| Using SQLite 3 with Flask |
| ========================= |
|
|
| In Flask you can easily implement the opening of database connections on |
| demand and closing them when the context dies (usually at the end of the |
| request). |
|
|
| Here is a simple example of how you can use SQLite 3 with Flask:: |
|
|
| import sqlite3 |
| from flask import g |
|
|
| DATABASE = '/path/to/database.db' |
|
|
| def get_db(): |
| db = getattr(g, '_database', None) |
| if db is None: |
| db = g._database = sqlite3.connect(DATABASE) |
| return db |
|
|
| @app.teardown_appcontext |
| def close_connection(exception): |
| db = getattr(g, '_database', None) |
| if db is not None: |
| db.close() |
|
|
| Now, to use the database, the application must either have an active |
| application context (which is always true if there is a request in flight) |
| or create an application context itself. At that point the ``get_db`` |
| function can be used to get the current database connection. Whenever the |
| context is destroyed the database connection will be terminated. |
|
|
| Note: if you use Flask 0.9 or older you need to use |
| ``flask._app_ctx_stack.top`` instead of ``g`` as the :data:`flask.g` |
| object was bound to the request and not application context. |
|
|
| Example:: |
|
|
| @app.route('/') |
| def index(): |
| cur = get_db().cursor() |
| ... |
|
|
|
|
| .. note:: |
|
|
| Please keep in mind that the teardown request and appcontext functions |
| are always executed, even if a before-request handler failed or was |
| never executed. Because of this we have to make sure here that the |
| database is there before we close it. |
|
|
| Connect on Demand |
| |
|
|
| The upside of this approach (connecting on first use) is that this will |
| only open the connection if truly necessary. If you want to use this |
| code outside a request context you can use it in a Python shell by opening |
| the application context by hand:: |
|
|
| with app.app_context(): |
| |
|
|
|
|
| Easy Querying |
| |
|
|
| Now in each request handling function you can access `get_db()` to get the |
| current open database connection. To simplify working with SQLite, a |
| row factory function is useful. It is executed for every result returned |
| from the database to convert the result. For instance, in order to get |
| dictionaries instead of tuples, this could be inserted into the ``get_db`` |
| function we created above:: |
|
|
| def make_dicts(cursor, row): |
| return dict((cursor.description[idx][0], value) |
| for idx, value in enumerate(row)) |
|
|
| db.row_factory = make_dicts |
|
|
| This will make the sqlite3 module return dicts for this database connection, which are much nicer to deal with. Even more simply, we could place this in ``get_db`` instead:: |
|
|
| db.row_factory = sqlite3.Row |
|
|
| This would use Row objects rather than dicts to return the results of queries. These are ``namedtuple`` s, so we can access them either by index or by key. For example, assuming we have a ``sqlite3.Row`` called ``r`` for the rows ``id``, ``FirstName``, ``LastName``, and ``MiddleInitial``:: |
|
|
| >>> |
| >>> r['FirstName'] |
| John |
| >>> |
| >>> r[1] |
| John |
| |
| >>> for value in r: |
| ... print(value) |
| 1 |
| John |
| Doe |
| M |
|
|
| Additionally, it is a good idea to provide a query function that combines |
| getting the cursor, executing and fetching the results:: |
|
|
| def query_db(query, args=(), one=False): |
| cur = get_db().execute(query, args) |
| rv = cur.fetchall() |
| cur.close() |
| return (rv[0] if rv else None) if one else rv |
|
|
| This handy little function, in combination with a row factory, makes |
| working with the database much more pleasant than it is by just using the |
| raw cursor and connection objects. |
|
|
| Here is how you can use it:: |
|
|
| for user in query_db('select * from users'): |
| print(user['username'], 'has the id', user['user_id']) |
|
|
| Or if you just want a single result:: |
|
|
| user = query_db('select * from users where username = ?', |
| [the_username], one=True) |
| if user is None: |
| print('No such user') |
| else: |
| print(the_username, 'has the id', user['user_id']) |
|
|
| To pass variable parts to the SQL statement, use a question mark in the |
| statement and pass in the arguments as a list. Never directly add them to |
| the SQL statement with string formatting because this makes it possible |
| to attack the application using `SQL Injections |
| <https://en.wikipedia.org/wiki/SQL_injection>`_. |
|
|
| Initial Schemas |
| |
|
|
| Relational databases need schemas, so applications often ship a |
| `schema.sql` file that creates the database. It's a good idea to provide |
| a function that creates the database based on that schema. This function |
| can do that for you:: |
|
|
| def init_db(): |
| with app.app_context(): |
| db = get_db() |
| with app.open_resource('schema.sql', mode='r') as f: |
| db.cursor().executescript(f.read()) |
| db.commit() |
|
|
| You can then create such a database from the Python shell: |
|
|
| >>> from yourapplication import init_db |
| >>> init_db() |
|
|
