.. _uploading-files: Uploading Files =============== Ah yes, the good old problem of file uploads. The basic idea of file uploads is actually quite simple. It basically works like this: 1. A ``
`` tag is marked with ``enctype=multipart/form-data`` and an ```` is placed in that form. 2. The application accesses the file from the :attr:`~flask.request.files` dictionary on the request object. 3. use the :meth:`~werkzeug.FileStorage.save` method of the file to save the file permanently somewhere on the filesystem. A Gentle Introduction --------------------- Let's start with a very basic application that uploads a file to a specific upload folder and displays a file to the user. Let's look at the bootstrapping code for our application:: import os from flask import Flask, request, redirect, url_for from werkzeug import secure_filename UPLOAD_FOLDER = '/path/to/the/uploads' ALLOWED_EXTENSIONS = set(['txt', 'pdf', 'png', 'jpg', 'jpeg', 'gif']) app = Flask(__name__) app.add_url_rule('/uploads/', 'uploaded_file', build_only=True) So first we need a couple of imports. Most should be straightforward, the :func:`werkzeug.secure_filename` is explained a little bit later. The `UPLOAD_FOLDER` is where we will store the uploaded files and the `ALLOWED_EXTENSIONS` is the set of allowed file extensions. Then we add a URL rule by hand to the application. Now usually we're not doing that, so why here? The reasons is that we want the webserver (or our development server) to serve these files for us and so we only need a rule to generate the URL to these files. Why do we limit the extensions that are allowed? You probably don't want your users to be able to upload everything there if the server is directly sending out the data to the client. That way you can make sure that users are not able to upload HTML files that would cause XSS problems. Also make sure to disallow `.php` files if the server executes them, but who has PHP installed on his server, right? :) Next the functions that check if an extension is valid and that uploads the file and redirects the user to the URL for the uploaded file:: def allowed_file(filename): return '.' in filename and \ filename.rsplit('.', 1)[1] in ALLOWED_EXTENSIONS @app.route('/', methods=['GET', 'POST']) def upload_file(): if request.method == 'POST': file = request.files['file'] if file and allowed_file(file.filename): filename = secure_filename(file.filename) file.save(os.path.join(UPLOAD_FOLDER, filename)) return redirect(url_for('uploaded_file', filename=filename)) return ''' Upload new File

Upload new File

''' So what does that :func:`~werkzeug.secure_filename` function actually do? Now the problem is that there is that principle called "never trust user input". This is also true for the filename of an uploaded file. All submitted form data can be forged, and filenames can be dangerous. For the moment just remember: always use that function to secure a filename before storing it directly on the filesystem. .. admonition:: Information for the Pros So you're interested in what that :func:`~werkzeug.secure_filename` function does and what the problem is if you're not using it? So just imagine someone would send the following information as `filename` to your application:: filename = "../../../../home/username/.bashrc" Assuming the number of ``../`` is correct and you would join this with the `UPLOAD_FOLDER` the user might have the ability to modify a file on the server's filesystem he should not modify. This does require some knowledge about how the application looks like, but trust me, hackers are patient :) Now let's look how that function works: >>> secure_filename('../../../../home/username/.bashrc') 'home_username_.bashrc' Now if we run that application, you will notice that uploading works, but you won't actually see that uploaded file. Well, you would have to configure the server to serve that file for you. This is not handy for development situations or when you are just too lazy to properly set up the server. Would be nice to have the files still be available in that situation, and that is really easy to do, just hook in a middleware:: from werkzeug import SharedDataMiddleware app.wsgi_app = SharedDataMiddleware(app.wsgi_app, { '/uploads': UPLOAD_FOLDER }) If you now run the application everything should work as expected. Improving Uploads ----------------- So how exactly does Flask handle uploads? Well it will store them in the webserver's memory if the files are reasonable small otherwise in a temporary location (as returned by :func:`tempfile.gettempdir`). But how do you specify the maximum file size after which an upload is aborted? By default Flask will happily accept file uploads to an unlimited amount of memory, but you can limit that by subclassing the request and overriding the Werkzeug provided :attr:`~werkzeug.BaseRequest.max_form_memory_size` attribute:: from flask import Flask, Request class LimitedRequest(Request): max_form_memory_size = 16 * 1024 * 1024 app = Flask(__name__) app.request_class = LimitedRequest The code above will limited the maximum allowed payload to 16 megabytes. If a larger file is transmitted, Flask will raise an :exc:`~werkzeug.exceptions.RequestEntityTooLarge` exception. Upload Progress Bars -------------------- A while ago many developers had the idea to read the incoming file in small chunks and store the upload progress in the database to be able to poll the progress with JavaScript from the client. Long story short: the client asks the server every 5 seconds how much he has transmitted already. Do you realize the irony? The client is asking for something he should already know. Now there are better solutions to that work faster and more reliable. The web changed a lot lately and you can use HTML5, Java, Silverlight or Flash to get a nicer uploading experience on the client side. Look at the following libraries for some nice examples how to do that: - `Plupload `_ - HTML5, Java, Flash - `SWFUpload `_ - Flash - `JumpLoader `_ - Java