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trilium/src/services/consistency_checks.js

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"use strict";
const sql = require('./sql');
const sqlInit = require('./sql_init');
const log = require('./log');
const ws = require('./ws');
const syncMutexService = require('./sync_mutex');
const cls = require('./cls');
const entityChangesService = require('./entity_changes');
const optionsService = require('./options');
const BBranch = require('../becca/entities/bbranch');
const noteRevisionService = require('./note_revisions');
const becca = require("../becca/becca");
const utils = require("../services/utils");
const {sanitizeAttributeName} = require("./sanitize_attribute_name");
const noteTypes = require("../services/note_types").getNoteTypeNames();
class ConsistencyChecks {
constructor(autoFix) {
this.autoFix = autoFix;
this.unrecoveredConsistencyErrors = false;
this.fixedIssues = false;
this.reloadNeeded = false;
}
findAndFixIssues(query, fixerCb) {
const results = sql.getRows(query);
for (const res of results) {
try {
sql.transactional(() => fixerCb(res));
if (this.autoFix) {
this.fixedIssues = true;
} else {
this.unrecoveredConsistencyErrors = true;
}
} catch (e) {
logError(`Fixer failed with ${e.message} ${e.stack}`);
this.unrecoveredConsistencyErrors = true;
}
}
return results;
}
checkTreeCycles() {
const childToParents = {};
const rows = sql.getRows("SELECT noteId, parentNoteId FROM branches WHERE isDeleted = 0");
for (const row of rows) {
const childNoteId = row.noteId;
const parentNoteId = row.parentNoteId;
childToParents[childNoteId] = childToParents[childNoteId] || [];
childToParents[childNoteId].push(parentNoteId);
}
/** @returns {boolean} true if cycle was found and we should try again */
const checkTreeCycle = (noteId, path) => {
if (noteId === 'root') {
return false;
}
for (const parentNoteId of childToParents[noteId]) {
if (path.includes(parentNoteId)) {
if (this.autoFix) {
const branch = becca.getBranchFromChildAndParent(noteId, parentNoteId);
branch.markAsDeleted('cycle-autofix');
logFix(`Branch '${branch.branchId}' between child '${noteId}' and parent '${parentNoteId}' has been deleted since it was causing a tree cycle.`);
return true;
}
else {
logError(`Tree cycle detected at parent-child relationship: '${parentNoteId}' - '${noteId}', whole path: '${path}'`);
this.unrecoveredConsistencyErrors = true;
}
} else {
const newPath = path.slice();
newPath.push(noteId);
const retryNeeded = checkTreeCycle(parentNoteId, newPath);
if (retryNeeded) {
return true;
}
}
}
return false;
};
const noteIds = Object.keys(childToParents);
for (const noteId of noteIds) {
const retryNeeded = checkTreeCycle(noteId, []);
if (retryNeeded) {
return true;
}
}
return false;
}
checkAndRepairTreeCycles() {
let treeFixed = false;
while (this.checkTreeCycles()) {
// fixing cycle means deleting branches, we might need to create a new branch to recover the note
this.findExistencyIssues();
treeFixed = true;
}
if (treeFixed) {
this.reloadNeeded = true;
}
}
findBrokenReferenceIssues() {
this.findAndFixIssues(`
SELECT branchId, branches.noteId
FROM branches
LEFT JOIN notes USING (noteId)
WHERE branches.isDeleted = 0
AND notes.noteId IS NULL`,
({branchId, noteId}) => {
if (this.autoFix) {
const branch = becca.getBranch(branchId);
branch.markAsDeleted();
this.reloadNeeded = true;
logFix(`Branch '${branchId}' has been deleted since it references missing note '${noteId}'`);
} else {
logError(`Branch '${branchId}' references missing note '${noteId}'`);
}
});
this.findAndFixIssues(`
SELECT branchId, branches.parentNoteId AS parentNoteId
FROM branches
LEFT JOIN notes ON notes.noteId = branches.parentNoteId
WHERE branches.isDeleted = 0
AND branches.noteId != 'root'
AND notes.noteId IS NULL`,
({branchId, parentNoteId}) => {
if (this.autoFix) {
const branch = becca.getBranch(branchId);
branch.parentNoteId = 'root';
branch.save();
this.reloadNeeded = true;
logFix(`Branch '${branchId}' was set to root parent since it was referencing missing parent note '${parentNoteId}'`);
} else {
logError(`Branch '${branchId}' references missing parent note '${parentNoteId}'`);
}
});
this.findAndFixIssues(`
SELECT attributeId, attributes.noteId
FROM attributes
LEFT JOIN notes USING (noteId)
WHERE attributes.isDeleted = 0
AND notes.noteId IS NULL`,
({attributeId, noteId}) => {
if (this.autoFix) {
const attribute = becca.getAttribute(attributeId);
attribute.markAsDeleted();
this.reloadNeeded = true;
logFix(`Attribute '${attributeId}' has been deleted since it references missing source note '${noteId}'`);
} else {
logError(`Attribute '${attributeId}' references missing source note '${noteId}'`);
}
});
this.findAndFixIssues(`
SELECT attributeId, attributes.value AS noteId
FROM attributes
LEFT JOIN notes ON notes.noteId = attributes.value
WHERE attributes.isDeleted = 0
AND attributes.type = 'relation'
AND notes.noteId IS NULL`,
({attributeId, noteId}) => {
if (this.autoFix) {
const attribute = becca.getAttribute(attributeId);
attribute.markAsDeleted();
this.reloadNeeded = true;
logFix(`Relation '${attributeId}' has been deleted since it references missing note '${noteId}'`)
} else {
logError(`Relation '${attributeId}' references missing note '${noteId}'`)
}
});
}
findExistencyIssues() {
// principle for fixing inconsistencies is that if the note itself is deleted (isDeleted=true) then all related entities should be also deleted (branches, attributes)
// but if note is not deleted, then at least one branch should exist.
// the order here is important - first we might need to delete inconsistent branches and after that
// another check might create missing branch
this.findAndFixIssues(`
SELECT branchId,
noteId
FROM branches
JOIN notes USING (noteId)
WHERE notes.isDeleted = 1
AND branches.isDeleted = 0`,
({branchId, noteId}) => {
if (this.autoFix) {
const branch = becca.getBranch(branchId);
branch.markAsDeleted();
this.reloadNeeded = true;
logFix(`Branch '${branchId}' has been deleted since associated note '${noteId}' is deleted.`);
} else {
logError(`Branch '${branchId}' is not deleted even though associated note '${noteId}' is deleted.`)
}
});
this.findAndFixIssues(`
SELECT branchId,
parentNoteId
FROM branches
JOIN notes AS parentNote ON parentNote.noteId = branches.parentNoteId
WHERE parentNote.isDeleted = 1
AND branches.isDeleted = 0
`, ({branchId, parentNoteId}) => {
if (this.autoFix) {
const branch = becca.getBranch(branchId);
branch.markAsDeleted();
this.reloadNeeded = true;
logFix(`Branch '${branchId}' has been deleted since associated parent note '${parentNoteId}' is deleted.`);
} else {
logError(`Branch '${branchId}' is not deleted even though associated parent note '${parentNoteId}' is deleted.`)
}
});
this.findAndFixIssues(`
SELECT DISTINCT notes.noteId
FROM notes
LEFT JOIN branches ON notes.noteId = branches.noteId AND branches.isDeleted = 0
WHERE notes.isDeleted = 0
AND branches.branchId IS NULL
`, ({noteId}) => {
if (this.autoFix) {
const branch = new BBranch({
parentNoteId: 'root',
noteId: noteId,
prefix: 'recovered'
}).save();
this.reloadNeeded = true;
logFix(`Created missing branch '${branch.branchId}' for note '${noteId}'`);
} else {
logError(`No undeleted branch found for note '${noteId}'`);
}
});
// there should be a unique relationship between note and its parent
this.findAndFixIssues(`
SELECT noteId,
parentNoteId
FROM branches
WHERE branches.isDeleted = 0
GROUP BY branches.parentNoteId,
branches.noteId
HAVING COUNT(1) > 1`,
({noteId, parentNoteId}) => {
if (this.autoFix) {
const branchIds = sql.getColumn(
`SELECT branchId
FROM branches
WHERE noteId = ?
and parentNoteId = ?
and isDeleted = 0
ORDER BY utcDateModified`, [noteId, parentNoteId]);
const branches = branchIds.map(branchId => becca.getBranch(branchId));
// it's not necessarily "original" branch, it's just the only one which will survive
const origBranch = branches[0];
// delete all but the first branch
for (const branch of branches.slice(1)) {
branch.markAsDeleted();
logFix(`Removing branch '${branch.branchId}' since it's a parent-child duplicate of branch '${origBranch.branchId}'`);
}
this.reloadNeeded = true;
} else {
logError(`Duplicate branches for note '${noteId}' and parent '${parentNoteId}'`);
}
});
}
findLogicIssues() {
const noteTypesStr = noteTypes.map(nt => `'${nt}'`).join(", ");
this.findAndFixIssues(`
SELECT noteId, type
FROM notes
WHERE isDeleted = 0
AND type NOT IN (${noteTypesStr})`,
({noteId, type}) => {
if (this.autoFix) {
const note = becca.getNote(noteId);
note.type = 'file'; // file is a safe option to recover notes if type is not known
note.save();
this.reloadNeeded = true;
logFix(`Note '${noteId}' type has been change to file since it had invalid type '${type}'`)
} else {
logError(`Note '${noteId}' has invalid type '${type}'`);
}
});
this.findAndFixIssues(`
SELECT notes.noteId, notes.isProtected, notes.type, notes.mime
FROM notes
LEFT JOIN note_contents USING (noteId)
WHERE note_contents.noteId IS NULL`,
({noteId, isProtected, type, mime}) => {
if (this.autoFix) {
// it might be possible that the note_content is not available only because of the interrupted
// sync and it will come later. It's therefore important to guarantee that this artifical
// record won't overwrite the real one coming from the sync.
const fakeDate = "2000-01-01 00:00:00Z";
// manually creating row since this can also affect deleted notes
sql.upsert("note_contents", "noteId", {
noteId: noteId,
content: getBlankContent(isProtected, type, mime),
utcDateModified: fakeDate,
dateModified: fakeDate
});
const hash = utils.hash(utils.randomString(10));
entityChangesService.addEntityChange({
entityName: 'note_contents',
entityId: noteId,
hash: hash,
isErased: false,
utcDateChanged: fakeDate,
isSynced: true
});
this.reloadNeeded = true;
logFix(`Note '${noteId}' content was set to empty string since there was no corresponding row`);
} else {
logError(`Note '${noteId}' content row does not exist`);
}
});
if (sqlInit.getDbSize() < 500000) {
// querying for "content IS NULL" is expensive since content is not indexed. See e.g. https://github.com/zadam/trilium/issues/2887
this.findAndFixIssues(`
SELECT notes.noteId, notes.type, notes.mime
FROM notes
JOIN note_contents USING (noteId)
WHERE isDeleted = 0
AND isProtected = 0
AND content IS NULL`,
({noteId, type, mime}) => {
if (this.autoFix) {
const note = becca.getNote(noteId);
const blankContent = getBlankContent(false, type, mime);
note.setContent(blankContent);
this.reloadNeeded = true;
logFix(`Note '${noteId}' content was set to '${blankContent}' since it was null even though it is not deleted`);
} else {
logError(`Note '${noteId}' content is null even though it is not deleted`);
}
});
}
this.findAndFixIssues(`
SELECT note_revisions.noteRevisionId
FROM note_revisions
LEFT JOIN note_revision_contents USING (noteRevisionId)
WHERE note_revision_contents.noteRevisionId IS NULL
AND note_revisions.isProtected = 0`,
({noteRevisionId}) => {
if (this.autoFix) {
noteRevisionService.eraseNoteRevisions([noteRevisionId]);
this.reloadNeeded = true;
logFix(`Note revision content '${noteRevisionId}' was created and set to erased since it did not exist.`);
} else {
logError(`Note revision content '${noteRevisionId}' does not exist`);
}
});
this.findAndFixIssues(`
SELECT parentNoteId
FROM branches
JOIN notes ON notes.noteId = branches.parentNoteId
WHERE notes.isDeleted = 0
AND notes.type == 'search'
AND branches.isDeleted = 0`,
({parentNoteId}) => {
if (this.autoFix) {
const branchIds = sql.getColumn(`
SELECT branchId
FROM branches
WHERE isDeleted = 0
AND parentNoteId = ?`, [parentNoteId]);
const branches = branchIds.map(branchId => becca.getBranch(branchId));
for (const branch of branches) {
branch.parentNoteId = 'root';
branch.save();
logFix(`Child branch '${branch.branchId}' has been moved to root since it was a child of a search note '${parentNoteId}'`)
}
this.reloadNeeded = true;
} else {
logError(`Search note '${parentNoteId}' has children`);
}
});
this.findAndFixIssues(`
SELECT attributeId
FROM attributes
WHERE isDeleted = 0
AND type = 'relation'
AND value = ''`,
({attributeId}) => {
if (this.autoFix) {
const relation = becca.getAttribute(attributeId);
relation.markAsDeleted();
this.reloadNeeded = true;
logFix(`Removed relation '${relation.attributeId}' of name '${relation.name}' with empty target.`);
} else {
logError(`Relation '${attributeId}' has empty target.`);
}
});
this.findAndFixIssues(`
SELECT attributeId,
type
FROM attributes
WHERE isDeleted = 0
AND type != 'label'
AND type != 'relation'`,
({attributeId, type}) => {
if (this.autoFix) {
const attribute = becca.getAttribute(attributeId);
attribute.type = 'label';
attribute.save();
this.reloadNeeded = true;
logFix(`Attribute '${attributeId}' type was changed to label since it had invalid type '${type}'`);
} else {
logError(`Attribute '${attributeId}' has invalid type '${type}'`);
}
});
this.findAndFixIssues(`
SELECT attributeId,
attributes.noteId
FROM attributes
JOIN notes ON attributes.noteId = notes.noteId
WHERE attributes.isDeleted = 0
AND notes.isDeleted = 1`,
({attributeId, noteId}) => {
if (this.autoFix) {
const attribute = becca.getAttribute(attributeId);
attribute.markAsDeleted();
this.reloadNeeded = true;
logFix(`Removed attribute '${attributeId}' because owning note '${noteId}' is also deleted.`);
} else {
logError(`Attribute '${attributeId}' is not deleted even though owning note '${noteId}' is deleted.`);
}
});
this.findAndFixIssues(`
SELECT attributeId,
attributes.value AS targetNoteId
FROM attributes
JOIN notes ON attributes.value = notes.noteId
WHERE attributes.type = 'relation'
AND attributes.isDeleted = 0
AND notes.isDeleted = 1`,
({attributeId, targetNoteId}) => {
if (this.autoFix) {
const attribute = becca.getAttribute(attributeId);
attribute.markAsDeleted();
this.reloadNeeded = true;
logFix(`Removed attribute '${attributeId}' because target note '${targetNoteId}' is also deleted.`);
} else {
logError(`Attribute '${attributeId}' is not deleted even though target note '${targetNoteId}' is deleted.`);
}
});
}
runEntityChangeChecks(entityName, key) {
this.findAndFixIssues(`
SELECT
${key} as entityId
FROM
${entityName}
LEFT JOIN entity_changes ON entity_changes.entityName = '${entityName}'
AND entity_changes.entityId = ${key}
WHERE
entity_changes.id IS NULL`,
({entityId}) => {
const entity = sql.getRow(`SELECT * FROM ${entityName} WHERE ${key} = ?`, [entityId]);
if (this.autoFix) {
entityChangesService.addEntityChange({
entityName,
entityId,
hash: utils.randomString(10), // doesn't matter, will force sync but that's OK
isErased: !!entity.isErased,
utcDateChanged: entity.utcDateModified || entity.utcDateCreated,
isSynced: entityName !== 'options' || entity.isSynced
});
logFix(`Created missing entity change for entityName '${entityName}', entityId '${entityId}'`);
} else {
logError(`Missing entity change for entityName '${entityName}', entityId '${entityId}'`);
}
});
this.findAndFixIssues(`
SELECT
id, entityId
FROM
entity_changes
LEFT JOIN ${entityName} ON entityId = ${key}
WHERE
entity_changes.isErased = 0
AND entity_changes.entityName = '${entityName}'
AND ${key} IS NULL`,
({id, entityId}) => {
if (this.autoFix) {
sql.execute("DELETE FROM entity_changes WHERE entityName = ? AND entityId = ?", [entityName, entityId]);
logFix(`Deleted extra entity change id '${id}', entityName '${entityName}', entityId '${entityId}'`);
} else {
logError(`Unrecognized entity change id '${id}', entityName '${entityName}', entityId '${entityId}'`);
}
});
this.findAndFixIssues(`
SELECT
id, entityId
FROM
entity_changes
JOIN ${entityName} ON entityId = ${key}
WHERE
entity_changes.isErased = 1
AND entity_changes.entityName = '${entityName}'`,
({id, entityId}) => {
if (this.autoFix) {
sql.execute(`DELETE FROM ${entityName} WHERE ${key} = ?`, [entityId]);
this.reloadNeeded = true;
logFix(`Erasing entityName '${entityName}', entityId '${entityId}' since entity change id '${id}' has it as erased.`);
} else {
logError(`Entity change id '${id}' has entityName '${entityName}', entityId '${entityId}' as erased, but it's not.`);
}
});
}
findEntityChangeIssues() {
this.runEntityChangeChecks("notes", "noteId");
this.runEntityChangeChecks("note_contents", "noteId");
this.runEntityChangeChecks("note_revisions", "noteRevisionId");
this.runEntityChangeChecks("branches", "branchId");
this.runEntityChangeChecks("attributes", "attributeId");
this.runEntityChangeChecks("etapi_tokens", "etapiTokenId");
this.runEntityChangeChecks("options", "name");
}
findWronglyNamedAttributes() {
const attrNames = sql.getColumn(`SELECT DISTINCT name FROM attributes`);
for (const origName of attrNames) {
const fixedName = sanitizeAttributeName(origName);
if (fixedName !== origName) {
if (this.autoFix) {
// there isn't a good way to update this:
// - just SQL query will fix it in DB but not notify frontend (or other caches) that it has been fixed
// - renaming the attribute would break the invariant that single attribute never changes the name
// - deleting the old attribute and creating new will create duplicates across synchronized cluster (specifically in the initial migration)
// But in general we assume there won't be many such problems
sql.execute('UPDATE attributes SET name = ? WHERE name = ?', [fixedName, origName]);
this.fixedIssues = true;
this.reloadNeeded = true;
logFix(`Renamed incorrectly named attributes '${origName}' to '${fixedName}'`);
}
else {
this.unrecoveredConsistencyErrors = true;
logFix(`There are incorrectly named attributes '${origName}'`);
}
}
}
}
findSyncIssues() {
const lastSyncedPush = parseInt(sql.getValue("SELECT value FROM options WHERE name = 'lastSyncedPush'"));
const maxEntityChangeId = sql.getValue("SELECT MAX(id) FROM entity_changes");
if (lastSyncedPush > maxEntityChangeId) {
if (this.autoFix) {
sql.execute("UPDATE options SET value = ? WHERE name = 'lastSyncedPush'", [maxEntityChangeId]);
this.fixedIssues = true;
logFix(`Fixed incorrect lastSyncedPush - was ${lastSyncedPush}, needs to be at maximum ${maxEntityChangeId}`);
}
else {
this.unrecoveredConsistencyErrors = true;
logFix(`Incorrect lastSyncedPush - is ${lastSyncedPush}, needs to be at maximum ${maxEntityChangeId}`);
}
}
}
runAllChecksAndFixers() {
this.unrecoveredConsistencyErrors = false;
this.fixedIssues = false;
this.reloadNeeded = false;
this.findEntityChangeIssues();
this.findBrokenReferenceIssues();
this.findExistencyIssues();
this.findLogicIssues();
this.findWronglyNamedAttributes();
this.findSyncIssues();
// root branch should always be expanded
sql.execute("UPDATE branches SET isExpanded = 1 WHERE noteId = 'root'");
if (!this.unrecoveredConsistencyErrors) {
// we run this only if basic checks passed since this assumes basic data consistency
this.checkAndRepairTreeCycles();
}
if (this.reloadNeeded) {
require("../becca/becca_loader").reload();
}
return !this.unrecoveredConsistencyErrors;
}
runDbDiagnostics() {
function getTableRowCount(tableName) {
const count = sql.getValue(`SELECT COUNT(1) FROM ${tableName}`);
return `${tableName}: ${count}`;
}
const tables = [ "notes", "note_revisions", "branches", "attributes", "etapi_tokens" ];
log.info(`Table counts: ${tables.map(tableName => getTableRowCount(tableName)).join(", ")}`);
}
async runChecks() {
let elapsedTimeMs;
await syncMutexService.doExclusively(() => {
elapsedTimeMs = this.runChecksInner();
});
if (this.unrecoveredConsistencyErrors) {
log.info(`Consistency checks failed (took ${elapsedTimeMs}ms)`);
ws.sendMessageToAllClients({type: 'consistency-checks-failed'});
} else {
log.info(`All consistency checks passed ` +
(this.fixedIssues ? "after some fixes" : "with no errors detected") +
` (took ${elapsedTimeMs}ms)`
);
}
}
runChecksInner() {
const startTimeMs = Date.now();
this.runDbDiagnostics();
this.runAllChecksAndFixers();
return Date.now() - startTimeMs;
}
}
function getBlankContent(isProtected, type, mime) {
if (isProtected) {
return null; // this is wrong for protected non-erased notes, but we cannot create a valid value without password
}
if (mime === 'application/json') {
return '{}';
}
return ''; // empty string might be wrong choice for some note types, but it's the best guess
}
function logFix(message) {
log.info(`Consistency issue fixed: ${message}`);
}
function logError(message) {
log.info(`Consistency error: ${message}`);
}
function runPeriodicChecks() {
const autoFix = optionsService.getOptionBool('autoFixConsistencyIssues');
const consistencyChecks = new ConsistencyChecks(autoFix);
consistencyChecks.runChecks();
}
async function runOnDemandChecks(autoFix) {
const consistencyChecks = new ConsistencyChecks(autoFix);
await consistencyChecks.runChecks();
}
function runOnDemandChecksWithoutExclusiveLock(autoFix) {
const consistencyChecks = new ConsistencyChecks(autoFix);
consistencyChecks.runChecksInner();
}
function runEntityChangesChecks() {
const consistencyChecks = new ConsistencyChecks(true);
consistencyChecks.findEntityChangeIssues();
}
sqlInit.dbReady.then(() => {
setInterval(cls.wrap(runPeriodicChecks), 60 * 60 * 1000);
// kickoff checks soon after startup (to not block the initial load)
setTimeout(cls.wrap(runPeriodicChecks), 4 * 1000);
});
module.exports = {
runOnDemandChecks,
runOnDemandChecksWithoutExclusiveLock,
runEntityChangesChecks
};
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