Running Your Flask Application Over HTTPS

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While you work on your Flask application, you normally run the development web server, which provides a basic, yet functional WSGI complaint HTTP server. But eventually you will want to deploy your application for production use, and at that time, one of the many things you will need to decide is if you should require clients to use encrypted connections for added security.

People ask me all the time about this, in particular how to expose a Flask server on HTTPS. In this article I'm going to present several options for adding encryption to a Flask application, going from an extremely simple one that you can implement in just five seconds, to a robust solution that should give you an A+ rating like my site gets from this exhaustive SSL analysis service.


How Does HTTPS Work?

The encryption and security functionality for HTTP is implemented through the Transport Layer Security (TLS) protocol. Basically put, TLS defines a standard way to make any network communication channel secure. Since I'm not a security expert, I don't think I can do a great job if I try to give you a detailed description of the TLS protocol, so I will just give you some of the details that are of interest for our purpose of setting up a secure and encrypted Flask server.

The general idea is that when the client establishes a connection with the server and requests an encrypted connection, the server responds with its SSL Certificate. The certificate acts as identification for the server, as it includes the server name and domain. To ensure that the information provided by the server is correct, the certificate is cryptographically signed by a certificate authority, or CA. If the client knows and trusts the CA, it can confirm that the certificate signature indeed comes from this entity, and with this the client can be certain that the server it connected to is legitimate.

After the client verifies the certificate, it creates an encryption key to use for the communication with the server. To make sure that this key is sent securely to the server, it encrypts it using a public key that is included with the server certificate. The server is in possession of the private key that goes with that public key in the certificate, so it is the only party that is able to decrypt the package. From the point when the server receives the encryption key all traffic is encrypted with this key that only the client and server know.

From this summary you can probably guess that to implement TLS encryption we need two items: a server certificate, which includes a public key and is signed by a CA, and a private key that goes with the public key included in the certificate.

The Simplest Way To Do It

Flask, and more specifically Werkzeug, support the use of on-the-fly certificates, which are useful to quickly serve an application over HTTPS without having to mess with certificates. All you need to do, is add ssl_context='adhoc' to your call. As an example, below you can see the "Hello, World" Flask application from the official documentation, with TLS encryption added:

from flask import Flask
app = Flask(__name__)

def hello():
    return "Hello World!"

if __name__ == "__main__":'adhoc')

This option is also available through the Flask CLI if you are using a Flask 1.x release:

$ flask run --cert=adhoc

To use ad hoc certificates with Flask, you need to install an additional dependency in your virtual environment:

$ pip install pyopenssl

When you run the script (or start with flask run if you prefer), you will notice that Flask indicates that it is running an https:// server:

$ python
 * Running on (Press CTRL+C to quit)

Simple, right? The problem is that browsers do not like this type of certificate, so they show a big and scary warning that you need to dismiss before you can access the application. Once you allow the browser to connect, you will have an encrypted connection, just like what you get from a server with a valid certificate, which make these ad hoc certificates convenient for quick & dirty tests, but not for any real use.

Self-Signed Certificates

A so called self-signed certificate is one where the signature is generated using the private key that is associated with that same certificate. I mentioned above that the client needs to "know and trust" the CA that signed a certificate, because that trust relationship is what allows the client to validate a server certificate. Web browsers and other HTTP clients come pre-configured with a list of known and trusted CAs, but obviously if you use a self-signed certificate the CA is not going to be known and validation will fail. That is exactly what happened with the ad hoc certificate we used in the previous section. If the web browser is unable to validate a server certificate, it will let you proceed and visit the site in question, but it will make sure you understand that you are doing it at your own risk.


But what is the risk, really? With the Flask server from the previous section you obviously trust yourself, so there is no risk to you. The problem is when users are presented with this warning when connecting to a site they do not directly know or control. In those cases, it is impossible for the user to know if the server is authentic or not, because anyone can generate certificates for any domain, as you will see below.

While self-signed certificates can be useful sometimes, the ad hoc certificates from Flask are not that great, because each time the server runs, a different certificate is generated on the fly through pyOpenSSL. When you are working with a self-signed certificate, it is better to have the same certificate used every time you launch your server, because that allows you to configure your browser to trust it, and that eliminates the security warnings.

You can generate self-signed certificates easily from the command line. All you need is to have openssl installed:

openssl req -x509 -newkey rsa:4096 -nodes -out cert.pem -keyout key.pem -days 365

This command writes a new certificate in cert.pem with its corresponding private key in key.pem, with a validity period of 365 days. When you run this command, you will be asked a few questions. Below you can see in red how I answered them to generate a certificate for localhost:

Generating a 4096 bit RSA private key
writing new private key to 'key.pem'
You are about to be asked to enter information that will be incorporated
into your certificate request.
What you are about to enter is what is called a Distinguished Name or a DN.
There are quite a few fields but you can leave some blank
For some fields there will be a default value,
If you enter '.', the field will be left blank.
Country Name (2 letter code) [AU]:US
State or Province Name (full name) [Some-State]:Oregon
Locality Name (eg, city) []:Portland
Organization Name (eg, company) [Internet Widgits Pty Ltd]:Miguel Grinberg Blog
Organizational Unit Name (eg, section) []:
Common Name (e.g. server FQDN or YOUR name) []:localhost
Email Address []:

We can now use this new self-signed certificate in our Flask application by setting the ssl_context argument in to a tuple with the filenames of the certificate and private key files:

from flask import Flask
app = Flask(__name__)

def hello():
    return "Hello World!"

if __name__ == "__main__":'cert.pem', 'key.pem'))

Alternatively, you can add the --cert and --key options to the flask run command if you are using Flask 1.x or newer:

$ flask run --cert=cert.pem --key=key.pem

The browser will continue to complain about this certificate, but if you inspect it, you will see the information that you entered when you created it:


Using Production Web Servers

Of course we all know that the Flask development server is only good for development and testing. So how do we install an SSL certificate on a production server?

If you are using gunicorn, you can do this with command line arguments:

$ gunicorn --certfile cert.pem --keyfile key.pem -b hello:app

If you use nginx as a reverse proxy, then you can configure the certificate with nginx, and then nginx can "terminate" the encrypted connection, meaning that it will accept encrypted connections from the outside, but then use regular unencrypted connections to talk to your Flask backend. This is a very useful set up, as it frees your application from having to deal with certificates and encryption. The configuration items for nginx are as follows:

server {
    listen 443 ssl http2;
    ssl_certificate /path/to/cert.pem;
    ssl_certificate_key /path/to/key.pem;
    # ...

Another important item you need to consider is how are clients that connect through regular HTTP going to be handled. The best solution, in my opinion, is to respond to unencrypted requests with a redirect to the same URL but on HTTPS. For a Flask application, you can achieve that using the Flask-SSLify extension. With nginx, you can include another server block in your configuration:

server {
    listen 80;
    location / {
        return 301 https://$host$request_uri;

If you are using a different web server, check their documentation and you will likely find similar ways to create the configurations shown above.

Using "Real" Certificates

We have now explored all the options we have for self-signed certificates, but in all those cases, the limitation remains that web browsers are not going to trust those certificates unless you tell them to, so the best option for server certificates for a production site is to obtain them from one of these CAs that are well known and automatically trusted by all the web browsers.

When you request a certificate from a CA, this entity is going to verify that you are in control of your server and domain, but how this verification is done depends on the CA. If the server passes this verification then the CA will issue a certificate for it with its own signature and give it to you to install. The certificate is going to be good for a period of time that is usually not longer than a year. Most CAs charge money for these certificates, but there are a couple that offer them for free. The most popular free CA is called Let's Encrypt.

Getting a certificate from Let's Encrypt is fairly easy, since the whole process is automated. Assuming you are using an Ubuntu based server, you have to begin by installing their open source certbot tool on your server:

$ sudo apt-get install software-properties-common
$ sudo add-apt-repository ppa:certbot/certbot
$ sudo apt-get update
$ sudo apt-get install certbot

And now you are ready to request the certificate using this utility. There are a few ways that certbot uses to verify your site. The "webroot" method is, in general, the easiest to implement. With this method, certbot adds some files in a directory that your web server exposes as static files, and then tries to access these files over HTTP, using the domain you are trying to generate a certificate for. If this test is successful, certbot knows that the server in which it is running it is associated with the correct domain, and with that it is satisfied and issues the certificate. The command to request a certificate with this method is as follows:

$ sudo certbot certonly --webroot -w /var/www/example -d

In this example, we are trying to generate a certificate for a domain, which uses the directory in /var/www/example as a static file root. Unfortunately a Flask based website does not have a static file root directory, all static files from the application are accessed with the /static prefix, at least when you use the default configuration, so more planning is necessary.

What certbot does to the static root directory is add a .well-known subdirectory, and then store some files in it. Then it uses a HTTP client to retrieve those files as If it can retrieve the files, then that is confirmation that your server is in full control of the domain name. For Flask and other applications that don't have a static file root directory, it is necessary to define one.

If you are using nginx as reverse proxy, you can take advantage of the powerful mappings that you can create in the configuration to give certbot a private directory where it can write its verification files. In the following example, I extended the HTTP server block shown in the previous section to send all Let's Encrypt related requests (which always begin with /.well-known/...) to a specific directory of your choice:

server {
    listen 80;
    location ~ /.well-known {
        root /path/to/letsencrypt/verification/directory;
    location / {
        return 301 https://$host$request_uri;

Then you can give this director to certbot:

$ sudo certbot certonly --webroot -w /path/to/letsencrypt/verification/directory -d

If certbot is able to verify the domain, it will write the certificate file as /etc/letsencrypt/live/ and the private key as /etc/letsencrypt/live/, and these are going to be valid for a period of 90 days.

To use this newly acquired certificate, you can enter the two filenames mentioned above in place of the self-signed files we used before, and this should work with any of the configurations described above. And of course you will also need to make your application available through the domain name that you registered, as that is the only way the browser will accept the certificate as valid.

Certbot is also used when you need to renew the certificates. To do that, you simply issue the following command:

$ sudo certbot renew

If there are any certificates in your system that are close to expire, the above command renews them, leaving new certificates in the same locations. You will likely need to restart your web server if you want the renewed certificates to be picked up.

Achieving an SSL A+ Grade

If you use a certificate from Let's Encrypt or another known CA for your production site and you are running a recent and maintained operating system on this server, you are likely very close to have a top-rated server in terms of SSL security. You can head over to the Qualys SSL Labs site and get a report to see where you stand.

Chances are you will still have some minor things to do. The report will indicate what areas you need to improve, but in general, I expect you'll be told that the options the server exposes for the encrypted communication are too wide, or too weak, leaving you open to known vulnerabilities.

One of the areas in which it is easy to make an improvement is in how the coefficients that are used during the encryption key exchange are generated, which usually have defaults that are fairly weak. In particular, the Diffie-Hellman coefficients take a considerable amount of time to be generated, so servers by default use smaller numbers to save time. But we can pre-generate strong coefficients and store them in a file, which then nginx can use. Using the openssl tool, you can run the following command:

openssl dhparam -out /path/to/dhparam.pem 2048

You can change the 2048 above for a 4096 if you want even stronger coefficients. This command is going to take some time to run, specially if your server does not have a lot of CPU power, but when it's done, you will have a dhparam.pem file with strong coefficients that you can plug into the ssl server block in nginx:

    ssl_dhparam /path/to/dhparam.pem;

Next, you will probably need to configure which ciphers the server allows for the encrypted communication. This is the list that I have on my server:


In this list, disabled ciphers are prefixed with a !. The SSL report will tell you if there are any ciphers that are not recommended. You will have to check from time to time to find out if new vulnerabilities have been discovered that require modifications to this list.

Below you can find my current nginx SSL configuration, which includes the above settings, plus a few more that I added to address warnings from the SSL report:

server {
    listen 443 ssl http2;
    ssl_certificate /path/to/cert.pem;
    ssl_certificate_key /path/to/key.pem;
    ssl_dhparam /path/to/dhparam.pem;
    ssl_protocols TLSv1.2;
    ssl_session_timeout 1d;
    ssl_session_cache shared:SSL:50m;
    ssl_stapling on;
    ssl_stapling_verify on;
    add_header Strict-Transport-Security max-age=15768000;
    # ...

You can see the results that I obtained for my site at the top of this article. If you are after 100% marks in all categories, you will have to add additional restrictions to your configuration, but this is going to limit the number of clients that can connect to your site. In general, older browsers and HTTP clients use ciphers that are not considered to be the strongest, but if you disable those, then these clients will not be able to connect. So you will basically need to compromise, and also routinely review the security reports and make updates as things change over time.

Unfortunately for the level of sophistication on these last SSL improvements you will need to use a professional grade web server, so if you don't want to go with nginx, you will need to find one that supports these settings, and the list is pretty small. I know Apache does, but besides that, I don't know any other.


So there you go, this is how you can implement top-of-the-line SSL security for your Flask application. Is there anything that I left out? Do you do things differently? Let me know below in the comments!

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  • #51 Robert said

    Hi Miguel,
    Amazing tutorials!
    How would you configure something similar to certbot on a windows host machine?

  • #52 Miguel Grinberg said

    @Robert: Certbot should work great if you install it on the WSL (Windows Subsystem for Linux). Not sure if there is another way.

  • #53 Jan said

    Hi Miguel,

    I have been following your Flask Tutorials to setup a communication between my iOS Tablet Application and the Flask App. Because iOS does not let you use GET requests via HTTP I have decided to change the message protocol for the python server to HTTPS which led me to this tutorial.
    Now when I change to code to ", ssl_context='adhoc') Flask does not apply the given parameter and it still says "Running on".
    After debugging a bit it really seems that the parameter 'adhoc' is not being passed through the necessary function within ''.
    The function 'run_simple(..)' of is called by, which is why I inserted following code into this function:

    if ssl_context is None:
        _log("info", " * ! User message: No SSL Context given")
        _log("info", " * ! User message: SSL context provided: " + ssl_context)

    I always receive the log message that there was no ssl context given which confuses me a lot. Do you know any reason for that? Corporal Proxy maybe?

  • #54 Miguel Grinberg said

    @Jan: How do you start your Flask application? If you are using "flask run", then the call is not used. Maybe that's the problem?

  • #55 Zoya Ferdowsian said

    Thank you for a very nice article, best seen so far.
    I tried installing pyOpenSSL but running into issues I wonder if anyoeon can help

  • #56 Zoya Ferdowsian said

    Please disregard my previous question. I solved it by

    python -m pip install -U --force-reinstall pip
    pip install cryptography
    pip install pyOpsnSSL
  • #57 Jean-Philippe Allard said

    Hey Michael,

    Just found this amazing resource while configuring security for my app and thought to share with everyone:

    Much faster to use the cipher list available there according to your use case instead of trying to match them one by one on the Qualys report!

    Thanks for your guides, they're great.

  • #58 David Barrow said

    Certbot cannot access the page because, the HTTP version redirects to HTTPS which cannot be authorised due to the lack of a certificate. Its also worth checking that the CLRF to LF conversion has been correctly inputted into the server, when adding files directly into the nano editor via SSH from windows its quite error prone to say the least. ;)

  • #59 Miguel Grinberg said

    @David: your nginx configuration is incorrect. The /.well-known URL needs to be configured to not be redirected to https. This is shown above in my examples, please take a look.

  • #60 Alex OSullivan said

    Very new here to learning about web development. I was able to follow this tutorial and was able to get the certificate recognized. But when I go to my site through rather then or i get a certificate error. Is this a limitation of the Lets Encrypt free tier service?

    I think Nginx is working because is redirected to But the certificate is showing as not matching.

  • #61 Miguel Grinberg said

    @Alex: The certificate that I showed in this article is for, it does not cover subdomains. You have a couple of options:

    • Generate a certificate that covers both and For this, just run certbot with two "-d" options in the same command.
    • Generate a different certificate for Run certbot again for the www subdomain, then configure nginx to use the correct cert for each domain.
    • You can get a wildcard certificate that covers * (i.e. all subdomains of This is not covered in this tutorial, as this option did not exist when I wrote it.
  • #62 Alex OSullivan said

    Hey i submitted a comment yesterday and I was able to fix this buy getting certbot to create a certification from and and then set up the nginx with two server listening on 443. One for with the corresponding keys and one with with corresponding keys. Now typing or will result in no browser warnings.

    Thanks again for the great tutorials I have learned so much.

  • #63 Shuvendu said

    Superb..This is what I am searching for.

  • #64 Chris said

    Good morning Miguel,
    First, please let me Thank you for your great instructions!
    Unfortunately my website is not trusted. When I look into the certificate I get

    Use of key
    Critical - yes
    Use of key - digital signature, key encipherment
    (translated, hopefully understandable)

    I guess this is why the connection is not secure as it is the only critical=yes line.
    What do I need to do?

    Thank you

  • #65 Miguel Grinberg said

    @Chris: instead of looking at the certificate itself, look at what the browser says when it declares your site insecure.

  • #66 Sébastien said

    Hi @Miguel:
    I love your tutorials! There are not so much of them on the web that are so clear. They explain so well the context and the meaning of each step that they are easy to adapt to your own context.
    I have a problem though with the usage of the letsencrypt certificates with gunicorn.
    I created successfully the certificates for my domain and they seem to work at the level of nginx. But when I try to use my actual .pem files with gunicorn, it keeps telling me that those files do not exist.
    When I convert the fullchain.pem into a fullchain.crt file using openssl, it is found but same problem with the key. I try then to convert the privkey.pem into privkey.key also using openssl (the tutorials are less clear for that part - not sur I am using the right conversion parameters) so that the key file get finally accepted by gunicorn.
    But then, when I try to connect on the web site, I get the following:
    '[SSL] PEM lib (_ssl.c:3503)'
    Here is the command I use to launch gunicorn:
    gunicorn --certfile /etc/letsencrypt/live/ --keyfile /etc/letsencrypt/live/ -b -w 4 flask_start:app

    Any idea of what I did wrong?

  • #67 Sébastien said

    @miguel: I finally found what was wrong with the certificates: they were not accessible by gunicorn in their original location. So I copied them in another location.

  • #68 Damou walid said

    you are the best please continue !

  • #69 Dogo Daikon said

    Again really useful - but the rating from ssllabs is not A+ anymore - it's now B:

  • #70 Miguel Grinberg said

    @Dogo: thanks for letting me know. I have corrected the problem and updated the article with the changes required to be graded A+ under the new grading rules.

  • #71 Sean P said

    Hey Miguel,

    I setup everything on AWS per your tutorial. My site is loading fine in HTTP.

    I've used your code from above to route the port 80 connections requesting /.well-known and I'm getting an error

    Type: unauthorized
    Detail: Invalid response from
    []: "<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 3.2
    Final//EN\">\n<title>404 Not Found</title>\n<h1>Not

    The requested URL was"

    To fix these errors, please make sure that your domain name was
    entered correctly and the DNS A/AAAA record(s) for that domain
    contain(s) the right IP address.

    I've triple checked that my code matches yours. I have my actual site URL in there. Is there anything specific that needs to be done in terms of folder permissions or choosing a location of the folder? Or has this guide fallen out of date? I'm at a loss for why this isn't working.

  • #72 Miguel Grinberg said

    @Sean: certbot needs to have write access to the verification directory, which shouldn't be a problem if you run it with sudo as I do. Nginx needs to have read access so that it can serve the files that certbot writes. Other than that I can't think of anything else.

    Forget certbot for a moment and put a text file in your verification directory, then try to get it through your site as Until you get this simple file serving to work there is no point in continuing to mess with certbot, go back to your nginx config and tweak it until this works. Then certbot should work just fine.

  • #73 Aneel said

    Hi Miguel,

    I've deployed flask web app in production on windows using Waitress server. I have an issue now to use https without which I cannot get approval from my organisation. Is there any way I can implement SSL on waitress?

    Thanks in advance,

  • #74 Miguel Grinberg said

    @Aneel: waitress does not support SSL, you'll need to use a reverse proxy in front of it to handle the SSL.

  • #75 Seyla said

    Hi Miguel! Your article was useful to me. Thanks!
    I'm working with the flask app in Windows, and I have two problems:
    - Do you know how I can generate the CONNECT Verb when I use
    - I generated the server.key, server.crt but when I try to use it, It's like that certificate is invalid. I can see that connect to https: but when I try to execute GET, I don't receive and status response like 200, 504, etc.

    If you can help, I thank you so. I can't understand how can resolve these.

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