.. _aiohttp-web-quickstart: Web Server Quickstart ===================== .. currentmodule:: aiohttp.web Run a Simple Web Server ----------------------- In order to implement a web server, first create a :ref:`request handler `. A request handler must be a :ref:`coroutine ` that accepts a :class:`Request` instance as its only parameter and returns a :class:`Response` instance:: from aiohttp import web async def hello(request): return web.Response(text="Hello, world") Next, create an :class:`Application` instance and register the request handler on a particular *HTTP method* and *path*:: app = web.Application() app.add_routes([web.get('/', hello)]) After that, run the application by :func:`run_app` call:: web.run_app(app) That's it. Now, head over to ``http://localhost:8080/`` to see the results. Alternatively if you prefer *route decorators* create a *route table* and register a :term:`web-handler`:: routes = web.RouteTableDef() @routes.get('/') async def hello(request): return web.Response(text="Hello, world") app = web.Application() app.add_routes(routes) web.run_app(app) Both ways essentially do the same work, the difference is only in your taste: do you prefer *Django style* with famous ``urls.py`` or *Flask* with shiny route decorators. *aiohttp* server documentation uses both ways in code snippets to emphasize their equality, switching from one style to another is very trivial. .. seealso:: :ref:`aiohttp-web-graceful-shutdown` section explains what :func:`run_app` does and how to implement complex server initialization/finalization from scratch. :ref:`aiohttp-web-app-runners` for more handling more complex cases like *asynchronous* web application serving and multiple hosts support. .. _aiohttp-web-cli: Command Line Interface (CLI) ---------------------------- :mod:`aiohttp.web` implements a basic CLI for quickly serving an :class:`Application` in *development* over TCP/IP: .. code-block:: shell $ python -m aiohttp.web -H localhost -P 8080 package.module:init_func ``package.module:init_func`` should be an importable :term:`callable` that accepts a list of any non-parsed command-line arguments and returns an :class:`Application` instance after setting it up:: def init_func(argv): app = web.Application() app.router.add_get("/", index_handler) return app .. _aiohttp-web-handler: Handler ------- A request handler must be a :ref:`coroutine` that accepts a :class:`Request` instance as its only argument and returns a :class:`StreamResponse` derived (e.g. :class:`Response`) instance:: async def handler(request): return web.Response() Handlers are setup to handle requests by registering them with the :meth:`Application.add_routes` on a particular route (*HTTP method* and *path* pair) using helpers like :func:`get` and :func:`post`:: app.add_routes([web.get('/', handler), web.post('/post', post_handler), web.put('/put', put_handler)]) Or use *route decorators*:: routes = web.RouteTableDef() @routes.get('/') async def get_handler(request): ... @routes.post('/post') async def post_handler(request): ... @routes.put('/put') async def put_handler(request): ... app.add_routes(routes) Wildcard *HTTP method* is also supported by :func:`route` or :meth:`RouteTableDef.route`, allowing a handler to serve incoming requests on a *path* having **any** *HTTP method*:: app.add_routes([web.route('*', '/path', all_handler)]) The *HTTP method* can be queried later in the request handler using the :attr:`aiohttp.web.BaseRequest.method` property. By default endpoints added with ``GET`` method will accept ``HEAD`` requests and return the same response headers as they would for a ``GET`` request. You can also deny ``HEAD`` requests on a route:: web.get('/', handler, allow_head=False) Here ``handler`` won't be called on ``HEAD`` request and the server will respond with ``405: Method Not Allowed``. .. seealso:: :ref:`aiohttp-web-peer-disconnection` section explains how handlers behave when a client connection drops and ways to optimize handling of this. .. _aiohttp-web-resource-and-route: Resources and Routes -------------------- Internally routes are served by :attr:`Application.router` (:class:`UrlDispatcher` instance). The *router* is a list of *resources*. Resource is an entry in *route table* which corresponds to requested URL. Resource in turn has at least one *route*. Route corresponds to handling *HTTP method* by calling *web handler*. Thus when you add a *route* the *resource* object is created under the hood. The library implementation **merges** all subsequent route additions for the same path adding the only resource for all HTTP methods. Consider two examples:: app.add_routes([web.get('/path1', get_1), web.post('/path1', post_1), web.get('/path2', get_2), web.post('/path2', post_2)] and:: app.add_routes([web.get('/path1', get_1), web.get('/path2', get_2), web.post('/path2', post_2), web.post('/path1', post_1)] First one is *optimized*. You have got the idea. .. _aiohttp-web-variable-handler: Variable Resources ^^^^^^^^^^^^^^^^^^ Resource may have *variable path* also. For instance, a resource with the path ``'/a/{name}/c'`` would match all incoming requests with paths such as ``'/a/b/c'``, ``'/a/1/c'``, and ``'/a/etc/c'``. A variable *part* is specified in the form ``{identifier}``, where the ``identifier`` can be used later in a :ref:`request handler ` to access the matched value for that *part*. This is done by looking up the ``identifier`` in the :attr:`Request.match_info` mapping:: @routes.get('/{name}') async def variable_handler(request): return web.Response( text="Hello, {}".format(request.match_info['name'])) By default, each *part* matches the regular expression ``[^{}/]+``. You can also specify a custom regex in the form ``{identifier:regex}``:: web.get(r'/{name:\d+}', handler) .. _aiohttp-web-named-routes: Reverse URL Constructing using Named Resources ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Routes can also be given a *name*:: @routes.get('/root', name='root') async def handler(request): ... Which can then be used to access and build a *URL* for that resource later (e.g. in a :ref:`request handler `):: url = request.app.router['root'].url_for().with_query({"a": "b", "c": "d"}) assert url == URL('/root?a=b&c=d') A more interesting example is building *URLs* for :ref:`variable resources `:: app.router.add_resource(r'/{user}/info', name='user-info') In this case you can also pass in the *parts* of the route:: url = request.app.router['user-info'].url_for(user='john_doe') url_with_qs = url.with_query("a=b") assert url_with_qs == '/john_doe/info?a=b' Organizing Handlers in Classes ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ As discussed above, :ref:`handlers ` can be first-class coroutines:: async def hello(request): return web.Response(text="Hello, world") app.router.add_get('/', hello) But sometimes it's convenient to group logically similar handlers into a Python *class*. Since :mod:`aiohttp.web` does not dictate any implementation details, application developers can organize handlers in classes if they so wish:: class Handler: def __init__(self): pass async def handle_intro(self, request): return web.Response(text="Hello, world") async def handle_greeting(self, request): name = request.match_info.get('name', "Anonymous") txt = "Hello, {}".format(name) return web.Response(text=txt) handler = Handler() app.add_routes([web.get('/intro', handler.handle_intro), web.get('/greet/{name}', handler.handle_greeting)]) .. _aiohttp-web-class-based-views: Class Based Views ^^^^^^^^^^^^^^^^^ :mod:`aiohttp.web` has support for *class based views*. You can derive from :class:`View` and define methods for handling http requests:: class MyView(web.View): async def get(self): return await get_resp(self.request) async def post(self): return await post_resp(self.request) Handlers should be coroutines accepting *self* only and returning response object as regular :term:`web-handler`. Request object can be retrieved by :attr:`View.request` property. After implementing the view (``MyView`` from example above) should be registered in application's router:: web.view('/path/to', MyView) or:: @routes.view('/path/to') class MyView(web.View): ... Example will process GET and POST requests for */path/to* but raise *405 Method not allowed* exception for unimplemented HTTP methods. Resource Views ^^^^^^^^^^^^^^ *All* registered resources in a router can be viewed using the :meth:`UrlDispatcher.resources` method:: for resource in app.router.resources(): print(resource) A *subset* of the resources that were registered with a *name* can be viewed using the :meth:`UrlDispatcher.named_resources` method:: for name, resource in app.router.named_resources().items(): print(name, resource) .. _aiohttp-web-alternative-routes-definition: Alternative ways for registering routes --------------------------------------- Code examples shown above use *imperative* style for adding new routes: they call ``app.router.add_get(...)`` etc. There are two alternatives: route tables and route decorators. Route tables look like Django way:: async def handle_get(request): ... async def handle_post(request): ... app.router.add_routes([web.get('/get', handle_get), web.post('/post', handle_post), The snippet calls :meth:`~aiohttp.web.UrlDispatcher.add_routes` to register a list of *route definitions* (:class:`aiohttp.web.RouteDef` instances) created by :func:`aiohttp.web.get` or :func:`aiohttp.web.post` functions. .. seealso:: :ref:`aiohttp-web-route-def` reference. Route decorators are closer to Flask approach:: routes = web.RouteTableDef() @routes.get('/get') async def handle_get(request): ... @routes.post('/post') async def handle_post(request): ... app.router.add_routes(routes) It is also possible to use decorators with class-based views:: routes = web.RouteTableDef() @routes.view("/view") class MyView(web.View): async def get(self): ... async def post(self): ... app.router.add_routes(routes) The example creates a :class:`aiohttp.web.RouteTableDef` container first. The container is a list-like object with additional decorators :meth:`aiohttp.web.RouteTableDef.get`, :meth:`aiohttp.web.RouteTableDef.post` etc. for registering new routes. After filling the container :meth:`~aiohttp.web.UrlDispatcher.add_routes` is used for adding registered *route definitions* into application's router. .. seealso:: :ref:`aiohttp-web-route-table-def` reference. All tree ways (imperative calls, route tables and decorators) are equivalent, you could use what do you prefer or even mix them on your own. .. versionadded:: 2.3 JSON Response ------------- It is a common case to return JSON data in response, :mod:`aiohttp.web` provides a shortcut for returning JSON -- :func:`aiohttp.web.json_response`:: async def handler(request): data = {'some': 'data'} return web.json_response(data) The shortcut method returns :class:`aiohttp.web.Response` instance so you can for example set cookies before returning it from handler. User Sessions ------------- Often you need a container for storing user data across requests. The concept is usually called a *session*. :mod:`aiohttp.web` has no built-in concept of a *session*, however, there is a third-party library, :mod:`aiohttp_session`, that adds *session* support:: import asyncio import time import base64 from cryptography import fernet from aiohttp import web from aiohttp_session import setup, get_session, session_middleware from aiohttp_session.cookie_storage import EncryptedCookieStorage async def handler(request): session = await get_session(request) last_visit = session.get("last_visit") session["last_visit"] = time.time() text = "Last visited: {}".format(last_visit) return web.Response(text=text) async def make_app(): app = web.Application() # secret_key must be 32 url-safe base64-encoded bytes fernet_key = fernet.Fernet.generate_key() secret_key = base64.urlsafe_b64decode(fernet_key) setup(app, EncryptedCookieStorage(secret_key)) app.add_routes([web.get('/', handler)]) return app web.run_app(make_app()) .. _aiohttp-web-forms: HTTP Forms ---------- HTTP Forms are supported out of the box. If form's method is ``"GET"`` (``
``) use :attr:`aiohttp.web.BaseRequest.query` for getting form data. To access form data with ``"POST"`` method use :meth:`aiohttp.web.BaseRequest.post` or :meth:`aiohttp.web.BaseRequest.multipart`. :meth:`aiohttp.web.BaseRequest.post` accepts both ``'application/x-www-form-urlencoded'`` and ``'multipart/form-data'`` form's data encoding (e.g. ````). It stores files data in temporary directory. If `client_max_size` is specified `post` raises `ValueError` exception. For efficiency use :meth:`aiohttp.web.BaseRequest.multipart`, It is especially effective for uploading large files (:ref:`aiohttp-web-file-upload`). Values submitted by the following form: .. code-block:: html
could be accessed as:: async def do_login(request): data = await request.post() login = data['login'] password = data['password'] .. _aiohttp-web-file-upload: File Uploads ------------ :mod:`aiohttp.web` has built-in support for handling files uploaded from the browser. First, make sure that the HTML ``
`` element has its *enctype* attribute set to ``enctype="multipart/form-data"``. As an example, here is a form that accepts an MP3 file: .. code-block:: html
Then, in the :ref:`request handler ` you can access the file input field as a :class:`FileField` instance. :class:`FileField` is simply a container for the file as well as some of its metadata:: async def store_mp3_handler(request): # WARNING: don't do that if you plan to receive large files! data = await request.post() mp3 = data['mp3'] # .filename contains the name of the file in string format. filename = mp3.filename # .file contains the actual file data that needs to be stored somewhere. mp3_file = data['mp3'].file content = mp3_file.read() return web.Response(body=content, headers=MultiDict( {'CONTENT-DISPOSITION': mp3_file})) You might have noticed a big warning in the example above. The general issue is that :meth:`aiohttp.web.BaseRequest.post` reads the whole payload in memory, resulting in possible :abbr:`OOM (Out Of Memory)` errors. To avoid this, for multipart uploads, you should use :meth:`aiohttp.web.BaseRequest.multipart` which returns a :ref:`multipart reader `:: async def store_mp3_handler(request): reader = await request.multipart() # /!\ Don't forget to validate your inputs /!\ # reader.next() will `yield` the fields of your form field = await reader.next() assert field.name == 'name' name = await field.read(decode=True) field = await reader.next() assert field.name == 'mp3' filename = field.filename # You cannot rely on Content-Length if transfer is chunked. size = 0 with open(os.path.join('/spool/yarrr-media/mp3/', filename), 'wb') as f: while True: chunk = await field.read_chunk() # 8192 bytes by default. if not chunk: break size += len(chunk) f.write(chunk) return web.Response(text='{} sized of {} successfully stored' ''.format(filename, size)) .. _aiohttp-web-websockets: WebSockets ---------- :mod:`aiohttp.web` supports *WebSockets* out-of-the-box. To setup a *WebSocket*, create a :class:`WebSocketResponse` in a :ref:`request handler ` and then use it to communicate with the peer:: async def websocket_handler(request): ws = web.WebSocketResponse() await ws.prepare(request) async for msg in ws: if msg.type == aiohttp.WSMsgType.TEXT: if msg.data == 'close': await ws.close() else: await ws.send_str(msg.data + '/answer') elif msg.type == aiohttp.WSMsgType.ERROR: print('ws connection closed with exception %s' % ws.exception()) print('websocket connection closed') return ws The handler should be registered as HTTP GET processor:: app.add_routes([web.get('/ws', websocket_handler)]) .. _aiohttp-web-redirects: Redirects --------- To redirect user to another endpoint - raise :class:`HTTPFound` with an absolute URL, relative URL or view name (the argument from router):: raise web.HTTPFound('/redirect') The following example shows redirect to view named 'login' in routes:: async def handler(request): location = request.app.router['login'].url_for() raise web.HTTPFound(location=location) router.add_get('/handler', handler) router.add_get('/login', login_handler, name='login') Example with login validation:: @aiohttp_jinja2.template('login.html') async def login(request): if request.method == 'POST': form = await request.post() error = validate_login(form) if error: return {'error': error} else: # login form is valid location = request.app.router['index'].url_for() raise web.HTTPFound(location=location) return {} app.router.add_get('/', index, name='index') app.router.add_get('/login', login, name='login') app.router.add_post('/login', login, name='login') .. _aiohttp-web-exceptions: Exceptions ---------- :mod:`aiohttp.web` defines a set of exceptions for every *HTTP status code*. Each exception is a subclass of :class:`~HTTPException` and relates to a single HTTP status code:: async def handler(request): raise aiohttp.web.HTTPFound('/redirect') .. warning:: Returning :class:`~HTTPException` or its subclasses is deprecated and will be removed in subsequent aiohttp versions. Each exception class has a status code according to :rfc:`2068`: codes with 100-300 are not really errors; 400s are client errors, and 500s are server errors. HTTP Exception hierarchy chart:: Exception HTTPException HTTPSuccessful * 200 - HTTPOk * 201 - HTTPCreated * 202 - HTTPAccepted * 203 - HTTPNonAuthoritativeInformation * 204 - HTTPNoContent * 205 - HTTPResetContent * 206 - HTTPPartialContent HTTPRedirection * 300 - HTTPMultipleChoices * 301 - HTTPMovedPermanently * 302 - HTTPFound * 303 - HTTPSeeOther * 304 - HTTPNotModified * 305 - HTTPUseProxy * 307 - HTTPTemporaryRedirect * 308 - HTTPPermanentRedirect HTTPError HTTPClientError * 400 - HTTPBadRequest * 401 - HTTPUnauthorized * 402 - HTTPPaymentRequired * 403 - HTTPForbidden * 404 - HTTPNotFound * 405 - HTTPMethodNotAllowed * 406 - HTTPNotAcceptable * 407 - HTTPProxyAuthenticationRequired * 408 - HTTPRequestTimeout * 409 - HTTPConflict * 410 - HTTPGone * 411 - HTTPLengthRequired * 412 - HTTPPreconditionFailed * 413 - HTTPRequestEntityTooLarge * 414 - HTTPRequestURITooLong * 415 - HTTPUnsupportedMediaType * 416 - HTTPRequestRangeNotSatisfiable * 417 - HTTPExpectationFailed * 421 - HTTPMisdirectedRequest * 422 - HTTPUnprocessableEntity * 424 - HTTPFailedDependency * 426 - HTTPUpgradeRequired * 428 - HTTPPreconditionRequired * 429 - HTTPTooManyRequests * 431 - HTTPRequestHeaderFieldsTooLarge * 451 - HTTPUnavailableForLegalReasons HTTPServerError * 500 - HTTPInternalServerError * 501 - HTTPNotImplemented * 502 - HTTPBadGateway * 503 - HTTPServiceUnavailable * 504 - HTTPGatewayTimeout * 505 - HTTPVersionNotSupported * 506 - HTTPVariantAlsoNegotiates * 507 - HTTPInsufficientStorage * 510 - HTTPNotExtended * 511 - HTTPNetworkAuthenticationRequired All HTTP exceptions have the same constructor signature:: HTTPNotFound(*, headers=None, reason=None, body=None, text=None, content_type=None) If not directly specified, *headers* will be added to the *default response headers*. Classes :class:`HTTPMultipleChoices`, :class:`HTTPMovedPermanently`, :class:`HTTPFound`, :class:`HTTPSeeOther`, :class:`HTTPUseProxy`, :class:`HTTPTemporaryRedirect` have the following constructor signature:: HTTPFound(location, *, headers=None, reason=None, body=None, text=None, content_type=None) where *location* is value for *Location HTTP header*. :class:`HTTPMethodNotAllowed` is constructed by providing the incoming unsupported method and list of allowed methods:: HTTPMethodNotAllowed(method, allowed_methods, *, headers=None, reason=None, body=None, text=None, content_type=None) :class:`HTTPUnavailableForLegalReasons` should be constructed with a ``link`` to yourself (as the entity implementing the blockage), and an explanation for the block included in ``text``.:: HTTPUnavailableForLegalReasons(link, *, headers=None, reason=None, body=None, text=None, content_type=None)