loopback/lib/registry.js

461 lines
13 KiB
JavaScript

var assert = require('assert');
var extend = require('util')._extend;
var juggler = require('loopback-datasource-juggler');
var debug = require('debug')('loopback:registry');
var DataSource = juggler.DataSource;
var ModelBuilder = juggler.ModelBuilder;
var deprecated = require('depd')('strong-remoting');
module.exports = Registry;
/**
* Define and reference `Models` and `DataSources`.
*
* @class
*/
function Registry() {
this.defaultDataSources = {};
this.modelBuilder = new ModelBuilder();
require('./model')(this);
require('./persisted-model')(this);
// Set the default model base class.
this.modelBuilder.defaultModelBaseClass = this.getModel('Model');
}
/**
* Create a named vanilla JavaScript class constructor with an attached
* set of properties and options.
*
* This function comes with two variants:
* * `loopback.createModel(name, properties, options)`
* * `loopback.createModel(config)`
*
* In the second variant, the parameters `name`, `properties` and `options`
* are provided in the config object. Any additional config entries are
* interpreted as `options`, i.e. the following two configs are identical:
*
* ```js
* { name: 'Customer', base: 'User' }
* { name: 'Customer', options: { base: 'User' } }
* ```
*
* **Example**
*
* Create an `Author` model using the three-parameter variant:
*
* ```js
* loopback.createModel(
* 'Author',
* {
* firstName: 'string',
* lastName: 'string'
* },
* {
* relations: {
* books: {
* model: 'Book',
* type: 'hasAndBelongsToMany'
* }
* }
* }
* );
* ```
*
* Create the same model using a config object:
*
* ```js
* loopback.createModel({
* name: 'Author',
* properties: {
* firstName: 'string',
* lastName: 'string'
* },
* relations: {
* books: {
* model: 'Book',
* type: 'hasAndBelongsToMany'
* }
* }
* });
* ```
*
* @param {String} name Unique name.
* @param {Object} properties
* @param {Object} options (optional)
*
* @header loopback.createModel
*/
Registry.prototype.createModel = function(name, properties, options) {
if (arguments.length === 1 && typeof name === 'object') {
var config = name;
name = config.name;
properties = config.properties;
options = buildModelOptionsFromConfig(config);
assert(typeof name === 'string',
'The model-config property `name` must be a string');
}
options = options || {};
var BaseModel = options.base || options.super;
if (typeof BaseModel === 'string') {
var baseName = BaseModel;
BaseModel = this.getModel(BaseModel);
if (BaseModel === undefined) {
console.warn('Model `%s` is extending an unknown model `%s`. ' +
'Using `PersistedModel` as the base.', name, baseName);
}
}
BaseModel = BaseModel || this.getModel('PersistedModel');
var model = BaseModel.extend(name, properties, options);
model.registry = this;
this._defineRemoteMethods(model, options.methods);
// try to attach
try {
this.autoAttachModel(model);
} catch (e) {}
return model;
};
function buildModelOptionsFromConfig(config) {
var options = extend({}, config.options);
for (var key in config) {
if (['name', 'properties', 'options'].indexOf(key) !== -1) {
// Skip items which have special meaning
continue;
}
if (options[key] !== undefined) {
// When both `config.key` and `config.options.key` are set,
// use the latter one
continue;
}
options[key] = config[key];
}
return options;
}
/*
* Add the acl entry to the acls
* @param {Object[]} acls
* @param {Object} acl
*/
function addACL(acls, acl) {
for (var i = 0, n = acls.length; i < n; i++) {
// Check if there is a matching acl to be overriden
if (acls[i].property === acl.property &&
acls[i].accessType === acl.accessType &&
acls[i].principalType === acl.principalType &&
acls[i].principalId === acl.principalId) {
acls[i] = acl;
return;
}
}
acls.push(acl);
}
/**
* Alter an existing Model class.
* @param {Model} ModelCtor The model constructor to alter.
* @options {Object} config Additional configuration to apply
* @property {DataSource} dataSource Attach the model to a dataSource.
* @property {Object} [relations] Model relations to add/update.
*
* @header loopback.configureModel(ModelCtor, config)
*/
Registry.prototype.configureModel = function(ModelCtor, config) {
var settings = ModelCtor.settings;
var modelName = ModelCtor.modelName;
// Relations
if (typeof config.relations === 'object' && config.relations !== null) {
var relations = settings.relations = settings.relations || {};
Object.keys(config.relations).forEach(function(key) {
// FIXME: [rfeng] We probably should check if the relation exists
relations[key] = extend(relations[key] || {}, config.relations[key]);
});
} else if (config.relations != null) {
console.warn('The relations property of `%s` configuration ' +
'must be an object', modelName);
}
// ACLs
if (Array.isArray(config.acls)) {
var acls = settings.acls = settings.acls || [];
config.acls.forEach(function(acl) {
addACL(acls, acl);
});
} else if (config.acls != null) {
console.warn('The acls property of `%s` configuration ' +
'must be an array of objects', modelName);
}
// Settings
var excludedProperties = {
base: true,
'super': true,
relations: true,
acls: true,
dataSource: true,
};
if (typeof config.options === 'object' && config.options !== null) {
for (var p in config.options) {
if (!(p in excludedProperties)) {
settings[p] = config.options[p];
} else {
console.warn('Property `%s` cannot be reconfigured for `%s`',
p, modelName);
}
}
} else if (config.options != null) {
console.warn('The options property of `%s` configuration ' +
'must be an object', modelName);
}
// It's important to attach the datasource after we have updated
// configuration, so that the datasource picks up updated relations
if (config.dataSource) {
assert(config.dataSource instanceof DataSource,
'Cannot configure ' + ModelCtor.modelName +
': config.dataSource must be an instance of DataSource');
ModelCtor.attachTo(config.dataSource);
debug('Attached model `%s` to dataSource `%s`',
modelName, config.dataSource.name);
} else if (config.dataSource === null || config.dataSource === false) {
debug('Model `%s` is not attached to any DataSource by configuration.',
modelName);
} else {
debug('Model `%s` is not attached to any DataSource, possibly by a mistake.',
modelName);
console.warn(
'The configuration of `%s` is missing `dataSource` property.\n' +
'Use `null` or `false` to mark models not attached to any data source.',
modelName);
}
// Remote methods
this._defineRemoteMethods(ModelCtor, config.methods);
};
Registry.prototype._defineRemoteMethods = function(ModelCtor, methods) {
if (!methods) return;
if (typeof methods !== 'object') {
console.warn('Ignoring non-object "methods" setting of "%s".',
ModelCtor.modelName);
return;
}
Object.keys(methods).forEach(function(key) {
var meta = methods[key];
var m = key.match(/^prototype\.(.*)$/);
var isStatic = !m;
if (typeof meta.isStatic !== 'boolean') {
key = isStatic ? key : m[1];
meta.isStatic = isStatic;
} else if (meta.isStatic && m) {
throw new Error('Remoting metadata for ' + ModelCtor.modelName + '.' +
key + ' "isStatic" does not match new method name-based style.');
} else {
key = isStatic ? key : m[1];
deprecated('Remoting metadata "isStatic" is deprecated. Please ' +
'specify "prototype.name" in method name instead for isStatic=false.');
}
ModelCtor.remoteMethod(key, meta);
});
};
/**
* Look up a model class by name from all models created by
* `loopback.createModel()`
* @param {String|Function} modelOrName The model name or a `Model` constructor.
* @returns {Model} The model class
*
* @header loopback.findModel(modelName)
*/
Registry.prototype.findModel = function(modelName) {
if (typeof modelName === 'function') return modelName;
return this.modelBuilder.models[modelName];
};
/**
* Look up a model class by name from all models created by
* `loopback.createModel()`. **Throw an error when no such model exists.**
*
* @param {String} modelOrName The model name or a `Model` constructor.
* @returns {Model} The model class
*
* @header loopback.getModel(modelName)
*/
Registry.prototype.getModel = function(modelName) {
var model = this.findModel(modelName);
if (model) return model;
throw new Error('Model not found: ' + modelName);
};
/**
* Look up a model class by the base model class.
* The method can be used by LoopBack
* to find configured models in models.json over the base model.
* @param {Model} modelType The base model class
* @returns {Model} The subclass if found or the base class
*
* @header loopback.getModelByType(modelType)
*/
Registry.prototype.getModelByType = function(modelType) {
var type = typeof modelType;
var accepted = ['function', 'string'];
assert(accepted.indexOf(type) > -1,
'The model type must be a constructor or model name');
if (type === 'string') {
modelType = this.getModel(modelType);
}
var models = this.modelBuilder.models;
for (var m in models) {
if (models[m].prototype instanceof modelType) {
return models[m];
}
}
return modelType;
};
/**
* Create a data source with passing the provided options to the connector.
*
* @param {String} name Optional name.
* @options {Object} options Data Source options
* @property {Object} connector LoopBack connector.
* @property {*} [*] Other&nbsp;connector properties.
* See the relevant connector documentation.
*/
Registry.prototype.createDataSource = function(name, options) {
var self = this;
var ds = new DataSource(name, options, self.modelBuilder);
ds.createModel = function(name, properties, settings) {
settings = settings || {};
var BaseModel = settings.base || settings.super;
if (!BaseModel) {
// Check the connector types
var connectorTypes = ds.getTypes();
if (Array.isArray(connectorTypes) && connectorTypes.indexOf('db') !== -1) {
// Only set up the base model to PersistedModel if the connector is DB
BaseModel = self.PersistedModel;
} else {
BaseModel = self.Model;
}
settings.base = BaseModel;
}
var ModelCtor = self.createModel(name, properties, settings);
ModelCtor.attachTo(ds);
return ModelCtor;
};
if (ds.settings && ds.settings.defaultForType) {
this.setDefaultDataSourceForType(ds.settings.defaultForType, ds);
}
return ds;
};
/**
* Get an in-memory data source. Use one if it already exists.
*
* @param {String} [name] The name of the data source.
* If not provided, the `'default'` is used.
*/
Registry.prototype.memory = function(name) {
name = name || 'default';
var memory = (
this._memoryDataSources || (this._memoryDataSources = {})
)[name];
if (!memory) {
memory = this._memoryDataSources[name] = this.createDataSource({
connector: 'memory',
});
}
return memory;
};
/**
* Set the default `dataSource` for a given `type`.
* @param {String} type The datasource type.
* @param {Object|DataSource} dataSource The data source settings or instance
* @returns {DataSource} The data source instance.
*
* @header loopback.setDefaultDataSourceForType(type, dataSource)
*/
Registry.prototype.setDefaultDataSourceForType = function(type, dataSource) {
var defaultDataSources = this.defaultDataSources;
if (!(dataSource instanceof DataSource)) {
dataSource = this.createDataSource(dataSource);
}
defaultDataSources[type] = dataSource;
return dataSource;
};
/**
* Get the default `dataSource` for a given `type`.
* @param {String} type The datasource type.
* @returns {DataSource} The data source instance
*/
Registry.prototype.getDefaultDataSourceForType = function(type) {
return this.defaultDataSources && this.defaultDataSources[type];
};
/**
* Attach any model that does not have a dataSource to
* the default dataSource for the type the Model requests
*/
Registry.prototype.autoAttach = function() {
var models = this.modelBuilder.models;
assert.equal(typeof models, 'object', 'Cannot autoAttach without a models object');
Object.keys(models).forEach(function(modelName) {
var ModelCtor = models[modelName];
// Only auto attach if the model doesn't have an explicit data source
if (ModelCtor && (!(ModelCtor.dataSource instanceof DataSource))) {
this.autoAttachModel(ModelCtor);
}
}, this);
};
Registry.prototype.autoAttachModel = function(ModelCtor) {
if (ModelCtor.autoAttach) {
var ds = this.getDefaultDataSourceForType(ModelCtor.autoAttach);
assert(
ds instanceof DataSource,
'cannot autoAttach model "' + ModelCtor.modelName +
'". No dataSource found of type ' + ModelCtor.autoAttach
);
ModelCtor.attachTo(ds);
}
};