loopback-datasource-juggler/lib/datasource.js

1317 lines
37 KiB
JavaScript

/**
* Module dependencies
*/
var ModelBuilder = require('./model-builder.js').ModelBuilder;
var jutil = require('./jutil');
var ModelBaseClass = require('./model.js');
var DataAccessObject = require('./dao.js');
var List = require('./list.js');
var EventEmitter = require('events').EventEmitter;
var util = require('util');
var path = require('path');
var fs = require('fs');
var async = require('async');
var existsSync = fs.existsSync || path.existsSync;
/**
* Export public API
*/
exports.DataSource = DataSource;
/**
* Helpers
*/
var slice = Array.prototype.slice;
/**
* DataSource - connector-specific classes factory.
*
* All classes in single dataSource shares same connector type and
* one database connection
*
* @param name - type of dataSource connector (mysql, mongoose, sequelize, redis)
* @param settings - any database-specific settings which we need to
* establish connection (of course it depends on specific connector)
*
* - host
* - port
* - username
* - password
* - database
* - debug {Boolean} = false
*
* @example DataSource creation, waiting for connection callback
* ```
* var dataSource = new DataSource('mysql', { database: 'myapp_test' });
* dataSource.define(...);
* dataSource.on('connected', function () {
* // work with database
* });
* ```
*/
function DataSource(name, settings) {
if (!(this instanceof DataSource)) {
return new DataSource(name, settings);
}
ModelBuilder.call(this, arguments);
// operation metadata
// Initialize it before calling setup as the connector might register operations
this._operations = {};
this.setup(name, settings);
this._setupConnector();
// connector
var connector = this.connector;
// DataAccessObject - connector defined or supply the default
this.DataAccessObject = (connector && connector.DataAccessObject) ? connector.DataAccessObject : this.constructor.DataAccessObject;
this.DataAccessObject.call(this, arguments);
// define DataAccessObject methods
Object.keys(this.DataAccessObject).forEach(function (name) {
var fn = this.DataAccessObject[name];
if(typeof fn === 'function') {
this.defineOperation(name, {
accepts: fn.accepts,
'returns': fn.returns,
http: fn.http,
remoteEnabled: fn.shared ? true : false,
scope: this.DataAccessObject,
fnName: name
});
}
}.bind(this));
// define DataAccessObject.prototype methods
Object.keys(this.DataAccessObject.prototype).forEach(function (name) {
var fn = this.DataAccessObject.prototype[name];
if(typeof fn === 'function') {
this.defineOperation(name, {
prototype: true,
accepts: fn.accepts,
'returns': fn.returns,
http: fn.http,
remoteEnabled: fn.shared ? true : false,
scope: this.DataAccessObject.prototype,
fnName: name
});
}
}.bind(this));
};
util.inherits(DataSource, ModelBuilder);
// allow child classes to supply a data access object
DataSource.DataAccessObject = DataAccessObject;
// Copy over statics
for (var m in ModelBuilder) {
if (!DataSource.hasOwnProperty(m) && 'super_' !== m) {
DataSource[m] = ModelBuilder[m];
}
}
/**
* Set up the connector instance for backward compatibility with JugglingDB schema/adapter
* @private
*/
DataSource.prototype._setupConnector = function () {
this.connector = this.connector || this.adapter; // The legacy JugglingDB adapter will set up `adapter` property
this.adapter = this.connector; // Keep the adapter as an alias to connector
if (this.connector) {
if (!this.connector.dataSource) {
// Set up the dataSource if the connector doesn't do so
this.connector.dataSource = this;
}
this.connector.log = function (query, start) {
dataSource.log(query, start);
};
this.connector.logger = function (query) {
var t1 = Date.now();
var log = this.log;
return function (q) {
log(q || query, t1);
};
};
}
}
DataSource.prototype.setup = function(name, settings) {
var dataSource = this;
var connector;
// support single settings object
if(name && typeof name === 'object') {
if(!name.initialize) {
settings = name;
name = undefined;
}
}
if(typeof settings === 'object') {
if(settings.initialize) {
connector = settings;
} else if(settings.connector) {
connector = settings.connector;
} else if(settings.connector) {
connector = settings.connector;
}
}
// just save everything we get
this.name = name;
this.settings = settings;
// Disconnected by default
this.connected = false;
this.connecting = false;
if (name && !connector) {
// and initialize dataSource using connector
// this is only one initialization entry point of connector
// this module should define `connector` member of `this` (dataSource)
if (typeof name === 'object') {
connector = name;
this.name = connector.name;
} else if (name.match(/^\//)) {
// try absolute path
connector = require(name);
} else if (existsSync(__dirname + '/connectors/' + name + '.js')) {
// try built-in connector
connector = require('./connectors/' + name);
} else {
// try foreign connector
try {
connector = require('loopback-connector-' + name);
} catch (e) {
return console.log('\nWARNING: LoopbackData connector "' + name + '" is not installed,\nso your models would not work, to fix run:\n\n npm install loopback-connector-' + name, '\n');
}
}
}
if (connector) {
var postInit = function postInit() {
this._setupConnector();
// we have an connector now?
if (!this.connector) {
throw new Error('Connector is not defined correctly: it should create `connector` member of dataSource');
}
this.connected = true;
this.emit('connected');
}.bind(this);
if ('function' === typeof connector.initialize) {
// Call the async initialize method
connector.initialize(this, postInit);
} else if('function' === typeof connector) {
// Use the connector constructor directly
this.connector = new connector(this.settings);
postInit();
}
}
dataSource.connect = function(cb) {
var dataSource = this;
if(dataSource.connected || dataSource.connecting) {
process.nextTick(function() {
cb && cb();
});
return;
}
dataSource.connecting = true;
if (dataSource.connector.connect) {
dataSource.connector.connect(function(err, result) {
if (!err) {
dataSource.connected = true;
dataSource.connecting = false;
dataSource.emit('connected');
}
cb && cb(err, result);
});
} else {
process.nextTick(function() {
cb && cb();
});
}
};
}
/**
* Define class
*
* @param {String} className
* @param {Object} properties - hash of class properties in format
* `{property: Type, property2: Type2, ...}`
* or
* `{property: {type: Type}, property2: {type: Type2}, ...}`
* @param {Object} settings - other configuration of class
* @return newly created class
*
* @example simple case
* ```
* var User = dataSource.define('User', {
* email: String,
* password: String,
* birthDate: Date,
* activated: Boolean
* });
* ```
* @example more advanced case
* ```
* var User = dataSource.define('User', {
* email: { type: String, limit: 150, index: true },
* password: { type: String, limit: 50 },
* birthDate: Date,
* registrationDate: {type: Date, default: function () { return new Date }},
* activated: { type: Boolean, default: false }
* });
* ```
*/
DataSource.prototype.define = function defineClass(className, properties, settings) {
var args = slice.call(arguments);
if (!className) throw new Error('Class name required');
if (args.length == 1) properties = {}, args.push(properties);
if (args.length == 2) settings = {}, args.push(settings);
properties = properties || {};
settings = settings || {};
var NewClass = ModelBuilder.prototype.define.call(this, className, properties, settings);
// add data access objects
this.mixin(NewClass);
if(this.connector && this.connector.define) {
// pass control to connector
this.connector.define({
model: NewClass,
properties: properties,
settings: settings
});
}
return NewClass;
};
// alias createModel
DataSource.prototype.createModel = DataSource.prototype.define;
/**
* Mixin DataAccessObject methods.
*/
DataSource.prototype.mixin = function (ModelCtor) {
var ops = this.operations();
var self = this;
var DAO = this.DataAccessObject;
// mixin DAO
jutil.mixin(ModelCtor, DAO);
// decorate operations as alias functions
Object.keys(ops).forEach(function (name) {
var op = ops[name];
var fn = op.scope[op.fnName];
var scope;
if(op.enabled) {
scope = op.prototype ? ModelCtor.prototype : ModelCtor;
// var sfn = scope[name] = function () {
// op.scope[op.fnName].apply(self, arguments);
// }
Object.keys(op)
.filter(function (key) {
// filter out the following keys
return ~ [
'scope',
'fnName',
'prototype'
].indexOf(key)
})
.forEach(function (key) {
if(typeof op[key] !== 'undefined') {
op.scope[op.fnName][key] = op[key];
}
});
}
});
}
/**
* Attach an existing model to a data source.
*/
DataSource.prototype.attach = function (ModelCtor) {
var properties = ModelCtor.dataSource.definitions[ModelCtor.modelName].properties;
var settings = ModelCtor.dataSource.definitions[ModelCtor.modelName].settings;
var className = ModelCtor.modelName;
this.mixin(ModelCtor);
if(this.connector && this.connector.define) {
// pass control to connector
this.connector.define({
model: ModelCtor,
properties: properties,
settings: settings
});
}
// redefine the dataSource
hiddenProperty(ModelCtor, 'dataSource', this);
ModelCtor.dataSource = this;
// add to def
this.definitions[className] = {
properties: properties,
settings: settings
};
this.models[className] = ModelCtor;
return this;
}
/**
* Define single property named `prop` on `model`
*
* @param {String} model - name of model
* @param {String} prop - name of propery
* @param {Object} params - property settings
*/
DataSource.prototype.defineProperty = function (model, prop, params) {
ModelBuilder.prototype.defineProperty.call(this, model, prop, params);
if (this.connector.defineProperty) {
this.connector.defineProperty(model, prop, params);
}
};
/**
* Drop each model table and re-create.
* This method make sense only for sql connectors.
*
* @warning All data will be lost! Use autoupdate if you need your data.
*/
DataSource.prototype.automigrate = function (cb) {
this.freeze();
if (this.connector.automigrate) {
this.connector.automigrate(cb);
} else if (cb) {
cb();
}
};
/**
* Update existing database tables.
* This method make sense only for sql connectors.
*/
DataSource.prototype.autoupdate = function (cb) {
this.freeze();
if (this.connector.autoupdate) {
this.connector.autoupdate(cb);
} else if (cb) {
cb();
}
};
/**
* Discover existing database tables.
* This method returns an array of model objects, including {type, name, onwer}
*
* @param options An object that contains the following settings:
* all: true - Discovering all models, false - Discovering the models owned by the current user
* views: true - Including views, false - only tables
* limit: The page size
* offset: The starting index
*/
DataSource.prototype.discoverModelDefinitions = function (options, cb) {
this.freeze();
if (this.connector.discoverModelDefinitions) {
this.connector.discoverModelDefinitions(options, cb);
} else if (cb) {
cb();
}
};
DataSource.prototype.discoverModelDefinitionsSync = function (options) {
this.freeze();
if (this.connector.discoverModelDefinitionsSync) {
return this.connector.discoverModelDefinitionsSync(options);
}
return null;
};
/**
* Discover properties for a given model.
* The owner
* @param table The table/view name
* @param cb Callback
* The method return an array of properties, including {owner, tableName, columnName, dataType, dataLength, nullable}
*/
DataSource.prototype.discoverModelProperties = function (table, options, cb) {
this.freeze();
if (this.connector.discoverModelProperties) {
this.connector.discoverModelProperties(table, options, cb);
} else if (cb) {
cb();
}
};
DataSource.prototype.discoverModelPropertiesSync = function (modelName, options) {
this.freeze();
if (this.connector.discoverModelPropertiesSync) {
return this.connector.discoverModelPropertiesSync(modelName, options);
}
return null;
};
/**
* Discover primary keys for a given owner/modelName
*
* Each primary key column description has the following columns:
* owner String => table schema (may be null)
* tableName String => table name
* columnName String => column name
* keySeq Number => sequence number within primary key( a value of 1 represents the first column of the primary key, a value of 2 would represent the second column within the primary key).
* pkName String => primary key name (may be null)
*
* The owner, default to current user
* @param modelName The table name
* @param cb Callback
*/
DataSource.prototype.discoverPrimaryKeys= function(modelName, options, cb) {
this.freeze();
if (this.connector.discoverPrimaryKeys) {
this.connector.discoverPrimaryKeys(modelName, options, cb);
} else if (cb) {
cb();
}
}
DataSource.prototype.discoverPrimaryKeysSync= function(modelName, options) {
this.freeze();
if (this.connector.discoverPrimaryKeysSync) {
return this.connector.discoverPrimaryKeysSync(modelName, options);
}
return null;
}
/**
* Discover foreign keys for a given owner/modelName
*
* fkOwner String => foreign key table schema (may be null)
* fkName String => foreign key name (may be null)
* fkTableName String => foreign key table name
* fkColumnName String => foreign key column name
* keySeq short => sequence number within a foreign key( a value of 1 represents the first column of the foreign key, a value of 2 would represent the second column within the foreign key).
* pkOwner String => primary key table schema being imported (may be null)
* pkName String => primary key name (may be null)
* pkTableName String => primary key table name being imported
* pkColumnName String => primary key column name being imported
*
*
* @param modelName
* @param cb
*/
DataSource.prototype.discoverForeignKeys= function(modelName, options, cb) {
this.freeze();
if (this.connector.discoverForeignKeys) {
this.connector.discoverForeignKeys(modelName, options, cb);
} else if (cb) {
cb();
}
}
DataSource.prototype.discoverForeignKeysSync= function(modelName, options) {
this.freeze();
if (this.connector.discoverForeignKeysSync) {
return this.connector.discoverForeignKeysSync(modelName, options);
}
return null;
}
/**
* Retrieves a description of the foreign key columns that reference the given table's primary key columns (the foreign keys exported by a table).
* They are ordered by fkTableOwner, fkTableName, and keySeq.
*
* fkOwner String => foreign key table schema (may be null)
* fkName String => foreign key name (may be null)
* fkTableName String => foreign key table name
* fkColumnName String => foreign key column name
* keySeq short => sequence number within a foreign key( a value of 1 represents the first column of the foreign key, a value of 2 would represent the second column within the foreign key).
* pkOwner String => primary key table schema being imported (may be null)
* pkName String => primary key name (may be null)
* pkTableName String => primary key table name being imported
* pkColumnName String => primary key column name being imported
*
*
* @param modelName
* @param cb
*/
DataSource.prototype.discoverExportedForeignKeys= function(modelName, options, cb) {
this.freeze();
if (this.connector.discoverExportedForeignKeys) {
this.connector.discoverExportedForeignKeys(modelName, options, cb);
} else if (cb) {
cb();
}
}
DataSource.prototype.discoverExportedForeignKeysSync= function(modelName, options) {
this.freeze();
if (this.connector.discoverExportedForeignKeysSync) {
return this.connector.discoverExportedForeignKeysSync(modelName, options);
}
return null;
}
function capitalize(str) {
if (!str) {
return str;
}
return str.charAt(0).toUpperCase() + ((str.length > 1) ? str.slice(1).toLowerCase() : '');
}
function fromDBName(dbName, camelCase) {
if (!dbName) {
return dbName;
}
var parts = dbName.split(/-|_/);
parts[0] = camelCase ? parts[0].toLowerCase() : capitalize(parts[0]);
for (var i = 1; i < parts.length; i++) {
parts[i] = capitalize(parts[i]);
}
return parts.join('');
}
DataSource.prototype.discoverSchema = function (modelName, options, cb) {
options = options || {};
if(!cb && 'function' === typeof options) {
cb = options;
options = {};
}
options.visited = {};
options.associations = false;
this.discoverSchemas(modelName, options, function(err, schemas) {
if(err) {
cb && cb(err, schemas);
return;
}
for(var s in schemas) {
cb && cb(null, schemas[s]);
return;
}
});
}
/**
* Discover schema from a given modelName/view
*
* @param modelName
* @param cb
*/
DataSource.prototype.discoverSchemas = function (modelName, options, cb) {
options = options || {};
if(!cb && 'function' === typeof options) {
cb = options;
options = {};
}
var self = this;
var schemaName = this.name || this.connector.name;
var tasks = [
this.discoverModelProperties.bind(this, modelName, options),
this.discoverPrimaryKeys.bind(this, modelName, options) ];
if (options.associations) {
tasks.push(this.discoverForeignKeys.bind(this, modelName, options));
}
async.parallel(tasks, function (err, results) {
if (err) {
cb && cb(err);
return;
}
var columns = results[0];
if (!columns || columns.length === 0) {
cb && cb();
return;
}
// Handle primary keys
var primaryKeys = results[1];
var pks = {};
primaryKeys.forEach(function (pk) {
pks[pk.columnName] = pk.keySeq;
});
if (self.settings.debug) {
console.log('Primary keys: ', pks);
}
var schema = {
name: fromDBName(modelName, false),
options: {
idInjection: false // DO NOT add id property
},
properties: {
}
};
schema.options[schemaName] = {
schema: columns[0].owner,
table: modelName
};
columns.forEach(function (item) {
var i = item;
var propName = fromDBName(item.columnName, true);
schema.properties[propName] = {
type: item.type,
required: (item.nullable === 'N'),
length: item.dataLength
};
if (pks[item.columnName]) {
schema.properties[propName].id = pks[item.columnName];
}
schema.properties[propName][schemaName] = {
columnName: i.columnName,
dataType: i.dataType,
dataLength: i.dataLength,
nullable: i.nullable
};
});
// Add current modelName to the visited tables
options.visited = options.visited || {};
var schemaKey = columns[0].owner + '.' + modelName;
if (!options.visited.hasOwnProperty(schemaKey)) {
if(self.settings.debug) {
console.log('Adding schema for ' + schemaKey);
}
options.visited[schemaKey] = schema;
}
var otherTables = {};
if (options.associations) {
// Handle foreign keys
var fks = {};
var foreignKeys = results[2];
foreignKeys.forEach(function (fk) {
var fkInfo = {
keySeq: fk.keySeq,
owner: fk.pkOwner,
tableName: fk.pkTableName,
columnName: fk.pkColumnName
};
if (fks[fk.fkName]) {
fks[fk.fkName].push(fkInfo);
} else {
fks[fk.fkName] = [fkInfo];
}
});
if (self.settings.debug) {
console.log('Foreign keys: ', fks);
}
foreignKeys.forEach(function (fk) {
var propName = fromDBName(fk.pkTableName, true);
schema.properties[propName] = {
type: fromDBName(fk.pkTableName, false),
association: {
type: 'belongsTo',
foreignKey: fromDBName(fk.pkColumnName, true)
}
};
var key = fk.pkOwner + '.' + fk.pkTableName;
if (!options.visited.hasOwnProperty(key) && !otherTables.hasOwnProperty(key)) {
otherTables[key] = {owner: fk.pkOwner, tableName: fk.pkTableName};
}
});
}
if (Object.keys(otherTables).length === 0) {
cb && cb(null, options.visited);
} else {
var moreTasks = [];
for (var t in otherTables) {
if(self.settings.debug) {
console.log('Discovering related schema for ' + schemaKey);
}
var newOptions = {};
for(var key in options) {
newOptions[key] = options[key];
}
newOptions.owner = otherTables[t].owner;
moreTasks.push(DataSource.prototype.discoverSchemas.bind(self, otherTables[t].tableName, newOptions));
}
async.parallel(moreTasks, function (err, results) {
var result = results && results[0];
cb && cb(err, result);
});
}
});
}
/**
* Discover schema from a given table/view
*
* @param modelName
* @param cb
*/
DataSource.prototype.discoverSchemasSync = function (modelName, options) {
var self = this;
var schemaName = this.name || this.connector.name;
var columns = this.discoverModelPropertiesSync(modelName, options);
if (!columns || columns.length === 0) {
return [];
}
// Handle primary keys
var primaryKeys = this.discoverPrimaryKeysSync(modelName, options);
var pks = {};
primaryKeys.forEach(function (pk) {
pks[pk.columnName] = pk.keySeq;
});
if (self.settings.debug) {
console.log('Primary keys: ', pks);
}
var schema = {
name: fromDBName(modelName, false),
options: {
idInjection: false // DO NOT add id property
},
properties: {
}
};
schema.options[schemaName] = {
schema: columns.length > 0 && columns[0].owner,
table: modelName
};
columns.forEach(function (item) {
var i = item;
var propName = fromDBName(item.columnName, true);
schema.properties[propName] = {
type: item.type,
required: (item.nullable === 'N'),
length: item.dataLength
};
if (pks[item.columnName]) {
schema.properties[propName].id = pks[item.columnName];
}
schema.properties[propName][schemaName] = {
columnName: i.columnName,
dataType: i.dataType,
dataLength: i.dataLength,
nullable: i.nullable
};
});
// Add current modelName to the visited tables
options.visited = options.visited || {};
var schemaKey = columns[0].owner + '.' + modelName;
if (!options.visited.hasOwnProperty(schemaKey)) {
if (self.settings.debug) {
console.log('Adding schema for ' + schemaKey);
}
options.visited[schemaKey] = schema;
}
var otherTables = {};
if (options.associations) {
// Handle foreign keys
var fks = {};
var foreignKeys = this.discoverForeignKeysSync(modelName, options);
foreignKeys.forEach(function (fk) {
var fkInfo = {
keySeq: fk.keySeq,
owner: fk.pkOwner,
tableName: fk.pkTableName,
columnName: fk.pkColumnName
};
if (fks[fk.fkName]) {
fks[fk.fkName].push(fkInfo);
} else {
fks[fk.fkName] = [fkInfo];
}
});
if (self.settings.debug) {
console.log('Foreign keys: ', fks);
}
foreignKeys.forEach(function (fk) {
var propName = fromDBName(fk.pkTableName, true);
schema.properties[propName] = {
type: fromDBName(fk.pkTableName, false),
association: {
type: 'belongsTo',
foreignKey: fromDBName(fk.pkColumnName, true)
}
};
var key = fk.pkOwner + '.' + fk.pkTableName;
if (!options.visited.hasOwnProperty(key) && !otherTables.hasOwnProperty(key)) {
otherTables[key] = {owner: fk.pkOwner, tableName: fk.pkTableName};
}
});
}
if (Object.keys(otherTables).length === 0) {
return options.visited;
} else {
var moreTasks = [];
for (var t in otherTables) {
if (self.settings.debug) {
console.log('Discovering related schema for ' + schemaKey);
}
var newOptions = {};
for(var key in options) {
newOptions[key] = options[key];
}
newOptions.owner = otherTables[t].owner;
self.discoverSchemasSync(otherTables[t].tableName, newOptions);
}
return options.visited;
}
}
/**
* Discover and build models from the given owner/modelName
*
* @param modelName
* @param options
* @param cb
*/
DataSource.prototype.discoverAndBuildModels = function (modelName, options, cb) {
var self = this;
this.discoverSchemas(modelName, options, function (err, schemas) {
if (err) {
cb && cb(err, schemas);
return;
}
var schemaList = [];
for (var s in schemas) {
var schema = schemas[s];
schemaList.push(schema);
}
var models = self.buildModels(schemaList);
cb && cb(err, models);
});
}
/**
* Discover and build models from the given owner/modelName synchronously
*
* @param modelName
* @param options
*/
DataSource.prototype.discoverAndBuildModelsSync = function (modelName, options) {
var schemas = this.discoverSchemasSync(modelName, options);
var schemaList = [];
for (var s in schemas) {
var schema = schemas[s];
schemaList.push(schema);
}
var models = this.buildModels(schemaList);
return models;
}
/**
* Check whether migrations needed
* This method make sense only for sql connectors.
*/
DataSource.prototype.isActual = function (cb) {
this.freeze();
if (this.connector.isActual) {
this.connector.isActual(cb);
} else if (cb) {
cb(null, true);
}
};
/**
* Log benchmarked message. Do not redefine this method, if you need to grab
* chema logs, use `dataSource.on('log', ...)` emitter event
*
* @private used by connectors
*/
DataSource.prototype.log = function (sql, t) {
this.emit('log', sql, t);
};
/**
* Freeze dataSource. Behavior depends on connector
*/
DataSource.prototype.freeze = function freeze() {
if (this.connector.freezeDataSource) {
this.connector.freezeDataSource();
}
if (this.connector.freezeSchema) {
this.connector.freezeSchema();
}
}
/**
* Return table name for specified `modelName`
* @param {String} modelName
*/
DataSource.prototype.tableName = function (modelName) {
var settings = this.definitions[modelName].settings;
if(settings[this.connector.name]) {
return settings[this.connector.name].table || modelName;
} else {
return modelName;
}
};
/**
* Return column name for specified modelName and propertyName
* @param modelName
* @param propertyName
* @returns {String} columnName
*/
DataSource.prototype.columnName = function (modelName, propertyName) {
if(!propertyName) {
return propertyName;
}
var property = this.definitions[modelName].properties[propertyName];
if(property && property[this.connector.name]) {
return property[this.connector.name].columnName || propertyName;
} else {
return propertyName;
}
};
/**
* Return column metadata for specified modelName and propertyName
* @param modelName
* @param propertyName
* @returns {Object} column metadata
*/
DataSource.prototype.columnMetadata = function (modelName, propertyName) {
if(!propertyName) {
return propertyName;
}
var property = this.definitions[modelName].properties[propertyName];
if(property && property[this.connector.name]) {
return property[this.connector.name];
} else {
return null;
}
};
/**
* Return column names for specified modelName
* @param modelName
* @returns {[String]} column names
*/
DataSource.prototype.columnNames = function (modelName) {
var props = this.definitions[modelName].properties;
var cols = [];
for(var p in props) {
if(props[p][this.connector.name]) {
cols.push(props[p][this.connector.name].columnName || p);
} else {
cols.push(p);
}
}
return cols;
};
/**
* Find the ID column name
* @param modelName
* @returns {String} columnName for ID
*/
DataSource.prototype.idColumnName = function(modelName) {
return this.columnName(modelName, this.idName(modelName));
}
/**
* Find the ID property name
* @param modelName
* @returns {String} property for ID
*/
DataSource.prototype.idName = function(modelName) {
var props = this.definitions[modelName].properties;
for(var key in props) {
if(props[key].id) {
return key;
}
}
return null;
}
/**
* Find the ID property names sorted by the index
* @param modelName
* @returns {[String]} property names for IDs
*/
DataSource.prototype.idNames = function (modelName) {
var ids = [];
var props = this.definitions[modelName].properties;
for (var key in props) {
if (props[key].id && props[key].id > 0) {
ids.push({name: key, id: props[key].id});
}
}
ids.sort(function (a, b) {
return a.key - b.key;
});
var names = ids.map(function (id) {
return id.name;
});
return names;
}
/**
* Define foreign key
* @param {String} className
* @param {String} key - name of key field
*/
DataSource.prototype.defineForeignKey = function defineForeignKey(className, key, foreignClassName) {
// quit if key already defined
if (this.definitions[className].properties[key]) return;
if (this.connector.defineForeignKey) {
var cb = function (err, keyType) {
if (err) throw err;
this.definitions[className].properties[key] = {type: keyType};
}.bind(this);
switch (this.connector.defineForeignKey.length) {
case 4:
this.connector.defineForeignKey(className, key, foreignClassName, cb);
break;
default:
case 3:
this.connector.defineForeignKey(className, key, cb);
break;
}
} else {
this.definitions[className].properties[key] = {type: Number};
}
this.models[className].registerProperty(key);
};
/**
* Close database connection
*/
DataSource.prototype.disconnect = function disconnect(cb) {
var self = this;
if (this.connected && (typeof this.connector.disconnect === 'function')) {
this.connector.disconnect(function(err, result) {
self.connected = false;
cb && cb(err, result);
});
} else {
process.nextTick(function() {
cb && cb();
});
}
};
DataSource.prototype.copyModel = function copyModel(Master) {
var dataSource = this;
var className = Master.modelName;
var md = Master.dataSource.definitions[className];
var Slave = function SlaveModel() {
Master.apply(this, [].slice.call(arguments));
this.dataSource = dataSource;
};
util.inherits(Slave, Master);
Slave.__proto__ = Master;
hiddenProperty(Slave, 'dataSource', dataSource);
hiddenProperty(Slave, 'modelName', className);
hiddenProperty(Slave, 'relations', Master.relations);
if (!(className in dataSource.models)) {
// store class in model pool
dataSource.models[className] = Slave;
dataSource.definitions[className] = {
properties: md.properties,
settings: md.settings
};
if ((!dataSource.isTransaction) && dataSource.connector && dataSource.connector.define) {
dataSource.connector.define({
model: Slave,
properties: md.properties,
settings: md.settings
});
}
}
return Slave;
};
DataSource.prototype.transaction = function() {
var dataSource = this;
var transaction = new EventEmitter;
transaction.isTransaction = true;
transaction.origin = dataSource;
transaction.name = dataSource.name;
transaction.settings = dataSource.settings;
transaction.connected = false;
transaction.connecting = false;
transaction.connector = dataSource.connector.transaction();
// create blank models pool
transaction.models = {};
transaction.definitions = {};
for (var i in dataSource.models) {
dataSource.copyModel.call(transaction, dataSource.models[i]);
}
transaction.connect = dataSource.connect;
transaction.exec = function(cb) {
transaction.connector.exec(cb);
};
return transaction;
};
/**
* Enable a data source operation remotely.
*/
DataSource.prototype.enableRemote = function (operation) {
var op = this.getOperation(operation);
if(op) {
op.remoteEnabled = true;
} else {
throw new Error(operation + ' is not provided by the attached connector');
}
}
/**
* Disable a data source operation remotely.
*/
DataSource.prototype.disableRemote = function (operation) {
var op = this.getOperation(operation);
if(op) {
op.remoteEnabled = false;
} else {
throw new Error(operation + ' is not provided by the attached connector');
}
}
/**
* Get an operation's metadata.
*/
DataSource.prototype.getOperation = function (operation) {
var ops = this.operations();
var opKeys = Object.keys(ops);
for(var i = 0; i < opKeys.length; i++) {
var op = ops[opKeys[i]];
if(op.name === operation) {
return op;
}
}
}
/**
* Get all operations.
*/
DataSource.prototype.operations = function () {
return this._operations;
}
/**
* Define an operation.
*/
DataSource.prototype.defineOperation = function (name, options, fn) {
options.fn = fn;
options.name = name;
this._operations[name] = options;
}
DataSource.prototype.isRelational = function() {
return this.connector && this.connector.relational;
}
/**
* Define hidden property
*/
function hiddenProperty(where, property, value) {
Object.defineProperty(where, property, {
writable: false,
enumerable: false,
configurable: false,
value: value
});
}
/**
* Define readonly property on object
*
* @param {Object} obj
* @param {String} key
* @param {Mixed} value
*/
function defineReadonlyProp(obj, key, value) {
Object.defineProperty(obj, key, {
writable: false,
enumerable: true,
configurable: true,
value: value
});
}