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I have a very specific question.

A client verifies a sever by taking the certificate and checking specific values and that the digital signature of the intermediate CA is correct (According to the public key stored on the clients computer).

  • Option A: Does the client not make sure that the intermediate CA signature (Signed by the root CA) is valid, and that the root digital signature (Self signed by the root CA) correlates with the public key stored on the computer?

OR

  • Option B: Does the client see that the digital signature of the server is correct and therefore uses the information stored in the certificate store to make up the rest of the chain (i.e. if Certificate B was used to sign the server certificate then my certificate store says that certificate A was used to sign certificate B and therefore I will show that as the rest of the chain)

I understand that the entire chain is installed on the server, but does the client use all certificates?

This was sparked by my general interest and I experienced a case where the intermediate certificate was not installed properly and Google Chrome and Internet Explorer accepted it but Firefox 4.0 did not.

I hope I made my question as clear as possible.

I have taken out some of the other steps used in SSL validation on purpose as not to confuse the question.

Note: There was an invisible image associated with this question which I discovered when editing: http://i.stack.imgur.com/l0YtF.png

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I found another useful link to further clarify Certificate chain checking. –  Christopher Jun 18 '13 at 8:25
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2 Answers

The server will provide its own certificate, and optionally (but recommended) all intermediate CA certs in the chain (aka the CA bundle). It need not provide the root CA cert of the chain, and the client should disregard that cert if provided in the bundle anyway, see this question for more details on that. Since the complete bundle is quite possibly unneeded overhead, in the future the client will be able state it has a cached copy of it to reduce connection setup.

The point of validation is that the client should be able to verify the entire chain up to a trusted root, so it must have a copy of the root already, and must have or obtain all intermediates.

If the client is missing intermediate CA certs it can trust those provided by the server as long as they are verifiable, it can then fill in any missing pieces using its local copies of CA certs. This is the method used for intermediate CA cert updates, so that clients can update easily (there is no widely deployed X.509 certificate fetching or publishing system analogous to PGP key servers). There can be zero, one, or many intermediate certificates in a chain.

Each certificate has only the identifying details of its immediate issuer/parent (i.e. not the entire chain) – this is recorded in the Issuer DN field, and more usefully in the AKID field (AKID/SKID PDF). The readable Issuer name may not uniquely identify a specific cert (it does not record the specific serial number). The SKID (Subject Key Identifier) is effectively a thumbprint of a certificate, and the AKID (Authority Key Identifier) is the thumbprint of its issuer, this works like a singly-linked list from the end cert (ideally) up to a trusted root (though older certificates often lack those fields, so the DNs are used instead).

  • Starting with the server provided chain (if present) the client should work down the list, it may add intermediate certificates it is missing to its store, if they are valid.
  • Then, the client should trace back up from the servers certificate, usually using the AKID field to locate the specific issuer (parent) certificate, verify, and work up until it gets to a trusted self-signed root.

The terms associated with this process are Certification Path Building and Certification Path Validation. There is no single "right way" to do it. A robust client will check from end to end, browsers typically offers a bypass (with sternly worded warnings), and on some systems you can limit the depth from the end certificate to check as an optimisation.

(Validity checking includes signature/hash, date range, CRL, OCSP, pinning etc. and possibly DANE.)

This overlaps with both of your options, plus self-updating of intermediate CA certs.

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The chain of trust is verified by starting at the server certificate and verifying signatures until a trusted root is found. So the site certificate's signature is verified against the public certificate of the intermediate CA. The intermediate CA however is not trusted, so the Intermediate CA's public certificate's signature is validated against the Root CA's public certificate. Since the signature is valid (and there are no revocation list entries saying it shouldn't be valid anymore), the intermediate CA (and thus the server's Certificate) inherit trust from the trusted root certificate.

The process can continue for as many generations of the hierarchy is necessary until a trusted certificate is reached. If the server's certificate had manually been added to the trusted certificates repository on the local machine for example, the Intermediate CA's signature would never have been verified since it is unnecessary to get Trust.

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Thanks for the explanation. But then how did the certificate process in question come up with the server certificate being alright, if the intermediary certificate was not loaded onto the server? –  Christopher Jun 14 '13 at 6:32
    
@user1441519 - "I understand that the entire chain is installed on the server, but does the client use all certificates?" Either the entire chain is provided or the information necessary to get them from the CA's server is provided. The information for accessing revocation lists is also provided. It can't be removed or altered by an attacker since it is part of the cert that is signed. –  AJ Henderson Jun 14 '13 at 13:25
    
Thanks for your reply :) –  Christopher Jun 18 '13 at 6:45
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