"use strict"; const express = require('express'); const router = express.Router(); const sql = require('../../services/sql'); const utils = require('../../services/utils'); const auth = require('../../services/auth'); const sync_table = require('../../services/sync_table'); router.put('/:noteTreeId/move-to/:parentNoteId', auth.checkApiAuth, async (req, res, next) => { const noteTreeId = req.params.noteTreeId; const parentNoteId = req.params.parentNoteId; const sourceId = req.headers.source_id; const maxNotePos = await sql.getSingleValue('SELECT MAX(note_position) FROM notes_tree WHERE parent_note_id = ? AND is_deleted = 0', [parentNoteId]); const newNotePos = maxNotePos === null ? 0 : maxNotePos + 1; const now = utils.nowDate(); await sql.doInTransaction(async () => { await sql.execute("UPDATE notes_tree SET parent_note_id = ?, note_position = ?, date_modified = ? WHERE note_tree_id = ?", [parentNoteId, newNotePos, now, noteTreeId]); await sync_table.addNoteTreeSync(noteTreeId, sourceId); }); res.send({}); }); router.put('/:noteTreeId/move-before/:beforeNoteTreeId', async (req, res, next) => { const noteTreeId = req.params.noteTreeId; const beforeNoteTreeId = req.params.beforeNoteTreeId; const sourceId = req.headers.source_id; const beforeNote = await sql.getSingleResult("SELECT * FROM notes_tree WHERE note_tree_id = ?", [beforeNoteTreeId]); if (beforeNote) { await sql.doInTransaction(async () => { // we don't change date_modified so other changes are prioritized in case of conflict // also we would have to sync all those modified note trees otherwise hash checks would fail await sql.execute("UPDATE notes_tree SET note_position = note_position + 1 WHERE parent_note_id = ? AND note_position >= ? AND is_deleted = 0", [beforeNote.parent_note_id, beforeNote.note_position]); await sync_table.addNoteReorderingSync(beforeNote.parent_note_id, sourceId); const now = utils.nowDate(); await sql.execute("UPDATE notes_tree SET parent_note_id = ?, note_position = ?, date_modified = ? WHERE note_tree_id = ?", [beforeNote.parent_note_id, beforeNote.note_position, now, noteTreeId]); await sync_table.addNoteTreeSync(noteTreeId, sourceId); }); res.send({}); } else { res.status(500).send("Before note " + beforeNoteTreeId + " doesn't exist."); } }); router.put('/:noteTreeId/move-after/:afterNoteTreeId', async (req, res, next) => { const noteTreeId = req.params.noteTreeId; const afterNoteTreeId = req.params.afterNoteTreeId; const sourceId = req.headers.source_id; const afterNote = await sql.getSingleResult("SELECT * FROM notes_tree WHERE note_tree_id = ?", [afterNoteTreeId]); if (afterNote) { await sql.doInTransaction(async () => { // we don't change date_modified so other changes are prioritized in case of conflict // also we would have to sync all those modified note trees otherwise hash checks would fail await sql.execute("UPDATE notes_tree SET note_position = note_position + 1 WHERE parent_note_id = ? AND note_position > ? AND is_deleted = 0", [afterNote.parent_note_id, afterNote.note_position]); await sync_table.addNoteReorderingSync(afterNote.parent_note_id, sourceId); await sql.execute("UPDATE notes_tree SET parent_note_id = ?, note_position = ?, date_modified = ? WHERE note_tree_id = ?", [afterNote.parent_note_id, afterNote.note_position + 1, utils.nowDate(), noteTreeId]); await sync_table.addNoteTreeSync(noteTreeId, sourceId); }); res.send({}); } else { res.status(500).send("After note " + afterNoteTreeId + " doesn't exist."); } }); router.put('/:childNoteId/clone-to/:parentNoteId', auth.checkApiAuth, async (req, res, next) => { const parentNoteId = req.params.parentNoteId; const childNoteId = req.params.childNoteId; const sourceId = req.headers.source_id; const existing = await sql.getSingleValue('SELECT * FROM notes_tree WHERE note_id = ? AND parent_note_id = ?', [childNoteId, parentNoteId]); if (existing && !existing.is_deleted) { return res.send({ success: false, message: 'This note already exists in target parent note.' }); } if (!await checkCycle(parentNoteId, childNoteId)) { return res.send({ success: false, message: 'Cloning note here would create cycle.' }); } const maxNotePos = await sql.getSingleValue('SELECT MAX(note_position) FROM notes_tree WHERE parent_note_id = ? AND is_deleted = 0', [parentNoteId]); const newNotePos = maxNotePos === null ? 0 : maxNotePos + 1; await sql.doInTransaction(async () => { const noteTree = { note_tree_id: utils.newNoteTreeId(), note_id: childNoteId, parent_note_id: parentNoteId, note_position: newNotePos, is_expanded: 0, date_modified: utils.nowDate(), is_deleted: 0 }; await sql.replace("notes_tree", noteTree); await sync_table.addNoteTreeSync(noteTree.note_tree_id, sourceId); }); res.send({ success: true }); }); router.put('/:noteId/clone-after/:afterNoteTreeId', async (req, res, next) => { const noteId = req.params.noteId; const afterNoteTreeId = req.params.afterNoteTreeId; const sourceId = req.headers.source_id; const afterNote = await sql.getSingleResult("SELECT * FROM notes_tree WHERE note_tree_id = ?", [afterNoteTreeId]); if (!afterNote) { return res.status(500).send("After note " + afterNoteTreeId + " doesn't exist."); } if (!await checkCycle(afterNote.parent_note_id, noteId)) { return res.send({ success: false, message: 'Cloning note here would create cycle.' }); } const existing = await sql.getSingleValue('SELECT * FROM notes_tree WHERE note_id = ? AND parent_note_id = ?', [noteId, afterNote.parent_note_id]); if (existing && !existing.is_deleted) { return res.send({ success: false, message: 'This note already exists in target parent note.' }); } await sql.doInTransaction(async () => { // we don't change date_modified so other changes are prioritized in case of conflict // also we would have to sync all those modified note trees otherwise hash checks would fail await sql.execute("UPDATE notes_tree SET note_position = note_position + 1 WHERE parent_note_id = ? AND note_position > ? AND is_deleted = 0", [afterNote.parent_note_id, afterNote.note_position]); await sync_table.addNoteReorderingSync(afterNote.parent_note_id, sourceId); const noteTree = { note_tree_id: utils.newNoteTreeId(), note_id: noteId, parent_note_id: afterNote.parent_note_id, note_position: afterNote.note_position + 1, is_expanded: 0, date_modified: utils.nowDate(), is_deleted: 0 }; await sql.replace("notes_tree", noteTree); await sync_table.addNoteTreeSync(noteTree.note_tree_id, sourceId); }); res.send({ success: true }); }); async function checkCycle(parentNoteId, childNoteId) { if (parentNoteId === 'root') { return true; } if (parentNoteId === childNoteId) { return false; } const parentNoteIds = await sql.getFlattenedResults("SELECT DISTINCT parent_note_id FROM notes_tree WHERE note_id = ?", [parentNoteId]); for (const pid of parentNoteIds) { if (!await checkCycle(pid, childNoteId)) { return false; } } return true; } router.put('/:noteTreeId/expanded/:expanded', async (req, res, next) => { const noteTreeId = req.params.noteTreeId; const expanded = req.params.expanded; await sql.doInTransaction(async () => { await sql.execute("UPDATE notes_tree SET is_expanded = ? WHERE note_tree_id = ?", [expanded, noteTreeId]); // we don't sync expanded attribute }); res.send({}); }); module.exports = router;