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I was digging deep into the .Net x509certificate2 and x509certificate objects noticed that both the certificate classes serialize the private key to disk by default due to the verifiable use of Persist-Key options in the constructors of the x509certificate2 and x509certificate classes using a default option set for CspProviderFlags that does not include CspProviderFlags.CreateEphemeralKey. This is verifiable via any number of web sites that show the source for .Net as well as with a copy of resharper should you choose to do it yourself.

Looking further, In fact these .Net objects simply seem to be wrappers for a central old style crypto32.dll cryptographic context. What worries me about this is that looking at the code deeper I find that it seems to explicitly look in an on-disk file storage for public and private keys in the getters and setters for the PublicKey field on the x509certificate2 and x509certificate object.. despite the fact that I would otherwise expect them to only exist in memory. Based on this knowledge it seems to store my private key in this storage even if I do not want it to do so, because the constructor does not allow you to change this option and turn it off based on the constructor list I am seeing when I look at the documentation; So if you set() or get() from the PrivateKey field it is really just collecting it from this file store behind the scenes.

Reason for my question

I think that being forced to leak my private key to the file system - even temporally - is a huge security issue so I do not want to do it. I also do not trust the certificate store. Even if you disagree with me, I personally believe that being forced to serialize my private key to disk even if I do not intend to do so is a huge security issue, so I do not want to do it.


My current goal is to simply be able to generate RSA public and private X509 keys in C# that can be used on windows without needing to be forced to write them to the hard disk as part of the creation process, and I am not finding many valid options as all of the ones I can find seem to have either hidden gaps or publicly known issues.

The goal is not to never write them to disk, it is just to not do so unless its with code I have written and know to be secure to make sure they are fully encrypted at rest; ie, it should not do so unless I explicitly ask for it after the keys themselves have been fully encrypted.

Goal tldr;

In short: I want to write secure software on windows using C# to generate a 509 certificate that doesn't force me to export, import, or otherwise leak my private key to the file system as part of the certificate creation. I want to be able to create my own X509Certificates on windows using as little third party code as possible.

Options I have considered

  1. The Standard .Net types as stated have been looked at in depth and found to be lacking due to the above issues. I just don't have enough access to the internal CSP settings as the constructors and access do not expose them, and the defaults used as what I would personally consider to be insecure.
  2. The Bouncy Castle library looked like a good option at first, but it actively exposes my public and private keys to the file system just lie the normal .net types do when it converts them to the standard .Net types since these objects store things behind the scenes without asking BC if its ok first..
  3. I attempted to find a crypto32.dll p-invoke option that would allow me to not serialize my keys, only to find that all I could find did exactly that even when I did not want them to. And finding data on it was very difficult so I mostly just looked at the source code only to find that it didn't seem to like me trying to not store keys.
  4. I am unable to find any other options despite spending several days researching this topic. Even Stack Overflow says to use BC or the native typesd in most cases; yet that doesn't solve my problem.


How would I best create my own X509 Certificates without doing any of the following as I feel they are all security issues:

  1. The use of makecert.exe requires I allow my process execute rights on the server so it can start a process; thats a security issue waiting to happen. Not to mention, I cant audit the code and I am willing to bet its still storing the keys in the cert store even If I do not want them to be.
  2. The use of the C#/.Net x509certificate2 and x509certificate objects serialize a generated public key to disk by default via its calls to the Certificate Store so that's not an option; The goal is to do things in a secure manner, and so the idea of all the private keys I'm generating being stored on disk for just anybody to access them doesn't leave me with good feelings. ANd its very hard to find data on the cert store; thus I cant validate its security and have to consider it not a valid option.
  3. The use of third party libs such as Bouncy Castle creates update scenarios and the possibility of a third party that has to be trusted, creating an even larger attack surface; and sadly they all use the same conversions that are affected by what I am personally calling the "hidden private key store" issue of them trying to play nice with the standard System.Security.Cryptography API by using the same objects that have this leaking key issue. So If in general we want to keep the system as secure as possible.. that sort of leak is not an option.
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"I also do not trust the certificate store" - then why trust any third party code - why not write it all from scratch if you're not going to trust OS provided security services? – Damien_The_Unbeliever Jun 6 '14 at 7:04
Time Constraints. Also, I'm looking for a new perspective and aware that I do not know everything so I thought I would ask. – honestduane Jun 6 '14 at 13:25
Well, I'm shouting about it now. – honestduane Jun 6 '14 at 16:41
If you want to really protect your private key data, then simply don't create it on machine. Use a HSM or a smart card (for lower availability keys) instead. And make sure access to that hardware module is adequately protected of course. Otherwise, at least make sure your libraries are FIPS compliant. – Maarten Bodewes Jun 7 '14 at 12:33
FIPS is a joke.. you can be FIPS compliant and be insecure due to the use of the weak crypto that FIPS allows. – honestduane Jun 7 '14 at 17:15

1 Answer 1

Like others have said, if you are this concerned and not willing to trust anyone/any outside APIs then you are going to have to use a lower level language than .Net. .Net is a great RAD type language, but if you don't trust the machine you are running on, you will want the lowest level environment you can achieve.

C would be a good option.

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