public void ValidatorShouldReturnFalseWhenSslPolicyErrorsIsRemoteCertificateNotAvailable()
{
var instance = new CertificateSubjectPublicKeyInfoValidator(new string[1], SubjectPublicKeyInfoAlgorithm.Sha1);
bool result = instance.Validate(null, null, null, SslPolicyErrors.RemoteCertificateNotAvailable);
result.ShouldBe(false);
}
public void ValidatorShouldReturnFalseWhenPassedATrustedCertificateWhichDoesNotHaveAWhitelistedSha1Spki()
{
var instance = new CertificateSubjectPublicKeyInfoValidator(new string[1], SubjectPublicKeyInfoAlgorithm.Sha1);
var certificateChain = new X509Chain();
certificateChain.Build(Chained);
certificateChain.ChainPolicy.RevocationMode = X509RevocationMode.NoCheck;
bool result = instance.Validate(null, Chained, certificateChain, SslPolicyErrors.None);
result.ShouldBe(false);
}
public void ValidatorShouldReturnTrueWhenPassedATrustedCertificateWhichHasAChainElementSha256SpkiWhiteListed()
{
var instance = new CertificateSubjectPublicKeyInfoValidator(new[] { MicrosoftInternetAuthoritySha256Hash }, SubjectPublicKeyInfoAlgorithm.Sha256);
var certificateChain = new X509Chain();
certificateChain.Build(Chained);
certificateChain.ChainPolicy.RevocationMode = X509RevocationMode.NoCheck;
bool result = instance.Validate(null, Chained, certificateChain, SslPolicyErrors.None);
result.ShouldBe(true);
}
public void ValidatorShouldReturnTrueWhenPassedATrustedCertificateWhichHasItsSha1SpkiWhiteListed()
{
var instance = new CertificateSubjectPublicKeyInfoValidator(new[] { KatanaTestSha1Hash }, SubjectPublicKeyInfoAlgorithm.Sha1);
var certificateChain = new X509Chain();
certificateChain.Build(Chained);
certificateChain.ChainPolicy.RevocationMode = X509RevocationMode.NoCheck;
bool result = instance.Validate(null, Chained, certificateChain, SslPolicyErrors.None);
result.ShouldBe(true);
}
public void ValidatorShouldReturnFalseWhenPassedATrustedCertificateWhichDoesNotHaveAWhitelistedSha1Spki()
{
var instance = new CertificateSubjectPublicKeyInfoValidator(new string[1], SubjectPublicKeyInfoAlgorithm.Sha1);
var certificateChain = new X509Chain();
certificateChain.Build(Chained);
certificateChain.ChainPolicy.RevocationMode = X509RevocationMode.NoCheck;
bool result = instance.Validate(null, Chained, certificateChain, SslPolicyErrors.None);
result.ShouldBe(false);
}
public void ValidatorShouldReturnFalseWhenSslPolicyErrorsIsRemoteCertificateNotAvailable()
{
var instance = new CertificateSubjectPublicKeyInfoValidator(new string[1], SubjectPublicKeyInfoAlgorithm.Sha1);
bool result = instance.Validate(null, null, null, SslPolicyErrors.RemoteCertificateNotAvailable);
result.ShouldBe(false);
}
public void ValidatorShouldReturnTrueWhenPassedATrustedCertificateWhichHasAChainElementSha256SpkiWhiteListed()
{
var instance = new CertificateSubjectPublicKeyInfoValidator(new[] { MicrosoftInternetAuthoritySha256Hash }, SubjectPublicKeyInfoAlgorithm.Sha256);
var certificateChain = new X509Chain();
certificateChain.Build(Chained);
certificateChain.ChainPolicy.RevocationMode = X509RevocationMode.NoCheck;
bool result = instance.Validate(null, Chained, certificateChain, SslPolicyErrors.None);
result.ShouldBe(true);
}
public void ValidatorShouldReturnTrueWhenPassedATrustedCertificateWhichHasItsSha1SpkiWhiteListed()
{
var instance = new CertificateSubjectPublicKeyInfoValidator(new[] { KatanaTestSha1Hash }, SubjectPublicKeyInfoAlgorithm.Sha1);
var certificateChain = new X509Chain();
certificateChain.Build(Chained);
certificateChain.ChainPolicy.RevocationMode = X509RevocationMode.NoCheck;
bool result = instance.Validate(null, Chained, certificateChain, SslPolicyErrors.None);
result.ShouldBe(true);
}