Tag: HSTS

  • .BANK and .INSURANCE To Be First New gTLDs to Implement HSTS… After Google

    .fTLD Registry Services has announced they will be implementing a security protocol known as HSTS – HTTP Strict Transport Security – to their .bank and .insurance new gTLDs. They will be the first registry to implement HSTS across an entire top level domain outside of Google.

    Implementing HSTS at the TLD level means all domain names registered under it will be secure and there will be secure connections between web browsers and all .bank and .insurance websites. As a result, domain name registrants and customers will automatically receive the security benefits of HSTS without needing to take any additional steps to be covered.

    fTLD’s new generic top level domains will be added to the preload list on 18 January. Once added to the list, leading web browsers will honour the policy in subsequent updates, including Chrome, Firefox, Internet Explorer/Edge and Safari.

    “The HTTPS Strict Transport Security (HSTS) preload list is built in to all major browsers (Chrome, Firefox, Safari, Internet Explorer/Edge, and Opera)”, explained Google in a post on their security blog, and reported in Domain Pulse in October 2017. “It consists of a list of hostnames for which browsers automatically enforce HTTPS-secured connections. For example, gmail.com is on the list, which means that the aforementioned browsers will never make insecure connections to Gmail; if the user types http://gmail.com, the browser first changes it to https://gmail.com before sending the request. This provides greater security because the browser never loads an http-to-https redirect page, which could be intercepted.”

    “The HSTS preload list can contain individual domains or subdomains and even top-level domains (TLDs), which are added through the HSTS website. The TLD is the last part of the domain name, e.g., .com, .net, or .org. Google operates 45 TLDs, including .google, .how, and .soy. In 2015 we created the first secure TLD when we added .google to the HSTS preload list, and we are now rolling out HSTS for a larger number of our TLDs, starting with .foo and .dev.

    “The use of TLD-level HSTS allows such namespaces to be secure by default. Registrants receive guaranteed protection for themselves and their users simply by choosing a secure TLD for their website and configuring an SSL certificate, without having to add individual domains or subdomains to the HSTS preload list. Moreover, since it typically takes months between adding a domain name to the list and browser upgrades reaching a majority of users, using an already-secured TLD provides immediate protection rather than eventual protection. Adding an entire TLD to the HSTS preload list is also more efficient, as it secures all domains under that TLD without the overhead of having to include all those domains individually.”

    HSTS is a step on from HTTPS. “Connections to websites are encrypted using HTTPS, which prevents Web traffic from being intercepted, altered, or misdirected in transit. [Google] have taken many actions to make the use of HTTPS more widespread, both within Google and on the larger Internet.”

    Google started “defaulting to HTTPS for Gmail and starting the transition to encrypted search by default” in 2010. “In 2014, [Google] started encouraging other websites to use HTTPS by giving secure sites a ranking boost in Google Search. In 2016, [Google] became a platinum sponsor of Let’s Encrypt, a service that provides simple and free SSL certificates. Earlier this year [Google] announced that Chrome will start displaying warnings on insecure sites, and we recently introduced fully managed SSL certificates in App Engine.”

    And going forward Google “would like to see TLD-wide HSTS become the security standard for new TLDs.”

  • Google Making the Web More Secure Adding its TLDs to HSTS Preload List

    Google has started adding some of its new gTLDs to the HSTS preload list, making those TLDs more secure and making those namespaces secure by default. While not available for public registration yet, Google intends to make some of these secure TLDs available for registration soon.

    “The HTTPS Strict Transport Security (HSTS) preload list is built in to all major browsers (Chrome, Firefox, Safari, Internet Explorer/Edge, and Opera)”, explained Google in a post on their security blog. “It consists of a list of hostnames for which browsers automatically enforce HTTPS-secured connections. For example, gmail.com is on the list, which means that the aforementioned browsers will never make insecure connections to Gmail; if the user types http://gmail.com, the browser first changes it to https://gmail.com before sending the request. This provides greater security because the browser never loads an http-to-https redirect page, which could be intercepted.”

    “The HSTS preload list can contain individual domains or subdomains and even top-level domains (TLDs), which are added through the HSTS website. The TLD is the last part of the domain name, e.g., .com, .net, or .org. Google operates 45 TLDs, including .google, .how, and .soy. In 2015 we created the first secure TLD when we added .google to the HSTS preload list, and we are now rolling out HSTS for a larger number of our TLDs, starting with .foo and .dev.

    “The use of TLD-level HSTS allows such namespaces to be secure by default. Registrants receive guaranteed protection for themselves and their users simply by choosing a secure TLD for their website and configuring an SSL certificate, without having to add individual domains or subdomains to the HSTS preload list. Moreover, since it typically takes months between adding a domain name to the list and browser upgrades reaching a majority of users, using an already-secured TLD provides immediate protection rather than eventual protection. Adding an entire TLD to the HSTS preload list is also more efficient, as it secures all domains under that TLD without the overhead of having to include all those domains individually.”

    HSTS is a step on from HTTPS. “Connections to websites are encrypted using HTTPS, which prevents Web traffic from being intercepted, altered, or misdirected in transit. [Google] have taken many actions to make the use of HTTPS more widespread, both within Google and on the larger Internet.”

    Google started “defaulting to HTTPS for Gmail and starting the transition to encrypted search by default” in 2010. “In 2014, [Google] started encouraging other websites to use HTTPS by giving secure sites a ranking boost in Google Search. In 2016, [Google] became a platinum sponsor of Let’s Encrypt, a service that provides simple and free SSL certificates. Earlier this year [Google] announced that Chrome will start displaying warnings on insecure sites, and we recently introduced fully managed SSL certificates in App Engine.”

    And going forward Google “would like to see TLD-wide HSTS become the security standard for new TLDs.”

    To read this Google post on their Security blog in full, including with links, see:
    https://security.googleblog.com/2017/09/broadening-hsts-to-secure-more-of-web.html