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wehub-resource-sync 5f98960d22
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chore: import upstream snapshot with attribution
2026-07-13 12:02:56 +08:00

362 lines
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TypeScript

/**
* DB Performance / Correctness Tests
*
* Regression tests for three changes:
* 1. Batch `getNodesByIds` collapses graph-traversal N+1 reads.
* 2. `insertNode` invalidates the LRU cache so INSERT OR REPLACE
* doesn't serve a stale cached row on next `getNodeById`.
* 3. `runMaintenance` runs `PRAGMA optimize` + `wal_checkpoint(PASSIVE)`
* after indexAll/sync without throwing.
* 4. `insertEdges` validates endpoints from the DB, not stale node cache.
*/
import { describe, it, expect, beforeEach, afterEach } from 'vitest';
import * as fs from 'fs';
import * as path from 'path';
import * as os from 'os';
import { DatabaseConnection } from '../src/db';
import { QueryBuilder } from '../src/db/queries';
import { runMigrations, getCurrentVersion } from '../src/db/migrations';
import { Node, Edge } from '../src/types';
function makeNode(id: string, name = id): Node {
return {
id,
kind: 'function',
name,
qualifiedName: name,
filePath: 'a.ts',
language: 'typescript',
startLine: 1,
endLine: 1,
startColumn: 0,
endColumn: 0,
updatedAt: Date.now(),
};
}
describe('getNodesByIds (batch lookup)', () => {
let dir: string;
let db: DatabaseConnection;
let q: QueryBuilder;
beforeEach(() => {
dir = fs.mkdtempSync(path.join(os.tmpdir(), 'db-perf-batch-'));
db = DatabaseConnection.initialize(path.join(dir, 'test.db'));
q = new QueryBuilder(db.getDb());
});
afterEach(() => {
db.close();
if (fs.existsSync(dir)) fs.rmSync(dir, { recursive: true, force: true });
});
it('returns a Map keyed by id, with one entry per existing node', () => {
q.insertNodes([makeNode('n1'), makeNode('n2'), makeNode('n3')]);
const out = q.getNodesByIds(['n1', 'n2', 'n3']);
expect(out.size).toBe(3);
expect(out.get('n1')!.name).toBe('n1');
expect(out.get('n3')!.name).toBe('n3');
});
it('omits missing IDs from the result map (no nulls, no exceptions)', () => {
q.insertNodes([makeNode('n1'), makeNode('n2')]);
const out = q.getNodesByIds(['n1', 'missing', 'n2']);
expect(out.size).toBe(2);
expect(out.has('missing')).toBe(false);
expect(out.has('n1')).toBe(true);
expect(out.has('n2')).toBe(true);
});
it('handles an empty input array', () => {
expect(q.getNodesByIds([]).size).toBe(0);
});
it('handles batches over the SQLite parameter limit (chunking)', () => {
// Insert 1500 nodes; the helper chunks at 500 internally.
const nodes = Array.from({ length: 1500 }, (_, i) => makeNode(`n${i}`));
q.insertNodes(nodes);
const ids = nodes.map((n) => n.id);
const out = q.getNodesByIds(ids);
expect(out.size).toBe(1500);
// Spot-check a few from the first / middle / last chunk.
expect(out.has('n0')).toBe(true);
expect(out.has('n750')).toBe(true);
expect(out.has('n1499')).toBe(true);
});
it('serves cache hits from memory and queries only the misses', () => {
q.insertNodes([makeNode('n1'), makeNode('n2'), makeNode('n3')]);
// Warm the cache for n1 only.
q.getNodeById('n1');
// Replace the underlying row to make a miss-vs-cache-hit detectable.
db.getDb().prepare('UPDATE nodes SET name = ? WHERE id = ?').run('changed', 'n1');
const out = q.getNodesByIds(['n1', 'n2']);
// The cached n1 (still 'n1', not 'changed') must be returned.
expect(out.get('n1')!.name).toBe('n1');
expect(out.get('n2')!.name).toBe('n2');
});
});
describe('deleteResolvedReferences (chunking)', () => {
let dir: string;
let db: DatabaseConnection;
let q: QueryBuilder;
beforeEach(() => {
dir = fs.mkdtempSync(path.join(os.tmpdir(), 'db-perf-delref-'));
db = DatabaseConnection.initialize(path.join(dir, 'test.db'));
q = new QueryBuilder(db.getDb());
});
afterEach(() => {
db.close();
if (fs.existsSync(dir)) fs.rmSync(dir, { recursive: true, force: true });
});
it('deletes unresolved refs for more ids than the SQLite parameter limit (#1001)', () => {
// Regression: this method bound every id as one parameter in a single
// IN (...), so passing more ids than SQLITE_MAX_VARIABLE_NUMBER (32766 on
// the bundled node:sqlite) threw "too many SQL variables". Use 33000 to
// clear that ceiling. from_node_id has a FK to nodes, so insert nodes first.
const nodes = Array.from({ length: 33000 }, (_, i) => makeNode(`n${i}`));
q.insertNodes(nodes);
q.insertUnresolvedRefsBatch(
nodes.map((n) => ({
fromNodeId: n.id,
referenceName: 'someName',
referenceKind: 'calls',
line: 1,
column: 0,
}))
);
expect(q.getUnresolvedReferencesCount()).toBe(33000);
const ids = nodes.map((n) => n.id);
expect(() => q.deleteResolvedReferences(ids)).not.toThrow();
expect(q.getUnresolvedReferencesCount()).toBe(0);
});
it('handles an empty input array', () => {
expect(() => q.deleteResolvedReferences([])).not.toThrow();
});
});
describe('insertNode cache invalidation', () => {
let dir: string;
let db: DatabaseConnection;
let q: QueryBuilder;
beforeEach(() => {
dir = fs.mkdtempSync(path.join(os.tmpdir(), 'db-perf-cache-'));
db = DatabaseConnection.initialize(path.join(dir, 'test.db'));
q = new QueryBuilder(db.getDb());
});
afterEach(() => {
db.close();
if (fs.existsSync(dir)) fs.rmSync(dir, { recursive: true, force: true });
});
it('does not serve a stale cached node after INSERT OR REPLACE', () => {
// Regression: insertNode (which uses INSERT OR REPLACE) used to skip
// cache invalidation, so the next getNodeById returned the pre-replace
// version until LRU eviction.
const original = makeNode('n1', 'oldName');
q.insertNode(original);
const beforeReplace = q.getNodeById('n1');
expect(beforeReplace!.name).toBe('oldName');
// Replace via insertNode (the bug path).
q.insertNode({ ...original, name: 'newName', updatedAt: Date.now() });
const afterReplace = q.getNodeById('n1');
expect(afterReplace!.name).toBe('newName');
});
});
describe('insertEdges endpoint validation', () => {
let dir: string;
let db: DatabaseConnection;
let q: QueryBuilder;
beforeEach(() => {
dir = fs.mkdtempSync(path.join(os.tmpdir(), 'db-perf-edges-'));
db = DatabaseConnection.initialize(path.join(dir, 'test.db'));
q = new QueryBuilder(db.getDb());
});
afterEach(() => {
db.close();
if (fs.existsSync(dir)) fs.rmSync(dir, { recursive: true, force: true });
});
it('skips edges with missing endpoints instead of failing the whole batch', () => {
q.insertNodes([makeNode('source'), makeNode('target'), makeNode('other')]);
expect(() =>
q.insertEdges([
{ source: 'source', target: 'target', kind: 'calls' },
{ source: 'source', target: 'missing-target', kind: 'calls' },
{ source: 'missing-source', target: 'other', kind: 'references' },
])
).not.toThrow();
const edges = q.getOutgoingEdges('source');
expect(edges).toHaveLength(1);
expect(edges[0]).toMatchObject({ source: 'source', target: 'target', kind: 'calls' });
});
it('does not trust stale cached nodes when validating edge endpoints', () => {
q.insertNodes([makeNode('source'), makeNode('target')]);
expect(q.getNodeById('target')!.id).toBe('target');
db.getDb().prepare('DELETE FROM nodes WHERE id = ?').run('target');
expect(() =>
q.insertEdges([{ source: 'source', target: 'target', kind: 'calls' }])
).not.toThrow();
expect(q.getOutgoingEdges('source')).toEqual([]);
});
});
describe('runMaintenance', () => {
let dir: string;
let db: DatabaseConnection;
beforeEach(() => {
dir = fs.mkdtempSync(path.join(os.tmpdir(), 'db-perf-maint-'));
db = DatabaseConnection.initialize(path.join(dir, 'test.db'));
});
afterEach(() => {
db.close();
if (fs.existsSync(dir)) fs.rmSync(dir, { recursive: true, force: true });
});
it('runs without throwing on a fresh database', async () => {
await expect(db.runMaintenance()).resolves.toBeUndefined();
});
it('runs without throwing after writes', async () => {
const q = new QueryBuilder(db.getDb());
q.insertNodes([makeNode('n1'), makeNode('n2')]);
await expect(db.runMaintenance()).resolves.toBeUndefined();
});
it('swallows failures rather than propagating (best-effort)', async () => {
// Close the DB so the underlying handle would normally throw on any
// exec(). runMaintenance (worker on its own connection, or the in-line
// fallback) must still not propagate.
db.close();
await expect(db.runMaintenance()).resolves.toBeUndefined();
});
});
// The edges table carried no UNIQUE constraint, so `insertEdge`'s
// `INSERT OR IGNORE` had nothing to conflict on and silently admitted
// byte-identical duplicate rows when two passes emitted the same edge (#1034).
// A UNIQUE identity index — `(source, target, kind, IFNULL(line,-1),
// IFNULL(col,-1))` — makes OR IGNORE actually dedup.
describe('edge identity uniqueness (#1034)', () => {
let dir: string;
let db: DatabaseConnection;
let q: QueryBuilder;
beforeEach(() => {
dir = fs.mkdtempSync(path.join(os.tmpdir(), 'db-edge-uniq-'));
db = DatabaseConnection.initialize(path.join(dir, 'test.db'));
q = new QueryBuilder(db.getDb());
q.insertNodes([makeNode('A'), makeNode('B')]);
});
afterEach(() => {
db.close();
if (fs.existsSync(dir)) fs.rmSync(dir, { recursive: true, force: true });
});
const edgeCount = () =>
(db.getDb().prepare('SELECT count(*) AS c FROM edges').get() as { c: number }).c;
const mk = (over: Partial<Edge> = {}): Edge => ({
source: 'A',
target: 'B',
kind: 'references',
line: 153,
column: 12,
metadata: { resolvedBy: 'exact-match' },
...over,
});
it('a fresh database has the identity index', () => {
const idx = db
.getDb()
.prepare("SELECT name FROM sqlite_master WHERE type='index' AND name='idx_edges_identity'")
.get();
expect(idx).toBeTruthy();
});
it('collapses byte-identical edges to a single row', () => {
q.insertEdges([mk(), mk(), mk()]);
expect(edgeCount()).toBe(1);
});
it('dedups even when only the metadata differs (same structural identity)', () => {
q.insertEdges([mk({ metadata: { resolvedBy: 'exact-match' } }), mk({ metadata: { resolvedBy: 'import' } })]);
expect(edgeCount()).toBe(1);
});
it('keeps edges that differ in line/col — distinct call sites are not duplicates', () => {
q.insertEdges([mk({ column: 12 }), mk({ column: 99 }), mk({ line: 200, column: 1 })]);
expect(edgeCount()).toBe(3);
});
it('dedups coordinate-less edges, folding NULL line/col via IFNULL', () => {
q.insertEdges([mk({ line: undefined, column: undefined }), mk({ line: undefined, column: undefined })]);
expect(edgeCount()).toBe(1);
});
it('dedups across separate insert calls (storage constraint, not a per-batch dedup)', () => {
q.insertEdges([mk()]);
q.insertEdges([mk()]);
expect(edgeCount()).toBe(1);
});
});
describe('migration v6: dedup edges + add identity index on upgrade (#1034)', () => {
it('collapses pre-existing duplicate rows, keeps distinct ones, and restores the constraint', () => {
const dir = fs.mkdtempSync(path.join(os.tmpdir(), 'db-mig6-'));
const db = DatabaseConnection.initialize(path.join(dir, 'test.db'));
const raw = db.getDb();
const q = new QueryBuilder(raw);
q.insertNodes([makeNode('A'), makeNode('B')]);
// Recreate a pre-v6 database: without the identity index, `INSERT OR IGNORE`
// admits duplicates. Revert the recorded version so migration v6 will re-run.
raw.exec('DROP INDEX IF EXISTS idx_edges_identity');
raw.prepare('DELETE FROM schema_versions WHERE version >= 6').run();
q.insertEdges([
{ source: 'A', target: 'B', kind: 'references', line: 153, column: 12, metadata: { resolvedBy: 'exact-match' } },
{ source: 'A', target: 'B', kind: 'references', line: 153, column: 12, metadata: { resolvedBy: 'exact-match' } },
{ source: 'A', target: 'B', kind: 'calls', line: 200, column: 4 },
]);
const count = () => (raw.prepare('SELECT count(*) AS c FROM edges').get() as { c: number }).c;
expect(count()).toBe(3); // duplicate admitted while the index was absent
runMigrations(raw, 5);
expect(count()).toBe(2); // duplicate collapsed, the distinct `calls` edge kept
expect(getCurrentVersion(raw)).toBe(8);
const idx = raw
.prepare("SELECT name FROM sqlite_master WHERE type='index' AND name='idx_edges_identity'")
.get();
expect(idx).toBeTruthy();
// The constraint now holds — re-inserting the duplicate is a no-op.
q.insertEdges([
{ source: 'A', target: 'B', kind: 'references', line: 153, column: 12, metadata: { resolvedBy: 'x' } },
]);
expect(count()).toBe(2);
db.close();
fs.rmSync(dir, { recursive: true, force: true });
});
});