What is difference between https protocol and SSL Certificate that we use in web browser?

Aren't both of these used to encrypt communication between client (browser) and server?

  • So suppose there is a webapp running already on SSL port (https). Why would you want to have a Certificate for this webapp?
    – user32262
    May 14, 2009 at 0:29

4 Answers 4


HTTPS is HTTP (HyperText Transfer Protocol) plus SSL (Secure Socket Layer). You need a certificate to use any protocol that uses SSL.

SSL allows arbitrary protocols to be communicated securely. It enables clients to (a) verify that they are indeed communicating with the server they expect and not a man-in-the-middle and (b) encrypt the network traffic so that parties other than the client and server cannot see the communication.

An SSL certificate contains a public key and certificate issuer. Not only can clients use the certificate to communicate with a server, clients can verify that the certificate was cryptographically signed by an official Certificate Authority. For example, if your browser trusts the VeriSign Certificate Authority, and VeriSign signs my SSL certificate, your browser will inherently trust my SSL certificate.

There's some good reading here: http://en.wikipedia.org/wiki/Transport_Layer_Security

  • 3
    "You need a certificate to use any protocol that uses SSL." : NO! See Jon Weldon's very accurate and knowledgeable answer below. Jan 19, 2013 at 20:56
  • 1
    @Jean-François, actually, John Weldon's answer isn't particularly more accurate. Firstly, strictly speaking you don't need a certificate to use SSL/TLS (see PSK, Kerberos and even anonymous cipher suites). Secondly, strictly speaking, there's no such thing as an "SSL certificate": it's most of the time an X.509 certificates with the right attributes/extensions to be used for SSL/TLS. In addition, certificates in SSL are not limited to authenticating servers, they can be used to authenticate clients too (when this configuration is used).
    – Bruno
    Feb 12, 2014 at 0:08
  • Re-read my comment above. I said NO, you don't need a certificate! I agree that they are X.509 Certs, but since the majority refers to it as an SSL Certificate let's be simple and call it so. For a general answer, Jon Weldon's was not as academic as yours but still a good one. Feb 12, 2014 at 0:31

Two pieces of one solution.

https is the protocol that defines how the client and server are going to negotiate a secure connection.

The SSL Certificate is the document that they will use to agree upon the servers authenticity.


HTPS is the new HTTPS. HTTPS is highly vulnerable to SSL Stripping / MITM (man in the middle). to quote adam langley's (google) blog imperial violet:

"HTTPS tends to cause people to give talks mocking certificate security and the ecosystem around it. "

The problem is that the page isn't served over HTTPS. It should have been, but when a user types a hostname into a browser, the default scheme is HTTP. The server may attempt to redirect users to HTTPS, but that redirect is insecure: a MITM attacker can rewrite it and keep the user on HTTP, spoofing the real site the whole time. The attacker can now intercept all the traffic to this perfectly well configured and secure website.

This is called SSL stripping and it's terribly simple and devastatingly effective. We probably don't see it very often because it's not something that corporate proxies need to do, so it's not in off-the-shelf devices. But that respite is unlikely to last very long and maybe it's already over: how would we even know if it was being used?

In order to stop SSL stripping, we need to make HTTPS the only protocol. We can't do that for the whole Internet, but we can do it site-by-site with HTTP Strict Transport Security (HSTS).

HSTS tells browsers to always make requests over HTTPS to HSTS sites. Sites become HSTS either by being built into the browser, or by advertising a header:

Strict-Transport-Security: max-age=8640000; includeSubDomains

The header is in force for the given number of seconds and may also apply to all subdomains. The header must be received over a clean HTTPS connection.

Once the browser knows that a site is HTTPS only, the user typing mail.google.com is safe: the initial request uses HTTPS and there's no hole for an attacker to exploit.

(mail.google.com and a number of other sites are already built into Chrome as HSTS sites so it's not actually possible to access accounts.google.com over HTTP with Chrome - I had to doctor that image! If you want to be included in Chrome's built-in HSTS list, email me.)

HSTS can also protect you, the webmaster, from making silly mistakes. Let's assume that you've told your mother that she should always type https:// before going to her banking site or maybe you setup a bookmark for her. That's honestly more than we can, or should, expect of our users. But let's say that our supererogatory user... ]

because of obstructing/very stupid link-rules for new users on stackoverflow i cannot give you the rest of adam's answer and you'll have to visit adam langley's blog yourself at https://www.imperialviolet.org/2012/07/19/hope9talk.html

"Adam Langley works on both Google's HTTPS serving infrastructure and Google Chrome's network stack."

  • 3
    "HTPS", did you mean "HSTS"? Anyway "HTTPS is highly vulnerable to SSL Stripping / MITM (man in the middle)." isn't true. While HSTS is a welcome addition to the whole system, it still makes use of HTTPS. It's not HTTPS that's vulnerable to SSL stripping, it's how people use links and check the certificate that's the problem.
    – Bruno
    Feb 12, 2014 at 0:12

HTTPS is an application layer protocol. It can provide non-repudiation of individual requests or responses through digital signatures.

SSL is a lower level protocol and does not have this capability. SSL is a transport level encryption.

HTTPS is more flexible than SSL: an application can configure the level of security it needs. SSL has fewer options so it is easier to setup and administer.

  • 1
    non-repudiation refers to the ability to ensure that a party to a contract or a communication cannot deny the authenticity of their signature on a document or the sending of a message that they originated. Dec 28, 2013 at 13:56

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