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rest-easy-loki

A REST interface for lokijs supporting CRUD operations and automatic creation of new collections.

  • 1.6.1
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REST-EASY-LOKI

A simple REST interface for the in-memory database, lokijs, featuring:

  • Automatic creation of collections, including CRUD actions, pagination and MongoDB-like queries.
  • Simple authorization using whitelisting domain names and API keys via environment variables.
  • Statically sharing the public folder
  • Uploading files using the upload folder
  • Retrieving environment variables starting with LOKI_ via REST
  • Configuring the database collections using a config file
  • Add support for CORS and compression

This version has moved from the default LokiFsAdapter to the more performing LokiFsStructuredAdapter. Besides a performance gain, it also means that we don't end up with a single database file anymore, but one overall database file and one per collection.

Development

npm install # Or pnpm i
npm start # Will transpile the TypeScript project to JavaScript and run node on every change.

Usage

To simply run the lokijs server and expose the CRUD services.

npm run serve

To embed it in your own project, do something like the following:

import * as Koa from 'koa'; // You only need to include @types/koa in your devDependencies, not Koa itself.
import { createApi, db } from 'rest-easy-loki';

export const collectionName = 'documents';

const port = process.env.LOKI_PORT || '3000';
const dbName = process.env.LOKI_DB;
const cors = (process.env.LOKI_CORS || 'true') === 'true';
const sizeLimit = process.env.LOKI_SIZE_LIMIT || '25mb';

export const startService = () => {
  db.startDatabase(dbName, () => {
    const { api } = createApi({
      cors,
      sizeLimit,
      compression: true, // Compress data using gzip
      upload: 'upload',  // Allow uploading data to this folder
      public: 'public'   // Serve all files in this folder, e.g. SPA
    }) as Koa;
    api.listen(port);
    console.log(`Server running on port ${port}.`);
  });
};
startService();

Configuration

Reads .env file for specifying the database name, port, CORS and message size limits. E.g.

LOKI_PORT=3030
LOKI_DB="simple.db"
LOKI_CORS=true
LOKI_COMPRESSION=true
LOKI_CONFIG="config.json"
LOKI_POLICIES="policies.json"
LOKI_SIZE_LIMIT="250mb"
LOKI_PRETTY=true
LOKI_AUTHZ_JWT_SHARED=""
LOKI_AUTHZ_JWT_JWKS=""
LOKI_AUTHZ_READ=""
LOKI_AUTHZ_CREATE="key1"
LOKI_AUTHZ_UPDATE="key1"
LOKI_AUTHZ_DELETE="key1"
LOKI_AUTHZ_WHITELIST="localhost"

When creating the database for the first time, you optionally can also configure the database collections using LokiJS options, e.g. by specifying unique property names, or properties that must be indexed. In addition, you can import any existing JSON file in one go. For example, see config.json below: with it, you create two collections, users and projects, and each collection has a unique property id and several indices. In addition, it imports the file specified by jsonImport.

{
  "collections": {
    "users": {
      "jsonImport": "./employees.json",
      "unique": ["id"],
      "indices": ["first", "last", "keywords", "summary"]
    },
    "projects": {
      "jsonImport": "./projects.json",
      "unique": ["id"],
      "indices": ["name", "keywords", "summary"]
    }
  }
}

The configuration file needs to adhere to the ILokiConfiguration interface, as specified below:

/** From LokiJS typings, but not exported */
export interface CollectionOptions<E> {
  disableMeta: boolean;
  disableChangesApi: boolean;
  disableDeltaChangesApi: boolean;
  adaptiveBinaryIndices: boolean;
  asyncListeners: boolean;
  autoupdate: boolean;
  clone: boolean;
  cloneMethod: 'parse-stringify' | 'jquery-extend-deep' | 'shallow' | 'shallow-assign' | 'shallow-recurse-objects';
  serializableIndices: boolean;
  transactional: boolean;
  ttl: number;
  ttlInterval: number;
  exact: (keyof E)[];
  unique: (keyof E)[];
  indices: keyof E | (keyof E)[];
}

export interface ExtendedCollectionOptions<E> extends CollectionOptions<E> {
  /** JSON file to import: expects a JSON array which will be inserted into the collection */
  jsonImport?: string;
}

export interface ILokiConfiguration<T = {}> {
  /** Create collections on startup if there are no collections yet */
  collections?: {
    /** Name of the collection */
    [collectionName: string]: ExtendedCollectionOptions<T>;
  };
}

If you do specify one or more unique names, you can query the REST interface via https://localhost:3000/api/COLLECTION_NAME/USERS/THOR.

Managing collections (CRUD)

export interface IMutation extends ILokiObj {
  /**
   * Save changes to collection: if set, save this object,
   * except the `saveChanges` property, to the `saveChanges` collection
   */
  saveChanges?: string;
  /** RFC6902 JSON patch */
  patch?: Operation[];
}

Filtering collections

Sharing the public folder

You can use the public folder for sharing static files or your own web application. Enabled by default.

Uploading files

You can use the upload folder for uploading files to a (automatically created) CONTEXT folder, if enabled on start-up using the -u instruction. Test it via curl -F "file=@filename.jpg" http://localhost:3030/upload/:CONTEXT. Files will be served from http://localhost:3030/:CONTEXT/ORG_FILENAME. When uploading the same filename in the same context, the previous version will be overwritten. No index file is created, so the contents of the locally created folders are not visible externally. Also note that the CONTEXT supports sub-folders too.

Socket.io support

If enabled using the io flag (or -i) so clients can subscribe to receive updates when a value has changed. Clients can either subscribe to a collection socket.subscribe('COLLECTION_NAME'), or to a collection item socket.subscribe('COLLECTION_NAME/$LOKI'). The latter is, for example, useful when you have multiple editors. Subscribers receive the updated item.

Serving environment variables

The http://localhost:3000/api/env serves all environment variables that start with LOKI_ (except the LOKI_AUTHZ_, so you don't accidentally share secrets). Since all key-value pairs are strings, a type conversion to boolean, number and arrays (using the , as separator) is performed.

Authorization

  • Simple authorization can be enabled by specifying environment variables: LOKI_AUTHZ_CREATE, LOKI_AUTHZ_READ, LOKI_AUTHZ_UPDATE, LOKI_AUTHZ_DELETE, where the value is a comma-separated list of API keys. If no authz is set, all CRUD actions are allowed. Otherwise, your query needs to set the x-api-key header.
  • JWT shared-key authorization can be enabled by specifying environment variable: LOKI_AUTHZ_JWT_SHARED. This disables the other LOKI_AUTHZ_ methods. The JWT token has to be generated by the same shared key as used here. For testing purposes, you can create JWT tokens online. JWT tokens should be given via the Authorization header as a Bearer token, i.e. Authorization: Bearer <YOUR_JWT>. Set LOKI_AUTHZ_JWT_ANONYMOUS_READ to true to allow anonymous reads.
  • JWT JWKS authorization can be enabled by specifying environment variable: LOKI_AUTHZ_JWT_JWKS. This disables the other LOKI_AUTHZ_ methods. The JWT token is generated as part of an OIDC flow. JWT tokens should be given via the Authorization header as a Bearer token. Set LOKI_AUTHZ_JWT_ANONYMOUS_READ to true to allow anonymous reads.
  • You can require it in your own project.

For both JWT methods, the JWT should contain realm_access.roles key with a list of roles. If the editor role is in there, access is granted to write to the database.

Route Based Access Control

When using JWT or JWKS authorization, you can specify route based access control. In that case, the LOKI_POLICIES should be set to a JSON file with the following structure (as specified in the rule-policy-schema.json file):

{
  "$schema": "./rule-policy-schema.json",
  "rules": [
    {
      "method": "GET",
      "path": "/api/users/:sub"
    },
    {
      "method": "GET",
      "path": "/api/users/*",
      "abac": {
        "roles": "admin"
      }
    },
    {
      "method": "GET",
      "path": "/api/cases",
      "abac": {
        "roles": "admin"
      }
    },
    {
      "method": "POST",
      "path": "/api/users",
      "abac": {
        "roles": "admin"
      }
    },
    {
      "method": "GET",
      "path": "/api/cases",
      "query": {
        "q": "{ 'members': { '$contains': ':sub' } }"
      }
    }
  ]
}

Explanation

Currently, there are two main open source libraries for access control, both used by Amazon Web Services and others: Open Policy Agent (OPA) and Cedar. See the comparison here. Although the former is more general, and also used to control access to all kinds of micro-services, it has a steeper learning curve. Cedar is more to the point, and focusses on Role-based Access Control (RBAC) or Attribute-based Access Control (ABAC) with a subject, action and resource. However, both suffer from one major drawback, namely using attributes from the resource to determine access.

Consider the following example: you allow a user to create case files. In each case file, the user specifies other users that have access too. Let's assume the database holds a collection of case files (rows or objects in my database), and each case contains a members array with the user IDs of the users that have access. When users queries the server for their case files, the authorization function (the Policy Decision Point or PEP) would need to know the attributes of each case file to determine whether that user has access, i.e. is the user's ID part of the case file's members property. However, this would mean that the server first needs to query the database to get access to all case files, potentially thousands, and next the authorization service would need to verify each of them. Clearly, this does not scale, so the common solution is called partial evaluation, where the authorization service only verifies the attributes of the subject and the action, but skips the verification of the resource attributes. In case access is partially granted, the resource attributes that are not are converted to a SQL or other database query, which is subsequently executed. As the latter step is not trivial, and open to security issues, this repository has chosen a different approach which is coined Route-based Access Control (RouBAC).

How does RouBAC work: you create a policy file, a JSON object that contains a list of rules (see the example below). Each rule is evaluated until a rule allows access, or all rules are processed, in which case access is denied.

How does the rule evaluation work:

  • By default, access is denied, unless a rule allows it.
  • Each rule is checked against the method, path, and query parameters. If there is a match, the query is allowed and no other rules are checked.
  • A rule matches if:
    • The method and path match.
    • The rule's path placeholders, like :sub, are present in the user's JWT payload, e.g. the first rule only allows access to /users/123 if the payload contains a property sub whose value is 123 (using strict checking).
    • If present, the canonical form (no spaces, single quotes, escaped $, but still case-sensitive) of the query parameters are matched against the rule's query parameters. They may contain placeholders too. Additional query properties are ignored.
    • The rule's abac object, if present, is checked against the user's JWT payload, so the second rule only allows access to GET /users if the payload contains a property roles whose value is admin. In case roles is an array, access is permitted only if the rule's role is a subset of the user's roles. Note that the role only allows a single string, so if the editor role has access too, a new rule is needed.
    • Support for nested properties is added too, so realm_access.roles would also work.

You can use Bruno to test a few policies that are found in the test-rest-easy-loki folder.

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Package last updated on 19 Aug 2024

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