// Loaded from https://raw.githubusercontent.com/denjucks/dex/master/lib/dialects/sqlite3/schema/ddl.js // SQLite3_DDL // // All of the SQLite3 specific DDL helpers for renaming/dropping // columns and changing datatypes. // ------- import _ from '../../../deps/lodash@4.17.15/index.js'; const assign = _.assign; const chunk = _.chunk; const find = _.find; const fromPairs = _.fromPairs; const identity = _.identity; const invert = _.invert; const isEmpty = _.isEmpty; const negate = _.negate; const omit = _.omit; const uniqueId = _.uniqueId; // So altering the schema in SQLite3 is a major pain. // We have our own object to deal with the renaming and altering the types // for sqlite3 things. function SQLite3_DDL(client, tableCompiler, pragma, connection) { this.client = client; this.tableCompiler = tableCompiler; this.pragma = pragma; this.tableNameRaw = this.tableCompiler.tableNameRaw; this.alteredName = uniqueId('_knex_temp_alter'); this.connection = connection; this.formatter = client && client.config && client.config.wrapIdentifier ? client.config.wrapIdentifier : (value) => value; } assign(SQLite3_DDL.prototype, { tableName() { return this.formatter(this.tableNameRaw, (value) => value); }, getColumn: async function (column) { const currentCol = find(this.pragma, (col) => { return ( this.client.wrapIdentifier(col.name).toLowerCase() === this.client.wrapIdentifier(column).toLowerCase() ); }); if (!currentCol) throw new Error( `The column ${column} is not in the ${this.tableName()} table` ); return currentCol; }, getTableSql() { this.trx.disableProcessing(); return this.trx .raw( `SELECT name, sql FROM sqlite_master WHERE type="table" AND name="${this.tableName()}"` ) .then((result) => { this.trx.enableProcessing(); return result; }); }, renameTable: async function () { return this.trx.raw( `ALTER TABLE "${this.tableName()}" RENAME TO "${this.alteredName}"` ); }, dropOriginal() { return this.trx.raw(`DROP TABLE "${this.tableName()}"`); }, dropTempTable() { return this.trx.raw(`DROP TABLE "${this.alteredName}"`); }, copyData() { return this.trx .raw(`SELECT * FROM "${this.tableName()}"`) .then((result) => this.insertChunked(20, this.alteredName, identity, result) ); }, reinsertData(iterator) { return this.trx .raw(`SELECT * FROM "${this.alteredName}"`) .then((result) => this.insertChunked(20, this.tableName(), iterator, result) ); }, async insertChunked(chunkSize, target, iterator, result) { iterator = iterator || identity; const chunked = chunk(result, chunkSize); for (const batch of chunked) { await this.trx.queryBuilder().table(target).insert(batch.map(iterator)); } }, createTempTable(createTable) { return this.trx.raw( createTable.sql.replace(this.tableName(), this.alteredName) ); }, _doReplace(sql, from, to) { const oneLineSql = sql.replace(/\s+/g, ' '); const matched = oneLineSql.match(/^CREATE TABLE\s+(\S+)\s*\((.*)\)/); const tableName = matched[1]; const defs = matched[2]; if (!defs) { throw new Error('No column definitions in this statement!'); } let parens = 0, args = [], ptr = 0; let i = 0; const x = defs.length; for (i = 0; i < x; i++) { switch (defs[i]) { case '(': parens++; break; case ')': parens--; break; case ',': if (parens === 0) { args.push(defs.slice(ptr, i)); ptr = i + 1; } break; case ' ': if (ptr === i) { ptr = i + 1; } break; } } args.push(defs.slice(ptr, i)); const fromIdentifier = from.replace(/[`"'[\]]/g, ''); args = args.map((item) => { let split = item.trim().split(' '); // SQLite supports all quoting mechanisms prevalent in all major dialects of SQL // and preserves the original quoting in sqlite_master. // // Also, identifiers are never case sensitive, not even when quoted. // // Ref: https://www.sqlite.org/lang_keywords.html const fromMatchCandidates = [ new RegExp(`\`${fromIdentifier}\``, 'i'), new RegExp(`"${fromIdentifier}"`, 'i'), new RegExp(`'${fromIdentifier}'`, 'i'), new RegExp(`\\[${fromIdentifier}\\]`, 'i'), ]; if (fromIdentifier.match(/^\S+$/)) { fromMatchCandidates.push(new RegExp(`\\b${fromIdentifier}\\b`, 'i')); } const doesMatchFromIdentifier = (target) => fromMatchCandidates.some((c) => target.match(c)); const replaceFromIdentifier = (target) => fromMatchCandidates.reduce( (result, candidate) => result.replace(candidate, to), target ); if (doesMatchFromIdentifier(split[0])) { // column definition if (to) { split[0] = to; return split.join(' '); } return ''; // for deletions } // skip constraint name const idx = /constraint/i.test(split[0]) ? 2 : 0; // primary key and unique constraints have one or more // columns from this table listed between (); replace // one if it matches if (/primary|unique/i.test(split[idx])) { const ret = item.replace(/\(.*\)/, replaceFromIdentifier); // If any member columns are dropped then uniqueness/pk constraint // can not be retained if (ret !== item && isEmpty(to)) return ''; return ret; } // foreign keys have one or more columns from this table // listed between (); replace one if it matches // foreign keys also have a 'references' clause // which may reference THIS table; if it does, replace // column references in that too! if (/foreign/.test(split[idx])) { split = item.split(/ references /i); // the quoted column names save us from having to do anything // other than a straight replace here const replacedKeySpec = replaceFromIdentifier(split[0]); if (split[0] !== replacedKeySpec) { // If we are removing one or more columns of a foreign // key, then we should not retain the key at all if (isEmpty(to)) return ''; else split[0] = replacedKeySpec; } if (split[1].slice(0, tableName.length) === tableName) { // self-referential foreign key const replacedKeyTargetSpec = split[1].replace( /\(.*\)/, replaceFromIdentifier ); if (split[1] !== replacedKeyTargetSpec) { // If we are removing one or more columns of a foreign // key, then we should not retain the key at all if (isEmpty(to)) return ''; else split[1] = replacedKeyTargetSpec; } } return split.join(' references '); } return item; }); args = args.filter(negate(isEmpty)); if (args.length === 0) { throw new Error('Unable to drop last column from table'); } return oneLineSql .replace(/\(.*\)/, () => `(${args.join(', ')})`) .replace(/,\s*([,)])/, '$1'); }, // Boy, this is quite a method. renameColumn: async function (from, to) { return this.client.transaction( async (trx) => { this.trx = trx; const column = await this.getColumn(from); const sql = await this.getTableSql(column); const a = this.client.wrapIdentifier(from); const b = this.client.wrapIdentifier(to); const createTable = sql[0]; const newSql = this._doReplace(createTable.sql, a, b); if (sql === newSql) { throw new Error('Unable to find the column to change'); } const { from: mappedFrom, to: mappedTo } = invert( this.client.postProcessResponse( invert({ from, to, }) ) ); return this.reinsertMapped(createTable, newSql, (row) => { row[mappedTo] = row[mappedFrom]; return omit(row, mappedFrom); }); }, { connection: this.connection } ); }, dropColumn: async function (columns) { return this.client.transaction( (trx) => { this.trx = trx; return Promise.all(columns.map((column) => this.getColumn(column))) .then(() => this.getTableSql()) .then((sql) => { const createTable = sql[0]; let newSql = createTable.sql; columns.forEach((column) => { const a = this.client.wrapIdentifier(column); newSql = this._doReplace(newSql, a, ''); }); if (sql === newSql) { throw new Error('Unable to find the column to change'); } const mappedColumns = Object.keys( this.client.postProcessResponse( fromPairs(columns.map((column) => [column, column])) ) ); return this.reinsertMapped(createTable, newSql, (row) => omit(row, ...mappedColumns) ); }); }, { connection: this.connection } ); }, reinsertMapped(createTable, newSql, mapRow) { return Promise.resolve() .then(() => this.createTempTable(createTable)) .then(() => this.copyData()) .then(() => this.dropOriginal()) .then(() => this.trx.raw(newSql)) .then(() => this.reinsertData(mapRow)) .then(() => this.dropTempTable()); }, }); export default SQLite3_DDL;