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grove-core-api

This project provides OpenAPI v3 specifications for Grove-compliant middle-tier implementations. It concerns the public-facing REST endpoints.

Principles

Design principles:

  1. Separation of concerns. In other words, the endpoints are divided into smaller distinct segments that can operate independently.
  2. Consistency. One single supported input and output format for all endpoints, being application/json.
  3. Simplicity. Tasks are broken into small pieces to avoid duplication of work.

Endpoints Overview

The baseline for Grove middle-tiers consists of 4 sets of endpoints:

  1. /api/ping: To test and identify the REST api
  2. /api/auth: Authentication
  3. /api/crud/{type}/id: CRUD for a specific type
  4. /api/search/{type}: Search for a specific type

By convention, Grove middle-tier implementations include CRUD and Search for the (pseudo-)type 'all'.

Endpoints Detail

/api/ping

The Ping API contains only one endpoint: 'ping'. It sends a 'pong' response, which can be used to check if the REST api is alive, and get implementation and version information back.

The Ping API is specified in spec/ping-api.json.

/api/auth

The Auth API contains endpoints to login, logout, verify login-status, and get or update the profile of the user that is logged in.

The Auth API is specified in spec/auth-api.json.

/api/crud

The CRUD API contains one main endpoint which supports four methods to support Create, Read, Update, and Delete of documents, entities, or other artifacts. Additionally, there is a sub-endpoint to enhance Read with custom Viewing modes.

The CRUD API is specified in spec/crud-api.json.

/api/search

There are three main endpoints specified for /search, allowing the consumer to request results-only, facets-only, or the combination of the two:

/api/search/{type}/results
/api/search/{type}/facets
/api/search/{type}

The type parameter allows several different searches to be mounted. By convention, Grove middle-tiers, out-of-the-box, will support an all pseudo-type that implements generic search-and-discovery against documents stored in the database (potentially within a "data" collection). Particular applications can modify the search or mount additional search endpoints, perhaps changing the type to entities like "patients" or concepts like "raw" or "harmonized". The exact meaning of those types (and implementation of typed searches) will be up to the middle-tier implementation.

All requests against these endpoints are POST requests, allowing the search filters and options to be arbitrarily large in the request body. The request and response bodies are very similar for each of the three endpoints.

The Search API is specified in spec/search-api.json. Some additional explanation on Search Request format, and Search Response format is given below.

Search Request format

A search request includes two top-level properties: options and filters.

options includes start and pageLength for pagination, and can be arbitrarily expanded to cover other concepts understood by both the UI and the middle-tier.

filters specify the search query.

In the Grove search API, "filters" refer to values applied, typically by a user through the UI, against "constraints", which are filter capabilities known to the middle-tier.

In Grove, "filter" and "constraint" are broad terms which do not specify how a particular constraint operates. They could be backed by a MarkLogic Search API constraint, a MarkLogic REST extension using cts queries, or even some Elasticsearch implementation.

In this spec, we aim to strike a balance between expressive power and convenience for UI developers. Most filter interfaces will be fairly simple, such as a search bar or selectable list of facets. Authors of such components should not be burdened with complicated filter structures. Advanced search interfaces, however, are possible within the Grove search spec as recursive combinations of simpler filters.

The basic filter types described by this spec include:

  1. QueryTextFilter. Yes, even qtext is treated as a filter value matched against a search constraint. This is typically a simple string for full-text searching, though it can optionally include a "constraint" name. A middle-tier implmentation could use that "constraint" name to handle the queryText in a special way, such as searching against a field in MarkLogic that is narrower than full-text search.

  2. SelectionFilter. This filter allows for individual values to be ANDed or ORed (but not both) together against a search constraint. The values can optionally be negated. A SelectionFilter is only one level deep, which corresponds to simple facet UIs. More complicated selections can be modeled using the CombinedFilter described below.

  3. RangeFilter. This filter allows ranges of values to be matched against a search constraint. It is designed to support most types of dynamic inequalities, like date or number ranges, mins or maxes. Like SelectionFilter, it is intentionally simple and tailored for ease of use in creating range-selection UI components.

These three basic filter types can be combined recursively using AND, OR, NOT, and NEAR in order to populate the "filters" field (called "CombinedFilter" in the spec document). The UI thus has control over how individual filters should be combined and can encode advanced queries. CombinedFilter uses the expressiveness of MarkLogic's REST API search grammar as a model.

Additional filter types can easily be plugged into a Grove Project as needed. These could be highly specialized or very generic like the ones above. The Search API specification contains various examples to illustrate how search requests could look.

Search Response format

The specified SearchResponse is mostly a subset of the response from the MarkLogic Search API. (The one addition is an "id" field, which may differ from document URI, allowing the application to express search over higher-level concepts or entities, rather than individual documents.) Results from other sources could be marshalled into the same structure. It covers some metadata, such as total and pagination properties, as well as facets and results.

We only specified certain properties used in out-of-the-box Grove UI implementations. The response can be expanded with additional properties by middle-tier implementations.

Testing an implementation

This project comes with a Jest test suite that can be used to run a regression test against your middle-tier of choice. Configure it by copying the .env file in the root of the project to .env.local, and editing the local copy for the correct settings. You invoke Jest using:

npm run test-api

This project comes also with a small VueJS page that can be used to run a quick test against your middle-tier of choice. It may require CORS to be disabled on that middle-tier, or just drop it as-is among the public files served by that middle-tier. You can find it at docs/test.html.

Contributing

Validating specs

You can validate changes to spec/auth-api.json, spec/crud-api.json, and spec/search-api.json by running npm test. This will use the swagger-cli to validate changes.

If you add new spec files, you need to add them to the test script in package.json.

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