Year Of Security for Java – Week 8 – HTTP Strict Transport Security

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What is it and why should I care?
HTTP Strict Transport Security (HSTS) is a new(ish) technology that allows an application to force browsers to only use SSL/TLS (HTTPS, not HTTP) when visiting their application. This occurs when the application sets an HSTS specific HTTP response header. Browsers that support HSTS recognize the response header and only communicate with that application over HTTPS for the specified time. Here are the basic steps of the flow:

Step 1: A user visits application, either over HTTP or HTTPS. For most users this will be HTTP as they often forget (or don’t know) to type in https://
Step 2: The application renders the response, including the HSTS response header that specifies the site should be loaded over HTTPS only for the next 90 days.
Step 3: Supporting browser will not issue a non-SSL request to that application for the next 90 days.

What should I do about it?
Set the header! This is another no-brainer. There are no backwards compatibility issues and it only enhances your security posture. By adding the header, you give your users greater security with very little effort on your part. Here’s a quick example of what setting the header might look like if you happen to code in Java.

HttpServletResponse ...;
response.setHeader("Strict-Transport-Security", "max-age=7776000; includeSubdomains");

The snippet above sets the amount of time that the browser should only use HTTPS when accessing the application (or any subdomains) to the next 90 days.

The max-age attribute is required and sets the number of seconds that only HTTPS should be used. This can be set to whatever you want. Setting this to 0 tells the browser to delete the existing policy and not require HTTPS.

The includeSubdomains attribute is optional. It does not take a value; its’ presence signifies that any sub-domains should abide by the same HSTS policy.

Expiration Reset
The time length (90 days in our example above) should be reset (overwritten) by the supporting browser every time the HSTS response header is received. What this means is that if you set the length to 90 days, and a person never goes more than 90 days without visiting your site, they’ll always be visiting over HTTPS since the 90 days starts over every time they visit. Just keep in mind that if you change the setting, all browsers that access your site (post-change) will get the update. If you set it to 90 days today and 10 tomorrow, the browser throws away the 90 days and replaces it with 10.

Click-Through Insecurity
The HSTS spec also recommends (though the current spec doesn’t seem to require) that the browser not send any data to the server if the channel is insecure for any reason (certificate issues, domain issues, etc.). This appears to be the route being taken by current browser implementers, which is the most secure option. This means that those warning pop-ups users often see over HTTPS connections (mixed content, expired cert) don’t appear any more and instead the user is simply shown an error.

Pre-loaded HSTS Lists
If you want to have even more assurance that your site is only ever visited over HTTPS, you can even request that your site be pre-loaded into a list of HSTS sites. This means the browser will require you to got that site over HTTPS on your very first visit! Paypal is one such well-known site that does this.

HSTS is a simple and effective control to let an application further protect its’ users by forcing them over HTTPS. If your site is (or at least should be) HTTPS only, then implementing HSTS can provide you and your users with enhanced assurance.


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