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I'm using the following code in an attempt to programatically allow the NetworkService account to have access to a key:

var RSA = new RSACryptoServiceProvider(
   new CspParameters() { 
     KeyContainerName = "MyEncryptionKey", 
     Flags = CspProviderFlags.UseExistingKey | CspProviderFlags.UseMachineKeyStore 
});

RSA.CspKeyContainerInfo.CryptoKeySecurity.AddAccessRule(
  new System.Security.AccessControl.CryptoKeyAccessRule(
    new SecurityIdentifier(WellKnownSidType.NetworkServiceSid, null),
    CryptoKeyRights.GenericAll,
    AccessControlType.Allow
  )
);

This code runs without error, but has no effect on the key container's permissions.

However, using the commandline tool aspnet_regiis to do the same thing, works perfectly:

aspnet_regiis -pa "MyEncryptionKey" "NetworkService"

I'm running with full admin rights - if I don't run with those rights, then an exception is thrown. I'm also running as the user that initially created the key.

The key container always has the following access rules:

S-1-5-18         -> LocalSystem
S-1-5-32-544     -> Administrators
S-1-5-5-0-135377 -> MyUser

With aspnet_regiis, the SID, S-1-5-20 gets added to this list. I can't affect it from code.

I've tried creating the security identifier from the sid in string format, as well as using SetAccessRule instead of AddAccessRule.

Any ideas how to actually affect this ACL list from code?

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1 Answer 1

up vote 6 down vote accepted

You do not appear to be calling Persist. The changes you make to the CryptoKeySecurity do not actually get saved immediately. You need to use one of the Persist(...) methods to actually save the changes.

NativeObjectSecurity.Persist Method (String, AccessControlSections)

It seems these API's follow a rather convoluted approach to modification. You need to create a CspParameters first, apply the necessary changes, then construct the provider from those parameters. Construction invokes an update on the container.

var params = new CspParameters
{
     KeyContainerName = "MyEncryptionKey", 
     Flags = CspProviderFlags.UseExistingKey | CspProviderFlags.UseMachineKeyStore    
};

params.CryptoKeySecurity.AddAccessRule(
  new System.Security.AccessControl.CryptoKeyAccessRule(
    new SecurityIdentifier(WellKnownSidType.NetworkServiceSid, null),
    CryptoKeyRights.GenericAll,
    AccessControlType.Allow
  )
);

var RSA = new RSACryptoServiceProvider(params);
share|improve this answer
    
Sadly all the Persist methods are Protected. –  Jim T Jun 29 '10 at 16:58
    
It looks like you need to modify the security before creating the provider using CspParameters. The CspParameters, when passed to the RSACryptoServiceProvider, invoke a persist. VERY odd way to build an API, but according to the documentation, that seems to be how it works. Answer updated to reflect. –  jrista Jun 29 '10 at 17:37
2  
That got me on the right track. The CryptoKeySecurity property as used above is null, so throws. You can create a new one, but it blats out any permissions that already existed (this was the first actual effect it had, so now I'm locked out of my main keystore ;). But ... if you get the key from the keystore, then create a new CspParamters by copying the values from the RSA.CspKeyContainerInfo (including provider name & type, container name and CryptoKeySecurity), then you can modify it, create another RSA key object using the cspparameters, and voila, all done. simples ... ? –  Jim T Jun 30 '10 at 8:38
    
It also helps to add the UseMachineKeyStore flag if you are indeed using a machine key. –  Jim T Jun 30 '10 at 9:54

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