public static void AddFirstSigner_ECDSA(SubjectIdentifierType identifierType, bool detached, string digestOid)
{
ContentInfo contentInfo = new ContentInfo(new byte[] { 9, 8, 7, 6, 5 });
SignedCms cms = new SignedCms(contentInfo, detached);
using (X509Certificate2 signerCert = Certificates.ECDsaP256Win.TryGetCertificateWithPrivateKey())
{
CmsSigner signer = new CmsSigner(identifierType, signerCert);
signer.IncludeOption = X509IncludeOption.EndCertOnly;
signer.DigestAlgorithm = new Oid(digestOid, digestOid);
cms.ComputeSignature(signer);
}
Assert.Single(cms.SignerInfos);
Assert.Single(cms.Certificates);
int expectedVersion = identifierType == SubjectIdentifierType.SubjectKeyIdentifier ? 3 : 1;
Assert.Equal(expectedVersion, cms.Version);
SignerInfo firstSigner = cms.SignerInfos[0];
Assert.Equal(identifierType, firstSigner.SignerIdentifier.Type);
Assert.NotNull(firstSigner.Certificate);
Assert.NotSame(cms.Certificates[0], firstSigner.Certificate);
Assert.Equal(cms.Certificates[0], firstSigner.Certificate);
#if netcoreapp
byte[] signature = firstSigner.GetSignature();
Assert.NotEmpty(signature);
// ECDSA PKIX signature format is a DER SEQUENCE.
Assert.Equal(0x30, signature[0]);
// ECDSA Oids are all under 1.2.840.10045.4.
Assert.StartsWith("1.2.840.10045.4.", firstSigner.SignatureAlgorithm.Value);
#endif
cms.CheckSignature(true);
byte[] encoded = cms.Encode();
cms = new SignedCms();
cms.Decode(encoded);
Assert.Single(cms.SignerInfos);
Assert.Single(cms.Certificates);
Assert.Equal(expectedVersion, cms.Version);
Assert.Equal(identifierType, cms.SignerInfos[0].SignerIdentifier.Type);
Assert.Equal(firstSigner.Certificate, cms.SignerInfos[0].Certificate);
#if netcoreapp
byte[] sig2 = cms.SignerInfos[0].GetSignature();
Assert.Equal(signature, sig2);
#endif
if (detached)
{
Assert.Throws <CryptographicException>(() => cms.CheckSignature(true));
cms = new SignedCms(contentInfo, detached);
cms.Decode(encoded);
}
cms.CheckSignature(true);
}
public static void AddCounterSigner_ECDSA(SubjectIdentifierType identifierType, string digestOid)
{
SignedCms cms = new SignedCms();
cms.Decode(SignedDocuments.RsaPkcs1OneSignerIssuerAndSerialNumber);
Assert.Single(cms.Certificates);
SignerInfo firstSigner = cms.SignerInfos[0];
Assert.Empty(firstSigner.CounterSignerInfos);
Assert.Empty(firstSigner.UnsignedAttributes);
using (X509Certificate2 signerCert = Certificates.ECDsaP256Win.TryGetCertificateWithPrivateKey())
{
CmsSigner signer = new CmsSigner(identifierType, signerCert);
signer.IncludeOption = X509IncludeOption.EndCertOnly;
signer.DigestAlgorithm = new Oid(digestOid, digestOid);
firstSigner.ComputeCounterSignature(signer);
}
Assert.Empty(firstSigner.CounterSignerInfos);
Assert.Empty(firstSigner.UnsignedAttributes);
SignerInfo firstSigner2 = cms.SignerInfos[0];
Assert.Single(firstSigner2.CounterSignerInfos);
Assert.Single(firstSigner2.UnsignedAttributes);
Assert.Single(cms.SignerInfos);
Assert.Equal(2, cms.Certificates.Count);
SignerInfo counterSigner = firstSigner2.CounterSignerInfos[0];
int expectedVersion = identifierType == SubjectIdentifierType.IssuerAndSerialNumber ? 1 : 3;
Assert.Equal(expectedVersion, counterSigner.Version);
// On NetFx there will be two attributes, because Windows emits the
// content-type attribute even for counter-signers.
int expectedCount = 1;
#if netfx
expectedCount = 2;
#endif
Assert.Equal(expectedCount, counterSigner.SignedAttributes.Count);
Assert.Equal(Oids.MessageDigest, counterSigner.SignedAttributes[expectedCount - 1].Oid.Value);
Assert.NotEqual(firstSigner2.Certificate, counterSigner.Certificate);
Assert.Equal(2, cms.Certificates.Count);
#if netcoreapp
byte[] signature = counterSigner.GetSignature();
Assert.NotEmpty(signature);
// DSA PKIX signature format is a DER SEQUENCE.
Assert.Equal(0x30, signature[0]);
// ECDSA Oids are all under 1.2.840.10045.4.
Assert.StartsWith("1.2.840.10045.4.", counterSigner.SignatureAlgorithm.Value);
#endif
cms.CheckSignature(true);
byte[] encoded = cms.Encode();
cms.Decode(encoded);
cms.CheckSignature(true);
}
public static void AddFirstSigner_DSA(SubjectIdentifierType identifierType, bool detached)
{
ContentInfo contentInfo = new ContentInfo(new byte[] { 9, 8, 7, 6, 5 });
SignedCms cms = new SignedCms(contentInfo, detached);
using (X509Certificate2 signerCert = Certificates.Dsa1024.TryGetCertificateWithPrivateKey())
{
CmsSigner signer = new CmsSigner(identifierType, signerCert);
signer.IncludeOption = X509IncludeOption.EndCertOnly;
// Best compatibility for DSA is SHA-1 (FIPS 186-2)
signer.DigestAlgorithm = new Oid(Oids.Sha1, Oids.Sha1);
cms.ComputeSignature(signer);
}
Assert.Single(cms.SignerInfos);
Assert.Single(cms.Certificates);
int expectedVersion = identifierType == SubjectIdentifierType.SubjectKeyIdentifier ? 3 : 1;
Assert.Equal(expectedVersion, cms.Version);
SignerInfo firstSigner = cms.SignerInfos[0];
Assert.Equal(identifierType, firstSigner.SignerIdentifier.Type);
Assert.NotNull(firstSigner.Certificate);
Assert.NotSame(cms.Certificates[0], firstSigner.Certificate);
Assert.Equal(cms.Certificates[0], firstSigner.Certificate);
#if netcoreapp
byte[] signature = firstSigner.GetSignature();
Assert.NotEmpty(signature);
// DSA PKIX signature format is a DER SEQUENCE.
Assert.Equal(0x30, signature[0]);
#endif
cms.CheckSignature(true);
byte[] encoded = cms.Encode();
cms = new SignedCms();
cms.Decode(encoded);
Assert.Single(cms.SignerInfos);
Assert.Single(cms.Certificates);
Assert.Equal(expectedVersion, cms.Version);
Assert.Equal(identifierType, cms.SignerInfos[0].SignerIdentifier.Type);
Assert.Equal(firstSigner.Certificate, cms.SignerInfos[0].Certificate);
#if netcoreapp
byte[] sig2 = cms.SignerInfos[0].GetSignature();
Assert.Equal(signature, sig2);
#endif
if (detached)
{
Assert.Throws <CryptographicException>(() => cms.CheckSignature(true));
cms = new SignedCms(contentInfo, detached);
cms.Decode(encoded);
}
cms.CheckSignature(true);
}
public static void ReadRsaPkcs1DoubleCounterSigned()
{
SignedCms cms = new SignedCms();
cms.Decode(SignedDocuments.OneRsaSignerTwoRsaCounterSigners);
Assert.Equal(1, cms.Version);
ContentInfo contentInfo = cms.ContentInfo;
Assert.Equal("1.2.840.113549.1.7.1", contentInfo.ContentType.Value);
Assert.Equal("4D6963726F736F667420436F72706F726174696F6E", contentInfo.Content.ByteArrayToHex());
SignerInfoCollection signers = cms.SignerInfos;
Assert.Single(signers);
SignerInfo signer = signers[0];
using (X509Certificate2 cert = Certificates.RSAKeyTransferCapi1.GetCertificate())
{
X509Certificate2Collection certs = cms.Certificates;
Assert.Equal(2, certs.Count);
Assert.Equal(cert, certs[1]);
Assert.Equal(cert, signer.Certificate);
Assert.NotSame(certs[1], signer.Certificate);
Assert.NotSame(cert, signer.Certificate);
Assert.NotSame(cert, certs[1]);
}
Assert.Equal(SubjectIdentifierType.IssuerAndSerialNumber, signer.SignerIdentifier.Type);
Assert.Equal(Oids.Sha1, signer.DigestAlgorithm.Value);
#if NETCOREAPP
Assert.Equal(Oids.Rsa, signer.SignatureAlgorithm.Value);
Assert.Equal(
"5A1717621D450130B3463662160EEC06F7AE77E017DD95F294E97A0BDD433FE6" +
"B2CCB34FAAC33AEA50BFD7D9E78DC7174836284619F744278AE77B8495091E09" +
"6EEF682D9CA95F6E81C7DDCEDDA6A12316B453C894B5000701EB09DF57A53B73" +
"3A4E80DA27FA710870BD88C86E2FDB9DCA14D18BEB2F0C87E9632ABF02BE2FE3",
signer.GetSignature().ByteArrayToHex());
#endif
CryptographicAttributeObjectCollection signedAttrs = signer.SignedAttributes;
Assert.Empty(signedAttrs);
CryptographicAttributeObjectCollection unsignedAttrs = signer.UnsignedAttributes;
Assert.Equal(2, unsignedAttrs.Count);
Assert.Equal(Oids.CounterSigner, unsignedAttrs[0].Oid.Value);
SignerInfoCollection counterSigners = signer.CounterSignerInfos;
Assert.Equal(2, counterSigners.Count);
SignerInfo cs1 = counterSigners[0];
SignerInfo cs2 = counterSigners[1];
Assert.Equal(SubjectIdentifierType.SubjectKeyIdentifier, cs1.SignerIdentifier.Type);
// Not universally true, but is in this case.
Assert.Equal(signer.Certificate, cs1.Certificate);
Assert.NotSame(signer.Certificate, cs1.Certificate);
Assert.Equal(SubjectIdentifierType.IssuerAndSerialNumber, cs2.SignerIdentifier.Type);
Assert.NotEqual(signer.Certificate, cs2.Certificate);
// Assert.NotThrows
signer.CheckSignature(true);
// Assert.NotThrows
cs1.CheckSignature(true);
// Assert.NotThrows
cs2.CheckSignature(true);
// The document should be validly signed, then.
// Assert.NotThrows
cms.CheckSignature(true);
#if NETCOREAPP
Assert.Equal(
"1AA282DBED4D862D7CEA30F803E790BDB0C97EE852778CEEDDCD94BB9304A155" +
"2E60A8D36052AC8C2D28755F3B2F473824100AB3A6ABD4C15ABD77E0FFE13D0D" +
"F253BCD99C718FA673B6CB0CBBC68CE5A4AC671298C0A07C7223522E0E7FFF15" +
"CEDBAB55AAA99588517674671691065EB083FB729D1E9C04B2BF99A9953DAA5E",
cs2.GetSignature().ByteArrayToHex());
#endif
// If CheckSignature succeeds then CheckHash cannot.
Assert.Throws <CryptographicException>(() => cs1.CheckHash());
Assert.Throws <CryptographicException>(() => cs2.CheckHash());
Assert.Throws <CryptographicException>(() => signer.CheckHash());
// Since there are no NoSignature signers, CheckHash won't throw.
// Assert.NotThrows
cms.CheckHash();
}
public static void AddCounterSigner_DSA()
{
SignedCms cms = new SignedCms();
cms.Decode(SignedDocuments.RsaPkcs1OneSignerIssuerAndSerialNumber);
Assert.Single(cms.Certificates);
SignerInfo firstSigner = cms.SignerInfos[0];
Assert.Empty(firstSigner.CounterSignerInfos);
Assert.Empty(firstSigner.UnsignedAttributes);
using (X509Certificate2 signerCert = Certificates.Dsa1024.TryGetCertificateWithPrivateKey())
{
CmsSigner signer = new CmsSigner(SubjectIdentifierType.IssuerAndSerialNumber, signerCert);
signer.IncludeOption = X509IncludeOption.EndCertOnly;
// Best compatibility for DSA is SHA-1 (FIPS 186-2)
signer.DigestAlgorithm = new Oid(Oids.Sha1, Oids.Sha1);
firstSigner.ComputeCounterSignature(signer);
}
Assert.Empty(firstSigner.CounterSignerInfos);
Assert.Empty(firstSigner.UnsignedAttributes);
SignerInfo firstSigner2 = cms.SignerInfos[0];
Assert.Single(firstSigner2.CounterSignerInfos);
Assert.Single(firstSigner2.UnsignedAttributes);
Assert.Single(cms.SignerInfos);
Assert.Equal(2, cms.Certificates.Count);
SignerInfo counterSigner = firstSigner2.CounterSignerInfos[0];
Assert.Equal(1, counterSigner.Version);
// On NetFx there will be two attributes, because Windows emits the
// content-type attribute even for counter-signers.
int expectedCount = 1;
#if netfx
expectedCount = 2;
#endif
Assert.Equal(expectedCount, counterSigner.SignedAttributes.Count);
Assert.Equal(Oids.MessageDigest, counterSigner.SignedAttributes[expectedCount - 1].Oid.Value);
Assert.NotEqual(firstSigner2.Certificate, counterSigner.Certificate);
Assert.Equal(2, cms.Certificates.Count);
#if netcoreapp
byte[] signature = counterSigner.GetSignature();
Assert.NotEmpty(signature);
// DSA PKIX signature format is a DER SEQUENCE.
Assert.Equal(0x30, signature[0]);
#endif
cms.CheckSignature(true);
byte[] encoded = cms.Encode();
cms.Decode(encoded);
cms.CheckSignature(true);
}
public static void NonEmbeddedCertificate()
{
SignedCms cms = new SignedCms();
cms.Decode(SignedDocuments.RsaCapiTransfer1_NoEmbeddedCert);
Assert.Equal(3, cms.Version);
Assert.Equal(Oids.Pkcs7Data, cms.ContentInfo.ContentType.Value);
Assert.Equal(
"4D6963726F736F667420436F72706F726174696F6E",
cms.ContentInfo.Content.ByteArrayToHex());
Assert.Empty(cms.Certificates);
SignerInfoCollection signers = cms.SignerInfos;
Assert.Single(signers);
SignerInfo signer = signers[0];
Assert.Equal(3, signer.Version);
Assert.Equal(SubjectIdentifierType.SubjectKeyIdentifier, signer.SignerIdentifier.Type);
Assert.Equal("6B4A6B92FDED07EE0119F3674A96D1A70D2A588D", (string)signer.SignerIdentifier.Value);
Assert.Equal(Oids.Sha1, signer.DigestAlgorithm.Value);
CryptographicAttributeObjectCollection signedAttrs = signer.SignedAttributes;
Assert.Equal(3, signedAttrs.Count);
Pkcs9ContentType contentType = (Pkcs9ContentType)signedAttrs[0].Values[0];
Pkcs9SigningTime signingTime = (Pkcs9SigningTime)signedAttrs[1].Values[0];
Pkcs9MessageDigest messageDigest = (Pkcs9MessageDigest)signedAttrs[2].Values[0];
Assert.Equal(Oids.Pkcs7Data, contentType.ContentType.Value);
Assert.Equal(
new DateTimeOffset(2017, 11, 2, 15, 34, 4, TimeSpan.Zero),
signingTime.SigningTime);
Assert.Equal(DateTimeKind.Utc, signingTime.SigningTime.Kind);
Assert.Empty(signer.UnsignedAttributes);
Assert.Empty(signer.CounterSignerInfos);
Assert.Null(signer.Certificate);
#if NETCOREAPP
Assert.Equal(Oids.Rsa, signer.SignatureAlgorithm.Value);
Assert.Equal(
"0EDE3870B8A80B45A21BAEC4681D059B46502E1B1AA6B8920CF50D4D837646A5" +
"5559B4C05849126C655D95FF3C6C1B420E07DC42629F294EE69822FEA56F32D4" +
"1B824CBB6BF809B7583C27E77B7AC58DFC925B1C60EA4A67AA84D73FC9E9191D" +
"33B36645F17FD6748A2D8B12C6C384C3C734D27273386211E4518FE2B4ED0147",
signer.GetSignature().ByteArrayToHex());
#endif
using (SHA1 sha1 = SHA1.Create())
{
Assert.Equal(
sha1.ComputeHash(cms.ContentInfo.Content).ByteArrayToHex(),
messageDigest.MessageDigest.ByteArrayToHex());
}
// Since it's not NoSignature CheckHash will throw.
Assert.Throws <CryptographicException>(() => signer.CheckHash());
// Since there's no matched certificate CheckSignature will throw.
Assert.Throws <CryptographicException>(() => signer.CheckSignature(true));
// Since there are no NoSignature signers, SignedCms.CheckHash will succeed
cms.CheckHash();
// Since there are no matched certificates SignedCms.CheckSignature will throw.
Assert.Throws <CryptographicException>(() => cms.CheckSignature(true));
using (X509Certificate2 wrongCert = Certificates.RSAKeyTransfer1.GetCertificate())
using (X509Certificate2 rightCert = Certificates.RSAKeyTransferCapi1.GetCertificate())
{
X509Certificate2Collection coll = new X509Certificate2Collection(wrongCert);
// Wrong certificate, still throw.
Assert.Throws <CryptographicException>(() => signer.CheckSignature(coll, true));
Assert.Throws <CryptographicException>(() => cms.CheckSignature(coll, true));
coll = new X509Certificate2Collection(rightCert);
// Right cert, success
signer.CheckSignature(coll, true);
Assert.Null(signer.Certificate);
cms.CheckSignature(coll, true);
Assert.Null(cms.SignerInfos[0].Certificate);
coll.Add(wrongCert);
// Both right and wrong, success
signer.CheckSignature(coll, true);
Assert.Null(signer.Certificate);
cms.CheckSignature(coll, true);
Assert.Null(cms.SignerInfos[0].Certificate);
coll = new X509Certificate2Collection(wrongCert);
// Just wrong again, no accidental stateful match
Assert.Throws <CryptographicException>(() => signer.CheckSignature(coll, true));
Assert.Throws <CryptographicException>(() => cms.CheckSignature(coll, true));
coll.Add(rightCert);
// Wrong then right, success
signer.CheckSignature(coll, true);
Assert.Null(signer.Certificate);
cms.CheckSignature(coll, true);
Assert.Null(cms.SignerInfos[0].Certificate);
}
}
public static void CheckNoSignatureDocument()
{
SignedCms cms = new SignedCms();
cms.Decode(SignedDocuments.NoSignatureSignedWithAttributesAndCounterSignature);
Assert.Equal(1, cms.Version);
Assert.Equal(Oids.Pkcs7Data, cms.ContentInfo.ContentType.Value);
Assert.Equal(
"4D6963726F736F667420436F72706F726174696F6E",
cms.ContentInfo.Content.ByteArrayToHex());
X509Certificate2Collection cmsCerts = cms.Certificates;
Assert.Single(cmsCerts);
SignerInfoCollection signers = cms.SignerInfos;
Assert.Single(signers);
SignerInfo signer = signers[0];
Assert.Equal(SubjectIdentifierType.NoSignature, signer.SignerIdentifier.Type);
Assert.Null(signer.SignerIdentifier.Value);
Assert.Null(signer.Certificate);
Assert.Equal(Oids.Sha1, signer.DigestAlgorithm.Value);
#if NETCOREAPP
Assert.Equal("1.3.6.1.5.5.7.6.2", signer.SignatureAlgorithm.Value);
Assert.Equal(
"8B70D20D0477A35CD84AB962C10DC52FBA6FAD6B",
signer.GetSignature().ByteArrayToHex());
#endif
CryptographicAttributeObjectCollection signedAttrs = signer.SignedAttributes;
Assert.Equal(3, signedAttrs.Count);
Assert.Single(signedAttrs[0].Values);
Assert.Single(signedAttrs[1].Values);
Assert.Single(signedAttrs[2].Values);
Pkcs9ContentType contentType = (Pkcs9ContentType)signedAttrs[0].Values[0];
Pkcs9SigningTime signingTime = (Pkcs9SigningTime)signedAttrs[1].Values[0];
Pkcs9MessageDigest messageDigest = (Pkcs9MessageDigest)signedAttrs[2].Values[0];
Assert.Equal(Oids.Pkcs7Data, contentType.ContentType.Value);
Assert.Equal(
new DateTimeOffset(2017, 11, 1, 17, 17, 17, TimeSpan.Zero),
signingTime.SigningTime);
Assert.Equal(DateTimeKind.Utc, signingTime.SigningTime.Kind);
using (SHA1 sha1 = SHA1.Create())
{
Assert.Equal(
sha1.ComputeHash(cms.ContentInfo.Content).ByteArrayToHex(),
messageDigest.MessageDigest.ByteArrayToHex());
}
CryptographicAttributeObjectCollection unsignedAttrs = signer.UnsignedAttributes;
Assert.Single(unsignedAttrs);
// No need to check the contents, it's a CounterSigner (tested next)
SignerInfoCollection counterSigners = signer.CounterSignerInfos;
Assert.Single(counterSigners);
SignerInfo counterSigner = counterSigners[0];
Assert.Equal(3, counterSigner.Version);
Assert.Equal(SubjectIdentifierType.SubjectKeyIdentifier, counterSigner.SignerIdentifier.Type);
Assert.Equal("6B4A6B92FDED07EE0119F3674A96D1A70D2A588D", (string)counterSigner.SignerIdentifier.Value);
Assert.Equal(Oids.Sha1, counterSigner.DigestAlgorithm.Value);
CryptographicAttributeObjectCollection csSignedAttrs = counterSigner.SignedAttributes;
Assert.Equal(2, csSignedAttrs.Count);
// RFC3369 says that the content-type attribute must not be present for counter-signers, but it is.
// RFC2630 said that it "is not required".
Pkcs9ContentType csContentType = (Pkcs9ContentType)csSignedAttrs[0].Values[0];
Pkcs9MessageDigest csMessageDigest = (Pkcs9MessageDigest)csSignedAttrs[1].Values[0];
Assert.Equal(Oids.Pkcs7Data, csContentType.ContentType.Value);
Assert.Equal(
"833378066BDCCBA7047EF6919843D181A57D6479",
csMessageDigest.MessageDigest.ByteArrayToHex());
#if NETCOREAPP
Assert.Equal(Oids.Rsa, counterSigner.SignatureAlgorithm.Value);
Assert.Equal(
"2155D226DD744166E582D040E60535210195050EA00F2C179897198521DABD0E" +
"6B27750FD8BA5F9AAF58B4863B6226456F38553A22453CAF0A0F106766C7AB6F" +
"3D6AFD106753DC50F8A6E4F9E5508426D236C2DBB4BCB8162FA42E995CBA16A3" +
"40FD7C793569DF1B71368E68253299BC74E38312B40B8F52EAEDE10DF414A522",
counterSigner.GetSignature().ByteArrayToHex());
#endif
using (X509Certificate2 capiCert = Certificates.RSAKeyTransferCapi1.GetCertificate())
{
Assert.Equal(capiCert, cmsCerts[0]);
Assert.Equal(capiCert, counterSigner.Certificate);
}
// The counter-signer has a (real) signature, and a certificate, so CheckSignature
// will pass
counterSigner.CheckSignature(true);
// The (primary) signer has a hash-only signature with no certificate,
// so CheckSignature will fail.
Assert.Throws <CryptographicException>(() => signer.CheckSignature(true));
// The (primary) signer is a NoSignature type, so CheckHash will succeed
signer.CheckHash();
// The document has a NoSignature signer, so CheckHash will do something (and succeed).
cms.CheckHash();
// Since the document's primary signer is NoSignature, CheckSignature will fail
Assert.Throws <CryptographicException>(() => cms.CheckSignature(true));
}
public static void ReadRsaPkcs1CounterSigned()
{
SignedCms cms = new SignedCms();
cms.Decode(SignedDocuments.CounterSignedRsaPkcs1OneSigner);
Assert.Equal(1, cms.Version);
ContentInfo contentInfo = cms.ContentInfo;
Assert.Equal("1.2.840.113549.1.7.1", contentInfo.ContentType.Value);
Assert.Equal("4D6963726F736F667420436F72706F726174696F6E", contentInfo.Content.ByteArrayToHex());
SignerInfoCollection signers = cms.SignerInfos;
Assert.Single(signers);
SignerInfo signer = signers[0];
using (X509Certificate2 cert = Certificates.RSAKeyTransferCapi1.GetCertificate())
{
X509Certificate2Collection certs = cms.Certificates;
Assert.Single(certs);
Assert.Equal(cert, certs[0]);
Assert.Equal(cert, signer.Certificate);
Assert.NotSame(certs[0], signer.Certificate);
Assert.NotSame(cert, signer.Certificate);
Assert.NotSame(cert, certs[0]);
}
Assert.Equal(SubjectIdentifierType.IssuerAndSerialNumber, signer.SignerIdentifier.Type);
Assert.Equal(Oids.Sha1, signer.DigestAlgorithm.Value);
#if NETCOREAPP
Assert.Equal(Oids.Rsa, signer.SignatureAlgorithm.Value);
Assert.Equal(
"5A1717621D450130B3463662160EEC06F7AE77E017DD95F294E97A0BDD433FE6" +
"B2CCB34FAAC33AEA50BFD7D9E78DC7174836284619F744278AE77B8495091E09" +
"6EEF682D9CA95F6E81C7DDCEDDA6A12316B453C894B5000701EB09DF57A53B73" +
"3A4E80DA27FA710870BD88C86E2FDB9DCA14D18BEB2F0C87E9632ABF02BE2FE3",
signer.GetSignature().ByteArrayToHex());
#endif
CryptographicAttributeObjectCollection signedAttrs = signer.SignedAttributes;
Assert.Empty(signedAttrs);
CryptographicAttributeObjectCollection unsignedAttrs = signer.UnsignedAttributes;
Assert.Single(unsignedAttrs);
Assert.Equal(Oids.CounterSigner, unsignedAttrs[0].Oid.Value);
SignerInfoCollection counterSigners = signer.CounterSignerInfos;
Assert.Single(counterSigners);
SignerInfo counterSigner = counterSigners[0];
Assert.Equal(SubjectIdentifierType.SubjectKeyIdentifier, counterSigner.SignerIdentifier.Type);
// Not universally true, but is in this case.
Assert.Equal(signer.Certificate, counterSigner.Certificate);
Assert.NotSame(signer.Certificate, counterSigner.Certificate);
// Assert.NotThrows
signer.CheckSignature(true);
// Assert.NotThrows
counterSigner.CheckSignature(true);
// The document should be validly signed, then.
// Assert.NotThrows
cms.CheckSignature(true);
// If CheckSignature succeeds then CheckHash cannot.
Assert.Throws <CryptographicException>(() => counterSigner.CheckHash());
Assert.Throws <CryptographicException>(() => signer.CheckHash());
// Since there are no NoSignature signers, CheckHash won't throw.
// Assert.NotThrows
cms.CheckHash();
}
public static void ReadRsaPssDocument(bool fromSpan)
{
SignedCms cms = new SignedCms();
if (fromSpan)
{
#if !NET472
cms.Decode(SignedDocuments.RsaPssDocument.AsSpan());
#else
throw new Xunit.Sdk.XunitException(
"This test should not evaluate for .NET Framework, the API is missing.");
#endif
}
else
{
cms.Decode(SignedDocuments.RsaPssDocument);
}
Assert.Equal(3, cms.Version);
ContentInfo contentInfo = cms.ContentInfo;
Assert.Equal("1.2.840.113549.1.7.1", contentInfo.ContentType.Value);
Assert.Equal("54686973206973206120746573740D0A", contentInfo.Content.ByteArrayToHex());
X509Certificate2Collection certs = cms.Certificates;
Assert.Single(certs);
X509Certificate2 topLevelCert = certs[0];
Assert.Equal("localhost", topLevelCert.GetNameInfo(X509NameType.SimpleName, false));
Assert.Equal(
new DateTimeOffset(2016, 3, 2, 2, 37, 54, TimeSpan.Zero),
new DateTimeOffset(topLevelCert.NotBefore));
Assert.Equal(
new DateTimeOffset(2017, 3, 2, 2, 37, 54, TimeSpan.Zero),
new DateTimeOffset(topLevelCert.NotAfter));
SignerInfoCollection signers = cms.SignerInfos;
Assert.Single(signers);
SignerInfo signer = signers[0];
Assert.Equal(3, signer.Version);
Assert.Equal(SubjectIdentifierType.SubjectKeyIdentifier, signer.SignerIdentifier.Type);
Assert.Equal("1063CAB14FB14C47DC211C0E0285F3EE5946BF2D", signer.SignerIdentifier.Value);
Assert.Equal("2.16.840.1.101.3.4.2.1", signer.DigestAlgorithm.Value);
#if NETCOREAPP
Assert.Equal("1.2.840.113549.1.1.10", signer.SignatureAlgorithm.Value);
#endif
CryptographicAttributeObjectCollection signedAttrs = signer.SignedAttributes;
Assert.Equal(4, signedAttrs.Count);
Assert.Equal("1.2.840.113549.1.9.3", signedAttrs[0].Oid.Value);
Assert.Equal("1.2.840.113549.1.9.5", signedAttrs[1].Oid.Value);
Assert.Equal("1.2.840.113549.1.9.4", signedAttrs[2].Oid.Value);
Assert.Equal("1.2.840.113549.1.9.15", signedAttrs[3].Oid.Value);
Assert.Equal(1, signedAttrs[0].Values.Count);
Assert.Equal(1, signedAttrs[1].Values.Count);
Assert.Equal(1, signedAttrs[2].Values.Count);
Assert.Equal(1, signedAttrs[3].Values.Count);
Pkcs9ContentType contentTypeAttr = (Pkcs9ContentType)signedAttrs[0].Values[0];
Assert.Equal("1.2.840.113549.1.7.1", contentTypeAttr.ContentType.Value);
Pkcs9SigningTime signingTimeAttr = (Pkcs9SigningTime)signedAttrs[1].Values[0];
Assert.Equal(
new DateTimeOffset(2017, 10, 26, 1, 6, 25, TimeSpan.Zero),
new DateTimeOffset(signingTimeAttr.SigningTime));
Pkcs9MessageDigest messageDigestAttr = (Pkcs9MessageDigest)signedAttrs[2].Values[0];
Assert.Equal(
"07849DC26FCBB2F3BD5F57BDF214BAE374575F1BD4E6816482324799417CB379",
messageDigestAttr.MessageDigest.ByteArrayToHex());
Assert.IsType <Pkcs9AttributeObject>(signedAttrs[3].Values[0]);
#if !NETCOREAPP
Assert.NotSame(signedAttrs[3].Oid, signedAttrs[3].Values[0].Oid);
#endif
Assert.Equal(
"306A300B060960864801650304012A300B0609608648016503040116300B0609" +
"608648016503040102300A06082A864886F70D0307300E06082A864886F70D03" +
"0202020080300D06082A864886F70D0302020140300706052B0E030207300D06" +
"082A864886F70D0302020128",
signedAttrs[3].Values[0].RawData.ByteArrayToHex());
#if NETCOREAPP
Assert.Equal(
"B93E81D141B3C9F159AB0021910635DC72E8E860BE43C28E5D53243D6DC247B7" +
"D4F18C20195E80DEDCC75B29C43CE5047AD775B65BFC93589BD748B950C68BAD" +
"DF1A4673130302BBDA8667D5DDE5EA91ECCB13A9B4C04F1C4842FEB1697B7669" +
"C7692DD3BDAE13B5AA8EE3EB5679F3729D1DC4F2EB9DC89B7E8773F2F8C6108C" +
"05",
signer.GetSignature().ByteArrayToHex());
#endif
CryptographicAttributeObjectCollection unsignedAttrs = signer.UnsignedAttributes;
Assert.Empty(unsignedAttrs);
SignerInfoCollection counterSigners = signer.CounterSignerInfos;
Assert.Empty(counterSigners);
X509Certificate2 signerCertificate = signer.Certificate;
Assert.Equal(
"CN=localhost, OU=.NET Framework, O=Microsoft Corp., L=Redmond, S=Washington, C=US",
signerCertificate.SubjectName.Name);
// CheckHash always throws for certificate-based signers.
Assert.Throws <CryptographicException>(() => signer.CheckHash());
// At this time we cannot support the PSS parameters for this document.
Assert.Throws <CryptographicException>(() => signer.CheckSignature(true));
// Since there are no NoSignature signers the document CheckHash will succeed.
// Assert.NotThrows
cms.CheckHash();
// Since at least one signer fails, the document signature will fail
Assert.Throws <CryptographicException>(() => cms.CheckSignature(true));
}
internal static bool?CheckRFC3161TimestampInternal(SignerInfo signerInfo, DateTimeOffset?notBefore, DateTimeOffset?notAfter)
{
var found = false;
byte[] signatureBytes = null;
foreach (var attr in signerInfo.UnsignedAttributes)
{
if (attr.Oid.Value == CertificateHelper.SignatureTimeStampOin.Value)
{
foreach (var attrInst in attr.Values)
{
var attrData = attrInst.RawData;
// New API starts here:
if (!Rfc3161TimestampToken.TryDecode(attrData, out var token, out var bytesRead))
{
return(false);
}
if (bytesRead != attrData.Length)
{
return(false);
}
signatureBytes ??= signerInfo.GetSignature();
// Check that the token was issued based on the SignerInfo's signature value
if (!token.VerifySignatureForSignerInfo(signerInfo, out _))
{
return(false);
}
var timestamp = token.TokenInfo.Timestamp;
// Check that the signed timestamp is within the provided policy range
// (which may be (signerInfo.Certificate.NotBefore, signerInfo.Certificate.NotAfter);
// or some other policy decision)
if (timestamp < (notBefore ?? timestamp) ||
timestamp > (notAfter ?? timestamp))
{
return(false);
}
var tokenSignerCert = token.AsSignedCms().SignerInfos[0].Certificate;
// Implicit policy decision: Tokens required embedded certificates (since this method has
// no resolver)
if (tokenSignerCert is null)
{
return(false);
}
found = true;
}
}
}
// If we found any attributes and none of them returned an early false, then the SignerInfo is
// conformant to policy.
if (found)
{
return(true);
}
// Inconclusive, as no signed timestamps were found
return(null);
}