Database Testing

<default_to_action> When testing database operations:

• VALIDATE schema (tables, columns, constraints exist as expected)

• TEST data integrity (unique, foreign key, check constraints)

• VERIFY migrations (forward works, rollback works, data preserved)

• CHECK transaction isolation (ACID properties, concurrent access)

• MEASURE query performance (indexes used, execution time)

Quick DB Testing Checklist:

• Schema matches specification

• Unique constraints prevent duplicates

• Foreign keys prevent orphaned records

• Migrations are reversible

• Transactions roll back on error

Critical Success Factors:

• Database bugs cause data loss/corruption (catastrophic)

• Test migrations in staging before production

• Transaction tests catch concurrency bugs </default_to_action>

Quick Reference Card

When to Use

• New table/schema creation

• Migration development

• Data integrity validation

• Query performance optimization

Database Test Types

Type Focus When

Schema Structure correct Table creation

Integrity Constraints work Data operations

Migration Up/down work Schema changes

Transaction ACID properties Concurrent access

Performance Query speed Optimization

ACID Properties

Property Test Focus

Atomicity All or nothing (rollback on error)

Consistency Constraints always valid

Isolation Concurrent transactions don't interfere

Durability Committed data persists

Schema Testing

test('users table has correct schema', async () => { const schema = await db.raw( SELECT column_name, data_type, is_nullable FROM information_schema.columns WHERE table_name = 'users' );

expect(schema).toContainEqual({ column_name: 'id', data_type: 'integer', is_nullable: 'NO' });

expect(schema).toContainEqual({ column_name: 'email', data_type: 'character varying', is_nullable: 'NO' }); });

Data Integrity Testing

test('email must be unique', async () => { await db.users.create({ email: 'test@example.com' });

await expect( db.users.create({ email: 'test@example.com' }) ).rejects.toThrow('unique constraint violation'); });

test('foreign key prevents orphaned records', async () => { const user = await db.users.create({ email: 'test@example.com' }); await db.orders.create({ userId: user.id, total: 100 });

await expect( db.users.delete({ id: user.id }) ).rejects.toThrow('foreign key constraint'); });

Migration Testing

test('migration is reversible', async () => { await migrate('add-users-table');

// Table exists after migration const tables = await db.raw(SELECT table_name FROM information_schema.tables); expect(tables.map(t => t.table_name)).toContain('users');

await rollback('add-users-table');

// Table gone after rollback const tablesAfter = await db.raw(SELECT table_name FROM information_schema.tables); expect(tablesAfter.map(t => t.table_name)).not.toContain('users'); });

test('migration preserves existing data', async () => { await db.users.create({ email: 'test@example.com' });

await migrate('add-age-column');

const user = await db.users.findOne({ email: 'test@example.com' }); expect(user).toBeDefined(); expect(user.age).toBeNull(); // New column, null default });

Transaction Testing

test('transaction rolls back on error', async () => { const initialCount = await db.users.count();

try { await db.transaction(async (trx) => { await trx('users').insert({ email: 'user1@example.com' }); await trx('users').insert({ email: 'user2@example.com' }); throw new Error('Rollback test'); }); } catch (error) { /* Expected */ }

expect(await db.users.count()).toBe(initialCount); });

test('concurrent transactions isolated', async () => { const user = await db.users.create({ balance: 100 });

// Two concurrent withdrawals (race condition test) await Promise.all([ db.transaction(async (trx) => { const current = await trx('users').where({ id: user.id }).first(); await trx('users').update({ balance: current.balance - 50 }); }), db.transaction(async (trx) => { const current = await trx('users').where({ id: user.id }).first(); await trx('users').update({ balance: current.balance - 50 }); }) ]);

const final = await db.users.findOne({ id: user.id }); expect(final.balance).toBe(0); // Proper isolation });

Agent-Driven Database Testing

// Generate test data with integrity await Task("Generate Test Data", { schema: 'ecommerce', tables: ['users', 'products', 'orders'], count: { users: 1000, products: 500, orders: 5000 }, preserveReferentialIntegrity: true }, "qe-test-data-architect");

// Test migration safety await Task("Migration Test", { migration: 'add-payment-status-column', tests: ['forward', 'rollback', 'data-preservation'], environment: 'staging' }, "qe-test-executor");

Agent Coordination Hints

Memory Namespace

aqe/database-testing/ ├── schema-snapshots/* - Current schema state ├── migrations/* - Migration test results ├── integrity/* - Constraint validation └── performance/* - Query benchmarks

Fleet Coordination

const dbFleet = await FleetManager.coordinate({ strategy: 'database-testing', agents: [ 'qe-test-data-architect', // Generate test data 'qe-test-executor', // Run DB tests 'qe-performance-tester' // Query performance ], topology: 'sequential' });

Related Skills

• test-data-management - Generate test data

• performance-testing - Query performance

• compliance-testing - Data protection

Remember

Database bugs are catastrophic. Data loss is unrecoverable. Corruption spreads silently. Performance issues compound.

Test migrations before production: Forward works, rollback works, data preserved, performance acceptable. Never deploy untested migrations.

With Agents: qe-test-data-architect generates realistic test data with referential integrity. qe-test-executor validates migrations automatically in CI/CD.