const { basicDelta } = require('lib/file-api'); // NOTE: when synchronising with the file system the time resolution is the second (unlike milliseconds for OneDrive for instance). // What it means is that if, for example, client 1 changes a note at time t, and client 2 changes the same note within the same second, // both clients will not know about each others updates during the next sync. They will simply both sync their note and whoever // comes last will overwrite (on the remote storage) the note of the other client. Both client will then have a different note at // that point and that will only be resolved if one of them changes the note and sync (if they don't change it, it will never get resolved). // // This is compound with the fact that we can't have a reliable delta API on the file system so we need to check all the timestamps // every time and rely on this exclusively to know about changes. // // This explains occasional failures of the fuzzing program (it finds that the clients end up with two different notes after sync). To // check that it is indeed the problem, check log-database.txt of both clients, search for the note ID, and most likely both notes // will have been modified at the same exact second at some point. If not, it's another bug that needs to be investigated. class FileApiDriverLocal { fsErrorToJsError_(error, path = null) { let msg = error.toString(); if (path !== null) msg += `. Path: ${path}`; let output = new Error(msg); if (error.code) output.code = error.code; return output; } fsDriver() { if (!FileApiDriverLocal.fsDriver_) throw new Error('FileApiDriverLocal.fsDriver_ not set!'); return FileApiDriverLocal.fsDriver_; } async stat(path) { try { const s = await this.fsDriver().stat(path); if (!s) return null; return this.metadataFromStat_(s); } catch (error) { throw this.fsErrorToJsError_(error); } } metadataFromStat_(stat) { return { path: stat.path, // created_time: stat.birthtime.getTime(), updated_time: stat.mtime.getTime(), isDir: stat.isDirectory(), }; } metadataFromStats_(stats) { let output = []; for (let i = 0; i < stats.length; i++) { const mdStat = this.metadataFromStat_(stats[i]); output.push(mdStat); } return output; } async setTimestamp(path, timestampMs) { try { await this.fsDriver().setTimestamp(path, new Date(timestampMs)); } catch (error) { throw this.fsErrorToJsError_(error); } } async delta(path, options) { const getStatFn = async path => { const stats = await this.fsDriver().readDirStats(path); return this.metadataFromStats_(stats); }; try { const output = await basicDelta(path, getStatFn, options); return output; } catch (error) { throw this.fsErrorToJsError_(error, path); } } async list(path) { try { const stats = await this.fsDriver().readDirStats(path); const output = this.metadataFromStats_(stats); return { items: output, hasMore: false, context: null, }; } catch (error) { throw this.fsErrorToJsError_(error, path); } } async get(path, options) { let output = null; try { if (options.target === 'file') { // output = await fs.copy(path, options.path, { overwrite: true }); output = await this.fsDriver().copy(path, options.path); } else { // output = await fs.readFile(path, options.encoding); output = await this.fsDriver().readFile(path, options.encoding); } } catch (error) { if (error.code == 'ENOENT') return null; throw this.fsErrorToJsError_(error, path); } return output; } async mkdir(path) { if (await this.fsDriver().exists(path)) return; try { await this.fsDriver().mkdir(path); } catch (error) { throw this.fsErrorToJsError_(error, path); } // return new Promise((resolve, reject) => { // fs.exists(path, (exists) => { // if (exists) { // resolve(); // return; // } // fs.mkdirp(path, (error) => { // if (error) { // reject(this.fsErrorToJsError_(error)); // } else { // resolve(); // } // }); // }); // }); } async put(path, content, options = null) { if (!options) options = {}; try { if (options.source === 'file') { await this.fsDriver().copy(options.path, path); return; } await this.fsDriver().writeFile(path, content, 'utf8'); } catch (error) { throw this.fsErrorToJsError_(error, path); } // if (!options) options = {}; // if (options.source === 'file') content = await fs.readFile(options.path); // return new Promise((resolve, reject) => { // fs.writeFile(path, content, function(error) { // if (error) { // reject(this.fsErrorToJsError_(error)); // } else { // resolve(); // } // }); // }); } async delete(path) { try { await this.fsDriver().unlink(path); } catch (error) { throw this.fsErrorToJsError_(error, path); } // return new Promise((resolve, reject) => { // fs.unlink(path, function(error) { // if (error) { // if (error && error.code == 'ENOENT') { // // File doesn't exist - it's fine // resolve(); // } else { // reject(this.fsErrorToJsError_(error)); // } // } else { // resolve(); // } // }); // }); } async move(oldPath, newPath) { try { await this.fsDriver().move(oldPath, newPath); } catch (error) { throw this.fsErrorToJsError_(error, oldPath); } // let lastError = null; // for (let i = 0; i < 5; i++) { // try { // let output = await fs.move(oldPath, newPath, { overwrite: true }); // return output; // } catch (error) { // lastError = error; // // Normally cannot happen with the `overwrite` flag but sometime it still does. // // In this case, retry. // if (error.code == 'EEXIST') { // await time.sleep(1); // continue; // } // throw this.fsErrorToJsError_(error); // } // } // throw lastError; } format() { throw new Error('Not supported'); } async clearRoot(baseDir) { await this.fsDriver().remove(baseDir); await this.fsDriver().mkdir(baseDir); } } module.exports = { FileApiDriverLocal };