With Adobe Reader you can sign a document locally. Is it theorically more secure than if the document was transported to the server and signed on the server (not especially using adobe technology) ? Could the user contest that the document could have been tampered later on if done on server ? How to prove him wrong technically that it is impossible even when signed on server - for legal issue to be taken into account.
Are you living in the EU? I can describe the situation here. The legal aspects of signatures are sort of regulated by Directive 1999/93/EC. There will be an updated version of this, so there will be some changes in the details, but generally the Directive does distinguish between server-based signatures and signatures made by an individual locally, having sole control over the process.
Being in sole control of a local process has a lot of security advantages, among them:
That said, it is possible to secure the transport from client to server using e.g. TLS and still having a reasonably secure service. But pertaining the law (at least in the EU), the notion of a "non-repudiation" signature, a signature which is meant to be issued by an individual person, is only possible in the context of "local signatures". Accredited CAs here won't issue non-repudiation certificates to legal entities for example, such a certificate will only be issued to a real person, typically on an SSCD.
The downside of SSCDs has been that it is very hard to roll out large-scale deployments of software that would make use of them, especially across company/state boundaries because there are still a lot of interoperability issues with the myriads of hardware, the cost and the plain and simple fact that it's just less convenient.
Anything could happen to the document on its way to the server. The connection could be MitM attacked, the server could have tampered with, etc. etc.
The #1 rule in crypto signatures is, that it must happen on a trusted machine in a trusted environment, preferrably before it even reaches a connected machine (i.e. offline, then transferred on a offline medium).
So in short: It should be signed on the client and nowhere else.
If the signature is made by the user (human operator), then it's a question of trust to the server where the key resides.
Normally "signature is made by the user on behalf on the user" means that the user owns the key which is used for signing. In this case it makes little sense to put the private key on the server. And if you need this scheme, then either the signature is made not by the owner or the signature is made not on behalf of the individual making it.
But technically signing the data on the server (as you describe) is possible and in properly implemented architecture the user should be able to get the signed copy back and manually validate the signed document to ensure that this is what he (or the server on his behalf) intended to sign.
Another question is whether the server doesn't (intentionally or due to security breach) use the private key of the user to sign anything besides the requested documents. This is extremely hard to ensure unless you have a server specifically crafted for exactly one operation (signing of something) and in this case you would probably deal with specialized hardware device (such as one offered by SafeNet), not with a generic Windows/Linux/... server operating system.
We have a distributed cryptography module in our SecureBlackbox product, which implements similar scheme to what you describe, but roles are usually reversed: the user possesses the key and uses it to locally sign the document which resides on the server and is not transferred to the client. In that module we use TLS to ensure security of the channel and signing is performed on the computer of the user, so the private key remains strictly secret. However, the scheme you describe is also possible to implement using that module.