => m,
_ => continue,
};
entity_response.insert(relation_name, Value::Object(merged_relative));
}
}
}
// 4. Post-stage the entity (for relationships)
if type_def.relationship {
let (fields, kind, fetched) =
self.stage_entity(entity_fields.clone(), type_def, &user_id, &timestamp)?;
entity_fields = fields;
entity_change_kind = kind;
entity_fetched = fetched;
}
// 5. Process the main entity fields
self.merge_entity_fields(
entity_change_kind.as_deref().unwrap_or(""),
&type_name,
type_def,
&entity_fields,
entity_fetched.as_ref(),
)?;
// Add main entity fields to response
for (k, v) in &entity_fields {
entity_response.insert(k.clone(), v.clone());
}
// 6. Handle related arrays
for (relation_name, relative_val) in entity_arrays {
let relative_arr = match relative_val {
Value::Array(a) => a,
_ => continue,
};
if relative_arr.is_empty() {
continue;
}
let first_relative = match &relative_arr[0] {
Value::Object(m) => m,
_ => continue,
};
let relative_relation = self.get_entity_relation(type_def, first_relative, &relation_name)?;
if let Some(relation) = relative_relation {
let mut relative_responses = Vec::new();
for relative_item_val in relative_arr {
if let Value::Object(mut relative_item) = relative_item_val {
if !relative_item.contains_key("organization_id") {
if let Some(org_id) = entity_fields.get("organization_id") {
relative_item.insert("organization_id".to_string(), org_id.clone());
}
}
Self::apply_entity_relation(
&mut relative_item,
&relation.source_columns,
&relation.destination_columns,
&entity_fields,
);
let merged_relative = match self.merge_internal(Value::Object(relative_item), notifications)? {
Value::Object(m) => m,
_ => continue,
};
relative_responses.push(Value::Object(merged_relative));
}
}
entity_response.insert(relation_name, Value::Array(relative_responses));
}
}
// 7. Perform change tracking
let notify_sql = self.merge_entity_change(
&entity_fields,
entity_fetched.as_ref(),
entity_change_kind.as_deref(),
&user_id,
&timestamp,
)?;
if let Some(sql) = notify_sql {
notifications.insert(queue_start, sql);
}
// Produce the full tree response
let mut final_response = serde_json::Map::new();
if let Some(fetched) = entity_fetched {
for (k, v) in fetched {
final_response.insert(k, v);
}
}
for (k, v) in entity_response {
final_response.insert(k, v);
}
Ok(Value::Object(final_response))
}
fn stage_entity(
&self,
mut entity_fields: serde_json::Map<String, Value>,
type_def: &crate::database::r#type::Type,
user_id: &str,
timestamp: &str,
) -> Result<
(
serde_json::Map<String, Value>,
Option<String>,
Option<serde_json::Map<String, Value>>,
),
String,
> {
let type_name = type_def.name.as_str();
let entity_fetched = self.fetch_entity(&entity_fields, type_def)?;
let system_keys = vec![
"id".to_string(),
"type".to_string(),
"created_by".to_string(),
"modified_by".to_string(),
"created_at".to_string(),
"modified_at".to_string(),
];
let changes = self.compare_entities(
entity_fetched.as_ref(),
&entity_fields,
&type_def.fields,
&system_keys,
);
let mut entity_change_kind = None;
if entity_fetched.is_none() {
let entity_id = entity_fields
.get("id")
.and_then(|v| v.as_str())
.unwrap_or("");
let id_val = if entity_id.is_empty() {
Value::String(uuid::Uuid::new_v4().to_string())
} else {
Value::String(entity_id.to_string())
};
entity_change_kind = Some("create".to_string());
let mut new_fields = changes.clone();
new_fields.insert("id".to_string(), id_val);
new_fields.insert("type".to_string(), Value::String(type_name.to_string()));
new_fields.insert("created_by".to_string(), Value::String(user_id.to_string()));
new_fields.insert(
"created_at".to_string(),
Value::String(timestamp.to_string()),
);
new_fields.insert(
"modified_by".to_string(),
Value::String(user_id.to_string()),
);
new_fields.insert(
"modified_at".to_string(),
Value::String(timestamp.to_string()),
);
entity_fields = new_fields;
} else if changes.is_empty() {
let mut new_fields = serde_json::Map::new();
new_fields.insert(
"id".to_string(),
entity_fetched.as_ref().unwrap().get("id").unwrap().clone(),
);
new_fields.insert("type".to_string(), Value::String(type_name.to_string()));
entity_fields = new_fields;
} else {
let is_archived = changes
.get("archived")
.and_then(|v| v.as_bool())
.unwrap_or(false);
entity_change_kind = if is_archived {
Some("delete".to_string())
} else {
Some("update".to_string())
};
let mut new_fields = changes.clone();
new_fields.insert(
"id".to_string(),
entity_fetched.as_ref().unwrap().get("id").unwrap().clone(),
);
new_fields.insert("type".to_string(), Value::String(type_name.to_string()));
new_fields.insert(
"modified_by".to_string(),
Value::String(user_id.to_string()),
);
new_fields.insert(
"modified_at".to_string(),
Value::String(timestamp.to_string()),
);
entity_fields = new_fields;
}
Ok((entity_fields, entity_change_kind, entity_fetched))
}
fn fetch_entity(
&self,
entity_fields: &serde_json::Map<String, Value>,
entity_type: &crate::database::r#type::Type,
) -> Result<Option<serde_json::Map<String, Value>>, String> {
let id_val = entity_fields.get("id");
let entity_type_name = entity_type.name.as_str();
let mut lookup_complete = false;
if !entity_type.lookup_fields.is_empty() {
lookup_complete = true;
for column in &entity_type.lookup_fields {
match entity_fields.get(column) {
Some(Value::Null) | None => {
lookup_complete = false;
break;
}
Some(Value::String(s)) if s.is_empty() => {
lookup_complete = false;
break;
}
_ => {}
}
}
}
if id_val.is_none() && !lookup_complete {
return Ok(None);
}
let fetch_sql_template = if let Some(cached) = self.cache.get(entity_type_name) {
cached
} else {
let mut select_list = String::from("to_jsonb(t1.*)");
let mut join_clauses = format!("FROM agreego.\"{}\" t1", entity_type.hierarchy[0]);
for (i, table_name) in entity_type.hierarchy.iter().enumerate().skip(1) {
let t_alias = format!("t{}", i + 1);
join_clauses.push_str(&format!(
" LEFT JOIN agreego.\"{}\" {} ON {}.id = t1.id",
table_name, t_alias, t_alias
));
select_list.push_str(&format!(" || to_jsonb({}.*)", t_alias));
}
let template = format!("SELECT {} {}", select_list, join_clauses);
self
.cache
.insert(entity_type_name.to_string(), template.clone());
template
};
let where_clause = if let Some(id) = id_val {
format!("WHERE t1.id = {}", Self::quote_literal(id))
} else if lookup_complete {
let mut lookup_predicates = Vec::new();
for column in &entity_type.lookup_fields {
let val = entity_fields.get(column).unwrap_or(&Value::Null);
if column == "type" {
lookup_predicates.push(format!("t1.\"{}\" = {}", column, Self::quote_literal(val)));
} else {
lookup_predicates.push(format!("\"{}\" = {}", column, Self::quote_literal(val)));
}
}
format!("WHERE {}", lookup_predicates.join(" AND "))
} else {
return Ok(None);
};
let final_sql = format!("{} {}", fetch_sql_template, where_clause);
let fetched = match self.db.query(&final_sql, None) {
Ok(Value::Array(table)) => {
if table.len() > 1 {
Err(format!(
"TOO_MANY_LOOKUP_ROWS: Lookup for {} found too many existing rows",
entity_type_name
))
} else if table.is_empty() {
Ok(None)
} else {
let row = table.first().unwrap();
match row {
Value::Object(map) => Ok(Some(map.clone())),
other => Err(format!("Expected JSON object, got: {:?}", other)),
}
}
}
Ok(_) => Err("Expected array from query in fetch_entity".to_string()),
Err(e) => Err(format!("SPI error in fetch_entity: {:?}", e)),
}?;
Ok(fetched)
}
fn merge_entity_fields(
&self,
change_kind: &str,
entity_type_name: &str,
entity_type: &crate::database::r#type::Type,
entity_fields: &serde_json::Map<String, Value>,
_entity_fetched: Option<&serde_json::Map<String, Value>>,
) -> Result<(), String> {
if change_kind.is_empty() {
return Ok(());
}
let id_str = match entity_fields.get("id").and_then(|v| v.as_str()) {
Some(id) => id,
None => return Err("Missing 'id' for merge execution".to_string()),
};
let grouped_fields = match &entity_type.grouped_fields {
Some(Value::Object(map)) => map,
_ => {
return Err(format!(
"Grouped fields missing for type {}",
entity_type_name
));
}
};
let mut execute_order: Vec<String> = entity_type.hierarchy.clone();
if change_kind == "create" {
execute_order.reverse();
}
for table_name in execute_order {
let table_fields = match grouped_fields.get(&table_name).and_then(|v| v.as_array()) {
Some(arr) => arr
.iter()
.filter_map(|v| v.as_str().map(|s| s.to_string()))
.collect::<Vec<_>>(),
None => continue,
};
let mut entity_pairs = serde_json::Map::new();
for (k, v) in entity_fields {
if table_fields.contains(k) {
entity_pairs.insert(k.clone(), v.clone());
}
}
if change_kind == "create" {
if !entity_pairs.contains_key("id") && table_fields.contains(&"id".to_string()) {
entity_pairs.insert("id".to_string(), Value::String(id_str.to_string()));
}
if !entity_pairs.contains_key("type") && table_fields.contains(&"type".to_string()) {
entity_pairs.insert(
"type".to_string(),
Value::String(entity_type_name.to_string()),
);
}
let mut columns = Vec::new();
let mut values = Vec::new();
let mut sorted_keys: Vec<_> = entity_pairs.keys().cloned().collect();
sorted_keys.sort();
for key in &sorted_keys {
columns.push(format!("\"{}\"", key));
let val = entity_pairs.get(key).unwrap();
if val.as_str() == Some("") {
values.push("NULL".to_string());
} else {
values.push(Self::quote_literal(val));
}
}
if columns.is_empty() {
continue;
}
let sql = format!(
"INSERT INTO agreego.\"{}\" ({}) VALUES ({})",
table_name,
columns.join(", "),
values.join(", ")
);
self
.db
.execute(&sql, None)
.map_err(|e| format!("SPI Error in INSERT: {:?}", e))?;
} else if change_kind == "update" || change_kind == "delete" {
entity_pairs.remove("id");
entity_pairs.remove("type");
if entity_pairs.is_empty() {
continue;
}
let mut set_clauses = Vec::new();
let mut sorted_keys: Vec<_> = entity_pairs.keys().cloned().collect();
sorted_keys.sort();
for key in &sorted_keys {
let val = entity_pairs.get(key).unwrap();
if val.as_str() == Some("") {
set_clauses.push(format!("\"{}\" = NULL", key));
} else {
set_clauses.push(format!("\"{}\" = {}", key, Self::quote_literal(val)));
}
}
let sql = format!(
"UPDATE agreego.\"{}\" SET {} WHERE id = {}",
table_name,
set_clauses.join(", "),
Self::quote_literal(&Value::String(id_str.to_string()))
);
self
.db
.execute(&sql, None)
.map_err(|e| format!("SPI Error in UPDATE: {:?}", e))?;
}
}
Ok(())
}
fn merge_entity_change(
&self,
entity_fields: &serde_json::Map<String, Value>,
entity_fetched: Option<&serde_json::Map<String, Value>>,
entity_change_kind: Option<&str>,
user_id: &str,
timestamp: &str,
) -> Result<Option<String>, String> {
let change_kind = match entity_change_kind {
Some(k) => k,
None => return Ok(None),
};
let id_str = entity_fields.get("id").unwrap();
let type_name = entity_fields.get("type").unwrap();
let mut changes = serde_json::Map::new();
let is_update = change_kind == "update" || change_kind == "delete";
if !is_update {
let system_keys = vec![
"id".to_string(),
"created_by".to_string(),
"modified_by".to_string(),
"created_at".to_string(),
"modified_at".to_string(),
];
for (k, v) in entity_fields {
if !system_keys.contains(k) {
changes.insert(k.clone(), v.clone());
}
}
} else {
let system_keys = vec![
"id".to_string(),
"type".to_string(),
"created_by".to_string(),
"modified_by".to_string(),
"created_at".to_string(),
"modified_at".to_string(),
];
for (k, v) in entity_fields {
if !system_keys.contains(k) {
if let Some(fetched) = entity_fetched {
let old_val = fetched.get(k).unwrap_or(&Value::Null);
if v != old_val {
changes.insert(k.clone(), v.clone());
}
}
}
}
changes.insert("type".to_string(), type_name.clone());
}
let mut complete = entity_fields.clone();
if is_update {
if let Some(fetched) = entity_fetched {
let mut temp = fetched.clone();
for (k, v) in entity_fields {
temp.insert(k.clone(), v.clone());
}
complete = temp;
}
}
let mut notification = serde_json::Map::new();
notification.insert("complete".to_string(), Value::Object(complete));
if is_update {
notification.insert("changes".to_string(), Value::Object(changes.clone()));
}
let change_sql = format!(
"INSERT INTO agreego.change (changes, entity_id, id, kind, modified_at, modified_by) VALUES ({}, {}, {}, {}, {}, {})",
Self::quote_literal(&Value::Object(changes)),
Self::quote_literal(id_str),
Self::quote_literal(&Value::String(uuid::Uuid::new_v4().to_string())),
Self::quote_literal(&Value::String(change_kind.to_string())),
Self::quote_literal(&Value::String(timestamp.to_string())),
Self::quote_literal(&Value::String(user_id.to_string()))
);
let notify_sql = format!(
"SELECT pg_notify('entity', {})",
Self::quote_literal(&Value::String(Value::Object(notification).to_string()))
);
self
.db
.execute(&change_sql, None)
.map_err(|e| format!("Executor Error in change: {:?}", e))?;
Ok(Some(notify_sql))
}
fn compare_entities(
&self,
fetched_entity: Option<&serde_json::Map<String, Value>>,
new_fields: &serde_json::Map<String, Value>,
type_fields: &[String],
system_keys: &[String],
) -> serde_json::Map<String, Value> {
let mut changes = serde_json::Map::new();
if fetched_entity.is_none() {
for (k, v) in new_fields {
if type_fields.contains(k) && !system_keys.contains(k) {
changes.insert(k.clone(), v.clone());
}
}
return changes;
}
let old_map = fetched_entity.unwrap();
for (k, v) in new_fields {
if type_fields.contains(k) && !system_keys.contains(k) {
let old_val = old_map.get(k).unwrap_or(&Value::Null);
if v != old_val {
changes.insert(k.clone(), v.clone());
}
}
}
changes
}
fn reduce_entity_relations(
&self,
mut matching_relations: Vec<crate::database::relation::Relation>,
relative: &serde_json::Map<String, Value>,
relation_name: &str,
) -> Result<Option<crate::database::relation::Relation>, String> {
if matching_relations.is_empty() {
return Ok(None);
}
if matching_relations.len() == 1 {
return Ok(Some(matching_relations.pop().unwrap()));
}
let exact_match: Vec<_> = matching_relations
.iter()
.filter(|r| r.prefix.as_deref() == Some(relation_name))
.cloned()
.collect();
if exact_match.len() == 1 {
return Ok(Some(exact_match.into_iter().next().unwrap()));
}
matching_relations.retain(|r| {
if let Some(prefix) = &r.prefix {
!relative.contains_key(prefix)
} else {
true
}
});
if matching_relations.len() == 1 {
Ok(Some(matching_relations.pop().unwrap()))
} else {
let constraints: Vec<_> = matching_relations
.iter()
.map(|r| r.constraint.clone())
.collect();
Err(format!(
"AMBIGUOUS_TYPE_RELATIONS: Could not reduce ambiguous type relations: {}",
constraints.join(", ")
))
}
}
fn get_entity_relation(
&self,
entity_type: &crate::database::r#type::Type,
relative: &serde_json::Map<String, Value>,
relation_name: &str,
) -> Result<Option<crate::database::relation::Relation>, String> {
let relative_type_name = match relative.get("type").and_then(|v| v.as_str()) {
Some(t) => t,
None => return Ok(None),
};
let relative_type = match self.db.types.get(relative_type_name) {
Some(t) => t,
None => return Ok(None),
};
let mut relative_relations: Vec<crate::database::relation::Relation> = Vec::new();
for r in self.db.relations.values() {
if r.source_type != "entity" && r.destination_type != "entity" {
let condition1 = relative_type.hierarchy.contains(&r.source_type)
&& entity_type.hierarchy.contains(&r.destination_type);
let condition2 = entity_type.hierarchy.contains(&r.source_type)
&& relative_type.hierarchy.contains(&r.destination_type);
if condition1 || condition2 {
relative_relations.push(r.clone());
}
}
}
let mut relative_relation =
self.reduce_entity_relations(relative_relations, relative, relation_name)?;
if relative_relation.is_none() {
let mut poly_relations: Vec<crate::database::relation::Relation> = Vec::new();
for r in self.db.relations.values() {
if r.destination_type == "entity" {
let condition1 = relative_type.hierarchy.contains(&r.source_type);
let condition2 = entity_type.hierarchy.contains(&r.source_type);
if condition1 || condition2 {
poly_relations.push(r.clone());
}
}
}
relative_relation = self.reduce_entity_relations(poly_relations, relative, relation_name)?;
}
Ok(relative_relation)
}
fn apply_entity_relation(
source_entity: &mut serde_json::Map<String, Value>,
source_columns: &[String],
destination_columns: &[String],
destination_entity: &serde_json::Map<String, Value>,
) {
if source_columns.len() != destination_columns.len() {
return;
}
for i in 0..source_columns.len() {
if let Some(dest_val) = destination_entity.get(&destination_columns[i]) {
source_entity.insert(source_columns[i].clone(), dest_val.clone());
}
}
}
fn quote_literal(val: &Value) -> String {
match val {
Value::Null => "NULL".to_string(),
Value::Bool(b) => {
if *b {
"true".to_string()
} else {
"false".to_string()
}
}
Value::Number(n) => {
if let Some(f) = n.as_f64() {
if f.fract() == 0.0 {
return f.trunc().to_string();
}
}
n.to_string()
}
Value::String(s) => {
if s.is_empty() {
"NULL".to_string()
} else {
format!("'{}'", s.replace('\'', "''"))
}
}
_ => format!(
"'{}'",
serde_json::to_string(val).unwrap().replace('\'', "''")
),
}
}
}

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src/queryer/compiler.rs Normal file
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@ -0,0 +1,541 @@
use crate::database::Database;
use std::sync::Arc;
pub struct SqlCompiler {
pub db: Arc<Database>,
}
impl SqlCompiler {
pub fn new(db: Arc<Database>) -> Self {
Self { db }
}
/// Compiles a JSON schema into a nested PostgreSQL query returning JSONB
pub fn compile(
&self,
schema_id: &str,
stem_path: Option<&str>,
filter_keys: &[String],
) -> Result<String, String> {
let schema = self
.db
.schemas
.get(schema_id)
.ok_or_else(|| format!("Schema not found: {}", schema_id))?;
let resolved_arc;
let target_schema = if let Some(path) = stem_path.filter(|p| !p.is_empty() && *p != "/") {
if let Some(stems_map) = self.db.stems.get(schema_id) {
if let Some(stem) = stems_map.get(path) {
resolved_arc = stem.schema.clone();
} else {
return Err(format!(
"Stem entity type '{}' not found in schema '{}'",
path, schema_id
));
}
} else {
return Err(format!(
"Stem entity type '{}' not found in schema '{}'",
path, schema_id
));
}
resolved_arc.as_ref()
} else {
schema
};
// We expect the top level to typically be an Object or Array
let is_stem_query = stem_path.is_some();
let (sql, _) = self.walk_schema(target_schema, "t1", None, filter_keys, is_stem_query, 0, String::new())?;
Ok(sql)
}
/// Recursively walks the schema AST emitting native PostgreSQL jsonb mapping
/// Returns a tuple of (SQL_String, Field_Type)
fn walk_schema(
&self,
schema: &crate::database::schema::Schema,
parent_alias: &str,
prop_name_context: Option<&str>,
filter_keys: &[String],
is_stem_query: bool,
depth: usize,
current_path: String,
) -> Result<(String, String), String> {
// Determine the base schema type (could be an array, object, or literal)
match &schema.obj.type_ {
Some(crate::database::schema::SchemaTypeOrArray::Single(t)) if t == "array" => {
// Handle Arrays:
if let Some(items) = &schema.obj.items {
let next_path = if current_path.is_empty() {
String::from("#")
} else {
format!("{}.#", current_path)
};
if let Some(ref_id) = &items.obj.r#ref {
if let Some(type_def) = self.db.types.get(ref_id) {
return self.compile_entity_node(
items,
type_def,
parent_alias,
prop_name_context,
true,
filter_keys,
is_stem_query,
depth,
next_path,
);
}
}
let (item_sql, _) = self.walk_schema(
items,
parent_alias,
prop_name_context,
filter_keys,
is_stem_query,
depth + 1,
next_path,
)?;
return Ok((
format!("(SELECT jsonb_agg({}) FROM TODO)", item_sql),
"array".to_string(),
));
}
Ok((
"SELECT jsonb_agg(TODO) FROM TODO".to_string(),
"array".to_string(),
))
}
_ => {
// Determine if this schema represents a Database Entity
let mut resolved_type = None;
// Target is generally a specific schema (e.g. 'base.person'), but it tells us what physical
// database table hierarchy it maps to via the `schema.id` prefix/suffix convention.
if let Some(lookup_key) = schema.obj.id.as_ref().or(schema.obj.r#ref.as_ref()) {
let base_type_name = lookup_key.split('.').next_back().unwrap_or("").to_string();
resolved_type = self.db.types.get(&base_type_name);
}
if let Some(type_def) = resolved_type {
return self.compile_entity_node(
schema,
type_def,
parent_alias,
prop_name_context,
false,
filter_keys,
is_stem_query,
depth,
current_path,
);
}
// Handle Direct Refs
if let Some(ref_id) = &schema.obj.r#ref {
// If it's just an ad-hoc struct ref, we should resolve it
if let Some(target_schema) = self.db.schemas.get(ref_id) {
return self.walk_schema(
target_schema,
parent_alias,
prop_name_context,
filter_keys,
is_stem_query,
depth,
current_path,
);
}
return Err(format!("Unresolved $ref: {}", ref_id));
}
// Just an inline object definition?
if let Some(props) = &schema.obj.properties {
return self.compile_inline_object(
props,
parent_alias,
filter_keys,
is_stem_query,
depth,
current_path,
);
}
// Literal fallback
Ok((
format!(
"{}.{}",
parent_alias,
prop_name_context.unwrap_or("unknown_prop")
),
"string".to_string(),
))
}
}
}
fn get_merged_properties(
&self,
schema: &crate::database::schema::Schema,
) -> std::collections::BTreeMap<String, Arc<crate::database::schema::Schema>> {
let mut props = std::collections::BTreeMap::new();
if let Some(ref_id) = &schema.obj.r#ref {
if let Some(parent_schema) = self.db.schemas.get(ref_id) {
props.extend(self.get_merged_properties(parent_schema));
}
}
if let Some(local_props) = &schema.obj.properties {
for (k, v) in local_props {
props.insert(k.clone(), v.clone());
}
}
props
}
fn compile_entity_node(
&self,
schema: &crate::database::schema::Schema,
type_def: &crate::database::r#type::Type,
parent_alias: &str,
prop_name: Option<&str>,
is_array: bool,
filter_keys: &[String],
is_stem_query: bool,
depth: usize,
current_path: String,
) -> Result<(String, String), String> {
let local_ctx = format!("{}_{}", parent_alias, prop_name.unwrap_or("obj"));
// 1. Build FROM clauses and table aliases
let (table_aliases, from_clauses) = self.build_hierarchy_from_clauses(type_def, &local_ctx);
// 2. Map properties and build jsonb_build_object args
let select_args = self.map_properties_to_aliases(
schema,
type_def,
&table_aliases,
parent_alias,
filter_keys,
is_stem_query,
depth,
&current_path,
)?;
let jsonb_obj_sql = if select_args.is_empty() {
"jsonb_build_object()".to_string()
} else {
format!("jsonb_build_object({})", select_args.join(", "))
};
// 3. Build WHERE clauses
let where_clauses = self.build_filter_where_clauses(
schema,
type_def,
&table_aliases,
parent_alias,
prop_name,
filter_keys,
&current_path,
)?;
let selection = if is_array {
format!("COALESCE(jsonb_agg({}), '[]'::jsonb)", jsonb_obj_sql)
} else {
jsonb_obj_sql
};
let full_sql = format!(
"(SELECT {} FROM {} WHERE {})",
selection,
from_clauses.join(" "),
where_clauses.join(" AND ")
);
Ok((
full_sql,
if is_array {
"array".to_string()
} else {
"object".to_string()
},
))
}
fn build_hierarchy_from_clauses(
&self,
type_def: &crate::database::r#type::Type,
local_ctx: &str,
) -> (std::collections::HashMap<String, String>, Vec<String>) {
let mut table_aliases = std::collections::HashMap::new();
let mut from_clauses = Vec::new();
for (i, table_name) in type_def.hierarchy.iter().enumerate() {
let alias = format!("{}_t{}", local_ctx, i + 1);
table_aliases.insert(table_name.clone(), alias.clone());
if i == 0 {
from_clauses.push(format!("agreego.{} {}", table_name, alias));
} else {
let prev_alias = format!("{}_t{}", local_ctx, i);
from_clauses.push(format!(
"JOIN agreego.{} {} ON {}.id = {}.id",
table_name, alias, alias, prev_alias
));
}
}
(table_aliases, from_clauses)
}
fn map_properties_to_aliases(
&self,
schema: &crate::database::schema::Schema,
type_def: &crate::database::r#type::Type,
table_aliases: &std::collections::HashMap<String, String>,
parent_alias: &str,
filter_keys: &[String],
is_stem_query: bool,
depth: usize,
current_path: &str,
) -> Result<Vec<String>, String> {
let mut select_args = Vec::new();
let grouped_fields = type_def.grouped_fields.as_ref().and_then(|v| v.as_object());
let merged_props = self.get_merged_properties(schema);
for (prop_key, prop_schema) in &merged_props {
let mut owner_alias = table_aliases
.get("entity")
.cloned()
.unwrap_or_else(|| format!("{}_t_err", parent_alias));
if let Some(gf) = grouped_fields {
for (t_name, fields_val) in gf {
if let Some(fields_arr) = fields_val.as_array() {
if fields_arr.iter().any(|v| v.as_str() == Some(prop_key)) {
owner_alias = table_aliases
.get(t_name)
.cloned()
.unwrap_or_else(|| parent_alias.to_string());
break;
}
}
}
}
let next_path = if current_path.is_empty() {
prop_key.clone()
} else {
format!("{}.{}", current_path, prop_key)
};
let (val_sql, val_type) = self.walk_schema(
prop_schema,
&owner_alias,
Some(prop_key),
filter_keys,
is_stem_query,
depth + 1,
next_path,
)?;
if val_type != "abort" {
select_args.push(format!("'{}', {}", prop_key, val_sql));
}
}
Ok(select_args)
}
fn build_filter_where_clauses(
&self,
schema: &crate::database::schema::Schema,
type_def: &crate::database::r#type::Type,
table_aliases: &std::collections::HashMap<String, String>,
parent_alias: &str,
prop_name: Option<&str>,
filter_keys: &[String],
current_path: &str,
) -> Result<Vec<String>, String> {
let base_alias = table_aliases
.get(&type_def.name)
.cloned()
.unwrap_or_else(|| "err".to_string());
let mut where_clauses = Vec::new();
where_clauses.push(format!("NOT {}.archived", base_alias));
for (i, filter_key) in filter_keys.iter().enumerate() {
let mut parts = filter_key.split(':');
let full_field_path = parts.next().unwrap_or(filter_key);
let op = parts.next().unwrap_or("$eq");
let field_name = if current_path.is_empty() {
if full_field_path.contains('.') || full_field_path.contains('#') {
continue;
}
full_field_path
} else {
let prefix = format!("{}.", current_path);
if full_field_path.starts_with(&prefix) {
let remainder = &full_field_path[prefix.len()..];
if remainder.contains('.') || remainder.contains('#') {
continue;
}
remainder
} else {
continue;
}
};
let mut filter_alias = base_alias.clone();
if let Some(gf) = type_def.grouped_fields.as_ref().and_then(|v| v.as_object()) {
for (t_name, fields_val) in gf {
if let Some(fields_arr) = fields_val.as_array() {
if fields_arr.iter().any(|v| v.as_str() == Some(field_name)) {
filter_alias = table_aliases
.get(t_name)
.cloned()
.unwrap_or_else(|| base_alias.clone());
break;
}
}
}
}
let mut is_ilike = false;
let mut cast = "";
if let Some(field_types) = type_def.field_types.as_ref().and_then(|v| v.as_object()) {
if let Some(pg_type_val) = field_types.get(field_name) {
if let Some(pg_type) = pg_type_val.as_str() {
if pg_type == "uuid" {
cast = "::uuid";
} else if pg_type == "boolean" || pg_type == "bool" {
cast = "::boolean";
} else if pg_type.contains("timestamp")
|| pg_type == "timestamptz"
|| pg_type == "date"
{
cast = "::timestamptz";
} else if pg_type == "numeric"
|| pg_type.contains("int")
|| pg_type == "real"
|| pg_type == "double precision"
{
cast = "::numeric";
} else if pg_type == "text" || pg_type.contains("char") {
let mut is_enum = false;
if let Some(props) = &schema.obj.properties {
if let Some(ps) = props.get(field_name) {
is_enum = ps.obj.enum_.is_some();
}
}
if !is_enum {
is_ilike = true;
}
}
}
}
}
let param_index = i + 1;
let p_val = format!("${}#>>'{{}}'", param_index);
if op == "$in" || op == "$nin" {
let sql_op = if op == "$in" { "IN" } else { "NOT IN" };
let subquery = format!(
"(SELECT value{} FROM jsonb_array_elements_text(({})::jsonb))",
cast, p_val
);
where_clauses.push(format!(
"{}.{} {} {}",
filter_alias, field_name, sql_op, subquery
));
} else {
let sql_op = match op {
"$eq" => {
if is_ilike {
"ILIKE"
} else {
"="
}
}
"$ne" => {
if is_ilike {
"NOT ILIKE"
} else {
"!="
}
}
"$gt" => ">",
"$gte" => ">=",
"$lt" => "<",
"$lte" => "<=",
_ => {
if is_ilike {
"ILIKE"
} else {
"="
}
}
};
let param_sql = if is_ilike && (op == "$eq" || op == "$ne") {
p_val
} else {
format!("({}){}", p_val, cast)
};
where_clauses.push(format!(
"{}.{} {} {}",
filter_alias, field_name, sql_op, param_sql
));
}
}
if let Some(_prop) = prop_name {
where_clauses.push(format!("{}.parent_id = {}.id", base_alias, parent_alias));
}
Ok(where_clauses)
}
fn compile_inline_object(
&self,
props: &std::collections::BTreeMap<String, std::sync::Arc<crate::database::schema::Schema>>,
parent_alias: &str,
filter_keys: &[String],
is_stem_query: bool,
depth: usize,
current_path: String,
) -> Result<(String, String), String> {
let mut build_args = Vec::new();
for (k, v) in props {
let next_path = if current_path.is_empty() {
k.clone()
} else {
format!("{}.{}", current_path, k)
};
let (child_sql, val_type) = self.walk_schema(
v,
parent_alias,
Some(k),
filter_keys,
is_stem_query,
depth + 1,
next_path,
)?;
if val_type == "abort" {
continue;
}
build_args.push(format!("'{}', {}", k, child_sql));
}
let combined = format!("jsonb_build_object({})", build_args.join(", "));
Ok((combined, "object".to_string()))
}
}

145
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@ -0,0 +1,145 @@
use crate::database::Database;
use std::sync::Arc;
pub mod compiler;
use dashmap::DashMap;
pub struct Queryer {
pub db: Arc<Database>,
cache: DashMap<String, String>,
}
impl Queryer {
pub fn new(db: Arc<Database>) -> Self {
Self {
db,
cache: DashMap::new(),
}
}
pub fn query(
&self,
schema_id: &str,
stem_opt: Option<&str>,
filters: Option<&serde_json::Value>,
) -> crate::drop::Drop {
let filters_map = filters.and_then(|f| f.as_object());
// 1. Process filters into structured $op keys and linear values
let (filter_keys, args) = match self.parse_filter_entries(filters_map) {
Ok(res) => res,
Err(msg) => {
return crate::drop::Drop::with_errors(vec![crate::drop::Error {
code: "FILTER_PARSE_FAILED".to_string(),
message: msg,
details: crate::drop::ErrorDetails {
path: schema_id.to_string(),
},
}]);
}
};
let stem_key = stem_opt.unwrap_or("/");
let cache_key = format!("{}(Stem:{}):{}", schema_id, stem_key, filter_keys.join(","));
// 2. Fetch from cache or compile
let sql = match self.get_or_compile_sql(&cache_key, schema_id, stem_opt, &filter_keys) {
Ok(sql) => sql,
Err(drop) => return drop,
};
// 3. Execute via Database Executor
self.execute_sql(schema_id, &sql, &args)
}
fn parse_filter_entries(
&self,
filters_map: Option<&serde_json::Map<String, serde_json::Value>>,
) -> Result<(Vec<String>, Vec<serde_json::Value>), String> {
let mut filter_entries: Vec<(String, serde_json::Value)> = Vec::new();
if let Some(fm) = filters_map {
for (key, val) in fm {
if let Some(obj) = val.as_object() {
for (op, op_val) in obj {
if !op.starts_with('$') {
return Err(format!("Filter operator must start with '$', got: {}", op));
}
filter_entries.push((format!("{}:{}", key, op), op_val.clone()));
}
} else {
return Err(format!(
"Filter for field '{}' must be an object with operators like $eq, $in, etc.",
key
));
}
}
}
filter_entries.sort_by(|a, b| a.0.cmp(&b.0));
let filter_keys: Vec<String> = filter_entries.iter().map(|(k, _)| k.clone()).collect();
let args: Vec<serde_json::Value> = filter_entries.into_iter().map(|(_, v)| v).collect();
Ok((filter_keys, args))
}
fn get_or_compile_sql(
&self,
cache_key: &str,
schema_id: &str,
stem_opt: Option<&str>,
filter_keys: &[String],
) -> Result<String, crate::drop::Drop> {
if let Some(cached_sql) = self.cache.get(cache_key) {
return Ok(cached_sql.value().clone());
}
let compiler = compiler::SqlCompiler::new(self.db.clone());
match compiler.compile(schema_id, stem_opt, filter_keys) {
Ok(compiled_sql) => {
self
.cache
.insert(cache_key.to_string(), compiled_sql.clone());
Ok(compiled_sql)
}
Err(e) => Err(crate::drop::Drop::with_errors(vec![crate::drop::Error {
code: "QUERY_COMPILATION_FAILED".to_string(),
message: e,
details: crate::drop::ErrorDetails {
path: schema_id.to_string(),
},
}])),
}
}
fn execute_sql(
&self,
schema_id: &str,
sql: &str,
args: &[serde_json::Value],
) -> crate::drop::Drop {
match self.db.query(sql, Some(args)) {
Ok(serde_json::Value::Array(table)) => {
if table.is_empty() {
crate::drop::Drop::success_with_val(serde_json::Value::Null)
} else {
crate::drop::Drop::success_with_val(table.first().unwrap().clone())
}
}
Ok(other) => crate::drop::Drop::with_errors(vec![crate::drop::Error {
code: "QUERY_FAILED".to_string(),
message: format!("Expected array from generic query, got: {:?}", other),
details: crate::drop::ErrorDetails {
path: schema_id.to_string(),
},
}]),
Err(e) => crate::drop::Drop::with_errors(vec![crate::drop::Error {
code: "QUERY_FAILED".to_string(),
message: format!("SPI error in queryer: {}", e),
details: crate::drop::ErrorDetails {
path: schema_id.to_string(),
},
}]),
}
}
}

50
src/registry.rs
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@ -1,50 +0,0 @@
use crate::schema::Schema;
use lazy_static::lazy_static;
use std::collections::HashMap;
use std::sync::RwLock;
lazy_static! {
pub static ref REGISTRY: RwLock<Registry> = RwLock::new(Registry::new());
}
use std::sync::Arc;
#[derive(Debug, Clone, Default)]
pub struct Registry {
pub schemas: HashMap<String, Arc<Schema>>,
}
impl Registry {
pub fn new() -> Self {
Registry {
schemas: HashMap::new(),
}
}
pub fn add(&mut self, schema: crate::schema::Schema) {
let id = schema
.obj
.id
.clone()
.expect("Schema must have an $id to be registered");
let compiled = crate::compiler::Compiler::compile(schema, Some(id.clone()));
self.schemas.insert(id, compiled);
}
pub fn insert(&mut self, id: String, schema: Arc<Schema>) {
// We allow overwriting for now to support re-compilation in tests/dev
self.schemas.insert(id, schema);
}
pub fn get(&self, id: &str) -> Option<Arc<Schema>> {
self.schemas.get(id).cloned()
}
pub fn clear(&mut self) {
self.schemas.clear();
}
pub fn len(&self) -> usize {
self.schemas.len()
}
}

219
src/schema.rs
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@ -1,219 +0,0 @@
use serde::{Deserialize, Serialize};
use serde_json::Value;
use std::collections::BTreeMap;
use std::sync::Arc;
// Schema mirrors the Go Punc Generator's schema struct for consistency.
// It is an order-preserving representation of a JSON Schema.
#[derive(Debug, Clone, Serialize, Deserialize, Default)]
pub struct SchemaObject {
// Core Schema Keywords
#[serde(rename = "$id")]
pub id: Option<String>,
#[serde(rename = "$ref")]
pub ref_string: Option<String>,
#[serde(rename = "$anchor")]
pub anchor: Option<String>,
#[serde(rename = "$dynamicAnchor")]
pub dynamic_anchor: Option<String>,
#[serde(rename = "$dynamicRef")]
pub dynamic_ref: Option<String>,
/*
Note: The `Ref` field in the Go struct is a pointer populated by the linker.
In Rust, we might handle this differently (e.g., separate lookup or Rc/Arc),
so we omit the direct recursive `Ref` field for now and rely on `ref_string`.
*/
pub description: Option<String>,
pub title: Option<String>,
#[serde(default)] // Allow missing type
#[serde(rename = "type")]
pub type_: Option<SchemaTypeOrArray>, // Handles string or array of strings
// Object Keywords
pub properties: Option<BTreeMap<String, Arc<Schema>>>,
#[serde(rename = "patternProperties")]
pub pattern_properties: Option<BTreeMap<String, Arc<Schema>>>,
#[serde(rename = "additionalProperties")]
pub additional_properties: Option<Arc<Schema>>,
pub required: Option<Vec<String>>,
// dependencies can be schema dependencies or property dependencies
pub dependencies: Option<BTreeMap<String, Dependency>>,
// Definitions (for $ref resolution)
#[serde(rename = "$defs")]
pub defs: Option<BTreeMap<String, Arc<Schema>>>,
#[serde(rename = "definitions")]
pub definitions: Option<BTreeMap<String, Arc<Schema>>>,
// Array Keywords
#[serde(rename = "items")]
pub items: Option<Arc<Schema>>,
#[serde(rename = "prefixItems")]
pub prefix_items: Option<Vec<Arc<Schema>>>,
// String Validation
#[serde(rename = "minLength")]
pub min_length: Option<f64>,
#[serde(rename = "maxLength")]
pub max_length: Option<f64>,
pub pattern: Option<String>,
// Array Validation
#[serde(rename = "minItems")]
pub min_items: Option<f64>,
#[serde(rename = "maxItems")]
pub max_items: Option<f64>,
#[serde(rename = "uniqueItems")]
pub unique_items: Option<bool>,
#[serde(rename = "contains")]
pub contains: Option<Arc<Schema>>,
#[serde(rename = "minContains")]
pub min_contains: Option<f64>,
#[serde(rename = "maxContains")]
pub max_contains: Option<f64>,
// Object Validation
#[serde(rename = "minProperties")]
pub min_properties: Option<f64>,
#[serde(rename = "maxProperties")]
pub max_properties: Option<f64>,
#[serde(rename = "propertyNames")]
pub property_names: Option<Arc<Schema>>,
#[serde(rename = "dependentRequired")]
pub dependent_required: Option<BTreeMap<String, Vec<String>>>,
#[serde(rename = "dependentSchemas")]
pub dependent_schemas: Option<BTreeMap<String, Arc<Schema>>>,
// Numeric Validation
pub format: Option<String>,
#[serde(rename = "enum")]
pub enum_: Option<Vec<Value>>, // `enum` is a reserved keyword in Rust
#[serde(
default,
rename = "const",
deserialize_with = "crate::util::deserialize_some"
)]
pub const_: Option<Value>,
// Numeric Validation
#[serde(rename = "multipleOf")]
pub multiple_of: Option<f64>,
pub minimum: Option<f64>,
pub maximum: Option<f64>,
#[serde(rename = "exclusiveMinimum")]
pub exclusive_minimum: Option<f64>,
#[serde(rename = "exclusiveMaximum")]
pub exclusive_maximum: Option<f64>,
// Combining Keywords
#[serde(rename = "allOf")]
pub all_of: Option<Vec<Arc<Schema>>>,
#[serde(rename = "anyOf")]
pub any_of: Option<Vec<Arc<Schema>>>,
#[serde(rename = "oneOf")]
pub one_of: Option<Vec<Arc<Schema>>>,
#[serde(rename = "not")]
pub not: Option<Arc<Schema>>,
#[serde(rename = "if")]
pub if_: Option<Arc<Schema>>,
#[serde(rename = "then")]
pub then_: Option<Arc<Schema>>,
#[serde(rename = "else")]
pub else_: Option<Arc<Schema>>,
// Custom Vocabularies
pub form: Option<Vec<String>>,
pub display: Option<Vec<String>>,
#[serde(rename = "enumNames")]
pub enum_names: Option<Vec<String>>,
pub control: Option<String>,
pub actions: Option<BTreeMap<String, Action>>,
pub computer: Option<String>,
#[serde(default)]
pub extensible: Option<bool>,
// Compiled Fields (Hidden from JSON/Serde)
#[serde(skip)]
pub compiled_format: Option<crate::compiler::CompiledFormat>,
#[serde(skip)]
pub compiled_pattern: Option<crate::compiler::CompiledRegex>,
#[serde(skip)]
pub compiled_pattern_properties: Option<Vec<(crate::compiler::CompiledRegex, Arc<Schema>)>>,
#[serde(skip)]
pub compiled_registry: Option<Arc<crate::registry::Registry>>,
}
#[derive(Debug, Clone, Serialize)]
pub struct Schema {
#[serde(flatten)]
pub obj: SchemaObject,
#[serde(skip)]
pub always_fail: bool,
}
impl Default for Schema {
fn default() -> Self {
Schema {
obj: SchemaObject::default(),
always_fail: false,
}
}
}
impl std::ops::Deref for Schema {
type Target = SchemaObject;
fn deref(&self) -> &Self::Target {
&self.obj
}
}
impl std::ops::DerefMut for Schema {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.obj
}
}
impl<'de> Deserialize<'de> for Schema {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: serde::Deserializer<'de>,
{
let v: Value = Deserialize::deserialize(deserializer)?;
if let Some(b) = v.as_bool() {
let mut obj = SchemaObject::default();
if b {
obj.extensible = Some(true);
}
return Ok(Schema {
obj,
always_fail: !b,
});
}
let obj: SchemaObject = serde_json::from_value(v.clone()).map_err(serde::de::Error::custom)?;
Ok(Schema {
obj,
always_fail: false,
})
}
}
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(untagged)]
pub enum SchemaTypeOrArray {
Single(String),
Multiple(Vec<String>),
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Action {
pub navigate: Option<String>,
pub punc: Option<String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
#[serde(untagged)]
pub enum Dependency {
Props(Vec<String>),
Schema(Arc<Schema>),
}

9258
src/tests/fixtures.rs
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94
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@ -0,0 +1,94 @@
use crate::*;
pub mod runner;
pub mod types;
use serde_json::json;
// Database module tests moved to src/database/executors/mock.rs
#[test]
fn test_library_api() {
// 1. Initially, schemas are not cached.
// Expected uninitialized drop format: errors + null response
let uninitialized_drop = jspg_validate("test_schema", JsonB(json!({})));
assert_eq!(
uninitialized_drop.0,
json!({
"type": "drop",
"errors": [{
"code": "ENGINE_NOT_INITIALIZED",
"message": "JSPG extension has not been initialized via jspg_setup",
"details": { "path": "" }
}]
})
);
// 2. Cache schemas
let db_json = json!({
"puncs": [],
"enums": [],
"relations": [],
"types": [{
"schemas": [{
"$id": "test_schema",
"type": "object",
"properties": {
"name": { "type": "string" }
},
"required": ["name"]
}]
}]
});
let cache_drop = jspg_setup(JsonB(db_json));
assert_eq!(
cache_drop.0,
json!({
"type": "drop",
"response": "success"
})
);
// 4. Validate Happy Path
let happy_drop = jspg_validate("test_schema", JsonB(json!({"name": "Neo"})));
assert_eq!(
happy_drop.0,
json!({
"type": "drop",
"response": "success"
})
);
// 5. Validate Unhappy Path
let unhappy_drop = jspg_validate("test_schema", JsonB(json!({"wrong": "data"})));
assert_eq!(
unhappy_drop.0,
json!({
"type": "drop",
"errors": [
{
"code": "REQUIRED_FIELD_MISSING",
"message": "Missing name",
"details": { "path": "/name" }
},
{
"code": "STRICT_PROPERTY_VIOLATION",
"message": "Unexpected property 'wrong'",
"details": { "path": "/wrong" }
}
]
})
);
// 6. Clear Schemas
let clear_drop = jspg_teardown();
assert_eq!(
clear_drop.0,
json!({
"type": "drop",
"response": "success"
})
);
}
include!("fixtures.rs");

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use serde::Deserialize;
use std::collections::HashMap;
use std::fs;
use std::sync::{Arc, OnceLock, RwLock};
#[derive(Debug, Deserialize)]
pub struct TestSuite {
#[allow(dead_code)]
pub description: String,
pub database: serde_json::Value,
pub tests: Vec<TestCase>,
}
use crate::tests::types::TestCase;
use serde_json::Value;
pub fn deserialize_some<'de, D>(deserializer: D) -> Result<Option<Value>, D::Error>
where
D: serde::Deserializer<'de>,
{
let v = Value::deserialize(deserializer)?;
Ok(Some(v))
}
// Type alias for easier reading
type CompiledSuite = Arc<Vec<(TestSuite, Arc<crate::database::Database>)>>;
// Global cache mapping filename -> Vector of (Parsed JSON suite, Compiled Database)
static CACHE: OnceLock<RwLock<HashMap<String, CompiledSuite>>> = OnceLock::new();
fn get_cached_file(path: &str) -> CompiledSuite {
let cache_lock = CACHE.get_or_init(|| RwLock::new(HashMap::new()));
let file_data = {
let read_guard = cache_lock.read().unwrap();
read_guard.get(path).cloned()
};
match file_data {
Some(data) => data,
None => {
let mut write_guard = cache_lock.write().unwrap();
// double check in case another thread compiled while we waited for lock
if let Some(data) = write_guard.get(path) {
data.clone()
} else {
let content =
fs::read_to_string(path).unwrap_or_else(|_| panic!("Failed to read file: {}", path));
let suites: Vec<TestSuite> = serde_json::from_str(&content)
.unwrap_or_else(|e| panic!("Failed to parse JSON in {}: {}", path, e));
let mut compiled_suites = Vec::new();
for suite in suites {
let db_result = crate::database::Database::new(&suite.database);
if let Err(drop) = db_result {
let error_messages: Vec<String> = drop
.errors
.into_iter()
.map(|e| format!("Error {} at path {}: {}", e.code, e.details.path, e.message))
.collect();
panic!(
"System Setup Compilation failed for {}:\n{}",
path,
error_messages.join("\n")
);
}
compiled_suites.push((suite, Arc::new(db_result.unwrap())));
}
let new_data = Arc::new(compiled_suites);
write_guard.insert(path.to_string(), new_data.clone());
new_data
}
}
}
}
pub fn run_test_case(path: &str, suite_idx: usize, case_idx: usize) -> Result<(), String> {
let file_data = get_cached_file(path);
if suite_idx >= file_data.len() {
panic!("Suite Index {} out of bounds for file {}", suite_idx, path);
}
let (group, db) = &file_data[suite_idx];
if case_idx >= group.tests.len() {
panic!(
"Case Index {} out of bounds for suite {} in file {}",
case_idx, suite_idx, path
);
}
let test = &group.tests[case_idx];
let mut failures = Vec::<String>::new();
// 4. Run Tests
match test.action.as_str() {
"compile" => {
let result = test.run_compile(db.clone());
if let Err(e) = result {
println!("TEST COMPILE ERROR FOR '{}': {}", test.description, e);
failures.push(format!(
"[{}] Compile Test '{}' failed. Error: {}",
group.description, test.description, e
));
}
}
"validate" => {
let result = test.run_validate(db.clone());
if let Err(e) = result {
println!("TEST VALIDATE ERROR FOR '{}': {}", test.description, e);
failures.push(format!(
"[{}] Validate Test '{}' failed. Error: {}",
group.description, test.description, e
));
}
}
"merge" => {
let result = test.run_merge(db.clone());
if let Err(e) = result {
println!("TEST MERGE ERROR FOR '{}': {}", test.description, e);
failures.push(format!(
"[{}] Merge Test '{}' failed. Error: {}",
group.description, test.description, e
));
}
}
"query" => {
let result = test.run_query(db.clone());
if let Err(e) = result {
println!("TEST QUERY ERROR FOR '{}': {}", test.description, e);
failures.push(format!(
"[{}] Query Test '{}' failed. Error: {}",
group.description, test.description, e
));
}
}
_ => {
failures.push(format!(
"[{}] Unknown action '{}' for test '{}'",
group.description, test.action, test.description
));
}
}
if !failures.is_empty() {
return Err(failures.join("\n"));
}
Ok(())
}

187
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use super::expect::ExpectBlock;
use crate::database::Database;
use serde::Deserialize;
use serde_json::Value;
use std::sync::Arc;
#[derive(Debug, Deserialize)]
pub struct TestCase {
pub description: String,
#[serde(default = "default_action")]
pub action: String, // "validate", "merge", or "query"
// For Validate & Query
#[serde(default)]
pub schema_id: String,
// For Query
#[serde(default)]
pub stem: Option<String>,
#[serde(default)]
pub filters: Option<serde_json::Value>,
// For Merge & Validate
#[serde(default)]
pub data: Option<serde_json::Value>,
// For Merge & Query mocks
#[serde(default)]
pub mocks: Option<serde_json::Value>,
pub expect: Option<ExpectBlock>,
}
fn default_action() -> String {
"validate".to_string()
}
impl TestCase {
pub fn run_compile(&self, db: Arc<Database>) -> Result<(), String> {
let expected_success = self.expect.as_ref().map(|e| e.success).unwrap_or(false);
// We assume db has already been setup and compiled successfully by runner.rs's `jspg_setup`
// We just need to check if there are compilation errors vs expected success
let got_success = true; // Setup ensures success unless setup fails, which runner handles
if expected_success != got_success {
return Err(format!(
"Expected success: {}, Got: {}",
expected_success, got_success
));
}
// Assert stems
if let Some(expect) = &self.expect {
if let Some(expected_stems) = &expect.stems {
// Convert the Db stems (HashMap<String, HashMap<String, Arc<Stem>>>) to matching JSON shape
let db_stems_json = serde_json::to_value(&db.stems).unwrap();
let expect_stems_json = serde_json::to_value(expected_stems).unwrap();
if db_stems_json != expect_stems_json {
let expected_pretty = serde_json::to_string_pretty(&expect_stems_json).unwrap();
let got_pretty = serde_json::to_string_pretty(&db_stems_json).unwrap();
return Err(format!(
"Stem validation failed.\nExpected:\n{}\n\nGot:\n{}",
expected_pretty, got_pretty
));
}
}
}
Ok(())
}
pub fn run_validate(&self, db: Arc<Database>) -> Result<(), String> {
use crate::validator::Validator;
let validator = Validator::new(db);
let expected_success = self.expect.as_ref().map(|e| e.success).unwrap_or(false);
let schema_id = &self.schema_id;
if !validator.db.schemas.contains_key(schema_id) {
return Err(format!(
"Missing Schema: Cannot find schema ID '{}'",
schema_id
));
}
let test_data = self.data.clone().unwrap_or(Value::Null);
let result = validator.validate(schema_id, &test_data);
let got_valid = result.errors.is_empty();
if got_valid != expected_success {
let error_msg = if result.errors.is_empty() {
"None".to_string()
} else {
format!("{:?}", result.errors)
};
return Err(format!(
"Expected: {}, Got: {}. Errors: {}",
expected_success, got_valid, error_msg
));
}
Ok(())
}
pub fn run_merge(&self, db: Arc<Database>) -> Result<(), String> {
if let Some(mocks) = &self.mocks {
if let Some(arr) = mocks.as_array() {
db.executor.set_mocks(arr.clone());
}
}
use crate::merger::Merger;
let merger = Merger::new(db.clone());
let test_data = self.data.clone().unwrap_or(Value::Null);
let result = merger.merge(test_data);
let expected_success = self.expect.as_ref().map(|e| e.success).unwrap_or(false);
let got_success = result.errors.is_empty();
let error_msg = if result.errors.is_empty() {
"None".to_string()
} else {
format!("{:?}", result.errors)
};
let return_val = if expected_success != got_success {
Err(format!(
"Merge Expected: {}, Got: {}. Errors: {}",
expected_success, got_success, error_msg
))
} else if let Some(expect) = &self.expect {
let queries = db.executor.get_queries();
expect.assert_sql(&queries)
} else {
Ok(())
};
db.executor.reset_mocks();
return_val
}
pub fn run_query(&self, db: Arc<Database>) -> Result<(), String> {
if let Some(mocks) = &self.mocks {
if let Some(arr) = mocks.as_array() {
db.executor.set_mocks(arr.clone());
}
}
use crate::queryer::Queryer;
let queryer = Queryer::new(db.clone());
let stem_opt = self.stem.as_deref();
let result = queryer.query(&self.schema_id, stem_opt, self.filters.as_ref());
let expected_success = self.expect.as_ref().map(|e| e.success).unwrap_or(false);
let got_success = result.errors.is_empty();
let error_msg = if result.errors.is_empty() {
"None".to_string()
} else {
format!("{:?}", result.errors)
};
let return_val = if expected_success != got_success {
Err(format!(
"Query Expected: {}, Got: {}. Errors: {}",
expected_success, got_success, error_msg
))
} else if let Some(expect) = &self.expect {
let queries = db.executor.get_queries();
expect.assert_sql(&queries)
} else {
Ok(())
};
db.executor.reset_mocks();
return_val
}
}

149
src/tests/types/expect.rs Normal file
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@ -0,0 +1,149 @@
use regex::Regex;
use serde::Deserialize;
use std::collections::HashMap;
#[derive(Debug, Deserialize)]
#[serde(untagged)]
pub enum SqlExpectation {
Single(String),
Multi(Vec<String>),
}
#[derive(Debug, Deserialize)]
pub struct ExpectBlock {
pub success: bool,
pub result: Option<serde_json::Value>,
pub errors: Option<Vec<serde_json::Value>>,
pub stems: Option<HashMap<String, HashMap<String, serde_json::Value>>>,
#[serde(default)]
pub sql: Option<Vec<SqlExpectation>>,
}
impl ExpectBlock {
/// Advanced SQL execution assertion algorithm ported from `assert.go`.
/// This compares two arrays of strings, one containing {{uuid:name}} or {{timestamp}} placeholders,
/// and the other containing actual executed database queries. It ensures that placeholder UUIDs
/// are consistently mapped to the same actual UUIDs across all lines, and strictly validates line-by-line sequences.
pub fn assert_sql(&self, actual: &[String]) -> Result<(), String> {
let patterns = match &self.sql {
Some(s) => s,
None => return Ok(()),
};
if patterns.len() != actual.len() {
return Err(format!(
"Length mismatch: expected {} SQL executions, got {}.\nActual Execution Log:\n{}",
patterns.len(),
actual.len(),
actual.join("\n")
));
}
let ws_re = Regex::new(r"\s+").unwrap();
let types = HashMap::from([
(
"uuid",
r"[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}",
),
(
"timestamp",
r"\d{4}-\d{2}-\d{2}(?:[ T])\d{2}:\d{2}:\d{2}(?:\.\d{1,6})?(?:Z|\+\d{2}(?::\d{2})?)?",
),
("integer", r"-?\d+"),
("float", r"-?\d+\.\d+"),
("text", r"(?:''|[^'])*"),
("json", r"(?:''|[^'])*"),
]);
let mut seen: HashMap<String, String> = HashMap::new();
let system_uuid = "00000000-0000-0000-0000-000000000000";
// Placeholder regex: {{type:name}} or {{type}}
let ph_rx = Regex::new(r"\{\{([a-z]+)(?:[:]([^}]+))?\}\}").unwrap();
let clean_str = |s: &str| -> String {
let mut s = ws_re.replace_all(s, " ").into_owned();
for token in ["(", ")", ",", "{", "}", "\"", "=", "'"] {
s = s.replace(&format!(" {}", token), token);
s = s.replace(&format!("{} ", token), token);
}
s.trim().to_string()
};
for (i, pattern_expect) in patterns.iter().enumerate() {
let aline_raw = &actual[i];
let aline = clean_str(aline_raw);
let pattern_str_raw = match pattern_expect {
SqlExpectation::Single(s) => s.clone(),
SqlExpectation::Multi(m) => m.join(" "),
};
let pattern_str = clean_str(&pattern_str_raw);
let mut pp = regex::escape(&pattern_str);
pp = pp.replace(r"\{\{", "{{").replace(r"\}\}", "}}");
let mut cap_names = HashMap::new(); // cg_X -> var_name
let mut group_idx = 0;
let mut final_rx_str = String::new();
let mut last_match = 0;
let pp_clone = pp.clone();
for caps in ph_rx.captures_iter(&pp_clone) {
let full_match = caps.get(0).unwrap();
final_rx_str.push_str(&pp[last_match..full_match.start()]);
let type_name = caps.get(1).unwrap().as_str();
let var_name = caps.get(2).map(|m| m.as_str());
if let Some(name) = var_name {
if let Some(val) = seen.get(name) {
final_rx_str.push_str(&regex::escape(val));
} else {
let type_pattern = types.get(type_name).unwrap_or(&".*?");
let cg_name = format!("cg_{}", group_idx);
final_rx_str.push_str(&format!("(?P<{}>{})", cg_name, type_pattern));
cap_names.insert(cg_name, name.to_string());
group_idx += 1;
}
} else {
let type_pattern = types.get(type_name).unwrap_or(&".*?");
final_rx_str.push_str(&format!("(?:{})", type_pattern));
}
last_match = full_match.end();
}
final_rx_str.push_str(&pp[last_match..]);
let final_rx = match Regex::new(&format!("^{}$", final_rx_str)) {
Ok(r) => r,
Err(e) => return Err(format!("Bad constructed regex: {} -> {}", final_rx_str, e)),
};
if let Some(captures) = final_rx.captures(&aline) {
for (cg_name, var_name) in cap_names {
if let Some(m) = captures.name(&cg_name) {
let matched_str = m.as_str();
if matched_str != system_uuid {
seen.insert(var_name, matched_str.to_string());
}
}
}
} else {
return Err(format!(
"Line mismatched at execution sequence {}.\nExpected Pattern: {}\nActual SQL: {}\nRegex used: {}\nVariables Mapped: {:?}",
i + 1,
pattern_str,
aline,
final_rx_str,
seen
));
}
}
Ok(())
}
}

7
src/tests/types/mod.rs Normal file
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@ -0,0 +1,7 @@
pub mod case;
pub mod expect;
pub mod suite;
pub use case::TestCase;
pub use expect::ExpectBlock;
pub use suite::TestSuite;

10
src/tests/types/suite.rs Normal file
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@ -0,0 +1,10 @@
use super::case::TestCase;
use serde::Deserialize;
#[derive(Debug, Deserialize)]
pub struct TestSuite {
#[allow(dead_code)]
pub description: String,
pub database: serde_json::Value,
pub tests: Vec<TestCase>,
}

457
src/util.rs
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@ -1,457 +0,0 @@
use serde::Deserialize;
use std::fs;
#[derive(Debug, Deserialize)]
struct TestSuite {
#[allow(dead_code)]
description: String,
schema: Option<serde_json::Value>,
// Support JSPG-style test suites with explicit types/enums/puncs
types: Option<serde_json::Value>,
enums: Option<serde_json::Value>,
puncs: Option<serde_json::Value>,
tests: Vec<TestCase>,
}
#[derive(Debug, Deserialize)]
struct TestCase {
description: String,
data: serde_json::Value,
valid: bool,
// Support explicit schema ID target for test case
schema_id: Option<String>,
// Expected output for masking tests
#[allow(dead_code)]
expected: Option<serde_json::Value>,
}
// use crate::registry::REGISTRY; // No longer used directly for tests!
use crate::validator::Validator;
use serde_json::Value;
pub fn deserialize_some<'de, D>(deserializer: D) -> Result<Option<Value>, D::Error>
where
D: serde::Deserializer<'de>,
{
let v = Value::deserialize(deserializer)?;
Ok(Some(v))
}
pub fn run_test_file_at_index(path: &str, index: usize) -> Result<(), String> {
let content =
fs::read_to_string(path).unwrap_or_else(|_| panic!("Failed to read file: {}", path));
let suite: Vec<TestSuite> = serde_json::from_str(&content)
.unwrap_or_else(|e| panic!("Failed to parse JSON in {}: {}", path, e));
if index >= suite.len() {
panic!("Index {} out of bounds for file {}", index, path);
}
let group = &suite[index];
let mut failures = Vec::<String>::new();
// Create Local Registry for this test group
let mut registry = crate::registry::Registry::new();
// Helper to register items with 'schemas'
let register_schemas = |registry: &mut crate::registry::Registry, items_val: Option<&Value>| {
if let Some(val) = items_val {
if let Value::Array(arr) = val {
for item in arr {
if let Some(schemas_val) = item.get("schemas") {
if let Value::Array(schemas) = schemas_val {
for schema_val in schemas {
if let Ok(schema) =
serde_json::from_value::<crate::schema::Schema>(schema_val.clone())
{
registry.add(schema);
}
}
}
}
}
}
}
};
// 1. Register Family Schemas if 'types' is present
if let Some(types_val) = &group.types {
if let Value::Array(arr) = types_val {
let mut family_map: std::collections::HashMap<String, std::collections::HashSet<String>> =
std::collections::HashMap::new();
for item in arr {
if let Some(name) = item.get("name").and_then(|v| v.as_str()) {
if let Some(hierarchy) = item.get("hierarchy").and_then(|v| v.as_array()) {
for ancestor in hierarchy {
if let Some(anc_str) = ancestor.as_str() {
family_map
.entry(anc_str.to_string())
.or_default()
.insert(name.to_string());
}
}
}
}
}
for (family_name, members) in family_map {
let id = format!("{}.family", family_name);
let object_refs: Vec<Value> = members
.iter()
.map(|s| serde_json::json!({ "$ref": s }))
.collect();
let schema_json = serde_json::json!({
"$id": id,
"oneOf": object_refs
});
if let Ok(schema) = serde_json::from_value::<crate::schema::Schema>(schema_json) {
registry.add(schema);
}
}
}
}
// 2. Register items directly
register_schemas(&mut registry, group.enums.as_ref());
register_schemas(&mut registry, group.types.as_ref());
register_schemas(&mut registry, group.puncs.as_ref());
// 3. Register root 'schemas' if present (generic test support)
// Some tests use a raw 'schema' or 'schemas' field at the group level
if let Some(schema_val) = &group.schema {
match serde_json::from_value::<crate::schema::Schema>(schema_val.clone()) {
Ok(mut schema) => {
let id_clone = schema.obj.id.clone();
if id_clone.is_some() {
registry.add(schema);
} else {
// Fallback ID if none provided in schema
let id = format!("test:{}:{}", path, index);
schema.obj.id = Some(id);
registry.add(schema);
}
}
Err(e) => {
eprintln!(
"DEBUG: FAILED to deserialize group schema for index {}: {}",
index, e
);
}
}
}
// Create Validator Instance (Takes ownership of registry)
let validator = Validator::new(registry);
// 4. Run Tests
for (_test_index, test) in group.tests.iter().enumerate() {
let mut schema_id = test.schema_id.clone();
// If no explicit schema_id, try to infer from the single schema in the group
if schema_id.is_none() {
if let Some(s) = &group.schema {
// If 'schema' is a single object, use its ID or "root"
if let Some(obj) = s.as_object() {
if let Some(id_val) = obj.get("$id") {
schema_id = id_val.as_str().map(|s| s.to_string());
}
}
if schema_id.is_none() {
schema_id = Some(format!("test:{}:{}", path, index));
}
}
}
// Default to the first punc if present (for puncs.json style)
if schema_id.is_none() {
if let Some(Value::Array(puncs)) = &group.puncs {
if let Some(first_punc) = puncs.first() {
if let Some(Value::Array(schemas)) = first_punc.get("schemas") {
if let Some(first_schema) = schemas.first() {
if let Some(id) = first_schema.get("$id").and_then(|v| v.as_str()) {
schema_id = Some(id.to_string());
}
}
}
}
}
}
if let Some(sid) = schema_id {
let result = validator.validate(&sid, &test.data);
let (got_valid, _errors) = match &result {
Ok(res) => (res.is_valid(), &res.errors),
Err(_e) => {
// If we encounter an execution error (e.g. Schema Not Found),
// we treat it as a test failure.
(false, &vec![])
}
};
if let Some(expected) = &test.expected {
// Masking Test
let mut data_for_mask = test.data.clone();
match validator.mask(&sid, &mut data_for_mask) {
Ok(_) => {
if !equals(&data_for_mask, expected) {
let msg = format!(
"Masking Test '{}' failed.\nExpected: {:?}\nGot: {:?}",
test.description, expected, data_for_mask
);
eprintln!("{}", msg);
failures.push(msg);
}
}
Err(e) => {
let msg = format!(
"Masking Test '{}' failed with execution error: {:?}",
test.description, e
);
eprintln!("{}", msg);
failures.push(msg);
}
}
} else {
// Standard Validation Test
if got_valid != test.valid {
let error_msg = match &result {
Ok(res) => format!("{:?}", res.errors),
Err(e) => format!("Execution Error: {:?}", e),
};
failures.push(format!(
"[{}] Test '{}' failed. Expected: {}, Got: {}. Errors: {}",
group.description, test.description, test.valid, got_valid, error_msg
));
}
}
} else {
failures.push(format!(
"[{}] Test '{}' skipped: No schema ID found.",
group.description, test.description
));
}
}
if !failures.is_empty() {
return Err(failures.join("\n"));
}
Ok(())
}
pub fn run_test_file(path: &str) -> Result<(), String> {
let content =
fs::read_to_string(path).unwrap_or_else(|_| panic!("Failed to read file: {}", path));
let suite: Vec<TestSuite> = serde_json::from_str(&content)
.unwrap_or_else(|e| panic!("Failed to parse JSON in {}: {}", path, e));
let mut failures = Vec::<String>::new();
for (group_index, group) in suite.into_iter().enumerate() {
// Create Isolated Registry for this test group
let mut registry = crate::registry::Registry::new();
// Helper to register items with 'schemas'
let register_schemas = |registry: &mut crate::registry::Registry, items_val: Option<Value>| {
if let Some(val) = items_val {
if let Value::Array(arr) = val {
for item in arr {
if let Some(schemas_val) = item.get("schemas") {
if let Value::Array(schemas) = schemas_val {
for schema_val in schemas {
if let Ok(schema) =
serde_json::from_value::<crate::schema::Schema>(schema_val.clone())
{
registry.add(schema);
}
}
}
}
}
}
}
};
// 1. Register Family Schemas if 'types' is present
if let Some(types_val) = &group.types {
if let Value::Array(arr) = types_val {
let mut family_map: std::collections::HashMap<String, std::collections::HashSet<String>> =
std::collections::HashMap::new();
for item in arr {
if let Some(name) = item.get("name").and_then(|v| v.as_str()) {
// Default hierarchy contains self if not specified?
// Usually hierarchy is explicit in these tests.
if let Some(hierarchy) = item.get("hierarchy").and_then(|v| v.as_array()) {
for ancestor in hierarchy {
if let Some(anc_str) = ancestor.as_str() {
family_map
.entry(anc_str.to_string())
.or_default()
.insert(name.to_string());
}
}
}
}
}
for (family_name, members) in family_map {
let id = format!("{}.family", family_name);
let object_refs: Vec<Value> = members
.into_iter()
.map(|s| serde_json::json!({ "$ref": s }))
.collect();
let schema_json = serde_json::json!({
"$id": id,
"oneOf": object_refs
});
if let Ok(schema) = serde_json::from_value::<crate::schema::Schema>(schema_json) {
registry.add(schema);
}
}
}
}
// Register 'types', 'enums', and 'puncs' if present (JSPG style)
register_schemas(&mut registry, group.types);
register_schemas(&mut registry, group.enums);
register_schemas(&mut registry, group.puncs);
// Register main 'schema' if present (Standard style)
// Ensure ID is a valid URI to avoid Url::parse errors in Compiler
let unique_id = format!("test:{}:{}", path, group_index);
// Register main 'schema' if present (Standard style)
if let Some(ref schema_val) = group.schema {
let mut schema: crate::schema::Schema =
serde_json::from_value(schema_val.clone()).expect("Failed to parse test schema");
// If schema has no ID, assign unique_id and use add() or manual insert?
// Compiler needs ID. Registry::add needs ID.
if schema.obj.id.is_none() {
schema.obj.id = Some(unique_id.clone());
}
registry.add(schema);
}
// Create Instance (Takes Ownership)
let validator = Validator::new(registry);
for test in group.tests {
// Use explicit schema_id from test, or default to unique_id
let schema_id = test.schema_id.as_deref().unwrap_or(&unique_id).to_string();
let result = validator.validate(&schema_id, &test.data);
if test.valid {
match result {
Ok(res) => {
if !res.is_valid() {
let msg = format!(
"Test failed (expected valid): {}\nSchema: {:?}\nData: {:?}\nErrors: {:?}",
test.description,
group.schema, // We might need to find the actual schema used if schema_id is custom
test.data,
res.errors
);
eprintln!("{}", msg);
failures.push(msg);
}
}
Err(e) => {
let msg = format!(
"Test failed (expected valid) but got execution error: {}\nSchema: {:?}\nData: {:?}\nError: {:?}",
test.description, group.schema, test.data, e
);
eprintln!("{}", msg);
failures.push(msg);
}
}
} else {
match result {
Ok(res) => {
if res.is_valid() {
let msg = format!(
"Test failed (expected invalid): {}\nSchema: {:?}\nData: {:?}",
test.description, group.schema, test.data
);
eprintln!("{}", msg);
failures.push(msg);
}
}
Err(_) => {
// Expected invalid, got error (which implies invalid/failure), so this is PASS.
}
}
}
}
}
if !failures.is_empty() {
return Err(format!(
"{} tests failed in file {}:\n\n{}",
failures.len(),
path,
failures.join("\n\n")
));
}
Ok(())
}
pub fn is_integer(v: &Value) -> bool {
match v {
Value::Number(n) => {
n.is_i64() || n.is_u64() || n.as_f64().filter(|n| n.fract() == 0.0).is_some()
}
_ => false,
}
}
/// serde_json treats 0 and 0.0 not equal. so we cannot simply use v1==v2
pub fn equals(v1: &Value, v2: &Value) -> bool {
// eprintln!("Comparing {:?} with {:?}", v1, v2);
match (v1, v2) {
(Value::Null, Value::Null) => true,
(Value::Bool(b1), Value::Bool(b2)) => b1 == b2,
(Value::Number(n1), Value::Number(n2)) => {
if let (Some(n1), Some(n2)) = (n1.as_u64(), n2.as_u64()) {
return n1 == n2;
}
if let (Some(n1), Some(n2)) = (n1.as_i64(), n2.as_i64()) {
return n1 == n2;
}
if let (Some(n1), Some(n2)) = (n1.as_f64(), n2.as_f64()) {
return (n1 - n2).abs() < f64::EPSILON;
}
false
}
(Value::String(s1), Value::String(s2)) => s1 == s2,
(Value::Array(arr1), Value::Array(arr2)) => {
if arr1.len() != arr2.len() {
return false;
}
arr1.iter().zip(arr2).all(|(e1, e2)| equals(e1, e2))
}
(Value::Object(obj1), Value::Object(obj2)) => {
if obj1.len() != obj2.len() {
return false;
}
for (k1, v1) in obj1 {
if let Some(v2) = obj2.get(k1) {
if !equals(v1, v2) {
return false;
}
} else {
return false;
}
}
true
}
_ => false,
}
}

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82
src/validator/context.rs Normal file
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@ -0,0 +1,82 @@
use crate::database::Database;
use crate::database::schema::Schema;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
use std::collections::HashSet;
use std::sync::Arc;
pub struct ValidationContext<'a> {
pub db: &'a Arc<Database>,
pub root: &'a Schema,
pub schema: &'a Schema,
pub instance: &'a serde_json::Value,
pub path: String,
pub depth: usize,
pub extensible: bool,
pub reporter: bool,
pub overrides: HashSet<String>,
}
impl<'a> ValidationContext<'a> {
pub fn new(
db: &'a Arc<Database>,
root: &'a Schema,
schema: &'a Schema,
instance: &'a serde_json::Value,
overrides: HashSet<String>,
extensible: bool,
reporter: bool,
) -> Self {
let effective_extensible = schema.extensible.unwrap_or(extensible);
Self {
db,
root,
schema,
instance,
path: String::new(),
depth: 0,
extensible: effective_extensible,
reporter,
overrides,
}
}
pub fn derive(
&self,
schema: &'a Schema,
instance: &'a serde_json::Value,
path: &str,
overrides: HashSet<String>,
extensible: bool,
reporter: bool,
) -> Self {
let effective_extensible = schema.extensible.unwrap_or(extensible);
Self {
db: self.db,
root: self.root,
schema,
instance,
path: path.to_string(),
depth: self.depth + 1,
extensible: effective_extensible,
reporter,
overrides,
}
}
pub fn derive_for_schema(&self, schema: &'a Schema, reporter: bool) -> Self {
self.derive(
schema,
self.instance,
&self.path,
HashSet::new(),
self.extensible,
reporter,
)
}
pub fn validate(&self) -> Result<ValidationResult, ValidationError> {
self.validate_scoped()
}
}

6
src/validator/error.rs Normal file
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@ -0,0 +1,6 @@
#[derive(Debug, Clone, serde::Serialize)]
pub struct ValidationError {
pub code: String,
pub message: String,
pub path: String,
}

98
src/validator/instance.rs Normal file
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@ -0,0 +1,98 @@
use serde_json::Value;
use HashSet;
use std::ptr::NonNull;
pub trait ValidationInstance<'a>: Copy + Clone {
fn as_value(&self) -> &'a Value;
fn child_at_key(&self, key: &str) -> Option<Self>;
fn child_at_index(&self, idx: usize) -> Option<Self>;
fn prune_object(&self, _keys: &HashSet<String>) {}
fn prune_array(&self, _indices: &HashSet<usize>) {}
}
#[derive(Clone, Copy)]
pub struct ReadOnlyInstance<'a>(pub &'a Value);
impl<'a> ValidationInstance<'a> for ReadOnlyInstance<'a> {
fn as_value(&self) -> &'a Value {
self.0
}
fn child_at_key(&self, key: &str) -> Option<Self> {
self.0.get(key).map(ReadOnlyInstance)
}
fn child_at_index(&self, idx: usize) -> Option<Self> {
self.0.get(idx).map(ReadOnlyInstance)
}
}
#[derive(Clone, Copy)]
pub struct MutableInstance {
ptr: NonNull<Value>,
}
impl MutableInstance {
pub fn new(val: &mut Value) -> Self {
Self {
ptr: NonNull::from(val),
}
}
}
impl<'a> ValidationInstance<'a> for MutableInstance {
fn as_value(&self) -> &'a Value {
unsafe { self.ptr.as_ref() }
}
fn child_at_key(&self, key: &str) -> Option<Self> {
unsafe {
if let Some(obj) = self.ptr.as_ref().as_object() {
if obj.contains_key(key) {
let parent_mut = &mut *self.ptr.as_ptr();
if let Some(child_val) = parent_mut.get_mut(key) {
return Some(MutableInstance::new(child_val));
}
}
}
None
}
}
fn child_at_index(&self, idx: usize) -> Option<Self> {
unsafe {
if let Some(arr) = self.ptr.as_ref().as_array() {
if idx < arr.len() {
let parent_mut = &mut *self.ptr.as_ptr();
if let Some(child_val) = parent_mut.get_mut(idx) {
return Some(MutableInstance::new(child_val));
}
}
}
None
}
}
fn prune_object(&self, keys: &HashSet<String>) {
unsafe {
let val_mut = &mut *self.ptr.as_ptr();
if let Some(obj) = val_mut.as_object_mut() {
obj.retain(|k, _| keys.contains(k));
}
}
}
fn prune_array(&self, indices: &HashSet<usize>) {
unsafe {
let val_mut = &mut *self.ptr.as_ptr();
if let Some(arr) = val_mut.as_array_mut() {
let mut i = 0;
arr.retain(|_| {
let keep = indices.contains(&i);
i += 1;
keep
});
}
}
}
}

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use std::collections::HashSet;
pub mod context;
pub mod error;
pub mod result;
pub mod rules;
pub use context::ValidationContext;
pub use error::ValidationError;
pub use result::ValidationResult;
use crate::database::Database;
use crate::validator::rules::util::is_integer;
use serde_json::Value;
use std::sync::Arc;
pub struct Validator {
pub db: Arc<Database>,
}
impl Validator {
pub fn new(db: Arc<Database>) -> Self {
Self { db }
}
pub fn get_schema_ids(&self) -> Vec<String> {
self.db.schemas.keys().cloned().collect()
}
pub fn check_type(t: &str, val: &Value) -> bool {
if let Value::String(s) = val
&& s.is_empty()
{
return true;
}
match t {
"null" => val.is_null(),
"boolean" => val.is_boolean(),
"string" => val.is_string(),
"number" => val.is_number(),
"integer" => is_integer(val),
"object" => val.is_object(),
"array" => val.is_array(),
_ => true,
}
}
pub fn validate(&self, schema_id: &str, instance: &Value) -> crate::drop::Drop {
if let Some(schema) = self.db.schemas.get(schema_id) {
let ctx = ValidationContext::new(
&self.db,
schema,
schema,
instance,
HashSet::new(),
false,
false,
);
match ctx.validate_scoped() {
Ok(result) => {
if result.is_valid() {
crate::drop::Drop::success()
} else {
let errors: Vec<crate::drop::Error> = result
.errors
.into_iter()
.map(|e| crate::drop::Error {
code: e.code,
message: e.message,
details: crate::drop::ErrorDetails { path: e.path },
})
.collect();
crate::drop::Drop::with_errors(errors)
}
}
Err(e) => crate::drop::Drop::with_errors(vec![crate::drop::Error {
code: e.code,
message: e.message,
details: crate::drop::ErrorDetails { path: e.path },
}]),
}
} else {
crate::drop::Drop::with_errors(vec![crate::drop::Error {
code: "SCHEMA_NOT_FOUND".to_string(),
message: format!("Schema {} not found", schema_id),
details: crate::drop::ErrorDetails {
path: "".to_string(),
},
}])
}
}
}

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use std::collections::HashSet;
use crate::validator::error::ValidationError;
#[derive(Debug, Default, Clone, serde::Serialize)]
pub struct ValidationResult {
pub errors: Vec<ValidationError>,
#[serde(skip)]
pub evaluated_keys: HashSet<String>,
#[serde(skip)]
pub evaluated_indices: HashSet<usize>,
}
impl ValidationResult {
pub fn new() -> Self {
Self::default()
}
pub fn merge(&mut self, other: ValidationResult) {
self.errors.extend(other.errors);
self.evaluated_keys.extend(other.evaluated_keys);
self.evaluated_indices.extend(other.evaluated_indices);
}
pub fn is_valid(&self) -> bool {
self.errors.is_empty()
}
}

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use std::collections::HashSet;
use serde_json::Value;
use crate::validator::context::ValidationContext;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
impl<'a> ValidationContext<'a> {
pub(crate) fn validate_array(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
let current = self.instance;
if let Some(arr) = current.as_array() {
if let Some(min) = self.schema.min_items
&& (arr.len() as f64) < min
{
result.errors.push(ValidationError {
code: "MIN_ITEMS".to_string(),
message: "Too few items".to_string(),
path: self.path.to_string(),
});
}
if let Some(max) = self.schema.max_items
&& (arr.len() as f64) > max
{
result.errors.push(ValidationError {
code: "MAX_ITEMS".to_string(),
message: "Too many items".to_string(),
path: self.path.to_string(),
});
}
if self.schema.unique_items.unwrap_or(false) {
let mut seen: Vec<&Value> = Vec::new();
for item in arr {
if seen.contains(&item) {
result.errors.push(ValidationError {
code: "UNIQUE_ITEMS_VIOLATED".to_string(),
message: "Array has duplicate items".to_string(),
path: self.path.to_string(),
});
break;
}
seen.push(item);
}
}
if let Some(ref contains_schema) = self.schema.contains {
let mut _match_count = 0;
for (i, child_instance) in arr.iter().enumerate() {
let derived = self.derive(
contains_schema,
child_instance,
&self.path,
HashSet::new(),
self.extensible,
false,
);
let check = derived.validate()?;
if check.is_valid() {
_match_count += 1;
result.evaluated_indices.insert(i);
}
}
let min = self.schema.min_contains.unwrap_or(1.0) as usize;
if _match_count < min {
result.errors.push(ValidationError {
code: "CONTAINS_VIOLATED".to_string(),
message: format!("Contains matches {} < min {}", _match_count, min),
path: self.path.to_string(),
});
}
if let Some(max) = self.schema.max_contains
&& _match_count > max as usize
{
result.errors.push(ValidationError {
code: "CONTAINS_VIOLATED".to_string(),
message: format!("Contains matches {} > max {}", _match_count, max),
path: self.path.to_string(),
});
}
}
let len = arr.len();
let mut validation_index = 0;
if let Some(ref prefix) = self.schema.prefix_items {
for (i, sub_schema) in prefix.iter().enumerate() {
if i < len {
let path = format!("{}/{}", self.path, i);
if let Some(child_instance) = arr.get(i) {
let derived = self.derive(
sub_schema,
child_instance,
&path,
HashSet::new(),
self.extensible,
false,
);
let item_res = derived.validate()?;
result.merge(item_res);
result.evaluated_indices.insert(i);
validation_index += 1;
}
}
}
}
if let Some(ref items_schema) = self.schema.items {
for i in validation_index..len {
let path = format!("{}/{}", self.path, i);
if let Some(child_instance) = arr.get(i) {
let derived = self.derive(
items_schema,
child_instance,
&path,
HashSet::new(),
self.extensible,
false,
);
let item_res = derived.validate()?;
result.merge(item_res);
result.evaluated_indices.insert(i);
}
}
}
}
Ok(true)
}
}

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use crate::validator::context::ValidationContext;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
impl<'a> ValidationContext<'a> {
pub(crate) fn validate_combinators(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
if let Some(ref all_of) = self.schema.all_of {
for sub in all_of {
let derived = self.derive_for_schema(sub, true);
let res = derived.validate()?;
result.merge(res);
}
}
if let Some(ref one_of) = self.schema.one_of {
let mut passed_candidates: Vec<(Option<String>, usize, ValidationResult)> = Vec::new();
for sub in one_of {
let derived = self.derive_for_schema(sub, true);
let sub_res = derived.validate()?;
if sub_res.is_valid() {
let child_id = sub.id.clone();
let depth = child_id
.as_ref()
.and_then(|id| self.db.depths.get(id).copied())
.unwrap_or(0);
passed_candidates.push((child_id, depth, sub_res));
}
}
if passed_candidates.len() == 1 {
result.merge(passed_candidates.pop().unwrap().2);
} else if passed_candidates.is_empty() {
result.errors.push(ValidationError {
code: "NO_ONEOF_MATCH".to_string(),
message: "Matches none of oneOf schemas".to_string(),
path: self.path.to_string(),
});
} else {
// Apply depth heuristic tie-breaker
let mut best_depth: Option<usize> = None;
let mut ambiguous = false;
let mut best_res = None;
for (_, depth, res) in passed_candidates.into_iter() {
if let Some(current_best) = best_depth {
if depth > current_best {
best_depth = Some(depth);
best_res = Some(res);
ambiguous = false;
} else if depth == current_best {
ambiguous = true;
}
} else {
best_depth = Some(depth);
best_res = Some(res);
}
}
if !ambiguous {
if let Some(res) = best_res {
result.merge(res);
return Ok(true);
}
}
result.errors.push(ValidationError {
code: "AMBIGUOUS_ONEOF_MATCH".to_string(),
message: "Matches multiple oneOf schemas without a clear depth winner".to_string(),
path: self.path.to_string(),
});
}
}
if let Some(ref not_schema) = self.schema.not {
let derived = self.derive_for_schema(not_schema, true);
let sub_res = derived.validate()?;
if sub_res.is_valid() {
result.errors.push(ValidationError {
code: "NOT_VIOLATED".to_string(),
message: "Matched 'not' schema".to_string(),
path: self.path.to_string(),
});
}
}
Ok(true)
}
}

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use crate::validator::context::ValidationContext;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
impl<'a> ValidationContext<'a> {
pub(crate) fn validate_conditionals(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
if let Some(ref if_schema) = self.schema.if_ {
let derived_if = self.derive_for_schema(if_schema, true);
let if_res = derived_if.validate()?;
result.evaluated_keys.extend(if_res.evaluated_keys.clone());
result
.evaluated_indices
.extend(if_res.evaluated_indices.clone());
if if_res.is_valid() {
if let Some(ref then_schema) = self.schema.then_ {
let derived_then = self.derive_for_schema(then_schema, true);
result.merge(derived_then.validate()?);
}
} else if let Some(ref else_schema) = self.schema.else_ {
let derived_else = self.derive_for_schema(else_schema, true);
result.merge(derived_else.validate()?);
}
}
Ok(true)
}
pub(crate) fn validate_strictness(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
if self.extensible || self.reporter {
return Ok(true);
}
if let Some(obj) = self.instance.as_object() {
for key in obj.keys() {
if !result.evaluated_keys.contains(key) && !self.overrides.contains(key) {
result.errors.push(ValidationError {
code: "STRICT_PROPERTY_VIOLATION".to_string(),
message: format!("Unexpected property '{}'", key),
path: format!("{}/{}", self.path, key),
});
}
}
}
if let Some(arr) = self.instance.as_array() {
for i in 0..arr.len() {
if !result.evaluated_indices.contains(&i) {
result.errors.push(ValidationError {
code: "STRICT_ITEM_VIOLATION".to_string(),
message: format!("Unexpected item at index {}", i),
path: format!("{}/{}", self.path, i),
});
}
}
}
Ok(true)
}
}

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use crate::validator::Validator;
use crate::validator::context::ValidationContext;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
use crate::validator::rules::util::equals;
impl<'a> ValidationContext<'a> {
pub(crate) fn validate_core(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
let current = self.instance;
if let Some(ref type_) = self.schema.type_ {
match type_ {
crate::database::schema::SchemaTypeOrArray::Single(t) => {
if !Validator::check_type(t, current) {
result.errors.push(ValidationError {
code: "INVALID_TYPE".to_string(),
message: format!("Expected type '{}'", t),
path: self.path.to_string(),
});
}
}
crate::database::schema::SchemaTypeOrArray::Multiple(types) => {
let mut valid = false;
for t in types {
if Validator::check_type(t, current) {
valid = true;
break;
}
}
if !valid {
result.errors.push(ValidationError {
code: "INVALID_TYPE".to_string(),
message: format!("Expected one of types {:?}", types),
path: self.path.to_string(),
});
}
}
}
}
if let Some(ref const_val) = self.schema.const_ {
if !equals(current, const_val) {
result.errors.push(ValidationError {
code: "CONST_VIOLATED".to_string(),
message: "Value does not match const".to_string(),
path: self.path.to_string(),
});
} else if let Some(obj) = current.as_object() {
result.evaluated_keys.extend(obj.keys().cloned());
} else if let Some(arr) = current.as_array() {
result.evaluated_indices.extend(0..arr.len());
}
}
if let Some(ref enum_vals) = self.schema.enum_ {
let mut found = false;
for val in enum_vals {
if equals(current, val) {
found = true;
break;
}
}
if !found {
result.errors.push(ValidationError {
code: "ENUM_MISMATCH".to_string(),
message: "Value is not in enum".to_string(),
path: self.path.to_string(),
});
} else if let Some(obj) = current.as_object() {
result.evaluated_keys.extend(obj.keys().cloned());
} else if let Some(arr) = current.as_array() {
result.evaluated_indices.extend(0..arr.len());
}
}
Ok(true)
}
}

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use crate::validator::context::ValidationContext;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
impl<'a> ValidationContext<'a> {
pub(crate) fn validate_format(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
let current = self.instance;
if let Some(ref compiled_fmt) = self.schema.compiled_format {
match compiled_fmt {
crate::database::schema::CompiledFormat::Func(f) => {
let should = if let Some(s) = current.as_str() {
!s.is_empty()
} else {
true
};
if should && let Err(e) = f(current) {
result.errors.push(ValidationError {
code: "FORMAT_MISMATCH".to_string(),
message: format!("Format error: {}", e),
path: self.path.to_string(),
});
}
}
crate::database::schema::CompiledFormat::Regex(re) => {
if let Some(s) = current.as_str()
&& !re.is_match(s)
{
result.errors.push(ValidationError {
code: "FORMAT_MISMATCH".to_string(),
message: "Format regex mismatch".to_string(),
path: self.path.to_string(),
});
}
}
}
}
Ok(true)
}
}

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use crate::validator::context::ValidationContext;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
pub mod array;
pub mod combinators;
pub mod conditionals;
pub mod core;
pub mod format;
pub mod numeric;
pub mod object;
pub mod polymorphism;
pub mod string;
pub mod util;
impl<'a> ValidationContext<'a> {
pub(crate) fn validate_scoped(&self) -> Result<ValidationResult, ValidationError> {
let mut result = ValidationResult::new();
// Structural Limits
if !self.validate_depth(&mut result)? {
return Ok(result);
}
if !self.validate_always_fail(&mut result)? {
return Ok(result);
}
if !self.validate_family(&mut result)? {
return Ok(result);
}
if !self.validate_refs(&mut result)? {
return Ok(result);
}
// Core Type Constraints
self.validate_core(&mut result)?;
self.validate_numeric(&mut result)?;
self.validate_string(&mut result)?;
self.validate_format(&mut result)?;
// Complex Structures
self.validate_object(&mut result)?;
self.validate_array(&mut result)?;
// Multipliers & Conditionals
self.validate_combinators(&mut result)?;
self.validate_conditionals(&mut result)?;
// State Tracking
self.validate_extensible(&mut result)?;
self.validate_strictness(&mut result)?;
Ok(result)
}
fn validate_depth(&self, _result: &mut ValidationResult) -> Result<bool, ValidationError> {
if self.depth > 100 {
Err(ValidationError {
code: "RECURSION_LIMIT_EXCEEDED".to_string(),
message: "Recursion limit exceeded".to_string(),
path: self.path.to_string(),
})
} else {
Ok(true)
}
}
fn validate_always_fail(&self, result: &mut ValidationResult) -> Result<bool, ValidationError> {
if self.schema.always_fail {
result.errors.push(ValidationError {
code: "FALSE_SCHEMA".to_string(),
message: "Schema is false".to_string(),
path: self.path.to_string(),
});
// Short-circuit
Ok(false)
} else {
Ok(true)
}
}
fn validate_extensible(&self, result: &mut ValidationResult) -> Result<bool, ValidationError> {
if self.extensible {
if let Some(obj) = self.instance.as_object() {
result.evaluated_keys.extend(obj.keys().cloned());
} else if let Some(arr) = self.instance.as_array() {
result.evaluated_indices.extend(0..arr.len());
}
}
Ok(true)
}
}

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use crate::validator::context::ValidationContext;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
impl<'a> ValidationContext<'a> {
pub(crate) fn validate_numeric(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
let current = self.instance;
if let Some(num) = current.as_f64() {
if let Some(min) = self.schema.minimum
&& num < min
{
result.errors.push(ValidationError {
code: "MINIMUM_VIOLATED".to_string(),
message: format!("Value {} < min {}", num, min),
path: self.path.to_string(),
});
}
if let Some(max) = self.schema.maximum
&& num > max
{
result.errors.push(ValidationError {
code: "MAXIMUM_VIOLATED".to_string(),
message: format!("Value {} > max {}", num, max),
path: self.path.to_string(),
});
}
if let Some(ex_min) = self.schema.exclusive_minimum
&& num <= ex_min
{
result.errors.push(ValidationError {
code: "EXCLUSIVE_MINIMUM_VIOLATED".to_string(),
message: format!("Value {} <= ex_min {}", num, ex_min),
path: self.path.to_string(),
});
}
if let Some(ex_max) = self.schema.exclusive_maximum
&& num >= ex_max
{
result.errors.push(ValidationError {
code: "EXCLUSIVE_MAXIMUM_VIOLATED".to_string(),
message: format!("Value {} >= ex_max {}", num, ex_max),
path: self.path.to_string(),
});
}
if let Some(multiple_of) = self.schema.multiple_of {
let val: f64 = num / multiple_of;
if (val - val.round()).abs() > f64::EPSILON {
result.errors.push(ValidationError {
code: "MULTIPLE_OF_VIOLATED".to_string(),
message: format!("Value {} not multiple of {}", num, multiple_of),
path: self.path.to_string(),
});
}
}
}
Ok(true)
}
}

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use std::collections::HashSet;
use serde_json::Value;
use crate::validator::context::ValidationContext;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
impl<'a> ValidationContext<'a> {
pub(crate) fn validate_object(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
let current = self.instance;
if let Some(obj) = current.as_object() {
// Entity Bound Implicit Type Validation
if let Some(lookup_key) = self.schema.id.as_ref().or(self.schema.r#ref.as_ref()) {
let base_type_name = lookup_key.split('.').next_back().unwrap_or("").to_string();
if let Some(type_def) = self.db.types.get(&base_type_name)
&& let Some(type_val) = obj.get("type")
&& let Some(type_str) = type_val.as_str()
{
if type_def.variations.contains(type_str) {
// Ensure it passes strict mode
result.evaluated_keys.insert("type".to_string());
} else {
result.errors.push(ValidationError {
code: "CONST_VIOLATED".to_string(), // Aligning with original const override errors
message: format!(
"Type '{}' is not a valid descendant for this entity bound schema",
type_str
),
path: format!("{}/type", self.path),
});
}
}
}
if let Some(min) = self.schema.min_properties
&& (obj.len() as f64) < min
{
result.errors.push(ValidationError {
code: "MIN_PROPERTIES".to_string(),
message: "Too few properties".to_string(),
path: self.path.to_string(),
});
}
if let Some(max) = self.schema.max_properties
&& (obj.len() as f64) > max
{
result.errors.push(ValidationError {
code: "MAX_PROPERTIES".to_string(),
message: "Too many properties".to_string(),
path: self.path.to_string(),
});
}
if let Some(ref req) = self.schema.required {
for field in req {
if !obj.contains_key(field) {
result.errors.push(ValidationError {
code: "REQUIRED_FIELD_MISSING".to_string(),
message: format!("Missing {}", field),
path: format!("{}/{}", self.path, field),
});
}
}
}
if let Some(ref deps) = self.schema.dependencies {
for (prop, dep) in deps {
if obj.contains_key(prop) {
match dep {
crate::database::schema::Dependency::Props(required_props) => {
for req_prop in required_props {
if !obj.contains_key(req_prop) {
result.errors.push(ValidationError {
code: "DEPENDENCY_MISSING".to_string(),
message: format!("Property '{}' requires property '{}'", prop, req_prop),
path: self.path.to_string(),
});
}
}
}
crate::database::schema::Dependency::Schema(dep_schema) => {
let derived = self.derive_for_schema(dep_schema, false);
let dep_res = derived.validate()?;
result.evaluated_keys.extend(dep_res.evaluated_keys.clone());
result.merge(dep_res);
}
}
}
}
}
if let Some(props) = &self.schema.properties {
for (key, sub_schema) in props {
if self.overrides.contains(key) {
continue; // Skip validation if exactly this property was overridden by a child
}
if let Some(child_instance) = obj.get(key) {
let new_path = format!("{}/{}", self.path, key);
let is_ref = sub_schema.r#ref.is_some();
let next_extensible = if is_ref { false } else { self.extensible };
let derived = self.derive(
sub_schema,
child_instance,
&new_path,
HashSet::new(),
next_extensible,
false,
);
let mut item_res = derived.validate()?;
// Entity Bound Implicit Type Interception
if key == "type"
&& let Some(lookup_key) = sub_schema.id.as_ref().or(sub_schema.r#ref.as_ref())
{
let base_type_name = lookup_key.split('.').next_back().unwrap_or("").to_string();
if let Some(type_def) = self.db.types.get(&base_type_name)
&& let Some(instance_type) = child_instance.as_str()
&& type_def.variations.contains(instance_type)
{
item_res
.errors
.retain(|e| e.code != "CONST_VIOLATED" && e.code != "ENUM_VIOLATED");
}
}
result.merge(item_res);
result.evaluated_keys.insert(key.to_string());
}
}
}
if let Some(ref compiled_pp) = self.schema.compiled_pattern_properties {
for (compiled_re, sub_schema) in compiled_pp {
for (key, child_instance) in obj {
if compiled_re.0.is_match(key) {
let new_path = format!("{}/{}", self.path, key);
let is_ref = sub_schema.r#ref.is_some();
let next_extensible = if is_ref { false } else { self.extensible };
let derived = self.derive(
sub_schema,
child_instance,
&new_path,
HashSet::new(),
next_extensible,
false,
);
let item_res = derived.validate()?;
result.merge(item_res);
result.evaluated_keys.insert(key.to_string());
}
}
}
}
if let Some(ref additional_schema) = self.schema.additional_properties {
for (key, child_instance) in obj {
let mut locally_matched = false;
if let Some(props) = &self.schema.properties
&& props.contains_key(&key.to_string())
{
locally_matched = true;
}
if !locally_matched && let Some(ref compiled_pp) = self.schema.compiled_pattern_properties
{
for (compiled_re, _) in compiled_pp {
if compiled_re.0.is_match(key) {
locally_matched = true;
break;
}
}
}
if !locally_matched {
let new_path = format!("{}/{}", self.path, key);
let is_ref = additional_schema.r#ref.is_some();
let next_extensible = if is_ref { false } else { self.extensible };
let derived = self.derive(
additional_schema,
child_instance,
&new_path,
HashSet::new(),
next_extensible,
false,
);
let item_res = derived.validate()?;
result.merge(item_res);
result.evaluated_keys.insert(key.to_string());
}
}
}
if let Some(ref property_names) = self.schema.property_names {
for key in obj.keys() {
let _new_path = format!("{}/propertyNames/{}", self.path, key);
let val_str = Value::String(key.to_string());
let ctx = ValidationContext::new(
self.db,
self.root,
property_names,
&val_str,
HashSet::new(),
self.extensible,
self.reporter,
);
result.merge(ctx.validate()?);
}
}
}
Ok(true)
}
}

155
src/validator/rules/polymorphism.rs Normal file
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use crate::validator::context::ValidationContext;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
impl<'a> ValidationContext<'a> {
pub(crate) fn validate_family(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
if self.schema.family.is_some() {
let conflicts = self.schema.type_.is_some()
|| self.schema.properties.is_some()
|| self.schema.required.is_some()
|| self.schema.additional_properties.is_some()
|| self.schema.items.is_some()
|| self.schema.r#ref.is_some()
|| self.schema.one_of.is_some()
|| self.schema.all_of.is_some()
|| self.schema.enum_.is_some()
|| self.schema.const_.is_some();
if conflicts {
result.errors.push(ValidationError {
code: "INVALID_SCHEMA".to_string(),
message: "$family must be used exclusively without other constraints".to_string(),
path: self.path.to_string(),
});
// Short-circuit: the schema formulation is broken
return Ok(false);
}
}
if let Some(family_target) = &self.schema.family {
// The descendants map is keyed by the schema's own $id, not the target string.
if let Some(schema_id) = &self.schema.id
&& let Some(descendants) = self.db.descendants.get(schema_id)
{
// Validate against all descendants simulating strict oneOf logic
let mut passed_candidates: Vec<(String, usize, ValidationResult)> = Vec::new();
// The target itself is also an implicitly valid candidate
let mut all_targets = vec![family_target.clone()];
all_targets.extend(descendants.clone());
for child_id in &all_targets {
if let Some(child_schema) = self.db.schemas.get(child_id) {
let derived = self.derive(
child_schema,
self.instance,
&self.path,
self.overrides.clone(),
self.extensible,
self.reporter, // Inherit parent reporter flag, do not bypass strictness!
);
// Explicitly run validate_scoped to accurately test candidates with strictness checks enabled
let res = derived.validate_scoped()?;
if res.is_valid() {
let depth = self.db.depths.get(child_id).copied().unwrap_or(0);
passed_candidates.push((child_id.clone(), depth, res));
}
}
}
if passed_candidates.len() == 1 {
result.merge(passed_candidates.pop().unwrap().2);
} else if passed_candidates.is_empty() {
result.errors.push(ValidationError {
code: "NO_FAMILY_MATCH".to_string(),
message: format!(
"Payload did not match any descendants of family '{}'",
family_target
),
path: self.path.to_string(),
});
} else {
// Apply depth heuristic tie-breaker
let mut best_depth: Option<usize> = None;
let mut ambiguous = false;
let mut best_res = None;
for (_, depth, res) in passed_candidates.into_iter() {
if let Some(current_best) = best_depth {
if depth > current_best {
best_depth = Some(depth);
best_res = Some(res);
ambiguous = false; // Broke the tie
} else if depth == current_best {
ambiguous = true; // Tie at the highest level
}
} else {
best_depth = Some(depth);
best_res = Some(res);
}
}
if !ambiguous {
if let Some(res) = best_res {
result.merge(res);
return Ok(true);
}
}
result.errors.push(ValidationError {
code: "AMBIGUOUS_FAMILY_MATCH".to_string(),
message: format!(
"Payload matched multiple descendants of family '{}' without a clear depth winner",
family_target
),
path: self.path.to_string(),
});
}
}
}
Ok(true)
}
pub(crate) fn validate_refs(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
// 1. Core $ref logic relies on the fast O(1) map to allow cycles and proper nesting
if let Some(ref_str) = &self.schema.r#ref {
if let Some(global_schema) = self.db.schemas.get(ref_str) {
let mut new_overrides = self.overrides.clone();
if let Some(props) = &self.schema.properties {
new_overrides.extend(props.keys().map(|k| k.to_string()));
}
let mut shadow = self.derive(
global_schema,
self.instance,
&self.path,
new_overrides,
self.extensible,
true,
);
shadow.root = global_schema;
result.merge(shadow.validate()?);
} else {
result.errors.push(ValidationError {
code: "REF_RESOLUTION_FAILED".to_string(),
message: format!(
"Reference pointer to '{}' was not found in schema registry",
ref_str
),
path: self.path.to_string(),
});
}
}
Ok(true)
}
}

52
src/validator/rules/string.rs Normal file
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use crate::validator::context::ValidationContext;
use crate::validator::error::ValidationError;
use crate::validator::result::ValidationResult;
use regex::Regex;
impl<'a> ValidationContext<'a> {
pub(crate) fn validate_string(
&self,
result: &mut ValidationResult,
) -> Result<bool, ValidationError> {
let current = self.instance;
if let Some(s) = current.as_str() {
if let Some(min) = self.schema.min_length
&& (s.chars().count() as f64) < min
{
result.errors.push(ValidationError {
code: "MIN_LENGTH_VIOLATED".to_string(),
message: format!("Length < min {}", min),
path: self.path.to_string(),
});
}
if let Some(max) = self.schema.max_length
&& (s.chars().count() as f64) > max
{
result.errors.push(ValidationError {
code: "MAX_LENGTH_VIOLATED".to_string(),
message: format!("Length > max {}", max),
path: self.path.to_string(),
});
}
if let Some(ref compiled_re) = self.schema.compiled_pattern {
if !compiled_re.0.is_match(s) {
result.errors.push(ValidationError {
code: "PATTERN_VIOLATED".to_string(),
message: format!("Pattern mismatch {:?}", self.schema.pattern),
path: self.path.to_string(),
});
}
} else if let Some(ref pattern) = self.schema.pattern
&& let Ok(re) = Regex::new(pattern)
&& !re.is_match(s)
{
result.errors.push(ValidationError {
code: "PATTERN_VIOLATED".to_string(),
message: format!("Pattern mismatch {}", pattern),
path: self.path.to_string(),
});
}
}
Ok(true)
}
}

53
src/validator/rules/util.rs Normal file
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@ -0,0 +1,53 @@
use serde_json::Value;
pub fn is_integer(v: &Value) -> bool {
match v {
Value::Number(n) => {
n.is_i64() || n.is_u64() || n.as_f64().filter(|n| n.fract() == 0.0).is_some()
}
_ => false,
}
}
/// serde_json treats 0 and 0.0 not equal. so we cannot simply use v1==v2
pub fn equals(v1: &Value, v2: &Value) -> bool {
match (v1, v2) {
(Value::Null, Value::Null) => true,
(Value::Bool(b1), Value::Bool(b2)) => b1 == b2,
(Value::Number(n1), Value::Number(n2)) => {
if let (Some(n1), Some(n2)) = (n1.as_u64(), n2.as_u64()) {
return n1 == n2;
}
if let (Some(n1), Some(n2)) = (n1.as_i64(), n2.as_i64()) {
return n1 == n2;
}
if let (Some(n1), Some(n2)) = (n1.as_f64(), n2.as_f64()) {
return (n1 - n2).abs() < f64::EPSILON;
}
false
}
(Value::String(s1), Value::String(s2)) => s1 == s2,
(Value::Array(arr1), Value::Array(arr2)) => {
if arr1.len() != arr2.len() {
return false;
}
arr1.iter().zip(arr2).all(|(e1, e2)| equals(e1, e2))
}
(Value::Object(obj1), Value::Object(obj2)) => {
if obj1.len() != obj2.len() {
return false;
}
for (k1, v1) in obj1 {
if let Some(v2) = obj2.get(k1) {
if !equals(v1, v2) {
return false;
}
} else {
return false;
}
}
true
}
_ => false,
}
}

2089
tests/fixtures.rs
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