// Copyright IBM Corp. 2015,2019. All Rights Reserved. // Node module: loopback-connector-mysql // This file is licensed under the MIT License. // License text available at https://opensource.org/licenses/MIT 'use strict'; const g = require('strong-globalize')(); const async = require('async'); module.exports = mixinMigration; /*! * @param {MySQL} MySQL connector class * @param {Object} mysql mysql driver */ function mixinMigration(MySQL, mysql) { MySQL.prototype.showFields = function(model, cb) { const table = this.tableEscaped(model); const sql = 'SHOW FIELDS FROM ' + table; this.execute(sql, function(err, fields) { if (err) { return cb(err); } else { cb(err, fields); } }); }; MySQL.prototype.showIndexes = function(model, cb) { const table = this.tableEscaped(model); const sql = 'SHOW INDEXES FROM ' + table; this.execute(sql, function(err, indexes) { if (err) { return cb(err); } else { cb(err, indexes); } }); }; MySQL.prototype.getConstraintTrigger = function(model, actualFks, cb) { const table = this.tableEscaped(model); const sql = 'SHOW CREATE TABLE ' + table; this.execute(sql, function(err, createTable) { if (err) { return cb(err); } else { const matchConstraint = new RegExp('CONSTRAINT `([^`]+)` FOREIGN KEY \\(`([^`]+)`\\)' + ' REFERENCES `([^`]+)` \\(`([^`]+)`\\)' + '(?: ON DELETE (RESTRICT|CASCADE|SET NULL|NO ACTION|SET DEFAULT))?' + '(?: ON UPDATE (RESTRICT|CASCADE|SET NULL|NO ACTION|SET DEFAULT))?', 'g'); const rawConstraints = []; let match; do { match = matchConstraint.exec(createTable[0]['Create Table']); if (match) { actualFks.forEach(function(fk) { if (fk.fkName === match[1]) { fk.onDelete = match[5] ? match[5].toLowerCase() : 'restrict'; fk.onUpdate = match[6] ? match[6].toLowerCase() : 'restrict'; } }); rawConstraints.push(match); } } while (match != null); cb(err, rawConstraints); } }); }; /** * 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 */ MySQL.prototype.autoupdate = function(models, cb) { const self = this; const foreignKeyStatements = []; 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) { self.discoverForeignKeys(self.table(model), {}, function(err, foreignKeys) { if (err) console.log('Failed to discover "' + self.table(model) + '" foreign keys', err); self.getConstraintTrigger(model, foreignKeys, function(err) { if (!err && fields && fields.length) { // if we already have a definition, update this table self.alterTable(model, fields, indexes, foreignKeys, function(err, result) { if (!err) { // foreignKeys is a list of EXISTING fkeys here, so you don't need to recreate them again // prepare fkSQL for new foreign keys const fkSQL = self.getForeignKeySQL(model, self.getModelDefinition(model).settings.foreignKeys, foreignKeys); self.addForeignKeys(model, fkSQL, function(err, result) { done(err); }); } else { done(err); } }); } else { // if there is not yet a definition, create this table self.createTable(model, function(err) { if (!err) { self.addForeignKeys(model, function(err, result) { done(err); }); } else { done(err); } }); } }); }); }); }, function(err) { return cb(err); }); }; /*! * Create a DB table for the given model * @param {string} model Model name * @param cb */ MySQL.prototype.createTable = function(model, cb) { const metadata = this.getModelDefinition(model).settings[this.name]; const engine = metadata && metadata.engine; let sql = 'CREATE TABLE ' + this.tableEscaped(model) + ' (\n ' + this.buildColumnDefinitions(model) + '\n)'; if (engine) { sql += 'ENGINE=' + engine + '\n'; } this.execute(sql, 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 */ MySQL.prototype.isActual = function(models, cb) { const self = this; let ok = false; 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) { self.getTableStatus(model, function(err, fields, indexes) { self.discoverForeignKeys(self.table(model), {}, function(err, foreignKeys) { if (err) console.log('Failed to discover "' + self.table(model) + '" foreign keys', err); self.getConstraintTrigger(model, foreignKeys, function(err) { self.alterTable(model, fields, indexes, foreignKeys, function(err, needAlter) { if (err) { return done(err); } else { ok = ok || needAlter; done(err); } }, true); }); }); }); }, function(err) { cb(err, !ok); }); }; MySQL.prototype.getColumnsToAdd = function(model, actualFields) { const self = this; const m = this.getModelDefinition(model); const propNames = Object.keys(m.properties).filter(function(name) { return !!m.properties[name]; }); const sql = []; propNames.forEach(function(propName) { if (m.properties[propName] && self.id(model, propName)) return; let found; const colName = expectedColNameForModel(propName, m); if (actualFields) { actualFields.forEach(function(f) { if (f.Field === colName) { found = f; } }); } if (found) { actualize(propName, found); } else { sql.push('ADD COLUMN ' + self.client.escapeId(colName) + ' ' + self.buildColumnDefinition(model, propName)); } }); function actualize(propName, oldSettings) { const newSettings = m.properties[propName]; if (newSettings && changed(newSettings, oldSettings)) { const pName = self.columnEscaped(model, propName); sql.push('CHANGE COLUMN ' + pName + ' ' + pName + ' ' + self.buildColumnDefinition(model, propName)); } } function changed(newSettings, oldSettings) { if (oldSettings.Null === 'YES') { // Used to allow null and does not now. if (!self.isNullable(newSettings)) { return true; } } if (oldSettings.Null === 'NO') { // Did not allow null and now does. if (self.isNullable(newSettings)) { return true; } } if (oldSettings.Type.toUpperCase() !== self.buildColumnType(newSettings).toUpperCase()) { return true; } return false; } return sql; }; MySQL.prototype.getColumnsToDrop = function(model, actualFields) { const self = this; const fields = actualFields; const sql = []; const m = this.getModelDefinition(model); const propNames = Object.keys(m.properties).filter(function(name) { return !!m.properties[name]; }); // drop columns if (fields) { fields.forEach(function(f) { const colNames = propNames.map(function expectedColName(propName) { return expectedColNameForModel(propName, m); }); const index = colNames.indexOf(f.Field); const propName = index >= 0 ? propNames[index] : f.Field; const notFound = !~index; if (m.properties[propName] && self.id(model, propName)) return; if (notFound || !m.properties[propName]) { sql.push('DROP COLUMN ' + self.client.escapeId(f.Field)); } }); } return sql; }; MySQL.prototype.addIndexes = function(model, actualIndexes) { const self = this; const m = this.getModelDefinition(model); const propNames = Object.keys(m.properties).filter(function(name) { return !!m.properties[name]; }); const indexNames = m.settings.indexes && Object.keys(m.settings.indexes).filter(function(name) { return !!m.settings.indexes[name]; }) || []; const sql = []; const ai = {}; if (actualIndexes) { actualIndexes.forEach(function(i) { const name = i.Key_name; if (!ai[name]) { ai[name] = { info: i, columns: [], }; } ai[name].columns[i.Seq_in_index - 1] = i.Column_name; }); } const aiNames = Object.keys(ai); // remove indexes aiNames.forEach(function(indexName) { if (indexName === 'PRIMARY' || (m.properties[indexName] && self.id(model, indexName))) return; if (m.settings.foreignKeys && m.settings.foreignKeys[indexName]) return; if (indexNames.indexOf(indexName) === -1 && !m.properties[indexName] || m.properties[indexName] && !m.properties[indexName].index) { sql.push('DROP INDEX ' + self.client.escapeId(indexName)); } else { // first: check single (only type and kind) if (m.properties[indexName] && !m.properties[indexName].index) { // TODO return; } // second: check multiple indexes let orderMatched = true; if (indexNames.indexOf(indexName) !== -1) { // check if indexes are configured as "columns" if (m.settings.indexes[indexName].columns) { m.settings.indexes[indexName].columns.split(/,\s*/).forEach( function(columnName, i) { if (ai[indexName].columns[i] !== columnName) orderMatched = false; }, ); } else if (m.settings.indexes[indexName].keys) { // if indexes are configured as "keys" let index = 0; for (const key in m.settings.indexes[indexName].keys) { const sortOrder = m.settings.indexes[indexName].keys[key]; if (ai[indexName].columns[index] !== key) { orderMatched = false; break; } index++; } // if number of columns differ between new and old index if (index !== ai[indexName].columns.length) { orderMatched = false; } } } if (!orderMatched) { sql.push('DROP INDEX ' + self.client.escapeId(indexName)); delete ai[indexName]; } } }); // add single-column indexes propNames.forEach(function(propName) { const i = m.properties[propName].index; if (!i) { return; } const found = ai[propName] && ai[propName].info; if (!found) { const colName = expectedColNameForModel(propName, m); const pName = self.client.escapeId(colName); const indexName = self.client.escapeId(propName); let type = ''; let kind = ''; if (i.type && i.kind.toUpperCase() !== 'FULLTEXT') { type = 'USING ' + i.type; } if (kind && type) { sql.push('ADD ' + kind + ' INDEX ' + indexName + ' (' + pName + ') ' + type); } else { if (typeof i === 'object' && i.unique && i.unique === true) { kind = 'UNIQUE'; } sql.push('ADD ' + kind + ' INDEX ' + indexName + ' ' + type + ' (' + pName + ') '); } } }); // add multi-column indexes indexNames.forEach(function(indexName) { const i = m.settings.indexes[indexName]; const found = ai[indexName] && ai[indexName].info; if (!found) { const iName = self.client.escapeId(indexName); let type = ''; let kind = ''; if (i.type && i.kind.toUpperCase() !== 'FULLTEXT') { type = 'USING ' + i.type; } if (i.kind) { kind = i.kind; } else if (i.options && i.options.unique && i.options.unique == true) { // if index unique indicator is configured kind = 'UNIQUE'; } const indexedColumns = []; let columns = ''; // if indexes are configured as "keys" if (i.keys) { for (const key in i.keys) { if (i.keys[key] !== -1) { indexedColumns.push(key); } else { indexedColumns.push(key + ' DESC '); } } } if (indexedColumns.length > 0) { columns = indexedColumns.join(','); } else if (i.columns) { // if indexes are configured as "columns" columns = i.columns; } if (kind && type) { sql.push('ADD ' + kind + ' INDEX ' + iName + ' (' + columns + ') ' + type); } else { sql.push('ADD ' + kind + ' INDEX ' + type + ' ' + iName + ' (' + columns + ')'); } } }); return sql; }; MySQL.prototype.getForeignKeySQL = function(model, actualFks, existingFks) { const self = this; const m = this.getModelDefinition(model); const addFksSql = []; existingFks = existingFks || []; if (actualFks) { const keys = Object.keys(actualFks); for (let i = 0; i < keys.length; i++) { // all existing fks are already checked in MySQL.prototype.dropForeignKeys // so we need check only names - skip if found if (existingFks.filter(function(fk) { return fk.fkName === keys[i]; }).length > 0) continue; const constraint = self.buildForeignKeyDefinition(model, keys[i]); if (constraint) { addFksSql.push('ADD ' + constraint); } } } return addFksSql; }; MySQL.prototype.addForeignKeys = function(model, fkSQL, cb) { const self = this; const m = this.getModelDefinition(model); if ((!cb) && ('function' === typeof fkSQL)) { cb = fkSQL; fkSQL = undefined; } if (!fkSQL) { const newFks = m.settings.foreignKeys; if (newFks) fkSQL = self.getForeignKeySQL(model, newFks); } if (fkSQL && fkSQL.length) { self.applySqlChanges(model, [fkSQL.toString()], function(err, result) { if (err) cb(err); else cb(null, result); }); } else cb(null, {}); }; MySQL.prototype.dropForeignKeys = function(model, actualFks) { const self = this; const m = this.getModelDefinition(model); const fks = actualFks; const sql = []; const correctFks = m.settings.foreignKeys || {}; // drop foreign keys for removed fields if (fks && fks.length) { const removedFks = []; fks.forEach(function(fk) { let needsToDrop = false; const newFk = correctFks[fk.fkName]; if (newFk) { const fkCol = expectedColNameForModel(newFk.foreignKey, m); const fkEntity = self.getModelDefinition(newFk.entity); const fkRefKey = expectedColNameForModel(newFk.entityKey, fkEntity); const fkEntityName = (typeof newFk.entity === 'object') ? newFk.entity.name : newFk.entity; const fkRefTable = self.table(fkEntityName); needsToDrop = fkCol != fk.fkColumnName || fkRefKey != fk.pkColumnName || fkRefTable != fk.pkTableName || (newFk.onDelete || 'restrict') != fk.onDelete || (newFk.onUpdate || 'restrict') != fk.onUpdate; } else { needsToDrop = true; } if (needsToDrop) { sql.push('DROP FOREIGN KEY ' + fk.fkName); removedFks.push(fk); // keep track that we removed these } }); // update out list of existing keys by removing dropped keys removedFks.forEach(function(k) { const index = actualFks.indexOf(k); if (index !== -1) actualFks.splice(index, 1); }); } return sql; }; MySQL.prototype.getAlterStatement = function(model, statements) { return statements.length ? 'ALTER TABLE ' + this.tableEscaped(model) + ' ' + statements.join(',\n') : ''; }; MySQL.prototype.alterTable = function(model, actualFields, actualIndexes, actualFks, done, checkOnly) { // if this is using an old signature, then grab the correct callback and check boolean if ('function' == typeof actualFks && typeof done !== 'function') { checkOnly = done || false; done = actualFks; } const self = this; let statements = []; async.series([ function(cb) { statements = self.getAddModifyColumns(model, actualFields); cb(); }, function(cb) { statements = statements.concat(self.getDropColumns(model, actualFields)); cb(); }, function(cb) { statements = statements.concat(self.addIndexes(model, actualIndexes)); cb(); }, function(cb) { statements = statements.concat(self.dropForeignKeys(model, actualFks)); cb(); }, ], function(err, result) { if (err) done(err); // determine if there are column, index, or foreign keys changes (all require update) if (statements.length) { // get the required alter statements const alterStmt = self.getAlterStatement(model, statements); const stmtList = [alterStmt]; // set up an object to pass back all changes, changes that have been run, // and foreign key statements that haven't been run const retValues = { statements: stmtList, query: stmtList.join(';'), }; // if we're running in read only mode OR if the only changes are foreign keys additions, // then just return the object directly if (checkOnly) { done(null, true, retValues); } else { // if there are changes in the alter statement, then execute them and return the object self.execute(alterStmt, function(err) { done(err, true, retValues); }); } } else { done(); } }); }; MySQL.prototype.buildForeignKeyDefinition = function(model, keyName) { const definition = this.getModelDefinition(model); const fk = definition.settings.foreignKeys[keyName]; if (fk) { // get the definition of the referenced object const fkEntityName = (typeof fk.entity === 'object') ? fk.entity.name : fk.entity; // verify that the other model in the same DB if (this._models[fkEntityName]) { let constraint = ' CONSTRAINT ' + this.client.escapeId(fk.name) + ' FOREIGN KEY (`' + expectedColNameForModel(fk.foreignKey, definition) + '`)' + ' REFERENCES ' + this.tableEscaped(fkEntityName) + '(' + this.client.escapeId(fk.entityKey) + ')'; if (fk.onDelete) { constraint += ' ON DELETE ' + fk.onDelete.toUpperCase(); } if (fk.onUpdate) { constraint += ' ON UPDATE ' + fk.onUpdate.toUpperCase(); } return constraint; } } return ''; }; MySQL.prototype.buildColumnDefinitions = MySQL.prototype.propertiesSQL = function(model) { const self = this; const pks = this.idNames(model).map(function(i) { return self.columnEscaped(model, i); }); const definition = this.getModelDefinition(model); const sql = []; if (pks.length === 1) { const idName = this.idName(model); const idProp = this.getModelDefinition(model).properties[idName]; const idColumnType = this.columnDataType(model, idName); if (idProp.generated && ( idColumnType === 'TINYINT' || idColumnType === 'SMALLINT' || idColumnType === 'MEDIUMINT' || idColumnType === 'INT' || idColumnType === 'BIGINT')) { sql.push(self.columnEscaped(model, idName) + ' ' + self.buildColumnDefinition(model, idName) + ' AUTO_INCREMENT PRIMARY KEY'); } else { idProp.nullable = false; sql.push(self.columnEscaped(model, idName) + ' ' + self.buildColumnDefinition(model, idName) + ' PRIMARY KEY'); } } Object.keys(definition.properties).forEach(function(prop) { if (self.id(model, prop) && pks.length === 1) { return; } const colName = self.columnEscaped(model, prop); sql.push(colName + ' ' + self.buildColumnDefinition(model, prop)); }); if (pks.length > 1) { sql.push('PRIMARY KEY(' + pks.join(',') + ')'); } const indexes = self.buildIndexes(model); indexes.forEach(function(i) { sql.push(i); }); return sql.join(',\n '); }; MySQL.prototype.buildIndex = function(model, property) { const prop = this.getModelDefinition(model).properties[property]; const i = prop && prop.index; if (!i) { return ''; } let type = ''; let kind = ''; if (i.type) { type = 'USING ' + i.type; } if (i.kind) { kind = i.kind; } const columnName = this.columnEscaped(model, property); if (kind && type) { return (kind + ' INDEX ' + columnName + ' (' + columnName + ') ' + type); } else { if (typeof i === 'object' && i.unique && i.unique === true) { kind = 'UNIQUE'; } return (kind + ' INDEX ' + columnName + ' ' + type + ' (' + columnName + ') '); } }; MySQL.prototype.buildIndexes = function(model) { const self = this; const indexClauses = []; const definition = this.getModelDefinition(model); const indexes = definition.settings.indexes || {}; // Build model level indexes for (const index in indexes) { const i = indexes[index]; let type = ''; let kind = ''; if (i.type) { type = 'USING ' + i.type; } if (i.kind) { // if index uniqueness is configured as "kind" kind = i.kind; } else if (i.options && i.options.unique && i.options.unique == true) { // if index unique indicator is configured kind = 'UNIQUE'; } const indexedColumns = []; const indexName = this.escapeName(index); let columns = ''; // if indexes are configured as "keys" if (i.keys) { // for each field in "keys" object for (const key in i.keys) { if (i.keys[key] !== -1) { indexedColumns.push(this.escapeName(key)); } else { // mysql does not support index sorting Currently // but mysql has added DESC keyword for future support indexedColumns.push(this.escapeName(key) + ' DESC '); } } } if (indexedColumns.length) { columns = indexedColumns.join(','); } else if (i.columns) { columns = i.columns; } if (columns.length) { if (kind && type) { indexClauses.push(kind + ' INDEX ' + indexName + ' (' + columns + ') ' + type); } else { indexClauses.push(kind + ' INDEX ' + type + ' ' + indexName + ' (' + columns + ')'); } } } // Define index for each of the properties for (const p in definition.properties) { const propIndex = self.buildIndex(model, p); if (propIndex) { indexClauses.push(propIndex); } } return indexClauses; }; MySQL.prototype.buildColumnDefinition = function(model, prop) { const p = this.getModelDefinition(model).properties[prop]; const line = this.columnDataType(model, prop) + ' ' + (this.isNullable(p) ? 'NULL' : 'NOT NULL'); return columnDefault(p, line); }; // override this function from base connector to allow mysql connector to // accept dataPrecision and dataScale as column specific properties MySQL.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; const colPrecision = columnMetadata && columnMetadata.dataPrecision; const colScale = columnMetadata && columnMetadata.dataScale; // info on setting column specific properties // i.e dataLength, dataPrecision, dataScale // https://loopback.io/doc/en/lb3/Model-definition-JSON-file.html if (colType) { if (colLength) return colType + '(' + colLength + ')'; if (colPrecision && colScale) return colType + '(' + colPrecision + ',' + colScale + ')'; if (colPrecision) return colType + '(' + colPrecision + ')'; return colType; } return this.buildColumnType(prop); }; MySQL.prototype.buildColumnType = function buildColumnType(propertyDefinition) { let dt = ''; const p = propertyDefinition; switch (p.type.name) { default: case 'JSON': case 'Object': case 'Any': case 'Text': dt = columnType(p, 'TEXT'); dt = stringOptionsByType(p, dt); break; case 'String': dt = columnType(p, 'VARCHAR'); dt = stringOptionsByType(p, dt); break; case 'Number': dt = columnType(p, 'INT'); dt = numericOptionsByType(p, dt); break; case 'Date': dt = columnType(p, 'DATETIME'); dt = dateOptionsByType(p, dt); break; case 'Boolean': dt = 'TINYINT(1)'; break; case 'Point': case 'GeoPoint': dt = 'POINT'; break; case 'Enum': dt = 'ENUM(' + p.type._string + ')'; dt = stringOptions(p, dt); // Enum columns can have charset/collation. break; } return dt; }; function columnDefault(p, line) { if (typeof p.type === 'undefined' || typeof p.type.name !== 'string') { return line; } // Unsupported column types if (['blob', 'json', 'text'].indexOf(p.type.name.toLowerCase()) !== -1) { return line; } if (typeof p.mysql !== 'undefined' && p.mysql.default) { const columnDefault = p.mysql.default; if (typeof columnDefault === 'number') { return line + ' DEFAULT ' + columnDefault; } if (typeof columnDefault === 'string') { return line + ' DEFAULT ' + (columnDefault.toUpperCase() === 'CURRENT_TIMESTAMP' || columnDefault.toLowerCase() === 'now' ? 'CURRENT_TIMESTAMP' : '"' + columnDefault + '"'); } } return line; } function columnType(p, defaultType) { let dt = defaultType; if (p.mysql && p.mysql.dataType) { dt = String(p.mysql.dataType); } else if (p.dataType) { dt = String(p.dataType); } return dt; } function stringOptionsByType(p, columnType) { let len; switch (columnType.toLowerCase()) { default: case 'varchar': // The maximum length for an ID column is 1000 bytes // The maximum row size is 64K len = p.length || p.limit || ((p.type !== String) ? 4096 : p.id || p.index ? 255 : 512); columnType += '(' + len + ')'; break; case 'char': len = p.length || p.limit || 255; columnType += '(' + len + ')'; break; case 'text': case 'tinytext': case 'mediumtext': case 'longtext': break; } columnType = stringOptions(p, columnType); return columnType; } function stringOptions(p, columnType) { if (p.charset) { columnType += ' CHARACTER SET ' + p.charset; } if (p.collation) { columnType += ' COLLATE ' + p.collation; } return columnType; } function numericOptionsByType(p, columnType) { switch (columnType.toLowerCase()) { default: case 'tinyint': case 'smallint': case 'mediumint': case 'int': case 'integer': case 'bigint': // As of MySQL 8.0.17, the display width attribute is deprecated for integer data types; // you should expect support for it to be removed in a future version of MySQL. // As of MySQL 8.0.17, the UNSIGNED attribute is deprecated for columns of type FLOAT, DOUBLE, and DECIMAL (and any synonyms); // you should expect support for it to be removed in a future version of MySQL. columnType = unsigned(p, columnType); break; case 'decimal': case 'numeric': columnType = fixedPointOptions(p, columnType); break; case 'float': case 'double': columnType = floatingPointOptions(p, columnType); break; } return columnType; } function floatingPointOptions(p, columnType) { let precision = 16; let scale = 8; if (p.precision) { precision = Number(p.precision); } if (p.scale) { scale = Number(p.scale); } if (p.precision && p.scale) { columnType += '(' + precision + ',' + scale + ')'; } else if (p.precision) { columnType += '(' + precision + ')'; } return columnType; } /* @TODO: Change fixed point to use an arbitrary precision arithmetic library. */ /* Currently fixed point will lose precision because it's turned to non-fixed in */ /* JS. Also, defaulting column to (9,2) and not allowing non-specified 'DECIMAL' */ /* declaration which would default to DECIMAL(10,0). Instead defaulting to (9,2). */ function fixedPointOptions(p, columnType) { let precision = 9; let scale = 2; if (p.precision) { precision = Number(p.precision); } if (p.scale) { scale = Number(p.scale); } columnType += '(' + precision + ',' + scale + ')'; return columnType; } function dateOptionsByType(p, columnType) { switch (columnType.toLowerCase()) { default: case 'date': break; case 'time': case 'datetime': case 'timestamp': columnType = dateOptions(p, columnType); break; } return columnType; } function dateOptions(p, columnType) { let precision = 0; if (p.precision) { precision = Number(p.precision); columnType += '(' + precision + ')'; } return columnType; } function unsigned(p, columnType) { if (p.unsigned) { columnType += ' UNSIGNED'; } return columnType; } function expectedColNameForModel(propName, modelToCheck) { const mysql = modelToCheck.properties[propName].mysql; if (typeof mysql === 'undefined') { return propName; } const colName = mysql.columnName; if (typeof colName === 'undefined') { return propName; } return colName; } }