mirror of
https://github.com/laurent22/joplin.git
synced 2024-12-21 09:38:01 +02:00
664 lines
21 KiB
TypeScript
664 lines
21 KiB
TypeScript
import uuid from './uuid';
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import BaseModel from './BaseModel';
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import Note from './models/Note';
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import Tag from './models/Tag';
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import Resource from './models/Resource';
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import Setting from './models/Setting';
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import time from './time';
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import shim from './shim';
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import { NoteEntity } from './services/database/types';
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import { enexXmlToMd } from './import-enex-md-gen';
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import { MarkupToHtml } from '@joplin/renderer';
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const moment = require('moment');
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const { wrapError } = require('./errorUtils');
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const { enexXmlToHtml } = require('./import-enex-html-gen.js');
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const Levenshtein = require('levenshtein');
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const md5 = require('md5');
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const { Base64Decode } = require('base64-stream');
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const md5File = require('md5-file');
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const { mime } = require('./mime-utils');
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// const Promise = require('promise');
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const fs = require('fs-extra');
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function dateToTimestamp(s: string, defaultValue: number = null): number {
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// Most dates seem to be in this format
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let m = moment(s, 'YYYYMMDDTHHmmssZ');
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// But sometimes they might be in this format eg. 20180306T91108 AMZ
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// https://github.com/laurent22/joplin/issues/557
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if (!m.isValid()) m = moment(s, 'YYYYMMDDThmmss AZ');
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if (!m.isValid()) {
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if (defaultValue !== null) return defaultValue;
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throw new Error(`Invalid date: ${s}`);
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}
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return m.toDate().getTime();
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}
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function extractRecognitionObjId(recognitionXml: string) {
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const r = recognitionXml.match(/objID="(.*?)"/);
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return r && r.length >= 2 ? r[1] : null;
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}
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async function decodeBase64File(sourceFilePath: string, destFilePath: string) {
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// When something goes wrong with streams you can get an error "EBADF, Bad file descriptor"
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// with no strack trace to tell where the error happened.
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// Also note that this code is not great because there's a source and a destination stream
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// and while one stream might end, the other might throw an error or vice-versa. However
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// we can only throw one error from a promise. So before one stream
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// could end with resolve(), then another stream would get an error and call reject(), which
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// would be ignored. I don't think it's happening anymore, but something to keep in mind
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// anyway.
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return new Promise(function(resolve, reject) {
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// Note: we manually handle closing the file so that we can
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// force flusing it before close. This is needed because
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// "end" might be called before the file has been flushed
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// to disk, thus resulting in the calling code to find a
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// file with size 0.
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const destFile = fs.openSync(destFilePath, 'w');
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const sourceStream = fs.createReadStream(sourceFilePath);
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const destStream = fs.createWriteStream(destFile, {
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fd: destFile,
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autoClose: false,
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});
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sourceStream.pipe(new Base64Decode()).pipe(destStream);
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// We wait for the destination stream "finish" event, not the source stream "end" event
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// because even if the source has finished sending data, the destination might not have
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// finished receiving it and writing it to disk.
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destStream.on('finish', () => {
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fs.fdatasyncSync(destFile);
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fs.closeSync(destFile);
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resolve(null);
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});
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sourceStream.on('error', (error: any) => reject(error));
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destStream.on('error', (error: any) => reject(error));
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});
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}
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async function md5FileAsync(filePath: string): Promise<string> {
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return new Promise((resolve, reject) => {
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md5File(filePath, (error: any, hash: string) => {
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if (error) {
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reject(error);
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return;
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}
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resolve(hash);
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});
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});
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}
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function removeUndefinedProperties(note: NoteEntity) {
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const output: any = {};
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for (const n in note) {
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if (!note.hasOwnProperty(n)) continue;
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const v = (note as any)[n];
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if (v === undefined || v === null) continue;
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output[n] = v;
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}
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return output;
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}
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function levenshteinPercent(s1: string, s2: string) {
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const l = new Levenshtein(s1, s2);
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if (!s1.length || !s2.length) return 1;
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return Math.abs(l.distance / s1.length);
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}
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async function fuzzyMatch(note: ExtractedNote) {
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if (note.created_time < time.unixMs() - 1000 * 60 * 60 * 24 * 360) {
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const notes = await Note.modelSelectAll('SELECT * FROM notes WHERE is_conflict = 0 AND created_time = ? AND title = ?', [note.created_time, note.title]);
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return notes.length !== 1 ? null : notes[0];
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}
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const notes = await Note.modelSelectAll('SELECT * FROM notes WHERE is_conflict = 0 AND created_time = ?', [note.created_time]);
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if (notes.length === 0) return null;
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if (notes.length === 1) return notes[0];
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let lowestL = 1;
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let lowestN = null;
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for (let i = 0; i < notes.length; i++) {
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const n = notes[i];
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const l = levenshteinPercent(note.title, n.title);
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if (l < lowestL) {
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lowestL = l;
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lowestN = n;
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}
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}
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if (lowestN && lowestL < 0.2) return lowestN;
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return null;
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}
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interface ExtractedResource {
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hasData?: boolean;
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id?: string;
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size?: number;
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dataFilePath?: string;
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dataEncoding?: string;
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data?: string;
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filename?: string;
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sourceUrl?: string;
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mime?: string;
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title?: string;
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}
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interface ExtractedNote extends NoteEntity {
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resources?: ExtractedResource[];
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tags?: string[];
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title?: string;
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bodyXml?: string;
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// is_todo?: boolean;
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}
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// At this point we have the resource has it's been parsed from the XML, but additional
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// processing needs to be done to get the final resource file, its size, MD5, etc.
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async function processNoteResource(resource: ExtractedResource) {
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if (!resource.hasData) {
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// Some resources have no data, go figure, so we need a special case for this.
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resource.id = md5(Date.now() + Math.random());
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resource.size = 0;
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resource.dataFilePath = `${Setting.value('tempDir')}/${resource.id}.empty`;
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await fs.writeFile(resource.dataFilePath, '');
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} else {
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if (resource.dataEncoding == 'base64') {
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const decodedFilePath = `${resource.dataFilePath}.decoded`;
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await decodeBase64File(resource.dataFilePath, decodedFilePath);
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resource.dataFilePath = decodedFilePath;
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} else if (resource.dataEncoding) {
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throw new Error(`Cannot decode resource with encoding: ${resource.dataEncoding}`);
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}
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const stats = fs.statSync(resource.dataFilePath);
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resource.size = stats.size;
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if (!resource.id) {
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// If no resource ID is present, the resource ID is actually the MD5 of the data.
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// This ID will match the "hash" attribute of the corresponding <en-media> tag.
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// resourceId = md5(decodedData);
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resource.id = await md5FileAsync(resource.dataFilePath);
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}
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if (!resource.id || !resource.size) {
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const debugTemp = Object.assign({}, resource);
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debugTemp.data = debugTemp.data ? `${debugTemp.data.substr(0, 32)}...` : debugTemp.data;
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throw new Error(`This resource was not added because it has no ID or no content: ${JSON.stringify(debugTemp)}`);
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}
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}
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return resource;
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}
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async function saveNoteResources(note: ExtractedNote) {
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let resourcesCreated = 0;
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for (let i = 0; i < note.resources.length; i++) {
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const resource = note.resources[i];
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const toSave = Object.assign({}, resource);
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delete toSave.dataFilePath;
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delete toSave.dataEncoding;
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delete toSave.hasData;
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// The same resource sometimes appear twice in the same enex (exact same ID and file).
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// In that case, just skip it - it means two different notes might be linked to the
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// same resource.
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const existingResource = await Resource.load(toSave.id);
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if (existingResource) continue;
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await fs.move(resource.dataFilePath, Resource.fullPath(toSave), { overwrite: true });
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await Resource.save(toSave, { isNew: true });
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resourcesCreated++;
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}
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return resourcesCreated;
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}
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async function saveNoteTags(note: ExtractedNote) {
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let notesTagged = 0;
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for (let i = 0; i < note.tags.length; i++) {
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const tagTitle = note.tags[i];
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let tag = await Tag.loadByTitle(tagTitle);
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if (!tag) tag = await Tag.save({ title: tagTitle });
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await Tag.addNote(tag.id, note.id);
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notesTagged++;
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}
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return notesTagged;
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}
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interface ImportOptions {
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fuzzyMatching?: boolean;
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onProgress?: Function;
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onError?: Function;
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outputFormat?: string;
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}
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async function saveNoteToStorage(note: ExtractedNote, importOptions: ImportOptions) {
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importOptions = Object.assign({}, {
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fuzzyMatching: false,
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}, importOptions);
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note = Note.filter(note as any);
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const existingNote = importOptions.fuzzyMatching ? await fuzzyMatch(note) : null;
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const result = {
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noteCreated: false,
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noteUpdated: false,
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noteSkipped: false,
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resourcesCreated: 0,
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notesTagged: 0,
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};
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const resourcesCreated = await saveNoteResources(note);
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result.resourcesCreated += resourcesCreated;
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const notesTagged = await saveNoteTags(note);
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result.notesTagged += notesTagged;
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if (existingNote) {
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const diff = BaseModel.diffObjects(existingNote, note);
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delete diff.tags;
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delete diff.resources;
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delete diff.id;
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if (!Object.getOwnPropertyNames(diff).length) {
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result.noteSkipped = true;
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return result;
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}
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diff.id = existingNote.id;
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diff.type_ = existingNote.type_;
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await Note.save(diff, { autoTimestamp: false });
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result.noteUpdated = true;
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} else {
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await Note.save(note, {
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isNew: true,
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autoTimestamp: false,
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});
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result.noteCreated = true;
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}
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return result;
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}
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interface Node {
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name: string;
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attributes: Record<string, any>;
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}
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interface NoteResourceRecognition {
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objID?: string;
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}
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const preProcessFile = async (filePath: string): Promise<string> => {
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// Disabled pre-processing for now because it runs out of memory:
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// https://github.com/laurent22/joplin/issues/5543
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//
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// It could be fixed by not loading the whole file in memory, but there are
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// other issues because people import 1GB+ files so pre-processing
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// everything means creating a new copy of that file, and that has its own
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// problems.
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return filePath;
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// const content: string = await shim.fsDriver().readFile(filePath, 'utf8');
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// // The note content in an ENEX file is wrapped in a CDATA block so it means
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// // that any "]]>" inside the note must be somehow escaped, or else the CDATA
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// // block would be closed at the wrong point.
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// //
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// // The problem is that Evernote appears to encode "]]>" as "]]<![CDATA[>]]>"
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// // instead of the more sensible "]]>", or perhaps they have nothing in
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// // place to properly escape data imported from their web clipper. In any
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// // case it results in invalid XML that Evernote cannot even import back.
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// //
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// // Handling that invalid XML with SAX would also be very tricky, so instead
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// // we add a pre-processing step that converts this tags to just ">". It
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// // should be safe to do so because such content can only be within the body
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// // of a note - and ">" or ">" is equivalent.
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// //
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// // Ref: https://discourse.joplinapp.org/t/20470/4
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// const newContent = content.replace(/<!\[CDATA\[>\]\]>/g, '>');
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// if (content === newContent) return filePath;
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// const newFilePath = `${Setting.value('tempDir')}/${md5(Date.now() + Math.random())}.enex`;
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// await shim.fsDriver().writeFile(newFilePath, newContent, 'utf8');
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// return newFilePath;
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};
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export default async function importEnex(parentFolderId: string, filePath: string, importOptions: ImportOptions = null) {
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if (!importOptions) importOptions = {};
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if (!('fuzzyMatching' in importOptions)) importOptions.fuzzyMatching = false;
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if (!('onProgress' in importOptions)) importOptions.onProgress = function() {};
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if (!('onError' in importOptions)) importOptions.onError = function() {};
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function handleSaxStreamEvent(fn: Function) {
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return function(...args: any[]) {
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// Pass the parser to the wrapped function for debugging purposes
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if (this._parser) (fn as any)._parser = this._parser;
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try {
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fn.call(this, ...args);
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} catch (error) {
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if (importOptions.onError) {
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importOptions.onError(error);
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} else {
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console.error(error);
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}
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}
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};
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}
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const fileToProcess = await preProcessFile(filePath);
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const needToDeleteFileToProcess = fileToProcess !== filePath;
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return new Promise((resolve) => {
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const progressState = {
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loaded: 0,
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created: 0,
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updated: 0,
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skipped: 0,
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resourcesCreated: 0,
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notesTagged: 0,
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};
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const stream = fs.createReadStream(fileToProcess);
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const options = {};
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const strict = true;
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const saxStream = require('@joplin/fork-sax').createStream(strict, options);
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const nodes: Node[] = []; // LIFO list of nodes so that we know in which node we are in the onText event
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let note: ExtractedNote = null;
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let noteAttributes: Record<string, any> = null;
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let noteResource: ExtractedResource = null;
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let noteResourceAttributes: Record<string, any> = null;
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let noteResourceRecognition: NoteResourceRecognition = null;
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const notes: ExtractedNote[] = [];
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let processingNotes = false;
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const createErrorWithNoteTitle = (fnThis: any, error: any) => {
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const line = [];
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const parser = fnThis ? fnThis._parser : null;
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if (parser) {
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line.push(`Line ${parser.line}:${parser.column}`);
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}
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if (note && note.title) {
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line.push(`"${note.title}"`);
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}
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line.push(error.message);
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error.message = line.join(': ');
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return error;
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};
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stream.on('error', function(error: any) {
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importOptions.onError(createErrorWithNoteTitle(this, error));
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});
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function currentNodeName() {
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if (!nodes.length) return null;
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return nodes[nodes.length - 1].name;
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}
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function currentNodeAttributes() {
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if (!nodes.length) return {};
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return nodes[nodes.length - 1].attributes;
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}
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async function processNotes() {
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if (processingNotes) return false;
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processingNotes = true;
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stream.pause();
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while (notes.length) {
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const note = notes.shift();
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try {
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for (let i = 0; i < note.resources.length; i++) {
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let resource = note.resources[i];
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try {
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resource = await processNoteResource(resource);
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} catch (error) {
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importOptions.onError(createErrorWithNoteTitle(null, error));
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continue;
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}
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note.resources[i] = resource;
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}
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const body = importOptions.outputFormat === 'html' ?
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await enexXmlToHtml(note.bodyXml, note.resources) :
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await enexXmlToMd(note.bodyXml, note.resources);
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delete note.bodyXml;
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note.markup_language = importOptions.outputFormat === 'html' ?
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MarkupToHtml.MARKUP_LANGUAGE_HTML :
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MarkupToHtml.MARKUP_LANGUAGE_MARKDOWN;
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// console.info('*************************************************************************');
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// console.info(body);
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// console.info('*************************************************************************');
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note.id = uuid.create();
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note.parent_id = parentFolderId;
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note.body = body;
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// If the created timestamp was invalid, it would be
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// set to zero, so set it to the current date here
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if (!note.created_time) note.created_time = Date.now();
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// Notes in enex files always have a created timestamp
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// but not always an updated timestamp (it the note has
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// never been modified). For sync we require an
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// updated_time property, so set it to create_time in
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// that case
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if (!note.updated_time) note.updated_time = note.created_time;
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const result = await saveNoteToStorage(note, importOptions);
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if (result.noteUpdated) {
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progressState.updated++;
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} else if (result.noteCreated) {
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progressState.created++;
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} else if (result.noteSkipped) {
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progressState.skipped++;
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}
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progressState.resourcesCreated += result.resourcesCreated;
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progressState.notesTagged += result.notesTagged;
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importOptions.onProgress(progressState);
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} catch (error) {
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const newError = wrapError(`Error on note "${note.title}"`, error);
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importOptions.onError(createErrorWithNoteTitle(null, newError));
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}
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}
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stream.resume();
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processingNotes = false;
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return true;
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}
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saxStream.on('error', function(error: any) {
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importOptions.onError(createErrorWithNoteTitle(this, error));
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});
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saxStream.on('text', handleSaxStreamEvent(function(text: string) {
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const n = currentNodeName();
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if (noteAttributes) {
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noteAttributes[n] = text;
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} else if (noteResourceAttributes) {
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noteResourceAttributes[n] = text;
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} else if (noteResource) {
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if (n == 'data') {
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if (!noteResource.dataEncoding) {
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const attr = currentNodeAttributes();
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noteResource.dataEncoding = attr.encoding;
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}
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if (!noteResource.dataFilePath) {
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noteResource.dataFilePath = `${Setting.value('tempDir')}/${md5(Date.now() + Math.random())}.base64`;
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}
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noteResource.hasData = true;
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|
|
|
fs.appendFileSync(noteResource.dataFilePath, text);
|
|
} else {
|
|
if (!(n in noteResource)) (noteResource as any)[n] = '';
|
|
(noteResource as any)[n] += text;
|
|
}
|
|
} else if (note) {
|
|
if (n == 'title') {
|
|
note.title = text;
|
|
} else if (n == 'created') {
|
|
note.created_time = dateToTimestamp(text, 0);
|
|
} else if (n == 'updated') {
|
|
note.updated_time = dateToTimestamp(text, 0);
|
|
} else if (n == 'tag') {
|
|
note.tags.push(text);
|
|
} else if (n == 'note') {
|
|
// Ignore - white space between the opening tag <note> and the first sub-tag
|
|
} else if (n == 'content') {
|
|
// Ignore - white space between the opening tag <content> and the <![CDATA[< block where the content actually is
|
|
} else {
|
|
console.warn(createErrorWithNoteTitle(this, new Error(`Unsupported note tag: ${n}`)));
|
|
}
|
|
}
|
|
}));
|
|
|
|
saxStream.on('opentag', handleSaxStreamEvent(function(node: Node) {
|
|
const n = node.name.toLowerCase();
|
|
nodes.push(node);
|
|
|
|
if (n == 'note') {
|
|
note = {
|
|
resources: [],
|
|
tags: [],
|
|
bodyXml: '',
|
|
};
|
|
} else if (n == 'resource-attributes') {
|
|
noteResourceAttributes = {};
|
|
} else if (n == 'recognition') {
|
|
if (noteResource) noteResourceRecognition = {};
|
|
} else if (n == 'note-attributes') {
|
|
noteAttributes = {};
|
|
} else if (n == 'resource') {
|
|
noteResource = {
|
|
hasData: false,
|
|
};
|
|
}
|
|
}));
|
|
|
|
saxStream.on('cdata', handleSaxStreamEvent(function(data: any) {
|
|
const n = currentNodeName();
|
|
|
|
if (noteResourceRecognition) {
|
|
noteResourceRecognition.objID = extractRecognitionObjId(data);
|
|
} else if (note) {
|
|
if (n == 'content') {
|
|
note.bodyXml += data;
|
|
}
|
|
}
|
|
}));
|
|
|
|
saxStream.on('closetag', handleSaxStreamEvent(function(n: string) {
|
|
nodes.pop();
|
|
|
|
if (n == 'note') {
|
|
note = removeUndefinedProperties(note);
|
|
|
|
progressState.loaded++;
|
|
importOptions.onProgress(progressState);
|
|
|
|
notes.push(note);
|
|
|
|
if (notes.length >= 10) {
|
|
processNotes().catch(error => {
|
|
importOptions.onError(createErrorWithNoteTitle(this, error));
|
|
});
|
|
}
|
|
note = null;
|
|
} else if (n == 'recognition' && noteResource) {
|
|
noteResource.id = noteResourceRecognition.objID;
|
|
noteResourceRecognition = null;
|
|
} else if (n == 'resource-attributes') {
|
|
noteResource.filename = noteResourceAttributes['file-name'];
|
|
if (noteResourceAttributes['source-url']) noteResource.sourceUrl = noteResourceAttributes['source-url'];
|
|
noteResourceAttributes = null;
|
|
} else if (n == 'note-attributes') {
|
|
note.latitude = noteAttributes.latitude;
|
|
note.longitude = noteAttributes.longitude;
|
|
note.altitude = noteAttributes.altitude;
|
|
note.author = noteAttributes.author ? noteAttributes.author.trim() : '';
|
|
note.is_todo = noteAttributes['reminder-order'] !== '0' && !!noteAttributes['reminder-order'] as any;
|
|
note.todo_due = dateToTimestamp(noteAttributes['reminder-time'], 0);
|
|
note.todo_completed = dateToTimestamp(noteAttributes['reminder-done-time'], 0);
|
|
note.order = dateToTimestamp(noteAttributes['reminder-order'], 0);
|
|
note.source = noteAttributes.source ? `evernote.${noteAttributes.source.trim()}` : 'evernote';
|
|
note.source_url = noteAttributes['source-url'] ? noteAttributes['source-url'].trim() : '';
|
|
|
|
noteAttributes = null;
|
|
} else if (n == 'resource') {
|
|
let mimeType = noteResource.mime ? noteResource.mime.trim() : '';
|
|
|
|
// Evernote sometimes gives an invalid or generic
|
|
// "application/octet-stream" mime type for files that could
|
|
// have a valid mime type, based on the extension. So in
|
|
// general, we trust the filename more than the provided mime
|
|
// type.
|
|
// https://discourse.joplinapp.org/t/importing-a-note-with-a-zip-file/12123
|
|
if (noteResource.filename) {
|
|
const mimeTypeFromFile = mime.fromFilename(noteResource.filename);
|
|
if (mimeTypeFromFile && mimeTypeFromFile !== mimeType) {
|
|
// Don't print statement by default because it would show up in test units
|
|
// console.info(`Invalid mime type "${mimeType}" for resource "${noteResource.filename}". Using "${mimeTypeFromFile}" instead.`);
|
|
mimeType = mimeTypeFromFile;
|
|
}
|
|
}
|
|
|
|
note.resources.push({
|
|
id: noteResource.id,
|
|
dataFilePath: noteResource.dataFilePath,
|
|
dataEncoding: noteResource.dataEncoding,
|
|
mime: mimeType,
|
|
title: noteResource.filename ? noteResource.filename.trim() : '',
|
|
filename: noteResource.filename ? noteResource.filename.trim() : '',
|
|
hasData: noteResource.hasData,
|
|
});
|
|
|
|
noteResource = null;
|
|
}
|
|
}));
|
|
|
|
saxStream.on('end', handleSaxStreamEvent(function() {
|
|
// Wait till there is no more notes to process.
|
|
const iid = shim.setInterval(() => {
|
|
void processNotes().then(allDone => {
|
|
if (allDone) {
|
|
shim.clearTimeout(iid);
|
|
if (needToDeleteFileToProcess) void shim.fsDriver().remove(fileToProcess);
|
|
resolve(null);
|
|
}
|
|
});
|
|
}, 500);
|
|
}));
|
|
|
|
stream.pipe(saxStream);
|
|
});
|
|
}
|