public static void SupportsKeysize(int keySize)
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create(keySize))
{
Assert.Equal(keySize, ecdh.KeySize);
}
}
public static IEnumerable <object[]> MismatchedKeysizes()
{
if (s_mismatchedKeysizes == null)
{
int firstSize = -1;
List <object[]> mismatchedKeysizes = new List <object[]>();
using (ECDiffieHellman defaultKeysize = ECDiffieHellmanFactory.Create())
{
foreach (KeySizes keySizes in defaultKeysize.LegalKeySizes)
{
for (int size = keySizes.MinSize; size <= keySizes.MaxSize; size += keySizes.SkipSize)
{
if (firstSize == -1)
{
firstSize = size;
}
else if (size != firstSize)
{
mismatchedKeysizes.Add(new object[] { firstSize, size });
}
if (keySizes.SkipSize == 0)
{
break;
}
}
}
}
s_mismatchedKeysizes = mismatchedKeysizes;
}
return(s_mismatchedKeysizes);
}
public static void TestExplicitCurveImportOnUnsupportedPlatform()
{
if (ECDiffieHellmanFactory.ExplicitCurvesSupported)
{
return;
}
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
{
ECParameters param = EccTestData.GetNistP256ExplicitTestData();
Assert.Throws <PlatformNotSupportedException>(
() =>
{
try
{
ecdh.ImportParameters(param);
}
catch (CryptographicException e)
{
throw new PlatformNotSupportedException("Converting exception", e);
}
});
}
}
public static IEnumerable <object[]> EveryKeysize()
{
if (s_everyKeysize == null)
{
List <object[]> everyKeysize = new List <object[]>();
using (ECDiffieHellman defaultKeysize = ECDiffieHellmanFactory.Create())
{
foreach (KeySizes keySizes in defaultKeysize.LegalKeySizes)
{
for (int size = keySizes.MinSize; size <= keySizes.MaxSize; size += keySizes.SkipSize)
{
everyKeysize.Add(new object[] { size });
if (keySizes.SkipSize == 0)
{
break;
}
}
}
}
s_everyKeysize = everyKeysize;
}
return(s_everyKeysize);
}
public static void ExportIncludingPrivateOnPublicOnlyKey()
{
ECParameters iutParameters = new ECParameters
{
Curve = ECCurve.NamedCurves.nistP521,
Q =
{
X = "00d45615ed5d37fde699610a62cd43ba76bedd8f85ed31005fe00d6450fbbd101291abd96d4945a8b57bc73b3fe9f4671105309ec9b6879d0551d930dac8ba45d255".HexToByteArray(),
Y = "01425332844e592b440c0027972ad1526431c06732df19cd46a242172d4dd67c2c8c99dfc22e49949a56cf90c6473635ce82f25b33682fb19bc33bd910ed8ce3a7fa".HexToByteArray(),
},
D = "00816f19c1fb10ef94d4a1d81c156ec3d1de08b66761f03f06ee4bb9dcebbbfe1eaa1ed49a6a990838d8ed318c14d74cc872f95d05d07ad50f621ceb620cd905cfb8".HexToByteArray(),
};
using (ECDiffieHellman iut = ECDiffieHellmanFactory.Create())
using (ECDiffieHellman cavs = ECDiffieHellmanFactory.Create())
{
iut.ImportParameters(iutParameters);
cavs.ImportParameters(iut.ExportParameters(false));
Assert.ThrowsAny <CryptographicException>(() => cavs.ExportParameters(true));
if (ECDiffieHellmanFactory.ExplicitCurvesSupported)
{
Assert.ThrowsAny <CryptographicException>(() => cavs.ExportExplicitParameters(true));
}
using (ECDiffieHellmanPublicKey iutPublic = iut.PublicKey)
{
Assert.ThrowsAny <CryptographicException>(() => cavs.DeriveKeyFromHash(iutPublic, HashAlgorithmName.SHA256));
}
}
}
private static ECDiffieHellman OpenKnownKey()
{
ECParameters ecParams = new ECParameters
{
Curve = ECCurve.NamedCurves.nistP521,
Q =
{
X = (
"014AACFCDA18F77EBF11DC0A2D394D3032E86C3AC0B5F558916361163EA6AD3DB27" +
"F6476D6C6E5D9C4A77BCCC5C0069D481718DACA3B1B13035AF5D246C4DC0CE0EA").HexToByteArray(),
Y = (
"00CA500F75537C782E027DE568F148334BF56F7E24C3830792236B5D20F7A33E998" +
"62B1744D2413E4C4AC29DBA42FC48D23AE5B916BED73997EC69B3911C686C5164").HexToByteArray(),
},
D = (
"00202F9F5480723D1ACF15372CE0B99B6CC3E8772FFDDCF828EEEB314B3EAA35B19" +
"886AAB1E6871E548C261C7708BF561A4C373D3EED13F0749851F57B86DC049D71").HexToByteArray(),
};
ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create();
ecdh.ImportParameters(ecParams);
return(ecdh);
}
public static void TestNamedCurveNegative()
{
Assert.Throws <PlatformNotSupportedException>(
() => ECDiffieHellmanFactory.Create(ECCurve.CreateFromFriendlyName("Invalid")).ExportExplicitParameters(false));
Assert.Throws <PlatformNotSupportedException>(
() => ECDiffieHellmanFactory.Create(ECCurve.CreateFromValue("Invalid")).ExportExplicitParameters(false));
}
public static void HmacDerivation_OtherKeyRequired()
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
{
Assert.Throws <ArgumentNullException>(
() => ecdh.DeriveKeyFromHmac(null, HashAlgorithmName.SHA512, null));
}
}
public static void TlsDerivation_OtherKeyRequired()
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
{
Assert.Throws <ArgumentNullException>(
() => ecdh.DeriveKeyTls(null, s_fourByteLabel, s_emptySeed));
}
}
public static void TestNotImplementedException()
{
using (ECDiffieHellman ec = ECDiffieHellmanFactory.Create())
{
Assert.Throws <NotImplementedException>(() => ec.FromXmlString(null));
Assert.Throws <NotImplementedException>(() => ec.ToXmlString(true));
}
}
public static void PublicKey_NotNull(int keySize)
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create(keySize))
using (ECDiffieHellmanPublicKey ecdhPubKey = ecdh.PublicKey)
{
Assert.NotNull(ecdhPubKey);
}
}
public static void TlsRequiresSeed()
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey publicKey = ecdh.PublicKey)
{
Assert.Throws <ArgumentNullException>(
() => ecdh.DeriveKeyTls(publicKey, s_fourByteLabel, null));
}
}
public static void PublicKeyIsFactory()
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey publicKey1 = ecdh.PublicKey)
using (ECDiffieHellmanPublicKey publicKey2 = ecdh.PublicKey)
{
Assert.NotSame(publicKey1, publicKey2);
}
}
public static void HashDerivation_AlgorithmRequired()
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey publicKey = ecdh.PublicKey)
{
Assert.Throws <ArgumentException>(
() => ecdh.DeriveKeyFromHash(publicKey, new HashAlgorithmName("")));
}
}
public static void PublicKey_TryExportSubjectPublicKeyInfo_TooSmall()
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey publicKey = ecdh.PublicKey)
{
Span <byte> destination = stackalloc byte[1];
Assert.False(publicKey.TryExportSubjectPublicKeyInfo(destination, out int written));
Assert.Equal(0, written);
}
}
public static void Equivalence_Hash()
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey publicKey = ecdh.PublicKey)
{
byte[] newWay = ecdh.DeriveKeyFromHash(publicKey, HashAlgorithmName.SHA256, null, null);
byte[] oldWay = ecdh.DeriveKeyMaterial(publicKey);
Assert.Equal(newWay, oldWay);
}
}
[InlineData("1.2.840.10045.3.1.7", 256)] //secp256v1
public static void ECCurve_ctor_SEC2_OID_From_Value(string oidValue, int expectedKeySize)
{
ECCurve ecCurve = ECCurve.CreateFromValue(oidValue);
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create(ecCurve))
{
Assert.Equal(expectedKeySize, ecdh.KeySize);
ecdh.Exercise();
}
}
public static void HmacDerivation_SameSizeOtherKeyRequired(int aliceSize, int bobSize)
{
using (ECDiffieHellman alice = ECDiffieHellmanFactory.Create(aliceSize))
using (ECDiffieHellman bob = ECDiffieHellmanFactory.Create(bobSize))
using (ECDiffieHellmanPublicKey bobPublic = bob.PublicKey)
{
Assert.ThrowsAny <ArgumentException>(
() => alice.DeriveKeyFromHmac(bobPublic, HashAlgorithmName.SHA512, null));
}
}
public static void TlsPrfOutputIs48Bytes(int keySize)
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create(keySize))
using (ECDiffieHellmanPublicKey publicKey = ecdh.PublicKey)
{
byte[] derived = ecdh.DeriveKeyTls(publicKey, s_fourByteLabel, s_emptySeed);
Assert.Equal(48, derived.Length);
}
}
public static void TlsDerivation_SameSizeOtherKeyRequired(int aliceSize, int bobSize)
{
using (ECDiffieHellman alice = ECDiffieHellmanFactory.Create(aliceSize))
using (ECDiffieHellman bob = ECDiffieHellmanFactory.Create(bobSize))
using (ECDiffieHellmanPublicKey bobPublic = bob.PublicKey)
{
Assert.ThrowsAny <ArgumentException>(
() => alice.DeriveKeyTls(bobPublic, s_fourByteLabel, s_emptySeed));
}
}
public static void SimpleHmacNullKeyForwardsNull()
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey publicKey = ecdh.PublicKey)
{
byte[] simple = ecdh.DeriveKeyFromHmac(publicKey, HashAlgorithmName.SHA512, null);
byte[] nulls = ecdh.DeriveKeyFromHmac(publicKey, HashAlgorithmName.SHA512, null, null, null);
Assert.Equal(simple, nulls);
}
}
public static void TlsRequiresSeed64(int seedSize)
{
byte[] seed = new byte[seedSize];
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey publicKey = ecdh.PublicKey)
{
Assert.ThrowsAny <CryptographicException>(
() => ecdh.DeriveKeyTls(publicKey, s_fourByteLabel, seed));
}
}
public static void TestNamedCurvesNegative(CurveDef curveDef)
{
if (!curveDef.Curve.IsNamed)
{
return;
}
// An exception may be thrown during Create() if the Oid is bad, or later during native calls
Assert.Throws <PlatformNotSupportedException>(
() => ECDiffieHellmanFactory.Create(curveDef.Curve).ExportParameters(false));
}
public static void DeriveKeyMaterialEquivalentToDeriveKeyFromHash()
{
using (ECDiffieHellman ecdh = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey publicKey = ecdh.PublicKey)
{
byte[] simple = ecdh.DeriveKeyMaterial(publicKey);
byte[] nulls = ecdh.DeriveKeyFromHash(publicKey, HashAlgorithmName.SHA256, null, null);
Assert.Equal(simple, nulls);
}
}
public static void HmacNullKeyDerivationIsStable()
{
using (ECDiffieHellman alice = ECDiffieHellmanFactory.Create())
using (ECDiffieHellman bob = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey bobPublic = bob.PublicKey)
{
byte[] aliceDerived = alice.DeriveKeyFromHmac(bobPublic, HashAlgorithmName.SHA512, null);
byte[] aliceDerivedAgain = alice.DeriveKeyFromHmac(bobPublic, HashAlgorithmName.SHA512, null);
Assert.Equal(aliceDerived, aliceDerivedAgain);
}
}
public static void TlsPrfDerivationIsStable()
{
using (ECDiffieHellman alice = ECDiffieHellmanFactory.Create())
using (ECDiffieHellman bob = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey bobPublic = bob.PublicKey)
{
byte[] aliceDerived = alice.DeriveKeyTls(bobPublic, s_fourByteLabel, s_emptySeed);
byte[] aliceDerivedAgain = alice.DeriveKeyTls(bobPublic, s_fourByteLabel, s_emptySeed);
Assert.Equal(aliceDerived, aliceDerivedAgain);
}
}
public static void SymmetricDerivation_Hmac(int keySize)
{
using (ECDiffieHellman alice = ECDiffieHellmanFactory.Create(keySize))
using (ECDiffieHellman bob = ECDiffieHellmanFactory.Create(keySize))
using (ECDiffieHellmanPublicKey alicePublic = alice.PublicKey)
using (ECDiffieHellmanPublicKey bobPublic = bob.PublicKey)
{
byte[] aliceDerived = alice.DeriveKeyFromHmac(bobPublic, HashAlgorithmName.SHA512, s_sampleHmacKey);
byte[] bobDerived = bob.DeriveKeyFromHmac(alicePublic, HashAlgorithmName.SHA512, s_sampleHmacKey);
Assert.Equal(aliceDerived, bobDerived);
}
}
public static void HmacDerivationVariesOnAlgorithm()
{
using (ECDiffieHellman alice = ECDiffieHellmanFactory.Create())
using (ECDiffieHellman bob = ECDiffieHellmanFactory.Create())
using (ECDiffieHellmanPublicKey alicePublic = alice.PublicKey)
using (ECDiffieHellmanPublicKey bobPublic = bob.PublicKey)
{
byte[] aliceDerived = alice.DeriveKeyFromHmac(bobPublic, HashAlgorithmName.SHA512, s_sampleHmacKey);
byte[] bobDerived = bob.DeriveKeyFromHmac(alicePublic, HashAlgorithmName.SHA384, s_sampleHmacKey);
Assert.NotEqual(aliceDerived, bobDerived);
}
}
public static void SymmetricDerivation_TlsPrf(int keySize)
{
using (ECDiffieHellman alice = ECDiffieHellmanFactory.Create(keySize))
using (ECDiffieHellman bob = ECDiffieHellmanFactory.Create(keySize))
using (ECDiffieHellmanPublicKey alicePublic = alice.PublicKey)
using (ECDiffieHellmanPublicKey bobPublic = bob.PublicKey)
{
byte[] aliceDerived = alice.DeriveKeyTls(bobPublic, s_fourByteLabel, s_emptySeed);
byte[] bobDerived = bob.DeriveKeyTls(alicePublic, s_fourByteLabel, s_emptySeed);
Assert.Equal(aliceDerived, bobDerived);
}
}
public static void TestNamedCurveWithExplicitKey()
{
if (!ECDiffieHellmanFactory.ExplicitCurvesSupported)
{
return;
}
using (ECDiffieHellman ec = ECDiffieHellmanFactory.Create())
{
ECParameters parameters = EccTestData.GetNistP224KeyTestData();
ec.ImportParameters(parameters);
VerifyNamedCurve(parameters, ec, 224, true);
}
}
