loopback-connector/lib/sql.js

2007 lines
60 KiB
JavaScript

// Copyright IBM Corp. 2014,2019. All Rights Reserved.
// Node module: loopback-connector
// This file is licensed under the MIT License.
// License text available at https://opensource.org/licenses/MIT
'use strict';
const SG = require('strong-globalize');
const g = SG();
const util = require('util');
const async = require('async');
const assert = require('assert');
const Connector = require('./connector');
const debug = require('debug')('loopback:connector:sql');
const ParameterizedSQL = require('./parameterized-sql');
const Transaction = require('./transaction');
module.exports = SQLConnector;
function NOOP() {}
/**
* Base class for connectors that connect to relational databases using SQL
* @class
*/
function SQLConnector() {
// Call the super constructor
Connector.apply(this, [].slice.call(arguments));
}
// Inherit from the base Connector
util.inherits(SQLConnector, Connector);
// Export ParameterizedSQL
SQLConnector.ParameterizedSQL = ParameterizedSQL;
// The generic placeholder
const PLACEHOLDER = SQLConnector.PLACEHOLDER = ParameterizedSQL.PLACEHOLDER;
SQLConnector.Transaction = Transaction;
/**
* @private
* Set the relational property to indicate the backend is a relational DB
* @type {boolean}
*/
SQLConnector.prototype.relational = true;
/**
* Invoke a prototype method on the super class
* @param {String} methodName Method name
*/
SQLConnector.prototype.invokeSuper = function(methodName) {
const args = [].slice.call(arguments, 1);
const superMethod = this.constructor.super_.prototype[methodName];
return superMethod.apply(this, args);
};
/**
* Perform autoupdate for the given models
* @param {String[]} [models] A model name or an array of model names.
* If not present, apply to all models
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.autoupdate = function(models, cb) {
const self = this;
if ((!cb) && ('function' === typeof models)) {
cb = models;
models = undefined;
}
// First argument is a model name
if ('string' === typeof models) {
models = [models];
}
models = models || Object.keys(this._models);
async.eachSeries(models, function(model, done) {
if (!(model in self._models)) {
return process.nextTick(function() {
done(new Error(g.f('Model not found: %s', model)));
});
}
self.getTableStatus(model, function(err, fields, indexes, FKs) {
if (!err && fields.length) {
self.alterTable(model, fields, indexes, done);
} else {
self.createTable(model, done);
}
});
}, cb);
};
/**
* Check if the models exist
* @param {String[]} [models] A model name or an array of model names.
* If not present, apply to all models
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.isActual = function(models, cb) {
const self = this;
if ((!cb) && ('function' === typeof models)) {
cb = models;
models = undefined;
}
// First argument is a model name
if ('string' === typeof models) {
models = [models];
}
models = models || Object.keys(this._models);
let changes = [];
async.each(models, function(model, done) {
self.getTableStatus(model, function(err, fields) {
changes = changes.concat(self.getAddModifyColumns(model, fields));
changes = changes.concat(self.getDropColumns(model, fields));
done(err);
});
}, function done(err) {
if (err) {
return cb && cb(err);
}
const actual = (changes.length === 0);
if (cb) cb(null, actual);
});
};
SQLConnector.prototype.getAddModifyColumns = function(model, fields) {
let sql = [];
const self = this;
sql = sql.concat(self.getColumnsToAdd(model, fields));
return sql;
};
SQLConnector.prototype.getColumnsToAdd = function(model, fields) {
throw new Error(g.f('{{getColumnsToAdd()}} must be implemented by the connector'));
};
SQLConnector.prototype.getDropColumns = function(model, fields) {
let sql = [];
const self = this;
sql = sql.concat(self.getColumnsToDrop(model, fields));
return sql;
};
SQLConnector.prototype.getColumnsToDrop = function(model, fields) {
throw new Error(g.f('{{getColumnsToDrop()}} must be implemented by the connector'));
};
SQLConnector.prototype.searchForPropertyInActual = function(model, propName,
actualFields) {
const self = this;
let found = false;
actualFields.forEach(function(f) {
if (f.column === self.column(model, propName)) {
found = f;
return;
}
});
return found;
};
SQLConnector.prototype.addPropertyToActual = function(model, propName) {
const self = this;
const sqlCommand = self.columnEscaped(model, propName) +
' ' + self.columnDataType(model, propName) +
(self.isNullable(self.getPropertyDefinition(model, propName)) ?
'' : ' NOT NULL');
return sqlCommand;
};
SQLConnector.prototype.columnDataType = function(model, property) {
const columnMetadata = this.columnMetadata(model, property);
let colType = columnMetadata && columnMetadata.dataType;
if (colType) {
colType = colType.toUpperCase();
}
const prop = this.getModelDefinition(model).properties[property];
if (!prop) {
return null;
}
const colLength = columnMetadata && columnMetadata.dataLength ||
prop.length || prop.limit;
if (colType && colLength) {
return colType + '(' + colLength + ')';
}
return this.buildColumnType(prop);
};
SQLConnector.prototype.buildColumnType = function(property) {
throw new Error(g.f('{{buildColumnType()}} must be implemented by the connector'));
};
SQLConnector.prototype.propertyHasNotBeenDeleted = function(model, propName) {
return !!this.getModelDefinition(model).properties[propName];
};
SQLConnector.prototype.applySqlChanges = function(model, pendingChanges, cb) {
const self = this;
if (pendingChanges.length) {
let thisQuery = 'ALTER TABLE ' + self.tableEscaped(model);
let ranOnce = false;
pendingChanges.forEach(function(change) {
if (ranOnce) {
thisQuery = thisQuery + ' ';
}
thisQuery = thisQuery + ' ' + change;
ranOnce = true;
});
self.execute(thisQuery, cb);
}
};
/**
* Alters a table
* @param {String} model The model name
* @param {Object} fields Fields of the table
* @param {Object} indexes Indexes of the table
* @param {Function} cb The callback function
*/
SQLConnector.prototype.alterTable = function(model, fields, indexes, cb) {
throw new Error(g.f('{{alterTable()}} must be implemented by the connector'));
};
SQLConnector.prototype.checkFieldAndIndex = function(fields, indexes) {
return true;
};
/**
* Get the status of a table
* @param {String} model The model name
* @param {Function} cb The callback function
*/
SQLConnector.prototype.getTableStatus = function(model, cb) {
let fields, indexes;
const self = this;
this.showFields(model, function(err, data) {
if (err) return cb(err);
fields = data;
self.showIndexes(model, function(err, data) {
if (err) return cb(err);
indexes = data;
if (self.checkFieldAndIndex(fields, indexes))
return cb(null, fields, indexes);
});
});
};
/**
* Get fields from a table
* @param {String} model The model name
* @param {Function} cb The callback function
*/
SQLConnector.prototype.showFields = function(model, cb) {
throw new Error(g.f('{{showFields()}} must be implemented by the connector'));
};
/**
* Get indexes from a table
* @param {String} model The model name
* @param {Function} cb The callback function
*/
SQLConnector.prototype.showIndexes = function(model, cb) {
throw new Error(g.f('{{showIndexes()}} must be implemented by the connector'));
};
/**
* Get types associated with the connector
* Returns {String[]} The types for the connector
*/
SQLConnector.prototype.getTypes = function() {
return ['db', 'rdbms', 'sql'];
};
/**
* Get the default data type for ID
* @param prop Property definition
* Returns {Function}
*/
SQLConnector.prototype.getDefaultIdType = function(prop) {
return Number;
};
/**
* Get the default database schema name
* @returns {string} The default schema name, such as 'public' or 'dbo'
*/
SQLConnector.prototype.getDefaultSchemaName = function() {
return '';
};
/**
* Get the database schema name for the given model. The schema name can be
* customized at model settings or connector configuration level as `schema` or
* `schemaName`. For example,
*
* ```json
* "Customer": {
* "name": "Customer",
* "mysql": {
* "schema": "MYDB",
* "table": "CUSTOMER"
* }
* }
* ```
*
* @param {String} model The model name
* @returns {String} The database schema name
*/
SQLConnector.prototype.schema = function(model) {
// Check if there is a 'schema' property for connector
const dbMeta = this.getConnectorSpecificSettings(model);
const schemaName = (dbMeta && (dbMeta.schema || dbMeta.schemaName)) ||
(this.settings.schema || this.settings.schemaName) ||
this.getDefaultSchemaName();
return schemaName;
};
/**
* Get the table name for the given model. The table name can be customized
* at model settings as `table` or `tableName`. For example,
*
* ```json
* "Customer": {
* "name": "Customer",
* "mysql": {
* "table": "CUSTOMER"
* }
* }
* ```
*
* Returns the table name (String).
* @param {String} model The model name
*/
SQLConnector.prototype.table = function(model) {
const dbMeta = this.getConnectorSpecificSettings(model);
let tableName;
if (dbMeta) {
tableName = dbMeta.table || dbMeta.tableName;
if (tableName) {
// Explicit table name, return as-is
return tableName;
}
}
tableName = model;
if (typeof this.dbName === 'function') {
tableName = this.dbName(tableName);
}
return tableName;
};
/**
* Get the column metadata for the given model property
* @param {String} model The model name
* @param {String} property The property name
* @returns {Object} The column metadata
*/
SQLConnector.prototype.columnMetadata = function(model, property) {
return this.getDataSource(model).columnMetadata(model, property);
};
/**
* Get the corresponding property name for the given column name
* @param {String} model The model name
* @param {String} column The column name
* @returns {String} The property name for a given column
*/
SQLConnector.prototype.propertyName = function(model, column) {
const props = this.getModelDefinition(model).properties;
for (const p in props) {
if (this.column(model, p) === column) {
return p;
}
}
return null;
};
/**
* Get the escaped id column name
* @param {String} model The model name
* @returns {String} the escaped id column name
*/
SQLConnector.prototype.idColumnEscaped = function(model) {
return this.escapeName(this.idColumn(model));
};
/**
* Get the escaped table name
* @param {String} model The model name
* @returns {String} the escaped table name
*/
SQLConnector.prototype.tableEscaped = function(model) {
return this.escapeName(this.table(model));
};
/**
* Get the escaped column name for a given model property
* @param {String} model The model name
* @param {String} property The property name
* @returns {String} The escaped column name
*/
SQLConnector.prototype.columnEscaped = function(model, property) {
return this.escapeName(this.column(model, property));
};
/*!
* Check if id value is set
* @param idValue
* @param cb
* @param returningNull
* @returns {boolean}
*/
function isIdValuePresent(idValue, cb, returningNull) {
try {
assert(idValue !== null && idValue !== undefined, 'id value is required');
return true;
} catch (err) {
process.nextTick(function() {
if (cb) cb(returningNull ? null : err);
});
return false;
}
}
/**
* Convert the id value to the form required by database column
* @param {String} model The model name
* @param {*} idValue The id property value
* @returns {*} The escaped id column value
*/
SQLConnector.prototype.idColumnValue = function(model, idValue) {
const idProp = this.getDataSource(model).idProperty(model);
if (typeof this.toColumnValue === 'function') {
return this.toColumnValue(idProp, idValue);
} else {
return idValue;
}
};
/**
* Replace `?` with connector specific placeholders. For example,
*
* ```
* {sql: 'SELECT * FROM CUSTOMER WHERE NAME=?', params: ['John']}
* ==>
* {sql: 'SELECT * FROM CUSTOMER WHERE NAME=:1', params: ['John']}
* ```
* *LIMITATION*: We don't handle the ? inside escaped values, for example,
* `SELECT * FROM CUSTOMER WHERE NAME='J?hn'` will not be parameterized
* correctly.
*
* @param {ParameterizedSQL|Object} ps Parameterized SQL
* @returns {ParameterizedSQL} Parameterized SQL with the connector specific
* placeholders
*/
SQLConnector.prototype.parameterize = function(ps) {
ps = new ParameterizedSQL(ps);
// The value is parameterized, for example
// {sql: 'to_point(?,?)', values: [1, 2]}
const parts = ps.sql.split(PLACEHOLDER);
const clause = [];
for (let j = 0, m = parts.length; j < m; j++) {
// Replace ? with the keyed placeholder, such as :5
clause.push(parts[j]);
if (j !== parts.length - 1) {
clause.push(this.getPlaceholderForValue(j + 1));
}
}
ps.sql = clause.join('');
return ps;
};
/**
* Build the the `INSERT INTO` statement
* @param {String} model The model name
* @param {Object} fields Fields to be inserted
* @param {Object} options Options object
* @returns {ParameterizedSQL}
*/
SQLConnector.prototype.buildInsertInto = function(model, fields, options) {
const stmt = new ParameterizedSQL('INSERT INTO ' + this.tableEscaped(model));
const columnNames = fields.names.join(',');
if (columnNames) {
stmt.merge('(' + columnNames + ')', '');
}
return stmt;
};
/**
* Build the clause to return id values after insert
* @param {String} model The model name
* @param {Object} data The model data object
* @param {Object} options Options object
* @returns {string}
*/
SQLConnector.prototype.buildInsertReturning = function(model, data, options) {
return '';
};
/**
* Build the clause for default values if the fields is empty
* @param {String} model The model name
* @param {Object} data The model data object
* @param {Object} options Options object
* @returns {string} 'DEFAULT VALUES'
*/
SQLConnector.prototype.buildInsertDefaultValues = function(model, data, options) {
return 'VALUES()';
};
/**
* Build INSERT SQL statement
* @param {String} model The model name
* @param {Object} data The model data object
* @param {Object} options The options object
* @returns {string} The INSERT SQL statement
*/
SQLConnector.prototype.buildInsert = function(model, data, options) {
const fields = this.buildFields(model, data);
const insertStmt = this.buildInsertInto(model, fields, options);
const columnValues = fields.columnValues;
const fieldNames = fields.names;
if (fieldNames.length) {
const values = ParameterizedSQL.join(columnValues, ',');
values.sql = 'VALUES(' + values.sql + ')';
insertStmt.merge(values);
} else {
insertStmt.merge(this.buildInsertDefaultValues(model, data, options));
}
const returning = this.buildInsertReturning(model, data, options);
if (returning) {
insertStmt.merge(returning);
}
return this.parameterize(insertStmt);
};
/**
* Execute a SQL statement with given parameters.
*
* @param {String} sql The SQL statement
* @param {Array} An array of parameter values
* @param {Object} [options] Options object
* @param {Function} [callback] The callback function
*/
SQLConnector.prototype.execute = function(sql, params, options, callback) {
assert(typeof sql === 'string', 'sql must be a string');
if (typeof params === 'function' && options === undefined &&
callback === undefined) {
// execute(sql, callback)
options = {};
callback = params;
params = [];
} else if (typeof options === 'function' && callback === undefined) {
// execute(sql, params, callback)
callback = options;
options = {};
}
params = params || [];
options = options || {};
assert(Array.isArray(params), 'params must be an array');
assert(typeof options === 'object', 'options must be an object');
assert(typeof callback === 'function', 'callback must be a function');
const self = this;
if (!this.dataSource.connected) {
// Prevent adding too many listeners to the 'connected' event on the datasource.
if (this.dataSource.listenerCount('connected') <
this.dataSource.getMaxOfflineRequests()) {
// allow this listener to be added to this event
return this.dataSource.once('connected', function() {
self.execute(sql, params, options, callback);
});
} else {
const limitReachedError = new Error(
g.f(
'Event listener limit reached. ' +
'Increase maxOfflineRequests value in datasources.json.',
),
);
callback(limitReachedError);
}
}
const context = {
req: {
sql: sql,
params: params,
},
options: options,
};
this.notifyObserversAround('execute', context, function(context, done) {
self.executeSQL(context.req.sql, context.req.params, context.options,
function(err, info) {
if (err) {
debug('Error: %j %j %j', err, context.req.sql, context.req.params);
}
if (!err && info != null) {
context.res = info;
}
// Don't pass more than one args as it will confuse async.waterfall
done(err, info);
});
}, callback);
};
/**
* Create the data model in MySQL
*
* @param {String} model The model name
* @param {Object} data The model instance data
* @param {Object} options Options object
* @param {Function} [callback] The callback function
*/
SQLConnector.prototype.create = function(model, data, options, callback) {
const self = this;
const stmt = this.buildInsert(model, data, options);
this.execute(stmt.sql, stmt.params, options, function(err, info) {
if (err) {
callback(err);
} else {
const insertedId = self.getInsertedId(model, info);
callback(err, insertedId);
}
});
};
/**
* Save the model instance into the database
* @param {String} model The model name
* @param {Object} data The model instance data
* @param {Object} options Options object
* @param {Function} cb The callback function
*/
SQLConnector.prototype.save = function(model, data, options, cb) {
const idName = this.idName(model);
const idValue = data[idName];
if (!isIdValuePresent(idValue, cb)) {
return;
}
const where = {};
where[idName] = idValue;
let updateStmt = new ParameterizedSQL('UPDATE ' + this.tableEscaped(model));
updateStmt.merge(this.buildFieldsForUpdate(model, data));
const whereStmt = this.buildWhere(model, where);
updateStmt.merge(whereStmt);
updateStmt = this.parameterize(updateStmt);
this.execute(updateStmt.sql, updateStmt.params, options,
function(err, result) {
if (cb) cb(err, result);
});
};
/**
* Check if a model instance exists for the given id value
* @param {String} model The model name
* @param {*} id The id value
* @param {Object} options Options object
* @param {Function} cb The callback function
*/
SQLConnector.prototype.exists = function(model, id, options, cb) {
if (!isIdValuePresent(id, cb, true)) {
return;
}
const idName = this.idName(model);
const where = {};
where[idName] = id;
let selectStmt = new ParameterizedSQL(
'SELECT 1 FROM ' + this.tableEscaped(model) +
' WHERE ' + this.idColumnEscaped(model),
);
selectStmt.merge(this.buildWhere(model, where));
selectStmt = this.applyPagination(model, selectStmt, {
limit: 1,
offset: 0,
order: [idName],
});
selectStmt = this.parameterize(selectStmt);
this.execute(selectStmt.sql, selectStmt.params, options, function(err, data) {
if (!cb) return;
if (err) {
cb(err);
} else {
cb(null, data.length >= 1);
}
});
};
/**
* ATM, this method is not used by loopback-datasource-juggler dao, which
* maps `destroy` to `destroyAll` with a `where` filter that includes the `id`
* instead.
*
* Delete a model instance by id value
* @param {String} model The model name
* @param {*} id The id value
* @param {Object} options Options object
* @param {Function} cb The callback function
* @private
*/
SQLConnector.prototype.destroy = function(model, id, options, cb) {
if (!isIdValuePresent(id, cb, true)) {
return;
}
const idName = this.idName(model);
const where = {};
where[idName] = id;
this.destroyAll(model, where, options, cb);
};
// Alias to `destroy`. Juggler checks `destroy` only.
Connector.defineAliases(SQLConnector.prototype, 'destroy',
['delete', 'deleteById', 'destroyById']);
/**
* Build the `DELETE FROM` SQL statement
* @param {String} model The model name
* @param {Object} where The where object
* @param {Object} options Options object
* @returns {ParameterizedSQL} The SQL DELETE FROM statement
*/
SQLConnector.prototype.buildDelete = function(model, where, options) {
const deleteStmt = new ParameterizedSQL('DELETE FROM ' +
this.tableEscaped(model));
deleteStmt.merge(this.buildWhere(model, where));
return this.parameterize(deleteStmt);
};
/**
* Delete all matching model instances
*
* @param {String} model The model name
* @param {Object} where The where object
* @param {Object} options The options object
* @param {Function} cb The callback function
*/
SQLConnector.prototype.destroyAll = function(model, where, options, cb) {
const stmt = this.buildDelete(model, where, options);
this._executeAlteringQuery(model, stmt.sql, stmt.params, options, cb || NOOP);
};
// Alias to `destroyAll`. Juggler checks `destroyAll` only.
Connector.defineAliases(SQLConnector.prototype, 'destroyAll', ['deleteAll']);
/**
* ATM, this method is not used by loopback-datasource-juggler dao, which
* maps `updateAttributes` to `update` with a `where` filter that includes the
* `id` instead.
*
* Update attributes for a given model instance
* @param {String} model The model name
* @param {*} id The id value
* @param {Object} data The model data instance containing all properties to
* be updated
* @param {Object} options Options object
* @param {Function} cb The callback function
* @private
*/
SQLConnector.prototype.updateAttributes = function(model, id, data, options, cb) {
if (!isIdValuePresent(id, cb)) return;
const where = this._buildWhereObjById(model, id, data);
this.updateAll(model, where, data, options, function(err, info) {
if (err) return cb(err);
if (info.count === 0) {
return cb(errorIdNotFoundForUpdate(where.id));
} else {
return cb(null, info);
}
});
};
function errorIdNotFoundForUpdate(idValue) {
const msg = g.f(
'Could not update attributes. {{Object}} with {{id}} %s does not exist!', idValue,
);
const error = new Error(msg);
error.statusCode = error.status = 404;
return error;
}
/**
* Replace attributes for a given model instance
* @param {String} model The model name
* @param {*} id The id value
* @param {Object} data The model data instance containing all properties to
* be replaced
* @param {Object} options Options object
* @param {Function} cb The callback function
* @private
*/
SQLConnector.prototype.replaceById = function(model, id, data, options, cb) {
if (!isIdValuePresent(id, cb)) return;
const where = this._buildWhereObjById(model, id, data);
this._replace(model, where, data, options, cb);
};
/*
* @param model The model name.
* @param id The instance ID.
* @param {Object} data The data Object.
* @returns {Object} where The where object for a spcific instance.
* @private
*/
SQLConnector.prototype._buildWhereObjById = function(model, id, data) {
const idName = this.idName(model);
delete data[idName];
const where = {};
where[idName] = id;
return where;
};
/**
* Build the UPDATE statement
* @param {String} model The model name
* @param {Object} where The where object
* @param {Object} data The data to be changed
* @param {Object} options The options object
* @param {Function} cb The callback function
* @returns {ParameterizedSQL} The UPDATE SQL statement
*/
SQLConnector.prototype.buildUpdate = function(model, where, data, options) {
const fields = this.buildFieldsForUpdate(model, data);
return this._constructUpdateQuery(model, where, fields);
};
/**
* Build the UPDATE statement for replacing
* @param {String} model The model name
* @param {Object} where The where object
* @param {Object} data The data to be changed
* @param {Object} options The options object
* @param {Function} cb The callback function
* @returns {ParameterizedSQL} The UPDATE SQL statement for replacing fields
*/
SQLConnector.prototype.buildReplace = function(model, where, data, options) {
const fields = this.buildFieldsForReplace(model, data);
return this._constructUpdateQuery(model, where, fields);
};
/*
* @param model The model name.
* @param {} where The where object.
* @param {Object} field The parameterizedSQL fileds.
* @returns {Object} update query Constructed update query.
* @private
*/
SQLConnector.prototype._constructUpdateQuery = function(model, where, fields) {
const updateClause = new ParameterizedSQL('UPDATE ' + this.tableEscaped(model));
const whereClause = this.buildWhere(model, where);
updateClause.merge([fields, whereClause]);
return this.parameterize(updateClause);
};
/**
* Update all instances that match the where clause with the given data
* @param {String} model The model name
* @param {Object} where The where object
* @param {Object} data The property/value object representing changes
* to be made
* @param {Object} options The options object
* @param {Function} cb The callback function
*/
SQLConnector.prototype.update = function(model, where, data, options, cb) {
const stmt = this.buildUpdate(model, where, data, options);
this._executeAlteringQuery(model, stmt.sql, stmt.params, options, cb || NOOP);
};
/**
* Replace all instances that match the where clause with the given data
* @param {String} model The model name
* @param {Object} where The where object
* @param {Object} data The property/value object representing changes
* to be made
* @param {Object} options The options object
* @param {Function} cb The callback function
*/
SQLConnector.prototype._replace = function(model, where, data, options, cb) {
const self = this;
const stmt = this.buildReplace(model, where, data, options);
this.execute(stmt.sql, stmt.params, options, function(err, info) {
if (err) return cb(err);
const affectedRows = self.getCountForAffectedRows(model, info);
const rowCount = typeof (affectedRows) === 'number' ?
affectedRows : info.affectedRows;
if (rowCount === 0) {
return cb(errorIdNotFoundForReplace(where.id));
} else {
return cb(null, info);
}
});
};
function errorIdNotFoundForReplace(idValue) {
const msg = g.f('Could not replace. Object with id %s does not exist!', idValue);
const error = new Error(msg);
error.statusCode = error.status = 404;
return error;
}
SQLConnector.prototype._executeAlteringQuery = function(model, sql, params, options, cb) {
const self = this;
this.execute(sql, params, options, function(err, info) {
const affectedRows = self.getCountForAffectedRows(model, info);
cb(err, {count: affectedRows});
});
};
// Alias to `update` and `replace`. Juggler checks `update` and `replace` only.
Connector.defineAliases(SQLConnector.prototype, 'update', ['updateAll']);
Connector.defineAliases(SQLConnector.prototype, 'replace', ['replaceAll']);
/**
* Build the SQL WHERE clause for the where object
* @param {string} model Model name
* @param {object} where An object for the where conditions
* @returns {ParameterizedSQL} The SQL WHERE clause
*/
SQLConnector.prototype.buildWhere = function(model, where) {
const whereClause = this._buildWhere(model, where);
if (whereClause.sql) {
whereClause.sql = 'WHERE ' + whereClause.sql;
}
return whereClause;
};
/**
* Build SQL expression
* @param {String} columnName Escaped column name
* @param {String} operator SQL operator
* @param {*} columnValue Column value
* @param {*} propertyValue Property value
* @returns {ParameterizedSQL} The SQL expression
*/
SQLConnector.prototype.buildExpression =
function(columnName, operator, columnValue, propertyValue) {
function buildClause(columnValue, separator, grouping) {
const values = [];
for (let i = 0, n = columnValue.length; i < n; i++) {
if (columnValue[i] instanceof ParameterizedSQL) {
values.push(columnValue[i]);
} else {
values.push(new ParameterizedSQL(PLACEHOLDER, [columnValue[i]]));
}
}
separator = separator || ',';
const clause = ParameterizedSQL.join(values, separator);
if (grouping) {
clause.sql = '(' + clause.sql + ')';
}
return clause;
}
let sqlExp = columnName;
let clause;
if (columnValue instanceof ParameterizedSQL) {
clause = columnValue;
} else {
clause = new ParameterizedSQL(PLACEHOLDER, [columnValue]);
}
switch (operator) {
case 'gt':
sqlExp += '>';
break;
case 'gte':
sqlExp += '>=';
break;
case 'lt':
sqlExp += '<';
break;
case 'lte':
sqlExp += '<=';
break;
case 'between':
sqlExp += ' BETWEEN ';
clause = buildClause(columnValue, ' AND ', false);
break;
case 'inq':
sqlExp += ' IN ';
clause = buildClause(columnValue, ',', true);
break;
case 'nin':
sqlExp += ' NOT IN ';
clause = buildClause(columnValue, ',', true);
break;
case 'neq':
if (columnValue == null) {
return new ParameterizedSQL(sqlExp + ' IS NOT NULL');
}
sqlExp += '!=';
break;
case 'like':
sqlExp += ' LIKE ';
break;
case 'nlike':
sqlExp += ' NOT LIKE ';
break;
// this case not needed since each database has its own regex syntax, but
// we leave the MySQL syntax here as a placeholder
case 'regexp':
sqlExp += ' REGEXP ';
break;
}
const stmt = ParameterizedSQL.join([sqlExp, clause], '');
return stmt;
};
/**
* @private
* @param model
* @param where
* @returns {ParameterizedSQL}
*/
SQLConnector.prototype._buildWhere = function(model, where) {
let columnValue, sqlExp;
if (!where) {
return new ParameterizedSQL('');
}
if (typeof where !== 'object' || Array.isArray(where)) {
debug('Invalid value for where: %j', where);
return new ParameterizedSQL('');
}
const self = this;
const props = self.getModelDefinition(model).properties;
const whereStmts = [];
for (const key in where) {
const stmt = new ParameterizedSQL('', []);
// Handle and/or operators
if (key === 'and' || key === 'or') {
const branches = [];
let branchParams = [];
const clauses = where[key];
if (Array.isArray(clauses)) {
for (let i = 0, n = clauses.length; i < n; i++) {
const stmtForClause = self._buildWhere(model, clauses[i]);
if (stmtForClause.sql) {
stmtForClause.sql = '(' + stmtForClause.sql + ')';
branchParams = branchParams.concat(stmtForClause.params);
branches.push(stmtForClause.sql);
}
}
stmt.merge({
sql: branches.join(' ' + key.toUpperCase() + ' '),
params: branchParams,
});
whereStmts.push(stmt);
continue;
}
// The value is not an array, fall back to regular fields
}
const p = props[key];
if (p == null) {
// Unknown property, ignore it
debug('Unknown property %s is skipped for model %s', key, model);
continue;
}
// eslint-disable one-var
let expression = where[key];
const columnName = self.columnEscaped(model, key);
// eslint-enable one-var
if (expression === null || expression === undefined) {
stmt.merge(columnName + ' IS NULL');
} else if (expression && expression.constructor === Object) {
const operator = Object.keys(expression)[0];
// Get the expression without the operator
expression = expression[operator];
if (operator === 'inq' || operator === 'nin' || operator === 'between') {
columnValue = [];
if (Array.isArray(expression)) {
// Column value is a list
for (let j = 0, m = expression.length; j < m; j++) {
columnValue.push(this.toColumnValue(p, expression[j]));
}
} else {
columnValue.push(this.toColumnValue(p, expression));
}
if (operator === 'between') {
// BETWEEN v1 AND v2
const v1 = columnValue[0] === undefined ? null : columnValue[0];
const v2 = columnValue[1] === undefined ? null : columnValue[1];
columnValue = [v1, v2];
} else {
// IN (v1,v2,v3) or NOT IN (v1,v2,v3)
if (columnValue.length === 0) {
if (operator === 'inq') {
columnValue = [null];
} else {
// nin () is true
continue;
}
}
}
} else if (operator === 'regexp' && expression instanceof RegExp) {
// do not coerce RegExp based on property definitions
columnValue = expression;
} else {
columnValue = this.toColumnValue(p, expression);
}
sqlExp = self.buildExpression(columnName, operator, columnValue, p);
stmt.merge(sqlExp);
} else {
// The expression is the field value, not a condition
columnValue = self.toColumnValue(p, expression);
if (columnValue === null) {
stmt.merge(columnName + ' IS NULL');
} else {
if (columnValue instanceof ParameterizedSQL) {
stmt.merge(columnName + '=').merge(columnValue);
} else {
stmt.merge({
sql: columnName + '=?',
params: [columnValue],
});
}
}
}
whereStmts.push(stmt);
}
let params = [];
const sqls = [];
for (let k = 0, s = whereStmts.length; k < s; k++) {
if (!whereStmts[k].sql) continue;
sqls.push(whereStmts[k].sql);
params = params.concat(whereStmts[k].params);
}
const whereStmt = new ParameterizedSQL({
sql: sqls.join(' AND '),
params: params,
});
return whereStmt;
};
/**
* Build the ORDER BY clause
* @param {string} model Model name
* @param {string[]} order An array of sorting criteria
* @returns {string} The ORDER BY clause
*/
SQLConnector.prototype.buildOrderBy = function(model, order) {
if (!order) {
return '';
}
const self = this;
if (typeof order === 'string') {
order = [order];
}
const clauses = [];
for (let i = 0, n = order.length; i < n; i++) {
const t = order[i].split(/[\s,]+/);
if (t.length === 1) {
clauses.push(self.columnEscaped(model, order[i]));
} else {
clauses.push(self.columnEscaped(model, t[0]) + ' ' + t[1]);
}
}
return 'ORDER BY ' + clauses.join(',');
};
/**
* Build an array of fields for the database operation
* @param {String} model Model name
* @param {Object} data Model data object
* @param {Boolean} excludeIds Exclude id properties or not, default to false
* @returns {{names: Array, values: Array, properties: Array}}
*/
SQLConnector.prototype.buildFields = function(model, data, excludeIds) {
const keys = Object.keys(data);
return this._buildFieldsForKeys(model, data, keys, excludeIds);
};
/**
* Build an array of fields for the replace database operation
* @param {String} model Model name
* @param {Object} data Model data object
* @param {Boolean} excludeIds Exclude id properties or not, default to false
* @returns {{names: Array, values: Array, properties: Array}}
*/
SQLConnector.prototype.buildReplaceFields = function(model, data, excludeIds) {
const props = this.getModelDefinition(model).properties;
const keys = Object.keys(props);
return this._buildFieldsForKeys(model, data, keys, excludeIds);
};
/*
* @param {String} model The model name.
* @returns {Object} data The model data object.
* @returns {Array} keys The key fields for which need to be built.
* @param {Boolean} excludeIds Exclude id properties or not, default to false
* @private
*/
SQLConnector.prototype._buildFieldsForKeys = function(model, data, keys, excludeIds) {
const props = this.getModelDefinition(model).properties;
const fields = {
names: [], // field names
columnValues: [], // an array of ParameterizedSQL
properties: [], // model properties
};
for (let i = 0, n = keys.length; i < n; i++) {
const key = keys[i];
const p = props[key];
if (p == null) {
// Unknown property, ignore it
debug('Unknown property %s is skipped for model %s', key, model);
continue;
}
if (excludeIds && p.id) {
continue;
}
const k = this.columnEscaped(model, key);
const v = this.toColumnValue(p, data[key]);
if (v !== undefined) {
fields.names.push(k);
if (v instanceof ParameterizedSQL) {
fields.columnValues.push(v);
} else {
fields.columnValues.push(new ParameterizedSQL(PLACEHOLDER, [v]));
}
fields.properties.push(p);
}
}
return fields;
};
/**
* Build the SET clause for database update.
* @param {String} model Model name.
* @param {Object} data The model data object.
* @param {Boolean} excludeIds Exclude id properties or not, default to true.
* @returns {string} The list of fields for update query.
*/
SQLConnector.prototype.buildFieldsForUpdate = function(model, data, excludeIds) {
if (excludeIds === undefined) {
excludeIds = true;
}
const fields = this.buildFields(model, data, excludeIds);
return this._constructUpdateParameterizedSQL(fields);
};
/**
* Build the SET clause for database replace through update query.
* @param {String} model Model name.
* @param {Object} data The model data object.
* @param {Boolean} excludeIds Exclude id properties or not, default to true.
* @returns {string} The list of fields for update query.
*/
SQLConnector.prototype.buildFieldsForReplace = function(model, data, excludeIds) {
if (excludeIds === undefined) {
excludeIds = true;
}
const fields = this.buildReplaceFields(model, data, excludeIds);
return this._constructUpdateParameterizedSQL(fields);
};
/*
* @param {Object} field The fileds.
* @returns {Object} parameterizedSQL.
* @private
*/
SQLConnector.prototype._constructUpdateParameterizedSQL = function(fields) {
const columns = new ParameterizedSQL('');
for (let i = 0, n = fields.names.length; i < n; i++) {
const clause = ParameterizedSQL.append(fields.names[i],
fields.columnValues[i], '=');
columns.merge(clause, ',');
}
columns.sql = 'SET ' + columns.sql;
return columns;
};
/**
* Build a list of escaped column names for the given model and fields filter
* @param {string} model Model name
* @param {object} filter The filter object
* @returns {string} Comma separated string of escaped column names
*/
SQLConnector.prototype.buildColumnNames = function(model, filter) {
const fieldsFilter = filter && filter.fields;
const cols = this.getModelDefinition(model).properties;
if (!cols) {
return '*';
}
const self = this;
let keys = Object.keys(cols);
if (Array.isArray(fieldsFilter) && fieldsFilter.length > 0) {
// Not empty array, including all the fields that are valid properties
keys = fieldsFilter.filter(function(f) {
return cols[f];
});
} else if ('object' === typeof fieldsFilter &&
Object.keys(fieldsFilter).length > 0) {
// { field1: boolean, field2: boolean ... }
const included = [];
const excluded = [];
keys.forEach(function(k) {
if (fieldsFilter[k]) {
included.push(k);
} else if ((k in fieldsFilter) && !fieldsFilter[k]) {
excluded.push(k);
}
});
if (included.length > 0) {
keys = included;
} else if (excluded.length > 0) {
excluded.forEach(function(e) {
const index = keys.indexOf(e);
keys.splice(index, 1);
});
}
}
const names = keys.map(function(c) {
return self.columnEscaped(model, c);
});
return names.join(',');
};
/**
* Build a SQL SELECT statement
* @param {String} model Model name
* @param {Object} filter Filter object
* @param {Object} options Options object
* @returns {ParameterizedSQL} Statement object {sql: ..., params: ...}
*/
SQLConnector.prototype.buildSelect = function(model, filter, options) {
if (!filter.order) {
const idNames = this.idNames(model);
if (idNames && idNames.length) {
filter.order = idNames;
}
}
let selectStmt = new ParameterizedSQL('SELECT ' +
this.buildColumnNames(model, filter) +
' FROM ' + this.tableEscaped(model));
if (filter) {
if (filter.where) {
const whereStmt = this.buildWhere(model, filter.where);
selectStmt.merge(whereStmt);
}
if (filter.order) {
selectStmt.merge(this.buildOrderBy(model, filter.order));
}
if (filter.limit || filter.skip || filter.offset) {
selectStmt = this.applyPagination(
model, selectStmt, filter,
);
}
}
return this.parameterize(selectStmt);
};
/**
* Transform the row data into a model data object
* @param {string} model Model name
* @param {object} rowData An object representing the row data from DB
* @returns {object} Model data object
*/
SQLConnector.prototype.fromRow = SQLConnector.prototype.fromDatabase =
function(model, rowData) {
if (rowData == null) {
return rowData;
}
const props = this.getModelDefinition(model).properties;
const data = {};
for (const p in props) {
const columnName = this.column(model, p);
// Load properties from the row
const columnValue = this.fromColumnValue(props[p], rowData[columnName]);
if (columnValue !== undefined) {
data[p] = columnValue;
}
}
return data;
};
/**
* Find matching model instances by the filter
*
* Please also note the name `all` is confusing. `Model.find` is to find all
* matching instances while `Model.findById` is to find an instance by id. On
* the other hand, `Connector.prototype.all` implements `Model.find` while
* `Connector.prototype.find` implements `Model.findById` due to the `bad`
* naming convention we inherited from juggling-db.
*
* @param {String} model The model name
* @param {Object} filter The filter
* @param {Function} [cb] The cb function
*/
SQLConnector.prototype.all = function find(model, filter, options, cb) {
const self = this;
// Order by id if no order is specified
filter = filter || {};
const stmt = this.buildSelect(model, filter, options);
this.execute(stmt.sql, stmt.params, options, function(err, data) {
if (err) {
return cb(err, []);
}
const objs = data.map(function(obj) {
return self.fromRow(model, obj);
});
if (filter && filter.include) {
self.getModelDefinition(model).model.include(
objs, filter.include, options, cb,
);
} else {
cb(null, objs);
}
});
};
// Alias to `all`. Juggler checks `all` only.
Connector.defineAliases(SQLConnector.prototype, 'all', ['findAll']);
/**
* ATM, this method is not used by loopback-datasource-juggler dao, which
* maps `findById` to `find` with a `where` filter that includes the `id`
* instead.
*
* Please also note the name `find` is confusing. `Model.find` is to find all
* matching instances while `Model.findById` is to find an instance by id. On
* the other hand, `Connector.prototype.find` is for `findById` and
* `Connector.prototype.all` is for `find` due the `bad` convention used by
* juggling-db.
*
* Find by id
* @param {String} model The Model name
* @param {*} id The id value
* @param {Object} options The options object
* @param {Function} cb The callback function
* @private
*/
SQLConnector.prototype.find = function(model, id, options, cb) {
if (id == null) {
process.nextTick(function() {
const err = new Error(g.f('id value is required'));
if (cb) {
cb(err);
}
});
return;
}
const where = {};
const idName = this.idName(model);
where[idName] = id;
const filter = {limit: 1, offset: 0, order: idName, where: where};
return this.all(model, filter, options, function(err, results) {
cb(err, (results && results[0]) || null);
});
};
// Alias to `find`. Juggler checks `findById` only.
Connector.defineAliases(SQLConnector.prototype, 'find', ['findById']);
/**
* Count all model instances by the where filter
*
* @param {String} model The model name
* @param {Object} where The where object
* @param {Object} options The options object
* @param {Function} cb The callback function
*/
SQLConnector.prototype.count = function(model, where, options, cb) {
if (typeof where === 'function') {
// Backward compatibility for 1.x style signature:
// count(model, cb, where)
const tmp = options;
cb = where;
where = tmp;
}
let stmt = new ParameterizedSQL('SELECT count(*) as "cnt" FROM ' +
this.tableEscaped(model));
stmt = stmt.merge(this.buildWhere(model, where));
stmt = this.parameterize(stmt);
this.execute(stmt.sql, stmt.params, options,
function(err, res) {
if (err) {
return cb(err);
}
const c = (res && res[0] && res[0].cnt) || 0;
// Some drivers return count as a string to contain bigint
// See https://github.com/brianc/node-postgres/pull/427
cb(err, Number(c));
});
};
/**
* Drop the table for the given model from the database
* @param {String} model The model name
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.dropTable = function(model, cb) {
this.execute('DROP TABLE IF EXISTS ' + this.tableEscaped(model), cb);
};
/**
* Create the table for the given model
* @param {String} model The model name
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.createTable = function(model, cb) {
const sql = 'CREATE TABLE ' + this.tableEscaped(model) +
' (\n ' + this.buildColumnDefinitions(model) + '\n)';
this.execute(sql, cb);
};
/**
* Recreate the tables for the given models
* @param {String|String[]} [models] A model name or an array of model names,
* if not present, apply to all models defined in the connector
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.automigrate = function(models, cb) {
const self = this;
if ((!cb) && ('function' === typeof models)) {
cb = models;
models = undefined;
}
// First argument is a model name
if ('string' === typeof models) {
models = [models];
}
models = models || Object.keys(self._models);
if (models.length === 0) {
return process.nextTick(cb);
}
const invalidModels = models.filter(function(m) {
return !(m in self._models);
});
if (invalidModels.length) {
return process.nextTick(function() {
cb(new Error(g.f('Cannot migrate models not attached to this datasource: %s',
invalidModels.join(' '))));
});
}
async.eachSeries(models, function(model, done) {
self.dropTable(model, function(err) {
if (err) {
// TODO(bajtos) should we abort here and call cb(err)?
// The original code in juggler ignored the error completely
console.error(err);
}
self.createTable(model, function(err, result) {
if (err) {
console.error(err);
}
done(err, result);
});
});
}, cb);
};
/**
* Serialize an object into JSON string or other primitive types so that it
* can be saved into a RDB column
* @param {Object} obj The object value
* @returns {*}
*/
SQLConnector.prototype.serializeObject = function(obj) {
let val;
if (obj && typeof obj.toJSON === 'function') {
obj = obj.toJSON();
}
if (typeof obj !== 'string') {
val = JSON.stringify(obj);
} else {
val = obj;
}
return val;
};
/*!
* @param obj
*/
SQLConnector.prototype.escapeObject = function(obj) {
const val = this.serializeObject(obj);
return this.escapeValue(val);
};
/**
* The following _abstract_ methods have to be implemented by connectors that
* extend from SQLConnector to reuse the base implementations of CRUD methods
* from SQLConnector
*/
/**
* Converts a model property value into the form required by the
* database column. The result should be one of following forms:
*
* - {sql: "point(?,?)", params:[10,20]}
* - {sql: "'John'", params: []}
* - "John"
*
* @param {Object} propertyDef Model property definition
* @param {*} value Model property value
* @returns {ParameterizedSQL|*} Database column value.
*
*/
SQLConnector.prototype.toColumnValue = function(propertyDef, value) {
throw new Error(g.f('{{toColumnValue()}} must be implemented by the connector'));
};
/**
* Convert the data from database column to model property
* @param {object} propertyDef Model property definition
* @param {*) value Column value
* @returns {*} Model property value
*/
SQLConnector.prototype.fromColumnValue = function(propertyDef, value) {
throw new Error(g.f('{{fromColumnValue()}} must be implemented by the connector'));
};
/**
* Escape the name for the underlying database
* @param {String} name The name
* @returns {String} An escaped name for SQL
*/
SQLConnector.prototype.escapeName = function(name) {
throw new Error(g.f('{{escapeName()}} must be implemented by the connector'));
};
/**
* Escape the name for the underlying database
* @param {String} value The value to be escaped
* @returns {*} An escaped value for SQL
*/
SQLConnector.prototype.escapeValue = function(value) {
throw new Error(g.f('{{escapeValue()}} must be implemented by the connector'));
};
/**
* Get the place holder in SQL for identifiers, such as ??
* @param {String} key Optional key, such as 1 or id
* @returns {String} The place holder
*/
SQLConnector.prototype.getPlaceholderForIdentifier = function(key) {
throw new Error(g.f('{{getPlaceholderForIdentifier()}} must be implemented by ' +
'the connector'));
};
/**
* Get the place holder in SQL for values, such as :1 or ?
* @param {String} key Optional key, such as 1 or id
* @returns {String} The place holder
*/
SQLConnector.prototype.getPlaceholderForValue = function(key) {
throw new Error(g.f('{{getPlaceholderForValue()}} must be implemented by ' +
'the connector'));
};
/**
* Build a new SQL statement with pagination support by wrapping the given sql
* @param {String} model The model name
* @param {ParameterizedSQL} stmt The sql statement
* @param {Object} filter The filter object from the query
*/
SQLConnector.prototype.applyPagination = function(model, stmt, filter) {
throw new Error(g.f('{{applyPagination()}} must be implemented by the connector'));
};
/**
* Parse the result for SQL UPDATE/DELETE/INSERT for the number of rows
* affected
* @param {String} model Model name
* @param {Object} info Status object
* @returns {Number} Number of rows affected
*/
SQLConnector.prototype.getCountForAffectedRows = function(model, info) {
throw new Error(g.f('{{getCountForAffectedRows()}} must be implemented by ' +
'the connector'));
};
/**
* Parse the result for SQL INSERT for newly inserted id
* @param {String} model Model name
* @param {Object} info The status object from driver
* @returns {*} The inserted id value
*/
SQLConnector.prototype.getInsertedId = function(model, info) {
throw new Error(g.f('{{getInsertedId()}} must be implemented by the connector'));
};
/**
* Execute a SQL statement with given parameters
* @param {String} sql The SQL statement
* @param {Array} [params] An array of parameter values
* @param {Object} [options] Options object
* @param {Function} [callback] The callback function
*/
SQLConnector.prototype.executeSQL = function(sql, params, options, callback) {
throw new Error(g.f('{{executeSQL()}} must be implemented by the connector'));
};
// Refactored Discovery methods
/**
* Build sql for listing schemas
* @param {Object} options Options for discoverDatabaseSchemas
*/
SQLConnector.prototype.buildQuerySchemas = function(options) {
const sql = 'SELECT catalog_name as "catalog",' +
' schema_name as "schema"' +
' FROM information_schema.schemata';
return this.paginateSQL(sql, 'schema_name', options);
};
/**
* Paginate the results returned from database
* @param {String} sql The sql to execute
* @param {Object} orderBy The property name by which results are ordered
* @param {Object} options Options for discoverDatabaseSchemas
*/
SQLConnector.prototype.paginateSQL = function(sql, orderBy, options) {
throw new Error(g.f('{{paginateSQL}} must be implemented by the connector'));
};
/**
* Discover database schemas
*
* @param {Object} options Options for discovery
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.discoverDatabaseSchemas = function(options, cb) {
if (!cb && typeof options === 'function') {
cb = options;
options = {};
}
options = options || {};
const self = this;
this.execute(self.buildQuerySchemas(options), cb);
};
/*!
* Build sql for listing tables
* @param options {all: for all owners, owner: for a given owner}
* @returns {string} The sql statement
*/
// Due to the different implementation structure of information_schema across
// connectors, each connector will have to generate its own query
SQLConnector.prototype.buildQueryTables = function(options) {
throw new Error(g.f('{{buildQueryTables}} must be implemented by the connector'));
};
/*!
* Build sql for listing views
* @param options {all: for all owners, owner: for a given owner}
* @returns {string} The sql statement
*/
// Due to the different implementation structure of information_schema across
// connectors, each connector will have to generate its own query
SQLConnector.prototype.buildQueryViews = function(options) {
throw new Error(g.f('{{buildQueryViews}} must be implemented by the connector'));
};
/**
* Discover model definitions
*
* @param {Object} options Options for discovery
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.discoverModelDefinitions = function(options, cb) {
if (!cb && typeof options === 'function') {
cb = options;
options = {};
}
options = options || {};
const self = this;
const calls = [function(callback) {
self.execute(self.buildQueryTables(options), callback);
}];
if (options.views) {
calls.push(function(callback) {
self.execute(self.buildQueryViews(options), callback);
});
}
async.parallel(calls, function(err, data) {
if (err) {
cb(err, data);
} else {
let merged = [];
merged = merged.concat(data.shift());
if (data.length) {
merged = merged.concat(data.shift());
}
cb(err, merged);
}
});
};
/**
* Build sql for listing columns
* @param {String} schema The schema name
* @param {String} table The table name
*/
// Due to the different implementation structure of information_schema across
// connectors, each connector will have to generate its own query
SQLConnector.prototype.buildQueryColumns = function(schema, table) {
throw new Error(g.f('{{buildQueryColumns}} must be implemented by the connector'));
};
/**
* Map the property type from database to loopback
* @param {Object} columnDefinition The columnDefinition of the table/schema
* @param {Object} options The options for the connector
*/
SQLConnector.prototype.buildPropertyType = function(columnDefinition, options) {
throw new Error(g.f('{{buildPropertyType}} must be implemented by the connector'));
};
/*!
* Normalize the arguments
* @param table string, required
* @param options object, optional
* @param cb function, optional
*/
SQLConnector.prototype.getArgs = function(table, options, cb) {
throw new Error(g.f('{{getArgs}} must be implemented by the connector'));
};
/**
* Discover model properties from a table
* @param {String} table The table name
* @param {Object} options The options for discovery
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.discoverModelProperties = function(table, options, cb) {
const self = this;
const args = self.getArgs(table, options, cb);
let schema = args.schema || args.owner;
table = args.table;
options = args.options;
if (!schema) {
schema = self.getDefaultSchema();
}
self.setDefaultOptions(options);
cb = args.cb;
const sql = self.buildQueryColumns(schema, table);
const callback = function(err, results) {
if (err) {
cb(err, results);
} else {
results.map(function(r) {
r.type = self.buildPropertyType(r, options);
self.setNullableProperty(r);
});
cb(err, results);
}
};
this.execute(sql, callback);
};
/*!
* Build the sql statement for querying primary keys of a given table
* @param schema
* @param table
* @returns {string}
*/
// http://docs.oracle.com/javase/6/docs/api/java/sql/DatabaseMetaData.html
// #getPrimaryKeys(java.lang.String, java.lang.String, java.lang.String)
// Due to the different implementation structure of information_schema across
// connectors, each connector will have to generate its own query
SQLConnector.prototype.buildQueryPrimaryKeys = function(schema, table) {
throw new Error(g.f('{{buildQueryPrimaryKeys}} must be implemented by the connector'));
};
/**
* Discover primary keys for a given table
* @param {String} table The table name
* @param {Object} options The options for discovery
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.discoverPrimaryKeys = function(table, options, cb) {
const self = this;
const args = self.getArgs(table, options, cb);
let schema = args.schema || args.owner;
if (typeof(self.getDefaultSchema) === 'function' && !schema) {
schema = self.getDefaultSchema();
}
table = args.table;
options = args.options;
cb = args.cb;
const sql = self.buildQueryPrimaryKeys(schema, table);
this.execute(sql, cb);
};
/*!
* Build the sql statement for querying foreign keys of a given table
* @param schema
* @param table
* @returns {string}
*/
// Due to the different implementation structure of information_schema across
// connectors, each connector will have to generate its own query
SQLConnector.prototype.buildQueryForeignKeys = function(schema, table) {
throw new Error(g.f('{{buildQueryForeignKeys}} must be implemented by the connector'));
};
/**
* Discover foreign keys for a given table
* @param {String} table The table name
* @param {Object} options The options for discovery
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.discoverForeignKeys = function(table, options, cb) {
const self = this;
const args = self.getArgs(table, options, cb);
let schema = args.schema || args.owner;
if (typeof(self.getDefaultSchema) === 'function' && !schema) {
schema = self.getDefaultSchema();
}
table = args.table;
options = args.options;
cb = args.cb;
const sql = self.buildQueryForeignKeys(schema, table);
this.execute(sql, cb);
};
/**
* 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.
* @param schema
* @param table
* @returns {string}
*/
// Due to the different implementation structure of information_schema across
// connectors, each connector will have to generate its own query
SQLConnector.prototype.buildQueryExportedForeignKeys = function(schema, table) {
throw new Error(g.f('{{buildQueryExportedForeignKeys}} must be implemented by' +
'the connector'));
};
/**
* Discover foreign keys that reference to the primary key of this table
* @param {String} table The table name
* @param {Object} options The options for discovery
* @param {Function} [cb] The callback function
*/
SQLConnector.prototype.discoverExportedForeignKeys = function(table, options, cb) {
const self = this;
const args = self.getArgs(table, options, cb);
let schema = args.schema || args.owner;
if (typeof(self.getDefaultSchema) === 'function' && !schema) {
schema = self.getDefaultSchema();
}
table = args.table;
options = args.options;
cb = args.cb;
const sql = self.buildQueryExportedForeignKeys(schema, table);
this.execute(sql, cb);
};
/**
* Discover default schema of a database
* @param {Object} options The options for discovery
*/
SQLConnector.prototype.getDefaultSchema = function(options) {
throw new Error(g.f('{{getDefaultSchema}} must be implemented by' +
'the connector'));
};
/**
* Set default options for the connector
* @param {Object} options The options for discovery
*/
SQLConnector.prototype.setDefaultOptions = function(options) {
throw new Error(g.f('{{setDefaultOptions}} must be implemented by' +
'the connector'));
};
/**
* Set the nullable value for the property
* @param {Object} property The property to set nullable
*/
SQLConnector.prototype.setNullableProperty = function(property) {
throw new Error(g.f('{{setNullableProperty}} must be implemented by' +
'the connector'));
};