import paginationToSql from './models/utils/paginationToSql'; import Database from './database'; import uuid from './uuid'; import time from './time'; import JoplinDatabase from './JoplinDatabase'; const Mutex = require('async-mutex').Mutex; // New code should make use of this enum export enum ModelType { Note = 1, Folder = 2, Setting = 3, Resource = 4, Tag = 5, NoteTag = 6, Search = 7, Alarm = 8, MasterKey = 9, ItemChange = 10, NoteResource = 11, ResourceLocalState = 12, Revision = 13, Migration = 14, SmartFilter = 15, Command = 16, } class BaseModel { // TODO: This ancient part of Joplin about model types is a bit of a // mess and should be refactored properly. public static typeEnum_: any[] = [ ['TYPE_NOTE', ModelType.Note], ['TYPE_FOLDER', ModelType.Folder], ['TYPE_SETTING', ModelType.Setting], ['TYPE_RESOURCE', ModelType.Resource], ['TYPE_TAG', ModelType.Tag], ['TYPE_NOTE_TAG', ModelType.NoteTag], ['TYPE_SEARCH', ModelType.Search], ['TYPE_ALARM', ModelType.Alarm], ['TYPE_MASTER_KEY', ModelType.MasterKey], ['TYPE_ITEM_CHANGE', ModelType.ItemChange], ['TYPE_NOTE_RESOURCE', ModelType.NoteResource], ['TYPE_RESOURCE_LOCAL_STATE', ModelType.ResourceLocalState], ['TYPE_REVISION', ModelType.Revision], ['TYPE_MIGRATION', ModelType.Migration], ['TYPE_SMART_FILTER', ModelType.SmartFilter], ['TYPE_COMMAND', ModelType.Command], ]; public static TYPE_NOTE = ModelType.Note; public static TYPE_FOLDER = ModelType.Folder; public static TYPE_SETTING = ModelType.Setting; public static TYPE_RESOURCE = ModelType.Resource; public static TYPE_TAG = ModelType.Tag; public static TYPE_NOTE_TAG = ModelType.NoteTag; public static TYPE_SEARCH = ModelType.Search; public static TYPE_ALARM = ModelType.Alarm; public static TYPE_MASTER_KEY = ModelType.MasterKey; public static TYPE_ITEM_CHANGE = ModelType.ItemChange; public static TYPE_NOTE_RESOURCE = ModelType.NoteResource; public static TYPE_RESOURCE_LOCAL_STATE = ModelType.ResourceLocalState; public static TYPE_REVISION = ModelType.Revision; public static TYPE_MIGRATION = ModelType.Migration; public static TYPE_SMART_FILTER = ModelType.SmartFilter; public static TYPE_COMMAND = ModelType.Command; public static dispatch: Function = function() {}; private static saveMutexes_: any = {}; private static db_: JoplinDatabase; static modelType(): ModelType { throw new Error('Must be overriden'); } static tableName(): string { throw new Error('Must be overriden'); } static setDb(db: any) { this.db_ = db; } static addModelMd(model: any): any { if (!model) return model; if (Array.isArray(model)) { const output = []; for (let i = 0; i < model.length; i++) { output.push(this.addModelMd(model[i])); } return output; } else { model = Object.assign({}, model); model.type_ = this.modelType(); return model; } } static logger() { return this.db().logger(); } static useUuid() { return false; } static byId(items: any[], id: string) { for (let i = 0; i < items.length; i++) { if (items[i].id == id) return items[i]; } return null; } static defaultValues(fieldNames: string[]) { const output: any = {}; for (const n of fieldNames) { output[n] = this.db().fieldDefaultValue(this.tableName(), n); } return output; } static modelIndexById(items: any[], id: string) { for (let i = 0; i < items.length; i++) { if (items[i].id == id) return i; } return -1; } static modelsByIds(items: any[], ids: string[]) { const output = []; for (let i = 0; i < items.length; i++) { if (ids.indexOf(items[i].id) >= 0) { output.push(items[i]); } } return output; } // Prefer the use of this function to compare IDs as it handles the case where // one ID is null and the other is "", in which case they are actually considered to be the same. static idsEqual(id1: string, id2: string) { if (!id1 && !id2) return true; if (!id1 && !!id2) return false; if (!!id1 && !id2) return false; return id1 === id2; } static modelTypeToName(type: number) { for (let i = 0; i < BaseModel.typeEnum_.length; i++) { const e = BaseModel.typeEnum_[i]; if (e[1] === type) return e[0].substr(5).toLowerCase(); } throw new Error(`Unknown model type: ${type}`); } static modelNameToType(name: string) { for (let i = 0; i < BaseModel.typeEnum_.length; i++) { const e = BaseModel.typeEnum_[i]; const eName = e[0].substr(5).toLowerCase(); if (eName === name) return e[1]; } throw new Error(`Unknown model name: ${name}`); } static hasField(name: string) { const fields = this.fieldNames(); return fields.indexOf(name) >= 0; } static fieldNames(withPrefix: boolean = false) { const output = this.db().tableFieldNames(this.tableName()); if (!withPrefix) return output; const p = withPrefix === true ? this.tableName() : withPrefix; const temp = []; for (let i = 0; i < output.length; i++) { temp.push(`${p}.${output[i]}`); } return temp; } static fieldType(name: string, defaultValue: any = null) { const fields = this.fields(); for (let i = 0; i < fields.length; i++) { if (fields[i].name == name) return fields[i].type; } if (defaultValue !== null) return defaultValue; throw new Error(`Unknown field: ${name}`); } static fields() { return this.db().tableFields(this.tableName()); } static removeUnknownFields(model: any) { const newModel: any = {}; for (const n in model) { if (!model.hasOwnProperty(n)) continue; if (!this.hasField(n) && n !== 'type_') continue; newModel[n] = model[n]; } return newModel; } static new() { const fields = this.fields(); const output: any = {}; for (let i = 0; i < fields.length; i++) { const f = fields[i]; output[f.name] = f.default; } return output; } static modOptions(options: any) { if (!options) { options = {}; } else { options = Object.assign({}, options); } if (!('isNew' in options)) options.isNew = 'auto'; if (!('autoTimestamp' in options)) options.autoTimestamp = true; if (!('userSideValidation' in options)) options.userSideValidation = false; return options; } static count(options: any = null) { if (!options) options = {}; let sql = `SELECT count(*) as total FROM \`${this.tableName()}\``; if (options.where) sql += ` WHERE ${options.where}`; return this.db() .selectOne(sql) .then((r: any) => { return r ? r['total'] : 0; }); } static load(id: string, options: any = null) { return this.loadByField('id', id, options); } static shortId(id: string) { return id.substr(0, 5); } static loadByPartialId(partialId: string) { return this.modelSelectAll(`SELECT * FROM \`${this.tableName()}\` WHERE \`id\` LIKE ?`, [`${partialId}%`]); } static applySqlOptions(options: any, sql: string, params: any[] = null) { if (!options) options = {}; if (options.order && options.order.length) { sql += ` ORDER BY ${paginationToSql(options)}`; } if (options.limit) sql += ` LIMIT ${options.limit}`; return { sql: sql, params: params }; } static async allIds(options: any = null) { const q = this.applySqlOptions(options, `SELECT id FROM \`${this.tableName()}\``); const rows = await this.db().selectAll(q.sql, q.params); return rows.map((r: any) => r.id); } static async all(options: any = null) { if (!options) options = {}; if (!options.fields) options.fields = '*'; let sql = `SELECT ${this.db().escapeFields(options.fields)} FROM \`${this.tableName()}\``; let params: any[] = []; if (options.where) { sql += ` WHERE ${options.where}`; if (options.whereParams) params = params.concat(options.whereParams); } const q = this.applySqlOptions(options, sql, params); return this.modelSelectAll(q.sql, q.params); } static async byIds(ids: string[], options: any = null) { if (!ids.length) return []; if (!options) options = {}; if (!options.fields) options.fields = '*'; let sql = `SELECT ${this.db().escapeFields(options.fields)} FROM \`${this.tableName()}\``; sql += ` WHERE id IN ("${ids.join('","')}")`; const q = this.applySqlOptions(options, sql); return this.modelSelectAll(q.sql); } static async search(options: any = null) { if (!options) options = {}; if (!options.fields) options.fields = '*'; const conditions = options.conditions ? options.conditions.slice(0) : []; const params = options.conditionsParams ? options.conditionsParams.slice(0) : []; if (options.titlePattern) { const pattern = options.titlePattern.replace(/\*/g, '%'); conditions.push('title LIKE ?'); params.push(pattern); } if ('limit' in options && options.limit <= 0) return []; let sql = `SELECT ${this.db().escapeFields(options.fields)} FROM \`${this.tableName()}\``; if (conditions.length) sql += ` WHERE ${conditions.join(' AND ')}`; const query = this.applySqlOptions(options, sql, params); return this.modelSelectAll(query.sql, query.params); } static modelSelectOne(sql: string, params: any[] = null) { if (params === null) params = []; return this.db() .selectOne(sql, params) .then((model: any) => { return this.filter(this.addModelMd(model)); }); } static modelSelectAll(sql: string, params: any[] = null) { if (params === null) params = []; return this.db() .selectAll(sql, params) .then((models: any[]) => { return this.filterArray(this.addModelMd(models)); }); } static loadByField(fieldName: string, fieldValue: any, options: any = null) { if (!options) options = {}; if (!('caseInsensitive' in options)) options.caseInsensitive = false; if (!options.fields) options.fields = '*'; let sql = `SELECT ${this.db().escapeFields(options.fields)} FROM \`${this.tableName()}\` WHERE \`${fieldName}\` = ?`; if (options.caseInsensitive) sql += ' COLLATE NOCASE'; return this.modelSelectOne(sql, [fieldValue]); } static loadByFields(fields: any, options: any = null) { if (!options) options = {}; if (!('caseInsensitive' in options)) options.caseInsensitive = false; if (!options.fields) options.fields = '*'; const whereSql = []; const params = []; for (const fieldName in fields) { whereSql.push(`\`${fieldName}\` = ?`); params.push(fields[fieldName]); } let sql = `SELECT ${this.db().escapeFields(options.fields)} FROM \`${this.tableName()}\` WHERE ${whereSql.join(' AND ')}`; if (options.caseInsensitive) sql += ' COLLATE NOCASE'; return this.modelSelectOne(sql, params); } static loadByTitle(fieldValue: any) { return this.modelSelectOne(`SELECT * FROM \`${this.tableName()}\` WHERE \`title\` = ?`, [fieldValue]); } static diffObjects(oldModel: any, newModel: any) { const output: any = {}; const fields = this.diffObjectsFields(oldModel, newModel); for (let i = 0; i < fields.length; i++) { output[fields[i]] = newModel[fields[i]]; } if ('type_' in newModel) output.type_ = newModel.type_; return output; } static diffObjectsFields(oldModel: any, newModel: any) { const output = []; for (const n in newModel) { if (!newModel.hasOwnProperty(n)) continue; if (n == 'type_') continue; if (!(n in oldModel) || newModel[n] !== oldModel[n]) { output.push(n); } } return output; } static modelsAreSame(oldModel: any, newModel: any) { const diff = this.diffObjects(oldModel, newModel); delete diff.type_; return !Object.getOwnPropertyNames(diff).length; } static saveMutex(modelOrId: any) { const noLockMutex = { acquire: function(): any { return null; }, }; if (!modelOrId) return noLockMutex; const modelId = typeof modelOrId === 'string' ? modelOrId : modelOrId.id; if (!modelId) return noLockMutex; let mutex = BaseModel.saveMutexes_[modelId]; if (mutex) return mutex; mutex = new Mutex(); BaseModel.saveMutexes_[modelId] = mutex; return mutex; } static releaseSaveMutex(modelOrId: any, release: Function) { if (!release) return; if (!modelOrId) return release(); const modelId = typeof modelOrId === 'string' ? modelOrId : modelOrId.id; if (!modelId) return release(); const mutex = BaseModel.saveMutexes_[modelId]; if (!mutex) return release(); delete BaseModel.saveMutexes_[modelId]; release(); } static saveQuery(o: any, options: any) { let temp: any = {}; const fieldNames = this.fieldNames(); for (let i = 0; i < fieldNames.length; i++) { const n = fieldNames[i]; if (n in o) temp[n] = o[n]; } // Remove fields that are not in the `fields` list, if provided. // Note that things like update_time, user_updated_time will still // be part of the final list of fields if autoTimestamp is on. // id also will stay. if (!options.isNew && options.fields) { const filtered: any = {}; for (const k in temp) { if (!temp.hasOwnProperty(k)) continue; if (k !== 'id' && options.fields.indexOf(k) < 0) continue; filtered[k] = temp[k]; } temp = filtered; } o = temp; let modelId = temp.id; let query: any = {}; const timeNow = time.unixMs(); if (options.autoTimestamp && this.hasField('updated_time')) { o.updated_time = timeNow; } // The purpose of user_updated_time is to allow the user to manually set the time of a note (in which case // options.autoTimestamp will be `false`). However note that if the item is later changed, this timestamp // will be set again to the current time. // // The technique to modify user_updated_time while keeping updated_time current (so that sync can happen) is to // manually set updated_time when saving and to set autoTimestamp to false, for example: // Note.save({ id: "...", updated_time: Date.now(), user_updated_time: 1436342618000 }, { autoTimestamp: false }) if (options.autoTimestamp && this.hasField('user_updated_time')) { o.user_updated_time = timeNow; } if (options.isNew) { if (this.useUuid() && !o.id) { modelId = uuid.create(); o.id = modelId; } if (!o.created_time && this.hasField('created_time')) { o.created_time = timeNow; } if (!o.user_created_time && this.hasField('user_created_time')) { o.user_created_time = o.created_time ? o.created_time : timeNow; } if (!o.user_updated_time && this.hasField('user_updated_time')) { o.user_updated_time = o.updated_time ? o.updated_time : timeNow; } query = Database.insertQuery(this.tableName(), o); } else { const where = { id: o.id }; const temp = Object.assign({}, o); delete temp.id; query = Database.updateQuery(this.tableName(), temp, where); } query.id = modelId; query.modObject = o; return query; } static userSideValidation(o: any) { if (o.id && !o.id.match(/^[a-f0-9]{32}$/)) { throw new Error('Validation error: ID must a 32-characters lowercase hexadecimal string'); } const timestamps = ['user_updated_time', 'user_created_time']; for (const k of timestamps) { if ((k in o) && (typeof o[k] !== 'number' || isNaN(o[k]) || o[k] < 0)) throw new Error('Validation error: user_updated_time and user_created_time must be numbers greater than 0'); } } static async save(o: any, options: any = null) { // When saving, there's a mutex per model ID. This is because the model returned from this function // is basically its input `o` (instead of being read from the database, for performance reasons). // This works well in general except if that model is saved simultaneously in two places. In that // case, the output won't be up-to-date and would cause for example display issues with out-dated // notes being displayed. This was an issue when notes were being synchronised while being decrypted // at the same time. const mutexRelease = await this.saveMutex(o).acquire(); options = this.modOptions(options); options.isNew = this.isNew(o, options); // Diff saving is an optimisation which takes a new version of the item and an old one, // do a diff and save only this diff. IMPORTANT: When using this make sure that both // models have been normalised using ItemClass.filter() const isDiffSaving = options && options.oldItem && !options.isNew; if (isDiffSaving) { const newObject = BaseModel.diffObjects(options.oldItem, o); newObject.type_ = o.type_; newObject.id = o.id; o = newObject; } o = this.filter(o); if (options.userSideValidation) { this.userSideValidation(o); } let queries = []; const saveQuery = this.saveQuery(o, options); const modelId = saveQuery.id; queries.push(saveQuery); if (options.nextQueries && options.nextQueries.length) { queries = queries.concat(options.nextQueries); } let output = null; try { await this.db().transactionExecBatch(queries); o = Object.assign({}, o); if (modelId) o.id = modelId; if ('updated_time' in saveQuery.modObject) o.updated_time = saveQuery.modObject.updated_time; if ('created_time' in saveQuery.modObject) o.created_time = saveQuery.modObject.created_time; if ('user_updated_time' in saveQuery.modObject) o.user_updated_time = saveQuery.modObject.user_updated_time; if ('user_created_time' in saveQuery.modObject) o.user_created_time = saveQuery.modObject.user_created_time; o = this.addModelMd(o); if (isDiffSaving) { for (const n in options.oldItem) { if (!options.oldItem.hasOwnProperty(n)) continue; if (n in o) continue; o[n] = options.oldItem[n]; } } output = this.filter(o); } finally { this.releaseSaveMutex(o, mutexRelease); } return output; } static isNew(object: any, options: any) { if (options && 'isNew' in options) { // options.isNew can be "auto" too if (options.isNew === true) return true; if (options.isNew === false) return false; } return !object.id; } static filterArray(models: any[]) { const output = []; for (let i = 0; i < models.length; i++) { output.push(this.filter(models[i])); } return output; } static filter(model: any) { if (!model) return model; const output = Object.assign({}, model); for (const n in output) { if (!output.hasOwnProperty(n)) continue; // The SQLite database doesn't have booleans so cast everything to int if (output[n] === true) { output[n] = 1; } else if (output[n] === false) { output[n] = 0; } else { const t = this.fieldType(n, Database.TYPE_UNKNOWN); if (t === Database.TYPE_INT) { output[n] = !n ? 0 : parseInt(output[n], 10); } } } return output; } static delete(id: string) { if (!id) throw new Error('Cannot delete object without an ID'); return this.db().exec(`DELETE FROM ${this.tableName()} WHERE id = ?`, [id]); } static async batchDelete(ids: string[], options: any = null) { if (!ids.length) return; options = this.modOptions(options); const idFieldName = options.idFieldName ? options.idFieldName : 'id'; const sql = `DELETE FROM ${this.tableName()} WHERE ${idFieldName} IN ("${ids.join('","')}")`; await this.db().exec(sql); } static db() { if (!this.db_) throw new Error('Accessing database before it has been initialised'); return this.db_; } // static isReady() { // return !!this.db_; // } } for (let i = 0; i < BaseModel.typeEnum_.length; i++) { const e = BaseModel.typeEnum_[i]; (BaseModel as any)[e[0]] = e[1]; } export default BaseModel;