I am building an application and I am planning on using OpenSSL for securing data transfers.

I am planning on only having the client validate the server's certificate. I am confused on how I should secure the server's certificate. I would like to encrypt the server's certificate containing the private key, but I do not want to use any hard coded keys for this encryption.

What are some of the common practices followed by applications employing SSL?

up vote 5 down vote accepted

Just to make sure we have our terminology straight, an "SSL certificate" in common parlance is really composed of two components:

  • A public certificate
  • A private key

The public certificate component is signed by your chosen CA (certificate authority), after which it can be freely distributed. It does not need to be secured or encrypted, and indeed it will be sent to clients that connect to your server as part of the SSL negotiation.

The private key component should be protected. In the majority of cases, this is simply stored as an encrypted file on the server. Upscale solutions use dedicated "tamperproof" crypto hardware (HSMs -- hardware security modules) to store the private key. These range from smart-card based solutions to multi-key, network enabled appliances with m/n controls etc etc. There are risks (not to mention costs) associated with HSMs that I will not go into here.

Many applications simply retain the private key on disk. There are a couple of options to secure the key file:

  • Rely on system and file permission security (ie don't encrypt private key). For example, most ssh daemons do this.
  • Use whatever mechanism your server provides to encrypt the file - password-protected encryption is a standard feature across most web servers. (If you're rolling your own using the OpenSSL API, pick one of the obvious native key formats).

As always, there is a security trade-off. In particular, if you are using password-protected encryption on the private key file and you experience an unexpected application restart (eg power outage), then somebody will need to be available to provide the password to the app as it restarts. Storing the password in a file that is read by system initialization scripts (as encouraged by at least two web server vendors) adds little in terms of real security. It's hard to recommend leaving the private key file unencrypted but if you are the sole admin/techy in a small shop, you should definitely consider what might happen if the server reboots when you are not available, and what the costs might be to your business.

  • Thanks for the response. Could you please elaborate on password protected encryption? How do applications secure these passwords? – msvcyc Jan 3 '09 at 14:45
  • "Badly", in general. Typically the passwords go in a file, only readable by the application user, so you're still relying on filesystem perms (to protect pw file rather than key file). Some apps will obfuscate the pw in the file for you. Again, that's weak, for hopefully obvious reasons. – Martin Carpenter Jan 6 '09 at 17:58
  • Not sure I'd recommend this terminology. The "SSL certificate" (meaning the X.509 certificate, I presume), is not "composed" of a Public Key Certificate (PKC) and a private key: it is the PKC, and it is associated with the private key of this key-pair. The private key isn't part of the certificate, ever. – Bruno Dec 4 '11 at 16:45
  • @Bruno: that was the exactly point that I was trying to make. I've added "air quotes" to the first sentence to try to make that clearer and amended the words in the 3rd para slightly. – Martin Carpenter Dec 27 '11 at 15:18
  • Regarding the CA, it's used just to validate/get the public key. For example, when using a browser, because a user needs to get the public key somewhere. With desktop/mobile/non-browser apps, the public key is in the app/client itself, which means the CA is not part of the process. – AlikElzin-kilaka Jan 9 '15 at 8:05

not quite sure what you're trying to ask. the server cert is sent to you, the client; you validate the cert by checking its signature (use SHA-1 not MD5, MD5 has been cracked.) The key you have from the CA is the public side; the CA and the server cert holder keep their private keys to themselves. You can validate the cert because the public key is enough to decrypt a message that has been encrypted with the private key. So you don't have to worry, on the cient side, about keeping the cert encrypted at all.

Have a look at the Wikipedia article on SSL/TLS.

  • 3
    Quick point of terminology: the public key isn't used to decrypt a message encrypted with the private key: it's used to verify (the signature of) a message that has been signed with the private key. Decrypting is done with the private key, following encryption with the private key. (It doesn't make sense to encrypt something with the private key, so that anyone can decrypt it with the public key.) – Bruno Dec 4 '11 at 16:50
  • You check its signature via whatever algorithm the signature was created with. You don't get to choose. – user207421 Mar 2 '17 at 3:53
  • And when it's set up, don't use MD-5. In fact, now people should be moving away fro0m SHA-1. – Charlie Martin Mar 2 '17 at 21:58

I am confused on how I should secure the server's certificate.

You don't have to secure the server's certificate. It's a public document

I would like to encrypt the server's certificate containing the private key

The server's certificate does not contain the private key.

but I do not want to use any hard coded keys for this encryption.

You don't need to do any encryption. The only server asset you need to protect is its private key, which is entirely distinct from its certificate. In the case of OpenSSL it can even be a different file.

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.