I'm superficially familiar with SSL and what certs do. Recently I saw some discussion on cert pinning but there wasn't a definition. A DDG search didn't turn up anything useful. What is certificate pinning?
Typically certificates are validated by checking the signature hierarchy;
MyCert is signed by
IntermediateCert which is signed by
RootCert, and RootCert is listed in my computer's "certificates to trust" store.
Certificate Pinning is where you ignore that whole thing, and say trust this certificate only or perhaps trust only certificates signed by this certificate.
So for example, if you go to google.com, your browser will trust the certificate if it's signed by Verisign, Digicert, Thawte, or the Hong Kong Post Office (and dozens others). But if you use (on newer versions) Microsoft Windows Update, it will ONLY trust certificates signed by Microsoft. No Verisign, no Digicert, no Hong Kong Post office.
Also, some newer browsers (Chrome, for example) will do a variation of certificate pinning using the HSTS mechanism. They preload a specific set of public key hashes into this the HSTS configuration, which limits the valid certificates to only those which indicate the specified public key.
It's ambiguous, but it refers to solutions for an issue in SSL certificate chain verification. Essentially, trust in SSL boils down to root certificates, the certificates your system trusts in to be genuine. Those either come with your OS or with your browser. If one of those is compromised, all certificates signed by this and transitively signed certificates are to be treated as compromised.
TACK or Public Key Pinning Extension (referred to as cert pinning by chrome, apparently) allows the admin of a server to "pin" a certificate authority's (CA) public key signature to a certificate, which is verified by the client (delivered via SSL extension). If the CA certificate's key is different upon retrieval of the certificate chain, the CA certificate is likely to be compromised. Source
Cert pinning can also refer to importing a host's certificate in your trust store, rather than trusting CA certificates. This mitigates the risk of a CA cert being compromised but forces you to update certificates if they expire manually. Source
SSL server certificates come from the X.509 world. The client verifies the validity of the server's certificate by validating a lot of cryptographic signatures from Certification Authorities. The beauty of the scheme is that it is stateless: a given server could change its certificate every five minutes, and it would still work with clients.
It has been argued that while supporting fast-revolving certificates is awesome but useless, because in practice a given server changes its certificate once per year; indeed, an early certificate switch is indicative of some ongoing fishy business. Certificate pinning is a way for a server to state that this should not happen under normal conditions, and that the client should raise a metaphorical eyebrow should an unexpected certificate switch occur. This is a protocol extension, suggested but not widely supported yet. Actually there seems to be several relatively similar, competing proposals.
See also Convergence, yet another protocol extension which can be thought of as "certificate pinning by trusted third parties". Convergence and the certificate pinning proposals all dance around the same core idea, which is to have some state in the client (or somewhere, at least), and trigger security warnings when certificates change too often or too early. Whether any of these proposals will ever reach wide acceptance (i.e. will be implemented in a compatible way by IE, Firefox, Chrome and Safari, and will be used by most SSL server sysadmins) is anyone's guess.
Generally what happens in a https connections is that client asks for SSL certificate from the SSL compliant server it is communicating with over https. Server will provide a certificate from it's key store. After client receives this certificate it validates it's credentials depending on whether
- hostname is same as requested
- has a verifiable chain of trust back to a trusted (root) certificate [from clients trust store]
Now if connections are proxied and you can get the device to trust your (rogue) root CA certificate then you can intercept the secure connections. This is essentially man-in-the-middle attack. Now here is what happens in SSL pinning which potentially adds an extra security layer from man-in-the-middle attacks-
App bundles the known server certificates with it. When app tries to make a secure connection with the server, it validates the certificate received by the server with the ones it has bundled with. So even if OS validates the received certificate chain against a (potentially rogue) root CA, the app will reject the connection displaying network error.
Note : I have tried to answer this question from a perspective of SSL pinning in Android Apps. SSL pinning is easily possible in such Apps because the app already knows the server (hostname) it is going to connect to. Same may be difficult to implement in browsers though. I think chrome browser already implements this.
More information :
Certificate pinning allows to bypass standard certificate authority chains to mitigate the risk of an valid certificate be issued to a criminal.
Motivation for a new solution...
SSL/TLS certificates are signed by other certificates. Browsers normally recognize a certificate as valid when in some point of this signature chain a trusted entity is found. The signatures of the trusted entities comes in the basic installation of the operating system and browsers. It is an embedded list of about 100 entities.
If one of the trusted certificate authority are compromised or if the certificate authority is victim of a fraud they can issue an valid certificate to a criminal. The criminal will have a perfect SSL/TLS certificate in your name. The criminal will be able to make successful and believable "man in the middle" attacks. The user will see a valid certificate info to your website.
Also, is not difficult to convince the user to install a new trusted certificate authority. For instance, in Brazil, the official certificate authority is not recognized by the main browsers and everyone has to install an additional certificate authority. Browsers got very good at this: only click in a link and answer yes. To reach this level of usability I believe this is a common task worldwide.
The certificate authorities can not be fully trusted. The process to get a certificate is by no means secure. I already bought one in a company and did not much more than pay for it. Of course is way better than nothing. But needs improvement.
What is pinning?
On the first access to the website secure.example.com, the website send a hidden message to the client browser that loosely translates as:
"in the next N days the secure.example.com website will use the certificate CECECECE. In that period do not accept another certificate, even if the certificate authority claims it is valid for this website. If it happens notify me at http://18.104.22.168/callbacks/warn_pinning.php".
Pinning solves the problem?
It does not solve the weakness of the certificate authorities certificate signing process. But minimize the window of opportunity of a criminal to get by with a man in the middle attack. The attack will only work if gets the user in his or hers first access to the website.
It is similar to the SSH security. On first access the signature of the key of the server is saved. If in future access the identification does not match the system generates an warning. The warning is taken seriously because only happens when you make real changes.
The best thing for a big company is to get notified through clients complaints that someone has issued a real TLS/SSL certificate in their name to a criminal. As I understand the pinning mechanism was proposed by Google
Application Level Pinning
Pinning can also be made outside the browser, by compile the real certificate fingerprint in a app.
I think it is just a HSTS implementation to retain SSL certificates of browser clients when a MITM sslstrip attack is made against the web user