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I understand that normally an SSL (or more precisely X.509) certificate is supposed to be signed by some certifying authority to assure that it is genuine.

In some cases no such signature exists, e.g. if you generate a cert for testing purposes, or if you are the certifying authority (root certificate). In these cases, self-signed certificates are used.

My question: Why use this weird construct of self-signing? Why can a certificate not simply not have any signature? What does including a self-signed signature gain?

Or is it just because it's technically easier (no special case for no signature) to always have a signature in every certificate, even if it's a meaningless signature?

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A certificate has three main parts

  1. identity information
  2. a public key
  3. a digital signature

A certificate is signed by encrypting the first two parts with a private key, then appending that encrypted information to the end of the certificate. If you can decrypt the signature with the public key contained in the certificate, then you know that certificate was signed by the person that holds the matching private key. The signature binds the identity information to the public key. I sign my certificate with my private key so that you know only I can read messages that you might encrypt with my public key.

Now, unless you've really met me in person and I hand you my certificate, you can't really know that the identity information is legitimately mine. The original purpose of certificates was to establish a web of trust by first obtaining the certificates of people that you have met in person, then trusting people that have certificates signed by those people, then those people...

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    +1 Your response describes the purpose of ordinary certificates very nicely. It still doesn't give a good reason for self-signed certs. – Accipitridae May 16 '09 at 7:57
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    I'm amazed how many of the responses completely miss the point. The poster knows what self signed certificates are, and why you use them, but is asking what the point is of self-signing instead of simply leaving it unsigned. – Nick Johnson May 16 '09 at 12:43
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    I think I did answer it. The signature of a self-signed certificate is nothing more than an assertion that the person signing holds the private key that matches the public key in the cert. – Bill the Lizard May 16 '09 at 13:02
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    It's really not that hard. It's not a valid cert unless it's signed. It either can be self-signed or signed by someone else. With no signature, it's not a cert. Why can't a byte represent the range 0-300? It's too small. What is something that can represent 0-300? not a byte. – Charlie Martin May 17 '09 at 16:51
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    @Charlie: I think the question is a little bit deeper than that. I think the OP wants to know why it's defined that way, not just what the definition is. – Bill the Lizard May 17 '09 at 17:02
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If you self-sign the certificate, it proves to someone that you actually control the secret key to that signature - ie, it is your certificate.

Otherwise, you could just create a public key that is random numbers and conforms to the format of a certificate, but isn't a real certificate.

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Imagine that you're setting up your own certification authority, the very first one: who signs your cert?

The way to understand the whole certification process is to think of it as a chain of implications: You have a cert presented to you. Should you trust it? Either you can trust the issuer, or you look at the certificate, and agree that you trust the signer. If you don't know the signer, you can follow it back to THAT signer's signer, and so on. Eventually, though, you'll get to a self-signed certificate.

Getting a cert is relatively expensive and can be complicated, though, so some people make their own signing authority directly. It's left to you to decide if they can be trusted.


Some of the comments about this have gotten a little silly. You can't make a cert without a signature because a cert, to be a valid cert, must have a signature. That's the way they're defined. You might as well ask why you can't have a floating point number without an exponent. Certs exist so that there is some collection of identity information and a cryptographic mechanism for identifying the issuer in order to determine trust. Without the signature, something essential to the "cert-ness" of the certificate is lost.


Okay, let's ask some other questions:

  • Why does a social security number have 9 digits? Why can't you have a 5 digit social security number?
  • Why does a mailing address have that silly zipcode?
  • Do we really need to keep first and last name for a person?

Let's try once more. What is a cert? Its a data structure that binds a name to the public side of an asymmetric encryption key. That structure is "signed", which means you can detect if it was changed by anyone other than the owner of the signing key. Because you can verify that signature, you have a degree of trust in the certificate's authenticity. Thus a valid cert must have a verifiable signature.

"Trust" in this context means that you are willing to risk failing to perform something you're responsible for, on someone else's authority. If you have a cert that is signed by a well-known CA like Verisign, the entity whose authority you're placing your trust is Verisign; you use a cert you obtained from them in some trustworthy manner to verify that they signed the certificate you're considering.

When you have a self-signed cert, instead of one signed by a well-known authority, then you're saying you're willing to trust the self-signer if you accept the cert. The only authority on which you can base your willingness to accept is the direct trust you put in the self-signer. But you at least have confidence that the cert is uncorrupted because you can verify the signature.

So, now consider a cert with no signature whatsoever. (Technically, this is called "a data item.") Iy may contain an association between a name and a public-side key, but without a signature, you can have no confidence it hasn't been modified by a third party.

See the difference? With a signed cert, you have an agreed-upon trusted third party that both whose authority both sides accept. With a self-signed cert, there is no third party but you can be confident the cert hasn't been corrupted by a third party. It can be trusted as much as you trust the issuer of the cert: you can verify that it was issued by someone who had the other side of the appropriate key.

With an unsigned "cert", you neither have the assurance from a trusted third party that the cert was issued to the right person, nor do you have any assurance that the "cert", once issued, hasn't been modified by a malicious third party. This is why, by definition a cert must have a signature.

  • I don't see how this answers my question. I know the process, the question was, why self-signed instead of no signature? – sleske May 16 '09 at 1:32
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    Ok, so the answer would be "A certificate must always contain a signature, because X509 demands it". Then of course the next question would be why it was defined that way... – sleske May 17 '09 at 1:03
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    @A, you have to go outside the certificate system. The "chain of implication" always comes down to how you trust the root signer. If you want a high-assurance cert, you pay a well-known CA like Verisign some amount of money, and they take steps to verify your identity. (Google "Verisign Extended Validation" for their marketing hype, the URL is too long for a comment.) When you self-sign a cert, you're saying "trust me". – Charlie Martin May 17 '09 at 14:04
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    If you can't trust a self-signed cert at all then you can never trust a cert, because somewhere at the root of the process is a self-signed cert. What you mean is that you can only trust any cert as much as you trust the root signer. As to your other point, well, it's silly. It is no more a valid cert without ghe cryptographic component than an IEEE floating point is a valid floating point without an exponent part. You may imagine that I'll "have to revise that opinion" but the X509 standard will disagree with you. It's just part of the definition. – Charlie Martin May 18 '09 at 0:48
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    Pretty close, except for the part about a self-signed cert being meaningless. A cert with no signature can be forged by anybody. A self-signed cert can only be constructed by the person with the private side of the signing key. So there is no reason to trust anything about an unsigned "cert", but you can trust a self-signed cert exactly as much as you trust the issuer. – Charlie Martin May 25 '09 at 0:22
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I imagine it's to ensure that you can't "lie" with certificates - ie, you can't create a certificate unless the private key holder agrees to it. This is ensured either by the CA verifying that the entity named by the certificate is the private key holder, or in the self-signed case, by having the key holder sign the certificate itself.

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You need to understand how RSA encryption works. The signer generates two encryption keys, one private and one public. They give you the public key, and encrypt data with the private key. Having the public key, you are able to verify that the data was encrypted by the correct person, because no one else has their private key. In the case of a signed certificate, there is a web of trust, in which you can verify the identity of relatively few individuals (the certificate authorities), and you trust them with regard to the verification of third parties. Every certificate must be signed, by the very nature of how the system works. A certificate can be signed by anyone, and "self-signed" certificates are the simplest approach when you don't care about the verifiability of the signer.

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    So the questions is: If you don't care about the verifiability of the signer or if you verfied by other means that a public key belongs to a certain person, why do you need a cerfificate? What is the advantage of having a self-signed cert over just a pair (public key, owner)? – Accipitridae May 16 '09 at 7:50
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    Because most software only accepts keys in the form of certificates. You can't feed popular browsers (without addons) simple known keyring data and do anything useful with it, while the same data in the form of certificates allows all sorts of things – Sparr May 18 '09 at 21:15
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The difference between the two is who ran the program to generate the certificate. Some big corporation or some joe in his living room. The whole 'signed certificate' business is nonsense. A certificate allows you to encrypt data but large companies with something to sell you would have you believe that implies trustworthiness and identity. Encryption does not guarantee identity, and even more importantly, that you can trust the originator. Even assuming they have 100% good intentions just look in the news. How many big corporations have had data breaches this year?

I self signed my own certificate so I could encrypt the web traffic between my server and any users. I believe all traffic should be encrypted because no third party should be able to see what you do. I believe you should have a reasonable expectation of privacy. You should never completely trust anyone, particularly anyone who wants to sell you something.

  • Actually, a certificate does guarantee identity. Even the CAs that give you cheap certificate will somehow varify that you are the owner of a domain name (via an automated email procedure) before giving you a cert for that domain name. Identification is neccessary because without it encryption isn't really secure after all (because of a MITM attack). Still, I agree with you that encryption without identification should be available for everything, as long as browsers indicate that it's still leaky. – Bart van Heukelom Dec 15 '10 at 0:23
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Certificate contains the server's public key. Self-signature is a proof that whoever generated the certificate also posseses the private key.

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Certificates give you information about the entity of the key that is signed, but they don't give you infromation about the entity that is signing the key. So self-signed cerfificates serve at least one purpose: They tell you who the the owners of the root keys are, without having to implement special data structures.

In my opinion these things shouldn't be called certificates, because they have different properties. Ordinary certificates don't need to be stored/transmitted securely. If an attacker manages to substitute a legit certificate with a fake one then the certificate verification should fail. The same isn't true for self-signed certs. If an attacker has the opportunity to substitute a self-signed certificate he/she can substiture that certificate with one that is signed with his/her private key and the forgery cannot be detected by verifying the cert.

Also notice, that logic of self-signed certs is somewhat backwards. The first thing you have to do is trust that some public key is authentic. If you do so you can learn to whom the public key belongs. Usually one would want the reverse. You decide that an entity can be trusted. Then you try to learn the public key that belongs to that entity.

In my opinion, self-signed certificates should be abandoned. E.g., I'd prefer to have all root keys in the Internet Explorer signed by Microsoft. After all it is Microsoft who validated that the certs belong to legitimate CAs and it is Microsoft who decides that the average user should be able to trust these CAs. Now if I'm worried that someone tampered with my certs, all I have to do is check that Microsoft's key is still theirs and then verify the signatures on every cert.

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The purpose of a certificate is to verify identity. The signer of the certificate is asserting to all recipients of the certificate that they have verified the authenticity of the identity information and it's association with the public key contained in the certificate. If the certificate is not signed then there is no verification of identity and thus no reason to use a certificate. In such a scenario you could use a cipher that does not require authentication and thus does not strictly require identity information. I think RC4 fits this description.

Your question implies that you wouldn't need to self-sign a certificate since you know that you trust yourself. Thus you could pre-share the certificate between the server and client. From a hypothetical cryptographic standpoint that would work; your authentication information would be protected. However neither asymmetric key crypto tools nor the certificate formats support such a use because it doesn't provide any benefit over a symmetric key cipher with a pre-shared secret.

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