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{
"name": "cloudflare-d1",
"description": "Build with D1 serverless SQLite database on Cloudflares edge. Use when: creating databases, writing SQL migrations, querying D1 from Workers, handling relational data, or troubleshooting D1_ERROR, statement too long, migration failures, or query performance issues.",
"version": "1.0.0",
"author": {
"name": "Jeremy Dawes",
"email": "jeremy@jezweb.net"
},
"skills": [
"./"
]
}

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# cloudflare-d1
Build with D1 serverless SQLite database on Cloudflares edge. Use when: creating databases, writing SQL migrations, querying D1 from Workers, handling relational data, or troubleshooting D1_ERROR, statement too long, migration failures, or query performance issues.

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---
name: cloudflare-d1
description: |
Build with D1 serverless SQLite database on Cloudflare's edge. Use when: creating databases, writing SQL migrations, querying D1 from Workers, handling relational data, or troubleshooting D1_ERROR, statement too long, migration failures, or query performance issues.
license: MIT
---
# Cloudflare D1 Database
**Status**: Production Ready ✅
**Last Updated**: 2025-11-23
**Dependencies**: cloudflare-worker-base (for Worker setup)
**Latest Versions**: wrangler@4.50.0, @cloudflare/workers-types@4.20251121.0
**Recent Updates (2025)**:
- **Nov 2025**: Jurisdiction support (data localization compliance), remote bindings GA (wrangler@4.37.0+), automatic resource provisioning
- **Sept 2025**: Automatic read-only query retries (up to 2 attempts), remote bindings public beta
- **July 2025**: Storage limits increased (250GB → 1TB), alpha backup access removed, REST API 50-500ms faster
- **May 2025**: HTTP API permissions security fix (D1:Edit required for writes)
- **April 2025**: Read replication public beta (read-only replicas across regions)
- **Feb 2025**: PRAGMA optimize support, read-only access permission bug fix
- **Jan 2025**: Free tier limits enforcement (Feb 10 start), Worker API 40-60% faster queries
---
## Quick Start (5 Minutes)
### 1. Create D1 Database
```bash
# Create a new D1 database
npx wrangler d1 create my-database
# Output includes database_id - save this!
# ✅ Successfully created DB 'my-database'
#
# [[d1_databases]]
# binding = "DB"
# database_name = "my-database"
# database_id = "<UUID>"
```
### 2. Configure Bindings
Add to your `wrangler.jsonc`:
```jsonc
{
"name": "my-worker",
"main": "src/index.ts",
"compatibility_date": "2025-10-11",
"d1_databases": [
{
"binding": "DB", // Available as env.DB in your Worker
"database_name": "my-database", // Name from wrangler d1 create
"database_id": "<UUID>", // ID from wrangler d1 create
"preview_database_id": "local-db" // For local development
}
]
}
```
**CRITICAL:**
- `binding` is how you access the database in code (`env.DB`)
- `database_id` is the production database UUID
- `preview_database_id` is for local dev (can be any string)
- **Never commit real `database_id` values to public repos** - use environment variables or secrets
### 3. Create Your First Migration
```bash
# Create migration file
npx wrangler d1 migrations create my-database create_users_table
# This creates: migrations/0001_create_users_table.sql
```
Edit the migration file:
```sql
-- migrations/0001_create_users_table.sql
DROP TABLE IF EXISTS users;
CREATE TABLE IF NOT EXISTS users (
user_id INTEGER PRIMARY KEY AUTOINCREMENT,
email TEXT NOT NULL UNIQUE,
username TEXT NOT NULL,
created_at INTEGER NOT NULL,
updated_at INTEGER
);
-- Create index for common queries
CREATE INDEX IF NOT EXISTS idx_users_email ON users(email);
-- Optimize database
PRAGMA optimize;
```
### 4. Apply Migration
```bash
# Apply locally first (for testing)
npx wrangler d1 migrations apply my-database --local
# Apply to production when ready
npx wrangler d1 migrations apply my-database --remote
```
### 5. Query from Your Worker
```typescript
// src/index.ts
import { Hono } from 'hono';
type Bindings = {
DB: D1Database;
};
const app = new Hono<{ Bindings: Bindings }>();
app.get('/api/users/:email', async (c) => {
const email = c.req.param('email');
try {
// ALWAYS use prepared statements with bind()
const result = await c.env.DB.prepare(
'SELECT * FROM users WHERE email = ?'
)
.bind(email)
.first();
if (!result) {
return c.json({ error: 'User not found' }, 404);
}
return c.json(result);
} catch (error: any) {
console.error('D1 Error:', error.message);
return c.json({ error: 'Database error' }, 500);
}
});
export default app;
```
---
## D1 Migrations System
### Migration Workflow
```bash
# 1. Create migration
npx wrangler d1 migrations create <DATABASE_NAME> <MIGRATION_NAME>
# 2. List unapplied migrations
npx wrangler d1 migrations list <DATABASE_NAME> --local
npx wrangler d1 migrations list <DATABASE_NAME> --remote
# 3. Apply migrations
npx wrangler d1 migrations apply <DATABASE_NAME> --local # Test locally
npx wrangler d1 migrations apply <DATABASE_NAME> --remote # Deploy to production
```
### Migration File Naming
Migrations are automatically versioned:
```
migrations/
├── 0000_initial_schema.sql
├── 0001_add_users_table.sql
├── 0002_add_posts_table.sql
└── 0003_add_indexes.sql
```
**Rules:**
- Files are executed in sequential order
- Each migration runs once (tracked in `d1_migrations` table)
- Failed migrations roll back (transactional)
- Can't modify or delete applied migrations
### Custom Migration Configuration
```jsonc
{
"d1_databases": [
{
"binding": "DB",
"database_name": "my-database",
"database_id": "<UUID>",
"migrations_dir": "db/migrations", // Custom directory (default: migrations/)
"migrations_table": "schema_migrations" // Custom tracking table (default: d1_migrations)
}
]
}
```
### Migration Best Practices
#### ✅ Always Do:
```sql
-- Use IF NOT EXISTS to make migrations idempotent
CREATE TABLE IF NOT EXISTS users (...);
CREATE INDEX IF NOT EXISTS idx_users_email ON users(email);
-- Run PRAGMA optimize after schema changes
PRAGMA optimize;
-- Use transactions for data migrations
BEGIN TRANSACTION;
UPDATE users SET updated_at = unixepoch() WHERE updated_at IS NULL;
COMMIT;
```
#### ❌ Never Do:
```sql
-- DON'T include BEGIN TRANSACTION at start (D1 handles this)
BEGIN TRANSACTION; -- ❌ Remove this
-- DON'T use MySQL/PostgreSQL syntax
ALTER TABLE users MODIFY COLUMN email VARCHAR(255); -- ❌ Not SQLite
-- DON'T create tables without IF NOT EXISTS
CREATE TABLE users (...); -- ❌ Fails if table exists
```
### Handling Foreign Keys in Migrations
```sql
-- Temporarily disable foreign key checks during schema changes
PRAGMA defer_foreign_keys = true;
-- Make schema changes that would violate foreign keys
ALTER TABLE posts DROP COLUMN author_id;
ALTER TABLE posts ADD COLUMN user_id INTEGER REFERENCES users(user_id);
-- Foreign keys re-enabled automatically at end of migration
```
---
## D1 Workers API
**Type Definitions:**
```typescript
interface Env { DB: D1Database; }
type Bindings = { DB: D1Database; };
const app = new Hono<{ Bindings: Bindings }>();
```
**prepare() - PRIMARY METHOD (always use for user input):**
```typescript
const user = await env.DB.prepare('SELECT * FROM users WHERE email = ?')
.bind(email).first();
```
Why: Prevents SQL injection, reusable, better performance, type-safe
**Query Result Methods:**
- `.all()``{ results, meta }` - Get all rows
- `.first()` → row object or null - Get first row
- `.first('column')` → value - Get single column value (e.g., COUNT)
- `.run()``{ success, meta }` - Execute INSERT/UPDATE/DELETE (no results)
**batch() - CRITICAL FOR PERFORMANCE:**
```typescript
const results = await env.DB.batch([
env.DB.prepare('SELECT * FROM users WHERE user_id = ?').bind(1),
env.DB.prepare('SELECT * FROM posts WHERE user_id = ?').bind(1)
]);
```
- Executes sequentially, single network round trip
- If one fails, remaining statements don't execute
- Use for: bulk inserts, fetching related data
**exec() - AVOID IN PRODUCTION:**
```typescript
await env.DB.exec('SELECT * FROM users;'); // Only for migrations/maintenance
```
- ❌ Never use with user input (SQL injection risk)
- ✅ Only use for: migration files, one-off tasks
---
## Query Patterns
### Basic CRUD Operations
```typescript
// CREATE
const { meta } = await env.DB.prepare(
'INSERT INTO users (email, username, created_at) VALUES (?, ?, ?)'
).bind(email, username, Date.now()).run();
const newUserId = meta.last_row_id;
// READ (single)
const user = await env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(userId).first();
// READ (multiple)
const { results } = await env.DB.prepare('SELECT * FROM users LIMIT ?')
.bind(10).all();
// UPDATE
const { meta } = await env.DB.prepare('UPDATE users SET username = ? WHERE user_id = ?')
.bind(newUsername, userId).run();
const rowsAffected = meta.rows_written;
// DELETE
await env.DB.prepare('DELETE FROM users WHERE user_id = ?').bind(userId).run();
// COUNT
const count = await env.DB.prepare('SELECT COUNT(*) as total FROM users').first('total');
// EXISTS check
const exists = await env.DB.prepare('SELECT 1 FROM users WHERE email = ? LIMIT 1')
.bind(email).first();
```
### Pagination Pattern
```typescript
const page = parseInt(c.req.query('page') || '1');
const limit = 20;
const offset = (page - 1) * limit;
const [countResult, usersResult] = await c.env.DB.batch([
c.env.DB.prepare('SELECT COUNT(*) as total FROM users'),
c.env.DB.prepare('SELECT * FROM users ORDER BY created_at DESC LIMIT ? OFFSET ?')
.bind(limit, offset)
]);
return c.json({
users: usersResult.results,
pagination: { page, limit, total: countResult.results[0].total }
});
```
### Batch Pattern (Pseudo-Transactions)
```typescript
// D1 doesn't support multi-statement transactions, but batch() provides sequential execution
await env.DB.batch([
env.DB.prepare('UPDATE users SET credits = credits - ? WHERE user_id = ?').bind(amount, fromUserId),
env.DB.prepare('UPDATE users SET credits = credits + ? WHERE user_id = ?').bind(amount, toUserId),
env.DB.prepare('INSERT INTO transactions (from_user, to_user, amount) VALUES (?, ?, ?)').bind(fromUserId, toUserId, amount)
]);
// If any statement fails, batch stops (transaction-like behavior)
```
---
## Error Handling
**Common Error Types:**
- `D1_ERROR` - General D1 error
- `D1_EXEC_ERROR` - SQL syntax error
- `D1_TYPE_ERROR` - Type mismatch (undefined instead of null)
- `D1_COLUMN_NOTFOUND` - Column doesn't exist
**Common Errors and Fixes:**
| Error | Cause | Solution |
|-------|-------|----------|
| **Statement too long** | Large INSERT with 1000+ rows | Break into batches of 100-250 using `batch()` |
| **Too many requests queued** | Individual queries in loop | Use `batch()` instead of loop |
| **D1_TYPE_ERROR** | Using `undefined` in bind | Use `null` for optional values: `.bind(email, bio \|\| null)` |
| **Transaction conflicts** | BEGIN TRANSACTION in migration | Remove BEGIN/COMMIT (D1 handles automatically) |
| **Foreign key violations** | Schema changes break constraints | Use `PRAGMA defer_foreign_keys = true` |
**Automatic Retries (Sept 2025):**
D1 automatically retries read-only queries (SELECT, EXPLAIN, WITH) up to 2 times on retryable errors. Check `meta.total_attempts` in response for retry count.
---
## Performance Optimization
**Index Best Practices:**
- ✅ Index columns in WHERE clauses: `CREATE INDEX idx_users_email ON users(email)`
- ✅ Index foreign keys: `CREATE INDEX idx_posts_user_id ON posts(user_id)`
- ✅ Index columns for sorting: `CREATE INDEX idx_posts_created_at ON posts(created_at DESC)`
- ✅ Multi-column indexes: `CREATE INDEX idx_posts_user_published ON posts(user_id, published)`
- ✅ Partial indexes: `CREATE INDEX idx_users_active ON users(email) WHERE deleted = 0`
- ✅ Test with: `EXPLAIN QUERY PLAN SELECT ...`
**PRAGMA optimize (Feb 2025):**
```sql
CREATE INDEX idx_users_email ON users(email);
PRAGMA optimize; -- Run after schema changes
```
**Query Optimization:**
- ✅ Use specific columns (not `SELECT *`)
- ✅ Always include LIMIT on large result sets
- ✅ Use indexes for WHERE conditions
- ❌ Avoid functions in WHERE (can't use indexes): `WHERE LOWER(email)` → store lowercase instead
---
## Local Development
**Local vs Remote (Nov 2025 - Remote Bindings GA):**
```bash
# Local database (automatic creation)
npx wrangler d1 migrations apply my-database --local
npx wrangler d1 execute my-database --local --command "SELECT * FROM users"
# Remote database
npx wrangler d1 execute my-database --remote --command "SELECT * FROM users"
# Remote bindings (wrangler@4.37.0+) - connect local Worker to deployed D1
# Add to wrangler.jsonc: { "binding": "DB", "remote": true }
```
**Local Database Location:**
`.wrangler/state/v3/d1/miniflare-D1DatabaseObject/<database_id>.sqlite`
**Seed Local Database:**
```bash
npx wrangler d1 execute my-database --local --file=seed.sql
```
---
## Best Practices Summary
### ✅ Always Do:
1. **Use prepared statements** with `.bind()` for user input
2. **Use `.batch()`** for multiple queries (reduces latency)
3. **Create indexes** on frequently queried columns
4. **Run `PRAGMA optimize`** after schema changes
5. **Use `IF NOT EXISTS`** in migrations for idempotency
6. **Test migrations locally** before applying to production
7. **Handle errors gracefully** with try/catch
8. **Use `null`** instead of `undefined` for optional values
9. **Validate input** before binding to queries
10. **Check `meta.rows_written`** after UPDATE/DELETE
### ❌ Never Do:
1. **Never use `.exec()`** with user input (SQL injection risk)
2. **Never hardcode `database_id`** in public repos
3. **Never use `undefined`** in bind parameters (causes D1_TYPE_ERROR)
4. **Never fire individual queries in loops** (use batch instead)
5. **Never forget `LIMIT`** on potentially large result sets
6. **Never use `SELECT *`** in production (specify columns)
7. **Never include `BEGIN TRANSACTION`** in migration files
8. **Never modify applied migrations** (create new ones)
9. **Never skip error handling** on database operations
10. **Never assume queries succeed** (always check results)
---
## Known Issues Prevented
| Issue | Description | How to Avoid |
|-------|-------------|--------------|
| **Statement too long** | Large INSERT statements exceed D1 limits | Break into batches of 100-250 rows |
| **Transaction conflicts** | `BEGIN TRANSACTION` in migration files | Remove BEGIN/COMMIT (D1 handles this) |
| **Foreign key violations** | Schema changes break foreign key constraints | Use `PRAGMA defer_foreign_keys = true` |
| **Rate limiting / queue overload** | Too many individual queries | Use `batch()` instead of loops |
| **Memory limit exceeded** | Query loads too much data into memory | Add LIMIT, paginate results, shard queries |
| **Type mismatch errors** | Using `undefined` instead of `null` | Always use `null` for optional values |
---
## Wrangler Commands Reference
```bash
# Database management
wrangler d1 create <DATABASE_NAME>
wrangler d1 list
wrangler d1 delete <DATABASE_NAME>
wrangler d1 info <DATABASE_NAME>
# Migrations
wrangler d1 migrations create <DATABASE_NAME> <MIGRATION_NAME>
wrangler d1 migrations list <DATABASE_NAME> --local|--remote
wrangler d1 migrations apply <DATABASE_NAME> --local|--remote
# Execute queries
wrangler d1 execute <DATABASE_NAME> --local|--remote --command "SELECT * FROM users"
wrangler d1 execute <DATABASE_NAME> --local|--remote --file=./query.sql
# Time Travel (view historical data)
wrangler d1 time-travel info <DATABASE_NAME> --timestamp "2025-10-20"
wrangler d1 time-travel restore <DATABASE_NAME> --timestamp "2025-10-20"
```
---
## Official Documentation
- **D1 Overview**: https://developers.cloudflare.com/d1/
- **Get Started**: https://developers.cloudflare.com/d1/get-started/
- **Migrations**: https://developers.cloudflare.com/d1/reference/migrations/
- **Workers API**: https://developers.cloudflare.com/d1/worker-api/
- **Best Practices**: https://developers.cloudflare.com/d1/best-practices/
- **Wrangler Commands**: https://developers.cloudflare.com/workers/wrangler/commands/#d1
---
**Ready to build with D1!** 🚀

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# D1 Best Practices
**Production-ready patterns for Cloudflare D1**
---
## Table of Contents
1. [Security](#security)
2. [Performance](#performance)
3. [Migrations](#migrations)
4. [Error Handling](#error-handling)
5. [Data Modeling](#data-modeling)
6. [Testing](#testing)
7. [Deployment](#deployment)
---
## Security
### Always Use Prepared Statements
```typescript
// ❌ NEVER: SQL injection vulnerability
const email = c.req.query('email');
await env.DB.exec(`SELECT * FROM users WHERE email = '${email}'`);
// ✅ ALWAYS: Safe prepared statement
const user = await env.DB.prepare('SELECT * FROM users WHERE email = ?')
.bind(email)
.first();
```
**Why?** User input like `'; DROP TABLE users; --` would execute in the first example!
### Use null Instead of undefined
```typescript
// ❌ WRONG: undefined causes D1_TYPE_ERROR
await env.DB.prepare('INSERT INTO users (email, bio) VALUES (?, ?)')
.bind(email, undefined);
// ✅ CORRECT: Use null for optional values
await env.DB.prepare('INSERT INTO users (email, bio) VALUES (?, ?)')
.bind(email, bio || null);
```
### Never Commit Sensitive IDs
```jsonc
// ❌ WRONG: Database ID in public repo
{
"d1_databases": [
{
"database_id": "a1b2c3d4-e5f6-7890-abcd-ef1234567890" // ❌
}
]
}
// ✅ BETTER: Use environment variable or secret
{
"d1_databases": [
{
"database_id": "$D1_DATABASE_ID" // Reference env var
}
]
}
```
Or use wrangler secrets:
```bash
npx wrangler secret put D1_DATABASE_ID
```
### Validate Input Before Binding
```typescript
// ✅ Validate email format
function isValidEmail(email: string): boolean {
return /^[^\s@]+@[^\s@]+\.[^\s@]+$/.test(email);
}
app.post('/api/users', async (c) => {
const { email } = await c.req.json();
if (!isValidEmail(email)) {
return c.json({ error: 'Invalid email format' }, 400);
}
// Now safe to use
const user = await c.env.DB.prepare('INSERT INTO users (email) VALUES (?)')
.bind(email)
.run();
});
```
---
## Performance
### Use Batch for Multiple Queries
```typescript
// ❌ BAD: 3 network round trips (~150ms)
const user = await env.DB.prepare('SELECT * FROM users WHERE user_id = ?').bind(1).first();
const posts = await env.DB.prepare('SELECT * FROM posts WHERE user_id = ?').bind(1).all();
const comments = await env.DB.prepare('SELECT * FROM comments WHERE user_id = ?').bind(1).all();
// ✅ GOOD: 1 network round trip (~50ms)
const [userResult, postsResult, commentsResult] = await env.DB.batch([
env.DB.prepare('SELECT * FROM users WHERE user_id = ?').bind(1),
env.DB.prepare('SELECT * FROM posts WHERE user_id = ?').bind(1),
env.DB.prepare('SELECT * FROM comments WHERE user_id = ?').bind(1)
]);
const user = userResult.results[0];
const posts = postsResult.results;
const comments = commentsResult.results;
```
**Performance win: 3x faster!**
### Create Indexes for WHERE Clauses
```sql
-- ❌ Slow: Full table scan
SELECT * FROM posts WHERE user_id = 123;
-- ✅ Fast: Create index first
CREATE INDEX IF NOT EXISTS idx_posts_user_id ON posts(user_id);
-- Now this query is fast
SELECT * FROM posts WHERE user_id = 123;
```
**Verify index is being used:**
```sql
EXPLAIN QUERY PLAN SELECT * FROM posts WHERE user_id = 123;
-- Should see: SEARCH posts USING INDEX idx_posts_user_id
```
### Run PRAGMA optimize After Schema Changes
```sql
-- After creating indexes or altering schema
PRAGMA optimize;
```
This collects statistics that help the query planner choose the best execution plan.
### Select Only Needed Columns
```typescript
// ❌ Bad: Fetches all columns (wastes bandwidth)
const users = await env.DB.prepare('SELECT * FROM users').all();
// ✅ Good: Only fetch what you need
const users = await env.DB.prepare('SELECT user_id, email, username FROM users').all();
```
### Always Use LIMIT
```typescript
// ❌ Dangerous: Could return millions of rows
const posts = await env.DB.prepare('SELECT * FROM posts WHERE published = 1').all();
// ✅ Safe: Limit result set
const posts = await env.DB.prepare(
'SELECT * FROM posts WHERE published = 1 LIMIT 100'
).all();
```
### Use Partial Indexes
```sql
-- Index only published posts (smaller index, faster writes)
CREATE INDEX idx_posts_published ON posts(created_at DESC)
WHERE published = 1;
-- Index only active users (exclude deleted)
CREATE INDEX idx_users_active ON users(email)
WHERE deleted_at IS NULL;
```
Benefits:
- ✅ Smaller indexes (faster queries)
- ✅ Fewer index updates (faster writes)
- ✅ Only index relevant data
---
## Migrations
### Make Migrations Idempotent
```sql
-- ✅ ALWAYS use IF NOT EXISTS
CREATE TABLE IF NOT EXISTS users (
user_id INTEGER PRIMARY KEY,
email TEXT NOT NULL
);
CREATE INDEX IF NOT EXISTS idx_users_email ON users(email);
-- ✅ Use IF EXISTS for drops
DROP TABLE IF EXISTS temp_table;
```
**Why?** Re-running a migration won't fail if it's already applied.
### Never Modify Applied Migrations
```bash
# ❌ WRONG: Editing applied migration
vim migrations/0001_create_users.sql # Already applied!
# ✅ CORRECT: Create new migration
npx wrangler d1 migrations create my-database add_users_bio_column
```
**Why?** D1 tracks which migrations have been applied. Modifying them causes inconsistencies.
### Test Migrations Locally First
```bash
# 1. Apply to local database
npx wrangler d1 migrations apply my-database --local
# 2. Test queries locally
npx wrangler d1 execute my-database --local --command "SELECT * FROM users"
# 3. Only then apply to production
npx wrangler d1 migrations apply my-database --remote
```
### Handle Foreign Keys Carefully
```sql
-- Disable foreign key checks temporarily during schema changes
PRAGMA defer_foreign_keys = true;
-- Make schema changes that would violate foreign keys
ALTER TABLE posts DROP COLUMN old_user_id;
ALTER TABLE posts ADD COLUMN user_id INTEGER REFERENCES users(user_id);
-- Foreign keys re-enabled automatically at end of migration
```
### Break Large Data Migrations into Batches
```sql
-- ❌ BAD: Single massive INSERT (causes "statement too long")
INSERT INTO users (email) VALUES
('user1@example.com'),
('user2@example.com'),
... -- 10,000 more rows
-- ✅ GOOD: Split into batches of 100-250 rows
-- File: 0001_migrate_users_batch1.sql
INSERT INTO users (email) VALUES
('user1@example.com'),
... -- 100 rows
-- File: 0002_migrate_users_batch2.sql
INSERT INTO users (email) VALUES
('user101@example.com'),
... -- next 100 rows
```
---
## Error Handling
### Check for Errors After Every Query
```typescript
try {
const result = await env.DB.prepare('INSERT INTO users (email) VALUES (?)')
.bind(email)
.run();
if (!result.success) {
console.error('Insert failed');
return c.json({ error: 'Failed to create user' }, 500);
}
// Success!
const userId = result.meta.last_row_id;
} catch (error: any) {
console.error('Database error:', error.message);
return c.json({ error: 'Database operation failed' }, 500);
}
```
### Implement Retry Logic for Transient Errors
```typescript
async function queryWithRetry<T>(
queryFn: () => Promise<T>,
maxRetries = 3
): Promise<T> {
for (let attempt = 0; attempt < maxRetries; attempt++) {
try {
return await queryFn();
} catch (error: any) {
const message = error.message;
// Check if error is retryable
const isRetryable =
message.includes('Network connection lost') ||
message.includes('storage caused object to be reset') ||
message.includes('reset because its code was updated');
if (!isRetryable || attempt === maxRetries - 1) {
throw error;
}
// Exponential backoff: 1s, 2s, 4s
const delay = Math.min(1000 * Math.pow(2, attempt), 5000);
await new Promise(resolve => setTimeout(resolve, delay));
}
}
throw new Error('Max retries exceeded');
}
// Usage
const user = await queryWithRetry(() =>
env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(userId)
.first()
);
```
### Handle Common D1 Errors
```typescript
try {
await env.DB.prepare(query).bind(...params).run();
} catch (error: any) {
const message = error.message;
if (message.includes('D1_ERROR')) {
// D1-specific error
console.error('D1 error:', message);
} else if (message.includes('UNIQUE constraint failed')) {
// Duplicate key error
return c.json({ error: 'Email already exists' }, 409);
} else if (message.includes('FOREIGN KEY constraint failed')) {
// Invalid foreign key
return c.json({ error: 'Invalid user reference' }, 400);
} else {
// Unknown error
console.error('Unknown database error:', message);
return c.json({ error: 'Database operation failed' }, 500);
}
}
```
---
## Data Modeling
### Use Appropriate Data Types
```sql
CREATE TABLE users (
user_id INTEGER PRIMARY KEY AUTOINCREMENT, -- Auto-incrementing ID
email TEXT NOT NULL, -- String
username TEXT NOT NULL,
age INTEGER, -- Number
balance REAL, -- Decimal/float
is_active INTEGER DEFAULT 1, -- Boolean (0 or 1)
metadata TEXT, -- JSON (stored as TEXT)
created_at INTEGER NOT NULL -- Unix timestamp
);
```
**SQLite has 5 types**: NULL, INTEGER, REAL, TEXT, BLOB
### Store Timestamps as Unix Epoch
```sql
-- ✅ RECOMMENDED: Unix timestamp (INTEGER)
created_at INTEGER NOT NULL DEFAULT (unixepoch())
-- ❌ AVOID: ISO 8601 strings (harder to query/compare)
created_at TEXT NOT NULL DEFAULT (datetime('now'))
```
**Why?** Unix timestamps are easier to compare, filter, and work with in JavaScript:
```typescript
// Easy to work with
const timestamp = Date.now(); // 1698000000
const date = new Date(timestamp);
// Easy to query
const recentPosts = await env.DB.prepare(
'SELECT * FROM posts WHERE created_at > ?'
).bind(Date.now() - 86400000).all(); // Last 24 hours
```
### Store JSON as TEXT
```sql
CREATE TABLE users (
user_id INTEGER PRIMARY KEY,
email TEXT NOT NULL,
settings TEXT -- Store JSON here
);
```
```typescript
// Insert JSON
const settings = { theme: 'dark', language: 'en' };
await env.DB.prepare('INSERT INTO users (email, settings) VALUES (?, ?)')
.bind(email, JSON.stringify(settings))
.run();
// Read JSON
const user = await env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(userId)
.first();
const settings = JSON.parse(user.settings);
console.log(settings.theme); // 'dark'
```
### Use Soft Deletes
```sql
CREATE TABLE users (
user_id INTEGER PRIMARY KEY,
email TEXT NOT NULL,
deleted_at INTEGER -- NULL = active, timestamp = deleted
);
-- Index for active users only
CREATE INDEX idx_users_active ON users(user_id)
WHERE deleted_at IS NULL;
```
```typescript
// Soft delete
await env.DB.prepare('UPDATE users SET deleted_at = ? WHERE user_id = ?')
.bind(Date.now(), userId)
.run();
// Query only active users
const activeUsers = await env.DB.prepare(
'SELECT * FROM users WHERE deleted_at IS NULL'
).all();
```
### Normalize Related Data
```sql
-- ✅ GOOD: Normalized (users in separate table)
CREATE TABLE posts (
post_id INTEGER PRIMARY KEY,
user_id INTEGER NOT NULL,
title TEXT NOT NULL,
FOREIGN KEY (user_id) REFERENCES users(user_id)
);
-- ❌ BAD: Denormalized (user data duplicated in every post)
CREATE TABLE posts (
post_id INTEGER PRIMARY KEY,
user_email TEXT NOT NULL,
user_name TEXT NOT NULL,
title TEXT NOT NULL
);
```
---
## Testing
### Test Migrations Locally
```bash
# 1. Create local database
npx wrangler d1 migrations apply my-database --local
# 2. Seed with test data
npx wrangler d1 execute my-database --local --file=seed.sql
# 3. Run test queries
npx wrangler d1 execute my-database --local --command "SELECT COUNT(*) FROM users"
```
### Use Separate Databases for Development
```jsonc
{
"d1_databases": [
{
"binding": "DB",
"database_name": "my-app-prod",
"database_id": "<PROD_UUID>",
"preview_database_id": "local-dev" // Local only
}
]
}
```
**Benefits:**
- ✅ Never accidentally modify production data
- ✅ Fast local development (no network latency)
- ✅ Can reset local DB anytime
### Backup Before Major Migrations
```bash
# Export current database
npx wrangler d1 export my-database --remote --output=backup-$(date +%Y%m%d).sql
# Apply migration
npx wrangler d1 migrations apply my-database --remote
# If something goes wrong, restore from backup
npx wrangler d1 execute my-database --remote --file=backup-20251021.sql
```
---
## Deployment
### Use Preview Databases for Testing
```jsonc
{
"d1_databases": [
{
"binding": "DB",
"database_name": "my-app-prod",
"database_id": "<PROD_UUID>",
"preview_database_id": "<PREVIEW_UUID>" // Separate preview database
}
]
}
```
Deploy preview:
```bash
npx wrangler deploy --env preview
```
### Apply Migrations Before Deploying Code
```bash
# 1. Apply migrations first
npx wrangler d1 migrations apply my-database --remote
# 2. Then deploy Worker code
npx wrangler deploy
```
**Why?** Ensures database schema is ready before code expects it.
### Monitor Query Performance
```typescript
app.get('/api/users', async (c) => {
const start = Date.now();
const { results, meta } = await c.env.DB.prepare('SELECT * FROM users LIMIT 100')
.all();
const duration = Date.now() - start;
// Log slow queries
if (duration > 100) {
console.warn(`Slow query: ${duration}ms, rows_read: ${meta.rows_read}`);
}
return c.json({ users: results });
});
```
### Use Time Travel for Data Recovery
```bash
# View database state 2 hours ago
npx wrangler d1 time-travel info my-database --timestamp "2025-10-21T10:00:00Z"
# Restore database to 2 hours ago
npx wrangler d1 time-travel restore my-database --timestamp "2025-10-21T10:00:00Z"
```
**Note**: Time Travel available for last 30 days.
---
## Summary Checklist
### Security ✅
- [ ] Always use `.prepare().bind()` for user input
- [ ] Use `null` instead of `undefined`
- [ ] Validate input before binding
- [ ] Never commit database IDs to public repos
### Performance ✅
- [ ] Use `.batch()` for multiple queries
- [ ] Create indexes on filtered columns
- [ ] Run `PRAGMA optimize` after schema changes
- [ ] Select only needed columns
- [ ] Always use `LIMIT`
### Migrations ✅
- [ ] Make migrations idempotent (IF NOT EXISTS)
- [ ] Never modify applied migrations
- [ ] Test locally before production
- [ ] Break large data migrations into batches
### Error Handling ✅
- [ ] Wrap queries in try/catch
- [ ] Implement retry logic for transient errors
- [ ] Check `result.success` and `meta.rows_written`
- [ ] Log errors with context
### Data Modeling ✅
- [ ] Use appropriate SQLite data types
- [ ] Store timestamps as Unix epoch (INTEGER)
- [ ] Use soft deletes (deleted_at column)
- [ ] Normalize related data with foreign keys
### Testing ✅
- [ ] Test migrations locally first
- [ ] Use separate development/production databases
- [ ] Backup before major migrations
### Deployment ✅
- [ ] Apply migrations before deploying code
- [ ] Use preview databases for testing
- [ ] Monitor query performance
- [ ] Use Time Travel for recovery
---
## Official Documentation
- **Best Practices**: https://developers.cloudflare.com/d1/best-practices/
- **Indexes**: https://developers.cloudflare.com/d1/best-practices/use-indexes/
- **Local Development**: https://developers.cloudflare.com/d1/best-practices/local-development/
- **Retry Queries**: https://developers.cloudflare.com/d1/best-practices/retry-queries/
- **Time Travel**: https://developers.cloudflare.com/d1/reference/time-travel/

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# D1 Query Patterns Reference
**Complete guide to all D1 Workers API methods with examples**
---
## Table of Contents
1. [D1 API Methods Overview](#d1-api-methods-overview)
2. [prepare() - Prepared Statements](#prepare---prepared-statements)
3. [Query Result Methods](#query-result-methods)
4. [batch() - Multiple Queries](#batch---multiple-queries)
5. [exec() - Raw SQL](#exec---raw-sql)
6. [Common Query Patterns](#common-query-patterns)
7. [Performance Tips](#performance-tips)
---
## D1 API Methods Overview
| Method | Use Case | Returns Results | Safe for User Input |
|--------|----------|-----------------|---------------------|
| `.prepare().bind()` | **Primary method** for queries | Yes | ✅ Yes (prevents SQL injection) |
| `.batch()` | Multiple queries in one round trip | Yes | ✅ Yes (if using prepare) |
| `.exec()` | Raw SQL execution | No | ❌ No (SQL injection risk) |
---
## prepare() - Prepared Statements
**Primary method for all queries with user input.**
### Basic Syntax
```typescript
const stmt = env.DB.prepare(sql);
const bound = stmt.bind(...parameters);
const result = await bound.all(); // or .first(), .run()
```
### Method Chaining (Most Common)
```typescript
const result = await env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(userId)
.first();
```
### Parameter Binding
```typescript
// Single parameter
const user = await env.DB.prepare('SELECT * FROM users WHERE email = ?')
.bind('user@example.com')
.first();
// Multiple parameters
const posts = await env.DB.prepare(
'SELECT * FROM posts WHERE user_id = ? AND published = ? LIMIT ?'
)
.bind(userId, 1, 10)
.all();
// Use null for optional values (NEVER undefined)
const updated = await env.DB.prepare(
'UPDATE users SET bio = ?, avatar_url = ? WHERE user_id = ?'
)
.bind(bio || null, avatarUrl || null, userId)
.run();
```
### Why use prepare()?
-**SQL injection protection** - Parameters are safely escaped
-**Performance** - Query plans can be cached
-**Reusability** - Same statement, different parameters
-**Type safety** - Works with TypeScript generics
---
## Query Result Methods
### .all() - Get All Rows
Returns all matching rows as an array.
```typescript
const { results, meta } = await env.DB.prepare('SELECT * FROM users')
.all();
console.log(results); // Array of row objects
console.log(meta); // { duration, rows_read, rows_written }
```
**With Type Safety:**
```typescript
interface User {
user_id: number;
email: string;
username: string;
}
const { results } = await env.DB.prepare('SELECT * FROM users')
.all<User>();
// results is now typed as User[]
```
**Response Structure:**
```typescript
{
success: true,
results: [
{ user_id: 1, email: 'alice@example.com', username: 'alice' },
{ user_id: 2, email: 'bob@example.com', username: 'bob' }
],
meta: {
duration: 2.5, // Milliseconds
rows_read: 2, // Rows scanned
rows_written: 0 // Rows modified
}
}
```
---
### .first() - Get First Row
Returns the first row or `null` if no results.
```typescript
const user = await env.DB.prepare('SELECT * FROM users WHERE email = ?')
.bind('alice@example.com')
.first();
if (!user) {
return c.json({ error: 'User not found' }, 404);
}
```
**With Type Safety:**
```typescript
const user = await env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(userId)
.first<User>();
// user is typed as User | null
```
**Note**: `.first()` doesn't add `LIMIT 1` automatically. For better performance:
```typescript
// ✅ Better: Add LIMIT 1 yourself
const user = await env.DB.prepare('SELECT * FROM users WHERE email = ? LIMIT 1')
.bind(email)
.first();
```
---
### .first(column) - Get Single Column Value
Returns the value of a specific column from the first row.
```typescript
// Get count
const total = await env.DB.prepare('SELECT COUNT(*) as total FROM users')
.first('total');
console.log(total); // 42 (just the number, not an object)
// Get specific field
const email = await env.DB.prepare('SELECT email FROM users WHERE user_id = ?')
.bind(userId)
.first('email');
console.log(email); // 'user@example.com'
```
**Use Cases:**
- Counting rows
- Checking existence (SELECT 1)
- Getting single values (MAX, MIN, AVG)
---
### .run() - Execute Without Results
Used for INSERT, UPDATE, DELETE when you don't need the data back.
```typescript
const { success, meta } = await env.DB.prepare(
'INSERT INTO users (email, username, created_at) VALUES (?, ?, ?)'
)
.bind(email, username, Date.now())
.run();
console.log(success); // true/false
console.log(meta.last_row_id); // ID of inserted row
console.log(meta.rows_written); // Number of rows affected
```
**Response Structure:**
```typescript
{
success: true,
meta: {
duration: 1.2,
rows_read: 0,
rows_written: 1,
last_row_id: 42 // Only for INSERT with AUTOINCREMENT
}
}
```
**Check if rows were affected:**
```typescript
const result = await env.DB.prepare('DELETE FROM users WHERE user_id = ?')
.bind(userId)
.run();
if (result.meta.rows_written === 0) {
return c.json({ error: 'User not found' }, 404);
}
```
---
## batch() - Multiple Queries
**CRITICAL FOR PERFORMANCE**: Execute multiple queries in one network round trip.
### Basic Batch
```typescript
const [users, posts, comments] = await env.DB.batch([
env.DB.prepare('SELECT * FROM users LIMIT 10'),
env.DB.prepare('SELECT * FROM posts LIMIT 10'),
env.DB.prepare('SELECT * FROM comments LIMIT 10')
]);
console.log(users.results); // User rows
console.log(posts.results); // Post rows
console.log(comments.results); // Comment rows
```
### Batch with Parameters
```typescript
const stmt1 = env.DB.prepare('SELECT * FROM users WHERE user_id = ?').bind(1);
const stmt2 = env.DB.prepare('SELECT * FROM users WHERE user_id = ?').bind(2);
const stmt3 = env.DB.prepare('SELECT * FROM posts WHERE user_id = ?').bind(1);
const results = await env.DB.batch([stmt1, stmt2, stmt3]);
```
### Bulk Insert with Batch
```typescript
const users = [
{ email: 'user1@example.com', username: 'user1' },
{ email: 'user2@example.com', username: 'user2' },
{ email: 'user3@example.com', username: 'user3' }
];
const inserts = users.map(u =>
env.DB.prepare('INSERT INTO users (email, username, created_at) VALUES (?, ?, ?)')
.bind(u.email, u.username, Date.now())
);
const results = await env.DB.batch(inserts);
const successCount = results.filter(r => r.success).length;
console.log(`Inserted ${successCount} users`);
```
### Transaction-like Behavior
```typescript
// All statements execute sequentially
// If one fails, remaining statements don't execute
await env.DB.batch([
// Deduct credits from user 1
env.DB.prepare('UPDATE users SET credits = credits - ? WHERE user_id = ?')
.bind(100, userId1),
// Add credits to user 2
env.DB.prepare('UPDATE users SET credits = credits + ? WHERE user_id = ?')
.bind(100, userId2),
// Record transaction
env.DB.prepare('INSERT INTO transactions (from_user, to_user, amount) VALUES (?, ?, ?)')
.bind(userId1, userId2, 100)
]);
```
**Batch Behavior:**
- Executes statements **sequentially** (in order)
- Each statement commits individually (auto-commit mode)
- If one fails, **remaining statements don't execute**
- All statements in one **network round trip** (huge performance win)
### Batch Performance Comparison
```typescript
// ❌ BAD: 10 separate queries = 10 network round trips
for (let i = 0; i < 10; i++) {
await env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(i)
.first();
}
// ~500ms total latency
// ✅ GOOD: 1 batch query = 1 network round trip
const userIds = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10];
const queries = userIds.map(id =>
env.DB.prepare('SELECT * FROM users WHERE user_id = ?').bind(id)
);
const results = await env.DB.batch(queries);
// ~50ms total latency
```
---
## exec() - Raw SQL
**AVOID IN PRODUCTION**. Only use for migrations and one-off tasks.
### Basic Exec
```typescript
const result = await env.DB.exec('SELECT * FROM users');
console.log(result);
// { count: 1, duration: 2.5 }
```
**NOTE**: `exec()` does **not return data**, only count and duration!
### Multiple Statements
```typescript
const result = await env.DB.exec(`
DROP TABLE IF EXISTS temp_users;
CREATE TABLE temp_users (user_id INTEGER PRIMARY KEY);
INSERT INTO temp_users VALUES (1), (2), (3);
`);
console.log(result);
// { count: 3, duration: 5.2 }
```
### ⚠️ NEVER Use exec() For:
```typescript
// ❌ NEVER: SQL injection vulnerability
const email = userInput;
await env.DB.exec(`SELECT * FROM users WHERE email = '${email}'`);
// ✅ ALWAYS: Use prepared statements instead
await env.DB.prepare('SELECT * FROM users WHERE email = ?')
.bind(email)
.first();
```
### ✅ ONLY Use exec() For:
- Running migration files locally
- One-off maintenance tasks (PRAGMA optimize)
- Database initialization scripts
- CLI tools (not production Workers)
---
## Common Query Patterns
### Existence Check
```typescript
// Check if email exists
const exists = await env.DB.prepare('SELECT 1 FROM users WHERE email = ? LIMIT 1')
.bind(email)
.first();
if (exists) {
return c.json({ error: 'Email already registered' }, 409);
}
```
### Get or Create
```typescript
// Try to find user
let user = await env.DB.prepare('SELECT * FROM users WHERE email = ?')
.bind(email)
.first<User>();
// Create if doesn't exist
if (!user) {
const result = await env.DB.prepare(
'INSERT INTO users (email, username, created_at) VALUES (?, ?, ?)'
)
.bind(email, username, Date.now())
.run();
const userId = result.meta.last_row_id;
user = await env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(userId)
.first<User>();
}
```
### Pagination
```typescript
const page = 1;
const limit = 20;
const offset = (page - 1) * limit;
const [countResult, dataResult] = await env.DB.batch([
env.DB.prepare('SELECT COUNT(*) as total FROM posts WHERE published = 1'),
env.DB.prepare(
'SELECT * FROM posts WHERE published = 1 ORDER BY created_at DESC LIMIT ? OFFSET ?'
).bind(limit, offset)
]);
const total = countResult.results[0].total;
const posts = dataResult.results;
return {
posts,
pagination: {
page,
limit,
total,
pages: Math.ceil(total / limit)
}
};
```
### Upsert (INSERT or UPDATE)
```typescript
// SQLite 3.24.0+ supports UPSERT
await env.DB.prepare(`
INSERT INTO user_settings (user_id, theme, language)
VALUES (?, ?, ?)
ON CONFLICT(user_id) DO UPDATE SET
theme = excluded.theme,
language = excluded.language,
updated_at = unixepoch()
`)
.bind(userId, theme, language)
.run();
```
### Bulk Upsert
```typescript
const settings = [
{ user_id: 1, theme: 'dark', language: 'en' },
{ user_id: 2, theme: 'light', language: 'es' }
];
const upserts = settings.map(s =>
env.DB.prepare(`
INSERT INTO user_settings (user_id, theme, language)
VALUES (?, ?, ?)
ON CONFLICT(user_id) DO UPDATE SET
theme = excluded.theme,
language = excluded.language
`).bind(s.user_id, s.theme, s.language)
);
await env.DB.batch(upserts);
```
---
## Performance Tips
### Use SELECT Column Names (Not SELECT *)
```typescript
// ❌ Bad: Fetches all columns
const users = await env.DB.prepare('SELECT * FROM users').all();
// ✅ Good: Only fetch needed columns
const users = await env.DB.prepare('SELECT user_id, email, username FROM users').all();
```
### Always Use LIMIT
```typescript
// ❌ Bad: Could return millions of rows
const posts = await env.DB.prepare('SELECT * FROM posts').all();
// ✅ Good: Limit result set
const posts = await env.DB.prepare('SELECT * FROM posts LIMIT 100').all();
```
### Use Indexes
```sql
-- Create index for common queries
CREATE INDEX IF NOT EXISTS idx_posts_published_created
ON posts(published, created_at DESC)
WHERE published = 1;
```
```typescript
// Query will use the index
const posts = await env.DB.prepare(
'SELECT * FROM posts WHERE published = 1 ORDER BY created_at DESC LIMIT 10'
).all();
```
### Check Index Usage
```sql
EXPLAIN QUERY PLAN SELECT * FROM posts WHERE published = 1;
-- Should see: SEARCH posts USING INDEX idx_posts_published_created
```
### Batch Instead of Loop
```typescript
// ❌ Bad: Multiple network round trips
for (const id of userIds) {
const user = await env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(id)
.first();
}
// ✅ Good: One network round trip
const queries = userIds.map(id =>
env.DB.prepare('SELECT * FROM users WHERE user_id = ?').bind(id)
);
const results = await env.DB.batch(queries);
```
---
## Meta Object Reference
Every D1 query returns a `meta` object with execution details:
```typescript
{
duration: 2.5, // Query execution time in milliseconds
rows_read: 100, // Number of rows scanned
rows_written: 1, // Number of rows modified (INSERT/UPDATE/DELETE)
last_row_id: 42, // ID of last inserted row (INSERT only)
changed: 1 // Rows affected (UPDATE/DELETE only)
}
```
### Using Meta for Debugging
```typescript
const result = await env.DB.prepare('SELECT * FROM large_table WHERE status = ?')
.bind('active')
.all();
console.log(`Query took ${result.meta.duration}ms`);
console.log(`Scanned ${result.meta.rows_read} rows`);
console.log(`Returned ${result.results.length} rows`);
// If rows_read is much higher than results.length, add an index!
if (result.meta.rows_read > result.results.length * 10) {
console.warn('Query is inefficient - consider adding an index');
}
```
---
## Official Documentation
- **Workers API**: https://developers.cloudflare.com/d1/worker-api/
- **Prepared Statements**: https://developers.cloudflare.com/d1/worker-api/prepared-statements/
- **Return Object**: https://developers.cloudflare.com/d1/worker-api/return-object/

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#!/bin/bash
#
# Cloudflare D1 Setup and Migration Workflow
#
# This script demonstrates the complete D1 workflow:
# 1. Create a D1 database
# 2. Configure bindings
# 3. Create and apply migrations
# 4. Query the database
#
# Usage:
# chmod +x d1-setup-migration.sh
# ./d1-setup-migration.sh my-app-database
#
set -e # Exit on error
DATABASE_NAME="${1:-my-database}"
echo "========================================="
echo "Cloudflare D1 Setup and Migration"
echo "========================================="
echo ""
# Step 1: Create D1 Database
echo "📦 Step 1: Creating D1 database '$DATABASE_NAME'..."
echo ""
npx wrangler d1 create "$DATABASE_NAME"
echo ""
echo "✅ Database created!"
echo ""
echo "📝 IMPORTANT: Copy the output above and add to your wrangler.jsonc:"
echo ""
echo ' {
"d1_databases": [
{
"binding": "DB",
"database_name": "'"$DATABASE_NAME"'",
"database_id": "<UUID_FROM_OUTPUT_ABOVE>",
"preview_database_id": "local-dev-db"
}
]
}'
echo ""
read -p "Press ENTER when you've added the binding to wrangler.jsonc..."
# Step 2: Create Migrations Directory
echo ""
echo "📁 Step 2: Setting up migrations directory..."
mkdir -p migrations
# Step 3: Create Initial Migration
echo ""
echo "🔨 Step 3: Creating initial migration..."
echo ""
npx wrangler d1 migrations create "$DATABASE_NAME" create_initial_schema
# Find the created migration file (most recent .sql file in migrations/)
MIGRATION_FILE=$(ls -t migrations/*.sql | head -n1)
echo ""
echo "✅ Migration file created: $MIGRATION_FILE"
echo ""
echo "📝 Add your schema to this file. Example:"
echo ""
echo " DROP TABLE IF EXISTS users;
CREATE TABLE IF NOT EXISTS users (
user_id INTEGER PRIMARY KEY AUTOINCREMENT,
email TEXT NOT NULL UNIQUE,
username TEXT NOT NULL,
created_at INTEGER NOT NULL,
updated_at INTEGER
);
CREATE INDEX IF NOT EXISTS idx_users_email ON users(email);
PRAGMA optimize;"
echo ""
read -p "Press ENTER when you've edited the migration file..."
# Step 4: Apply Migration Locally
echo ""
echo "🔧 Step 4: Applying migration to LOCAL database..."
echo ""
npx wrangler d1 migrations apply "$DATABASE_NAME" --local
echo ""
echo "✅ Local migration applied!"
# Step 5: Verify Local Database
echo ""
echo "🔍 Step 5: Verifying local database..."
echo ""
npx wrangler d1 execute "$DATABASE_NAME" --local --command "SELECT name FROM sqlite_master WHERE type='table'"
# Step 6: Seed Local Database (Optional)
echo ""
echo "🌱 Step 6: Would you like to seed the local database with test data?"
read -p "Seed database? (y/n): " -n 1 -r
echo ""
if [[ $REPLY =~ ^[Yy]$ ]]; then
echo "Creating seed data..."
cat > seed.sql << 'EOF'
-- Seed data for testing
INSERT INTO users (email, username, created_at) VALUES
('alice@example.com', 'alice', unixepoch()),
('bob@example.com', 'bob', unixepoch()),
('charlie@example.com', 'charlie', unixepoch());
EOF
npx wrangler d1 execute "$DATABASE_NAME" --local --file=seed.sql
echo ""
echo "✅ Seed data inserted!"
echo ""
echo "🔍 Verifying data..."
npx wrangler d1 execute "$DATABASE_NAME" --local --command "SELECT * FROM users"
fi
# Step 7: Apply to Production (Optional)
echo ""
echo "🚀 Step 7: Ready to apply migration to PRODUCTION?"
echo ""
echo "⚠️ WARNING: This will modify your production database!"
read -p "Apply to production? (y/n): " -n 1 -r
echo ""
if [[ $REPLY =~ ^[Yy]$ ]]; then
echo "Applying migration to production..."
npx wrangler d1 migrations apply "$DATABASE_NAME" --remote
echo ""
echo "✅ Production migration applied!"
else
echo "Skipping production migration."
echo ""
echo "To apply later, run:"
echo " npx wrangler d1 migrations apply $DATABASE_NAME --remote"
fi
# Summary
echo ""
echo "========================================="
echo "✅ D1 Setup Complete!"
echo "========================================="
echo ""
echo "Database: $DATABASE_NAME"
echo "Local database: ✅"
echo "Migrations: ✅"
echo ""
echo "📚 Next steps:"
echo ""
echo "1. Start dev server:"
echo " npm run dev"
echo ""
echo "2. Query from your Worker:"
echo ' const user = await env.DB.prepare("SELECT * FROM users WHERE email = ?")
.bind("alice@example.com")
.first();'
echo ""
echo "3. Create more migrations as needed:"
echo " npx wrangler d1 migrations create $DATABASE_NAME <migration_name>"
echo ""
echo "4. View all tables:"
echo " npx wrangler d1 execute $DATABASE_NAME --local --command \"SELECT name FROM sqlite_master WHERE type='table'\""
echo ""
echo "========================================="

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templates/d1-worker-queries.ts Normal file
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/**
* Cloudflare D1 Worker Query Examples
*
* This file demonstrates type-safe D1 queries in a Cloudflare Worker with Hono.
*
* Topics covered:
* - Type definitions for D1 bindings
* - CRUD operations (Create, Read, Update, Delete)
* - Batch queries for performance
* - Error handling and validation
* - Pagination patterns
* - JOIN queries
* - Transaction-like behavior
*
* Usage:
* 1. Copy relevant patterns to your Worker
* 2. Update table/column names to match your schema
* 3. Add proper input validation
*/
import { Hono } from 'hono';
// ============================================
// Type Definitions
// ============================================
interface Env {
DB: D1Database;
// ... other bindings
}
type Bindings = {
DB: D1Database;
};
interface User {
user_id: number;
email: string;
username: string;
full_name: string | null;
created_at: number;
updated_at: number | null;
}
interface Post {
post_id: number;
user_id: number;
title: string;
content: string;
slug: string;
published: number;
created_at: number;
published_at: number | null;
}
interface PostWithAuthor extends Post {
author_name: string;
author_email: string;
}
// ============================================
// App Setup
// ============================================
const app = new Hono<{ Bindings: Bindings }>();
// ============================================
// CREATE Operations
// ============================================
// Create a new user
app.post('/api/users', async (c) => {
try {
const { email, username, full_name } = await c.req.json();
// Validate input
if (!email || !username) {
return c.json({ error: 'Email and username are required' }, 400);
}
// Check if email already exists
const existing = await c.env.DB.prepare(
'SELECT user_id FROM users WHERE email = ? LIMIT 1'
)
.bind(email)
.first();
if (existing) {
return c.json({ error: 'Email already registered' }, 409);
}
// Insert new user
const result = await c.env.DB.prepare(
'INSERT INTO users (email, username, full_name, created_at) VALUES (?, ?, ?, ?)'
)
.bind(email, username, full_name || null, Date.now())
.run();
const userId = result.meta.last_row_id;
// Fetch the created user
const user = await c.env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(userId)
.first<User>();
return c.json({ user }, 201);
} catch (error: any) {
console.error('Error creating user:', error.message);
return c.json({ error: 'Failed to create user' }, 500);
}
});
// Bulk insert with batch()
app.post('/api/users/bulk', async (c) => {
try {
const { users } = await c.req.json();
if (!Array.isArray(users) || users.length === 0) {
return c.json({ error: 'Invalid users array' }, 400);
}
// Create batch of insert statements
const inserts = users.map(user =>
c.env.DB.prepare(
'INSERT INTO users (email, username, full_name, created_at) VALUES (?, ?, ?, ?)'
).bind(user.email, user.username, user.full_name || null, Date.now())
);
// Execute all inserts in one batch
const results = await c.env.DB.batch(inserts);
const insertedCount = results.filter(r => r.success).length;
return c.json({
message: `Inserted ${insertedCount} users`,
count: insertedCount
}, 201);
} catch (error: any) {
console.error('Error bulk inserting users:', error.message);
return c.json({ error: 'Failed to insert users' }, 500);
}
});
// ============================================
// READ Operations
// ============================================
// Get single user by ID
app.get('/api/users/:id', async (c) => {
try {
const userId = parseInt(c.req.param('id'));
const user = await c.env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(userId)
.first<User>();
if (!user) {
return c.json({ error: 'User not found' }, 404);
}
return c.json({ user });
} catch (error: any) {
console.error('Error fetching user:', error.message);
return c.json({ error: 'Failed to fetch user' }, 500);
}
});
// Get user by email
app.get('/api/users/email/:email', async (c) => {
try {
const email = c.req.param('email');
const user = await c.env.DB.prepare('SELECT * FROM users WHERE email = ?')
.bind(email)
.first<User>();
if (!user) {
return c.json({ error: 'User not found' }, 404);
}
return c.json({ user });
} catch (error: any) {
console.error('Error fetching user:', error.message);
return c.json({ error: 'Failed to fetch user' }, 500);
}
});
// List users with pagination
app.get('/api/users', async (c) => {
try {
const page = parseInt(c.req.query('page') || '1');
const limit = Math.min(parseInt(c.req.query('limit') || '20'), 100); // Max 100
const offset = (page - 1) * limit;
// Use batch to get count and users in one round trip
const [countResult, usersResult] = await c.env.DB.batch([
c.env.DB.prepare('SELECT COUNT(*) as total FROM users WHERE deleted_at IS NULL'),
c.env.DB.prepare(
'SELECT * FROM users WHERE deleted_at IS NULL ORDER BY created_at DESC LIMIT ? OFFSET ?'
).bind(limit, offset)
]);
const total = (countResult.results[0] as any).total as number;
const users = usersResult.results as User[];
return c.json({
users,
pagination: {
page,
limit,
total,
pages: Math.ceil(total / limit)
}
});
} catch (error: any) {
console.error('Error listing users:', error.message);
return c.json({ error: 'Failed to list users' }, 500);
}
});
// ============================================
// UPDATE Operations
// ============================================
// Update user
app.put('/api/users/:id', async (c) => {
try {
const userId = parseInt(c.req.param('id'));
const { username, full_name, bio } = await c.req.json();
// Build dynamic update query
const updates: string[] = [];
const values: any[] = [];
if (username !== undefined) {
updates.push('username = ?');
values.push(username);
}
if (full_name !== undefined) {
updates.push('full_name = ?');
values.push(full_name);
}
if (bio !== undefined) {
updates.push('bio = ?');
values.push(bio);
}
if (updates.length === 0) {
return c.json({ error: 'No fields to update' }, 400);
}
// Add updated_at
updates.push('updated_at = ?');
values.push(Date.now());
// Add user_id for WHERE clause
values.push(userId);
const sql = `UPDATE users SET ${updates.join(', ')} WHERE user_id = ?`;
const result = await c.env.DB.prepare(sql).bind(...values).run();
if (result.meta.rows_written === 0) {
return c.json({ error: 'User not found' }, 404);
}
// Fetch updated user
const user = await c.env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(userId)
.first<User>();
return c.json({ user });
} catch (error: any) {
console.error('Error updating user:', error.message);
return c.json({ error: 'Failed to update user' }, 500);
}
});
// Increment post view count (simple update)
app.post('/api/posts/:id/view', async (c) => {
try {
const postId = parseInt(c.req.param('id'));
const result = await c.env.DB.prepare(
'UPDATE posts SET view_count = view_count + 1 WHERE post_id = ?'
)
.bind(postId)
.run();
if (result.meta.rows_written === 0) {
return c.json({ error: 'Post not found' }, 404);
}
return c.json({ success: true });
} catch (error: any) {
console.error('Error incrementing view count:', error.message);
return c.json({ error: 'Failed to update view count' }, 500);
}
});
// ============================================
// DELETE Operations
// ============================================
// Soft delete user
app.delete('/api/users/:id', async (c) => {
try {
const userId = parseInt(c.req.param('id'));
const result = await c.env.DB.prepare(
'UPDATE users SET deleted_at = ? WHERE user_id = ? AND deleted_at IS NULL'
)
.bind(Date.now(), userId)
.run();
if (result.meta.rows_written === 0) {
return c.json({ error: 'User not found or already deleted' }, 404);
}
return c.json({ success: true });
} catch (error: any) {
console.error('Error deleting user:', error.message);
return c.json({ error: 'Failed to delete user' }, 500);
}
});
// Hard delete post
app.delete('/api/posts/:id/permanent', async (c) => {
try {
const postId = parseInt(c.req.param('id'));
const result = await c.env.DB.prepare('DELETE FROM posts WHERE post_id = ?')
.bind(postId)
.run();
if (result.meta.rows_written === 0) {
return c.json({ error: 'Post not found' }, 404);
}
return c.json({ success: true });
} catch (error: any) {
console.error('Error deleting post:', error.message);
return c.json({ error: 'Failed to delete post' }, 500);
}
});
// ============================================
// JOIN Queries
// ============================================
// Get posts with author information
app.get('/api/posts', async (c) => {
try {
const limit = Math.min(parseInt(c.req.query('limit') || '20'), 100);
const { results } = await c.env.DB.prepare(`
SELECT
posts.*,
users.username as author_name,
users.email as author_email
FROM posts
INNER JOIN users ON posts.user_id = users.user_id
WHERE posts.published = 1
AND users.deleted_at IS NULL
ORDER BY posts.published_at DESC
LIMIT ?
`)
.bind(limit)
.all<PostWithAuthor>();
return c.json({ posts: results });
} catch (error: any) {
console.error('Error fetching posts:', error.message);
return c.json({ error: 'Failed to fetch posts' }, 500);
}
});
// Get post with author and tags
app.get('/api/posts/:slug', async (c) => {
try {
const slug = c.req.param('slug');
// Use batch to get post+author and tags in one round trip
const [postResult, tagsResult] = await c.env.DB.batch([
// Get post with author
c.env.DB.prepare(`
SELECT
posts.*,
users.username as author_name,
users.email as author_email
FROM posts
INNER JOIN users ON posts.user_id = users.user_id
WHERE posts.slug = ?
LIMIT 1
`).bind(slug),
// Get post's tags
c.env.DB.prepare(`
SELECT tags.*
FROM tags
INNER JOIN post_tags ON tags.tag_id = post_tags.tag_id
INNER JOIN posts ON post_tags.post_id = posts.post_id
WHERE posts.slug = ?
`).bind(slug)
]);
const post = postResult.results[0] as PostWithAuthor | undefined;
if (!post) {
return c.json({ error: 'Post not found' }, 404);
}
const tags = tagsResult.results;
return c.json({ post, tags });
} catch (error: any) {
console.error('Error fetching post:', error.message);
return c.json({ error: 'Failed to fetch post' }, 500);
}
});
// ============================================
// Transaction-like Behavior with Batch
// ============================================
// Publish post (update post + record event)
app.post('/api/posts/:id/publish', async (c) => {
try {
const postId = parseInt(c.req.param('id'));
const now = Date.now();
// Execute multiple related updates in one batch
const results = await c.env.DB.batch([
// Update post status
c.env.DB.prepare(
'UPDATE posts SET published = 1, published_at = ?, updated_at = ? WHERE post_id = ?'
).bind(now, now, postId),
// Record publish event (example analytics table)
c.env.DB.prepare(
'INSERT INTO post_events (post_id, event_type, created_at) VALUES (?, ?, ?)'
).bind(postId, 'published', now)
]);
// Check if post update succeeded
if (results[0].meta.rows_written === 0) {
return c.json({ error: 'Post not found' }, 404);
}
return c.json({ success: true });
} catch (error: any) {
console.error('Error publishing post:', error.message);
return c.json({ error: 'Failed to publish post' }, 500);
}
});
// ============================================
// Advanced Patterns
// ============================================
// Search posts by keyword (simple full-text search)
app.get('/api/posts/search', async (c) => {
try {
const query = c.req.query('q') || '';
const limit = Math.min(parseInt(c.req.query('limit') || '20'), 100);
if (query.length < 2) {
return c.json({ error: 'Query must be at least 2 characters' }, 400);
}
const searchTerm = `%${query}%`;
const { results } = await c.env.DB.prepare(`
SELECT
posts.*,
users.username as author_name
FROM posts
INNER JOIN users ON posts.user_id = users.user_id
WHERE posts.published = 1
AND (posts.title LIKE ? OR posts.content LIKE ?)
ORDER BY posts.published_at DESC
LIMIT ?
`)
.bind(searchTerm, searchTerm, limit)
.all<PostWithAuthor>();
return c.json({ posts: results, query });
} catch (error: any) {
console.error('Error searching posts:', error.message);
return c.json({ error: 'Failed to search posts' }, 500);
}
});
// Get user stats (multiple aggregations in batch)
app.get('/api/users/:id/stats', async (c) => {
try {
const userId = parseInt(c.req.param('id'));
const [userResult, statsResults] = await c.env.DB.batch([
// Get user
c.env.DB.prepare('SELECT * FROM users WHERE user_id = ?').bind(userId),
// Get all stats in one query with UNION
c.env.DB.prepare(`
SELECT 'posts' as metric, COUNT(*) as count FROM posts WHERE user_id = ?
UNION ALL
SELECT 'comments', COUNT(*) FROM comments WHERE user_id = ?
UNION ALL
SELECT 'published_posts', COUNT(*) FROM posts WHERE user_id = ? AND published = 1
`).bind(userId, userId, userId)
]);
const user = userResult.results[0] as User | undefined;
if (!user) {
return c.json({ error: 'User not found' }, 404);
}
// Parse stats results
const stats: Record<string, number> = {};
for (const row of statsResults.results as any[]) {
stats[row.metric] = row.count;
}
return c.json({ user, stats });
} catch (error: any) {
console.error('Error fetching user stats:', error.message);
return c.json({ error: 'Failed to fetch user stats' }, 500);
}
});
// ============================================
// Error Handling Example with Retry
// ============================================
async function queryWithRetry<T>(
queryFn: () => Promise<T>,
maxRetries = 3
): Promise<T> {
for (let attempt = 0; attempt < maxRetries; attempt++) {
try {
return await queryFn();
} catch (error: any) {
const message = error.message;
// Check if error is retryable
const isRetryable =
message.includes('Network connection lost') ||
message.includes('storage caused object to be reset') ||
message.includes('reset because its code was updated');
if (!isRetryable || attempt === maxRetries - 1) {
throw error;
}
// Exponential backoff
const delay = Math.min(1000 * Math.pow(2, attempt), 5000);
await new Promise(resolve => setTimeout(resolve, delay));
}
}
throw new Error('Retry logic failed');
}
// Example usage with retry
app.get('/api/users/:id/with-retry', async (c) => {
try {
const userId = parseInt(c.req.param('id'));
const user = await queryWithRetry(() =>
c.env.DB.prepare('SELECT * FROM users WHERE user_id = ?')
.bind(userId)
.first<User>()
);
if (!user) {
return c.json({ error: 'User not found' }, 404);
}
return c.json({ user });
} catch (error: any) {
console.error('Error fetching user (with retry):', error.message);
return c.json({ error: 'Failed to fetch user' }, 500);
}
});
// ============================================
// Export App
// ============================================
export default app;

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-- Cloudflare D1 Schema Example
-- Production-ready database schema with best practices
--
-- This file demonstrates:
-- - Proper table creation with constraints
-- - Primary and foreign keys
-- - Indexes for performance
-- - Sample data for testing
--
-- Apply with:
-- npx wrangler d1 execute my-database --local --file=schema-example.sql
-- ============================================
-- Users Table
-- ============================================
DROP TABLE IF EXISTS users;
CREATE TABLE IF NOT EXISTS users (
user_id INTEGER PRIMARY KEY AUTOINCREMENT,
email TEXT NOT NULL UNIQUE,
username TEXT NOT NULL,
full_name TEXT,
bio TEXT,
avatar_url TEXT,
created_at INTEGER NOT NULL DEFAULT (unixepoch()),
updated_at INTEGER,
deleted_at INTEGER -- Soft delete pattern
);
-- Index for email lookups (login, registration checks)
CREATE INDEX IF NOT EXISTS idx_users_email ON users(email);
-- Index for filtering out deleted users
CREATE INDEX IF NOT EXISTS idx_users_active ON users(user_id) WHERE deleted_at IS NULL;
-- ============================================
-- Posts Table
-- ============================================
DROP TABLE IF EXISTS posts;
CREATE TABLE IF NOT EXISTS posts (
post_id INTEGER PRIMARY KEY AUTOINCREMENT,
user_id INTEGER NOT NULL,
title TEXT NOT NULL,
content TEXT NOT NULL,
slug TEXT NOT NULL UNIQUE,
published INTEGER NOT NULL DEFAULT 0, -- 0 = draft, 1 = published
view_count INTEGER NOT NULL DEFAULT 0,
created_at INTEGER NOT NULL DEFAULT (unixepoch()),
updated_at INTEGER,
published_at INTEGER,
-- Foreign key constraint
FOREIGN KEY (user_id) REFERENCES users(user_id) ON DELETE CASCADE
);
-- Index for user's posts
CREATE INDEX IF NOT EXISTS idx_posts_user_id ON posts(user_id);
-- Index for published posts (most common query)
CREATE INDEX IF NOT EXISTS idx_posts_published_created ON posts(published, created_at DESC)
WHERE published = 1;
-- Index for slug lookups (e.g., /blog/my-post-slug)
CREATE INDEX IF NOT EXISTS idx_posts_slug ON posts(slug);
-- ============================================
-- Comments Table
-- ============================================
DROP TABLE IF EXISTS comments;
CREATE TABLE IF NOT EXISTS comments (
comment_id INTEGER PRIMARY KEY AUTOINCREMENT,
post_id INTEGER NOT NULL,
user_id INTEGER NOT NULL,
parent_comment_id INTEGER, -- For threaded comments (NULL = top-level)
content TEXT NOT NULL,
created_at INTEGER NOT NULL DEFAULT (unixepoch()),
updated_at INTEGER,
deleted_at INTEGER,
-- Foreign keys
FOREIGN KEY (post_id) REFERENCES posts(post_id) ON DELETE CASCADE,
FOREIGN KEY (user_id) REFERENCES users(user_id) ON DELETE CASCADE,
FOREIGN KEY (parent_comment_id) REFERENCES comments(comment_id) ON DELETE CASCADE
);
-- Index for post's comments
CREATE INDEX IF NOT EXISTS idx_comments_post_id ON comments(post_id);
-- Index for user's comments
CREATE INDEX IF NOT EXISTS idx_comments_user_id ON comments(user_id);
-- Index for threaded replies
CREATE INDEX IF NOT EXISTS idx_comments_parent ON comments(parent_comment_id)
WHERE parent_comment_id IS NOT NULL;
-- ============================================
-- Tags Table (Many-to-Many Example)
-- ============================================
DROP TABLE IF EXISTS tags;
CREATE TABLE IF NOT EXISTS tags (
tag_id INTEGER PRIMARY KEY AUTOINCREMENT,
name TEXT NOT NULL UNIQUE,
slug TEXT NOT NULL UNIQUE,
created_at INTEGER NOT NULL DEFAULT (unixepoch())
);
-- Index for tag lookups
CREATE INDEX IF NOT EXISTS idx_tags_slug ON tags(slug);
-- ============================================
-- Post Tags Junction Table
-- ============================================
DROP TABLE IF EXISTS post_tags;
CREATE TABLE IF NOT EXISTS post_tags (
post_id INTEGER NOT NULL,
tag_id INTEGER NOT NULL,
created_at INTEGER NOT NULL DEFAULT (unixepoch()),
-- Composite primary key
PRIMARY KEY (post_id, tag_id),
-- Foreign keys
FOREIGN KEY (post_id) REFERENCES posts(post_id) ON DELETE CASCADE,
FOREIGN KEY (tag_id) REFERENCES tags(tag_id) ON DELETE CASCADE
);
-- Index for finding posts by tag
CREATE INDEX IF NOT EXISTS idx_post_tags_tag_id ON post_tags(tag_id);
-- ============================================
-- Sessions Table (Example: Auth Sessions)
-- ============================================
DROP TABLE IF EXISTS sessions;
CREATE TABLE IF NOT EXISTS sessions (
session_id TEXT PRIMARY KEY, -- UUID or random token
user_id INTEGER NOT NULL,
ip_address TEXT,
user_agent TEXT,
created_at INTEGER NOT NULL DEFAULT (unixepoch()),
expires_at INTEGER NOT NULL,
last_activity_at INTEGER NOT NULL DEFAULT (unixepoch()),
FOREIGN KEY (user_id) REFERENCES users(user_id) ON DELETE CASCADE
);
-- Index for session cleanup (delete expired sessions)
CREATE INDEX IF NOT EXISTS idx_sessions_expires ON sessions(expires_at);
-- Index for user's sessions
CREATE INDEX IF NOT EXISTS idx_sessions_user_id ON sessions(user_id);
-- ============================================
-- Analytics Table (High-Write Pattern)
-- ============================================
DROP TABLE IF EXISTS page_views;
CREATE TABLE IF NOT EXISTS page_views (
view_id INTEGER PRIMARY KEY AUTOINCREMENT,
post_id INTEGER,
user_id INTEGER, -- NULL for anonymous views
ip_address TEXT,
referrer TEXT,
user_agent TEXT,
viewed_at INTEGER NOT NULL DEFAULT (unixepoch())
);
-- Partial index: only index recent views (last 30 days)
CREATE INDEX IF NOT EXISTS idx_page_views_recent ON page_views(post_id, viewed_at)
WHERE viewed_at > unixepoch() - 2592000; -- 30 days in seconds
-- ============================================
-- Optimize Database
-- ============================================
-- Run PRAGMA optimize to collect statistics for query planner
PRAGMA optimize;
-- ============================================
-- Sample Seed Data (Optional - for testing)
-- ============================================
-- Insert test users
INSERT INTO users (email, username, full_name, bio) VALUES
('alice@example.com', 'alice', 'Alice Johnson', 'Software engineer and blogger'),
('bob@example.com', 'bob', 'Bob Smith', 'Tech enthusiast'),
('charlie@example.com', 'charlie', 'Charlie Brown', 'Writer and photographer');
-- Insert test tags
INSERT INTO tags (name, slug) VALUES
('JavaScript', 'javascript'),
('TypeScript', 'typescript'),
('Cloudflare', 'cloudflare'),
('Web Development', 'web-development'),
('Tutorial', 'tutorial');
-- Insert test posts
INSERT INTO posts (user_id, title, content, slug, published, published_at) VALUES
(1, 'Getting Started with D1', 'Learn how to use Cloudflare D1 database...', 'getting-started-with-d1', 1, unixepoch()),
(1, 'Building APIs with Hono', 'Hono is a lightweight web framework...', 'building-apis-with-hono', 1, unixepoch() - 86400),
(2, 'My First Draft', 'This is a draft post...', 'my-first-draft', 0, NULL);
-- Link posts to tags
INSERT INTO post_tags (post_id, tag_id) VALUES
(1, 3), -- Getting Started with D1 -> Cloudflare
(1, 5), -- Getting Started with D1 -> Tutorial
(2, 1), -- Building APIs with Hono -> JavaScript
(2, 3), -- Building APIs with Hono -> Cloudflare
(2, 5); -- Building APIs with Hono -> Tutorial
-- Insert test comments
INSERT INTO comments (post_id, user_id, content) VALUES
(1, 2, 'Great tutorial! Really helpful.'),
(1, 3, 'Thanks for sharing this!'),
(2, 3, 'Looking forward to more content on Hono.');
-- Insert threaded reply
INSERT INTO comments (post_id, user_id, parent_comment_id, content) VALUES
(1, 1, 1, 'Glad you found it useful!');
-- ============================================
-- Verification Queries
-- ============================================
-- Count records in each table
SELECT 'users' as table_name, COUNT(*) as count FROM users
UNION ALL
SELECT 'posts', COUNT(*) FROM posts
UNION ALL
SELECT 'comments', COUNT(*) FROM comments
UNION ALL
SELECT 'tags', COUNT(*) FROM tags
UNION ALL
SELECT 'post_tags', COUNT(*) FROM post_tags;
-- List all tables and indexes
SELECT
type,
name,
tbl_name as table_name
FROM sqlite_master
WHERE type IN ('table', 'index')
AND name NOT LIKE 'sqlite_%'
ORDER BY type, tbl_name, name;