"use strict"; const sql = require('./sql'); const log = require('./log'); const messaging = require('./messaging'); const sync_mutex = require('./sync_mutex'); const utils = require('./utils'); async function runCheck(query, errorText, errorList) { utils.assertArguments(query, errorText, errorList); const result = await sql.getFirstColumn(query); if (result.length > 0) { const resultText = result.map(val => "'" + val + "'").join(', '); const err = errorText + ": " + resultText; errorList.push(err); log.error(err); } } async function checkTreeCycles(errorList) { const childToParents = {}; const rows = await sql.getAll("SELECT note_id, parent_note_id FROM notes_tree WHERE is_deleted = 0"); for (const row of rows) { const childNoteId = row.note_id; const parentNoteId = row.parent_note_id; if (!childToParents[childNoteId]) { childToParents[childNoteId] = []; } childToParents[childNoteId].push(parentNoteId); } function checkTreeCycle(noteId, path, errorList) { if (noteId === 'root') { return; } for (const parentNoteId of childToParents[noteId]) { if (path.includes(parentNoteId)) { errorList.push(`Tree cycle detected at parent-child relationship: ${parentNoteId} - ${noteId}, whole path: ${path}`); } else { const newPath = path.slice(); newPath.push(noteId); checkTreeCycle(parentNoteId, newPath, errorList); } } } const noteIds = Object.keys(childToParents); for (const noteId of noteIds) { checkTreeCycle(noteId, [], errorList); } } async function runSyncRowChecks(table, key, errorList) { await runCheck(` SELECT ${key} FROM ${table} LEFT JOIN sync ON sync.entity_name = '${table}' AND entity_id = ${key} WHERE sync.id IS NULL`, `Missing sync records for ${key} in table ${table}`, errorList); await runCheck(` SELECT entity_id FROM sync LEFT JOIN ${table} ON entity_id = ${key} WHERE sync.entity_name = '${table}' AND ${key} IS NULL`, `Missing ${table} records for existing sync rows`, errorList); } async function runAllChecks() { const errorList = []; await runCheck(` SELECT note_id FROM notes LEFT JOIN notes_tree USING(note_id) WHERE note_id != 'root' AND notes_tree.note_tree_id IS NULL`, "Missing notes_tree records for following note IDs", errorList); await runCheck(` SELECT note_tree_id || ' > ' || notes_tree.note_id FROM notes_tree LEFT JOIN notes USING(note_id) WHERE notes.note_id IS NULL`, "Missing notes records for following note tree ID > note ID", errorList); await runCheck(` SELECT note_tree_id FROM notes_tree JOIN notes USING(note_id) WHERE notes.is_deleted = 1 AND notes_tree.is_deleted = 0`, "Note tree is not deleted even though main note is deleted for following note tree IDs", errorList); await runCheck(` SELECT child.note_id FROM notes_tree JOIN notes AS child ON child.note_id = notes_tree.note_id JOIN notes AS parent ON notes_tree.parent_note_id = parent.note_id WHERE parent.is_deleted = 1 AND child.is_deleted = 0`, "Parent note is deleted but child note is not for these child note IDs", errorList); // we do extra JOIN to eliminate orphan notes without note tree (which are reported separately) await runCheck(` SELECT DISTINCT note_id FROM notes JOIN notes_tree USING(note_id) WHERE (SELECT COUNT(*) FROM notes_tree WHERE notes.note_id = notes_tree.note_id AND notes_tree.is_deleted = 0) = 0 AND notes.is_deleted = 0 `, 'No undeleted note trees for note IDs', errorList); await runCheck(` SELECT child.parent_note_id || ' > ' || child.note_id FROM notes_tree AS child LEFT JOIN notes_tree AS parent ON parent.note_id = child.parent_note_id WHERE parent.note_id IS NULL AND child.parent_note_id != 'root'`, "Not existing parent in the following parent > child relations", errorList); await runCheck(` SELECT note_history_id || ' > ' || notes_history.note_id FROM notes_history LEFT JOIN notes USING(note_id) WHERE notes.note_id IS NULL`, "Missing notes records for following note history ID > note ID", errorList); await runCheck(` SELECT notes_tree.parent_note_id || ' > ' || notes_tree.note_id FROM notes_tree WHERE notes_tree.is_deleted = 0 GROUP BY notes_tree.parent_note_id, notes_tree.note_id HAVING COUNT(*) > 1`, "Duplicate undeleted parent note <-> note relationship - parent note ID > note ID", errorList); await runCheck(` SELECT images.image_id FROM images LEFT JOIN notes_image ON notes_image.image_id = images.image_id WHERE notes_image.note_image_id IS NULL`, "Image with no note relation", errorList); await runSyncRowChecks("notes", "note_id", errorList); await runSyncRowChecks("notes_history", "note_history_id", errorList); await runSyncRowChecks("notes_tree", "note_tree_id", errorList); await runSyncRowChecks("recent_notes", "note_tree_id", errorList); await runSyncRowChecks("images", "image_id", errorList); await runSyncRowChecks("notes_image", "note_image_id", errorList); if (errorList.length === 0) { // we run this only if basic checks passed since this assumes basic data consistency await checkTreeCycles(errorList); } return errorList; } async function runChecks() { let errorList; let elapsedTimeMs; const releaseMutex = await sync_mutex.acquire(); try { const startTime = new Date(); errorList = await runAllChecks(); elapsedTimeMs = new Date().getTime() - startTime.getTime(); } finally { releaseMutex(); } if (errorList.length > 0) { log.info(`Consistency checks failed (took ${elapsedTimeMs}ms) with these errors: ` + JSON.stringify(errorList)); messaging.sendMessageToAllClients({type: 'consistency-checks-failed'}); } else { log.info(`All consistency checks passed (took ${elapsedTimeMs}ms)`); } } sql.dbReady.then(() => { setInterval(runChecks, 60 * 60 * 1000); // kickoff backup immediately setTimeout(runChecks, 10000); }); module.exports = { runChecks };