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What about AesCryptoServiceProvider? It says that uses CAPI, and so hopefully CNG if available. – Rup This comment has helped tremendously, after doing some digging it looks like AesCryptoServiceProvider will use AES-NI if availible, I cannot see any 'official' documentation from Microsoft on this however when running simple timing benchmarks the ...


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After researching with Microsoft the solution was found. Apparently one must byte swap the public key x/y points, and the private key to get the PlayReady tool kit to accept the EC key pair only for the P160 curve. This odd byte swapping was not required for the P256 EC key pair.


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You can use the lightweight Bouncy Castle library to perform EC cryptography with almost any curve over F(2m) or F(P), including those with smaller bitsizes. I would recommend you to use standard curves such as the ones defined in the Org.BouncyCastle.Asn1.Nist.NistNamedCurves class. The smallest NIST curve is 163 bit although I would recommend going for ...


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By default, keys aren't exportable - they are securely stored in the KSP. When creating the key, it needs to be marked allowed for export. Example: var ecdh = new ECDiffieHellmanCng(CngKey.Create(CngAlgorithm.ECDiffieHellmanP256, null, new CngKeyCreationParameters {ExportPolicy = CngExportPolicies.AllowPlaintextExport})); //Export the keys var privateKey = ...


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You need to create the CngKey from the public key of the certificate: certificate.PublicKey.EncodedKeyValue.RawData The CngKey contains 8 additional bytes, the first 4 bytes are used for the name of the curve used (ECS1, ECS3 or ECS5), the last 4 are the length of the key incl. padding (32, 48 or 66). The first byte of the public key from the ...


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I cannot vouch for what Microsoft found fit to implement, but there is a standard on ECDH called X9.63. In that standard, ECDH works like this: You run the DH thing, yielding the common curve point (X, Y) (that's the point you got from the peer, multiplied by your secret DH value). You convert X (and only X; Y is discarded) into a sequence of bytes which ...


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Make sure you cut the ANID byte array into half before you use it as the secret key for the HMACSHA256. The conversion algorithm only needs the first 44 bytes and not the entire 88. Don't ask me why, but AFAIK, it's a bug in the C++ code they use when converting ANID to ANID2 if you look at the sample code at ...


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In C#, for your HMACSHA256 object, try setting the Key property rather than initializing it in the constructor. var anidBytes = System.Text.Encoding.Unicode.GetBytes(this.anidBox.Text); var macObject = new HMACSHA256(); macObject.Key = anidBytes; http://msdn.microsoft.com/en-us/library/9c9tf8wc.aspx says that the constructor pads the key to 64 bytes. ...


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The problem is that you don't use CryptAcquireContext for CNG providers. To open a CNG provider use NCryptOpenStorageProvider.


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The thumbprint and the key name usually has no relationship. To get the name of the key that is associated with a certificate use CertGetCertificateContextProperty with CERT_KEY_PROV_INFO_PROP_ID.


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If you are running Windows Vista or Windows 2008, the CngKeyBlobFormat.EccPrivateBlob is not supported. What OS are you using? CngKey.Import throws CryptographicException only on some machines


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This worked for me: ULONG derivedKeySize = 32; BCryptBufferDesc params; params.ulVersion = BCRYPTBUFFER_VERSION; params.cBuffers = 3; params.pBuffers = new BCryptBuffer[params.cBuffers]; params.pBuffers[0].cbBuffer = 0; params.pBuffers[0].BufferType = KDF_ALGORITHMID; params.pBuffers[0].pvBuffer = new byte[0]; ...


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As I understand it: basically yes. It's the C/C++ way to ascertain whether the system you're running on has FIPS Compliance specified in group policy. Using this function, rather than the registry keys allows Microsoft to move the registry key around as they see fit, as well as determine other ways in which this rule may be enforced. I suspect that's why ...



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