/** * Copyright (C) 2004-2006 Brad Hards * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #ifdef QT_STATICPLUGIN #include "import_plugins.h" #endif class CertUnitTest : public QObject { Q_OBJECT private slots: void initTestCase(); void checkSystemStore(); void nullCert(); void noSuchFile(); void CAcertstest(); void derCAcertstest(); void qualitysslcatest(); void checkExpiredClientCerts(); void checkClientCerts(); void altName(); void extXMPP(); void checkExpiredServerCerts(); void checkServerCerts(); void altNames76(); void sha256cert(); void crl(); void crl2(); void csr(); void csr2(); void cleanupTestCase(); private: QCA::Initializer* m_init; }; void CertUnitTest::initTestCase() { m_init = new QCA::Initializer; } void CertUnitTest::cleanupTestCase() { delete m_init; } void CertUnitTest::nullCert() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::Certificate nullCert; QVERIFY(nullCert.isNull()); QCA::Certificate anotherNullCert = nullCert; QVERIFY( anotherNullCert.isNull() ); QCOMPARE( nullCert, anotherNullCert ); } } } void CertUnitTest::noSuchFile() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultNoFile; QCA::Certificate cert = QCA::Certificate::fromPEMFile( "thisIsJustaFileNameThatWeDontHave", &resultNoFile, provider); QCOMPARE( resultNoFile, QCA::ErrorFile ); QVERIFY( cert.isNull() ); } } } void CertUnitTest::CAcertstest() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultca1; QCA::Certificate ca1 = QCA::Certificate::fromPEMFile( "certs/RootCAcert.pem", &resultca1, provider); QCOMPARE( resultca1, QCA::ConvertGood ); QCOMPARE( ca1.isNull(), false ); QCOMPARE( ca1.pathLimit(), 0 ); QCOMPARE( ca1.isCA(), true ); QCOMPARE( ca1.isSelfSigned(), true ); QCOMPARE( ca1.serialNumber(), QCA::BigInteger(0) ); QCOMPARE( ca1.commonName(), QString("For Tests Only") ); QCOMPARE( ca1.notValidBefore().toString(), QDateTime( QDate( 2001, 8, 17 ), QTime( 8, 30, 39 ), Qt::UTC ).toString() ); QCOMPARE( ca1.notValidAfter().toString(), QDateTime( QDate( 2011, 8, 15 ), QTime( 8, 30, 39 ), Qt::UTC ).toString() ); QCOMPARE( ca1.constraints().contains(QCA::DigitalSignature) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::NonRepudiation) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::KeyEncipherment) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::DataEncipherment) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::KeyAgreement) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::KeyCertificateSign) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::CRLSign) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::EncipherOnly) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::DecipherOnly) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::ServerAuth) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::ClientAuth) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::CodeSigning) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::EmailProtection) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::IPSecEndSystem) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::IPSecTunnel) == true, false); QCOMPARE( ca1.constraints().contains(QCA::IPSecUser) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::TimeStamping) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::OCSPSigning) == true, false ); // no policies on this cert QCOMPARE( ca1.policies().count(), 0 ); } } } void CertUnitTest::qualitysslcatest() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultca1; QCA::Certificate ca1 = QCA::Certificate::fromPEMFile( "certs/QualitySSLIntermediateCA.crt", &resultca1, provider); QCOMPARE( resultca1, QCA::ConvertGood ); QCOMPARE( ca1.isNull(), false ); QCOMPARE( ca1.isCA(), true ); QCOMPARE( ca1.isSelfSigned(), false ); QCOMPARE( ca1.signatureAlgorithm(), QCA::EMSA3_SHA1 ); QCOMPARE( ca1.serialNumber(), QCA::BigInteger("33555098") ); QCOMPARE( ca1.commonName(), QString("Comodo Class 3 Security Services CA") ); QCOMPARE( ca1.notValidBefore().toString(), QDateTime( QDate( 2002, 8, 27 ), QTime( 19, 02, 00 ), Qt::UTC ).toString() ); QCOMPARE( ca1.notValidAfter().toString(), QDateTime( QDate( 2012, 8, 27 ), QTime( 23, 59, 00 ), Qt::UTC ).toString() ); QCOMPARE( ca1.pathLimit(), 0 ); QCOMPARE( ca1.constraints().contains(QCA::DigitalSignature) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::NonRepudiation) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::KeyEncipherment) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::DataEncipherment) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::KeyAgreement) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::KeyCertificateSign) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::CRLSign) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::EncipherOnly) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::DecipherOnly) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::ServerAuth) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::ClientAuth) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::CodeSigning) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::EmailProtection) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::IPSecEndSystem) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::IPSecTunnel) == true, false); QCOMPARE( ca1.constraints().contains(QCA::IPSecUser) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::TimeStamping) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::OCSPSigning) == true, false ); } } } void CertUnitTest::checkExpiredClientCerts() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultClient1; QCA::Certificate client1 = QCA::Certificate::fromPEMFile( "certs/User.pem", &resultClient1, provider); QCOMPARE( resultClient1, QCA::ConvertGood ); QCOMPARE( client1.isNull(), false ); QCOMPARE( client1.isCA(), false ); QCOMPARE( client1.isSelfSigned(), false ); QCOMPARE( client1.serialNumber(), QCA::BigInteger(2) ); QCOMPARE( client1.commonName(), QString("Insecure User Test Cert") ); QCOMPARE( client1.notValidBefore().toString(), QDateTime( QDate( 2001, 8, 17 ), QTime( 8, 32, 38 ), Qt::UTC ).toString() ); QCOMPARE( client1.notValidAfter().toString(), QDateTime( QDate( 2006, 8, 16 ), QTime( 8, 32, 38 ), Qt::UTC ).toString() ); QCOMPARE( client1.constraints().contains(QCA::DigitalSignature) == true, true ); QCOMPARE( client1.constraints().contains(QCA::NonRepudiation) == true, true ); QCOMPARE( client1.constraints().contains(QCA::KeyEncipherment) == true, true ); QCOMPARE( client1.constraints().contains(QCA::DataEncipherment) == true, true ); QCOMPARE( client1.constraints().contains(QCA::KeyAgreement) == true, false ); QCOMPARE( client1.constraints().contains(QCA::KeyCertificateSign) == true, false ); QCOMPARE( client1.constraints().contains(QCA::CRLSign) == true, false ); QCOMPARE( client1.constraints().contains(QCA::EncipherOnly) == true, false ); QCOMPARE( client1.constraints().contains(QCA::DecipherOnly) == true, false ); QCOMPARE( client1.constraints().contains(QCA::ServerAuth) == true, false ); QCOMPARE( client1.constraints().contains(QCA::ClientAuth) == true, true ); QCOMPARE( client1.constraints().contains(QCA::CodeSigning) == true, false ); QCOMPARE( client1.constraints().contains(QCA::EmailProtection) == true, true ); QCOMPARE( client1.constraints().contains(QCA::IPSecEndSystem) == true, false ); QCOMPARE( client1.constraints().contains(QCA::IPSecTunnel) == true, false); QCOMPARE( client1.constraints().contains(QCA::IPSecUser) == true, false ); QCOMPARE( client1.constraints().contains(QCA::TimeStamping) == true, false ); QCOMPARE( client1.constraints().contains(QCA::OCSPSigning) == true, false ); // no policies on this cert QCOMPARE( client1.policies().count(), 0 ); QCA::CertificateInfo subject1 = client1.subjectInfo(); QCOMPARE( subject1.isEmpty(), false ); QCOMPARE( subject1.values(QCA::Country).contains("de") == true, true ); QCOMPARE( subject1.values(QCA::Organization).contains("InsecureTestCertificate") == true, true ); QCOMPARE( subject1.values(QCA::CommonName).contains("Insecure User Test Cert") == true, true ); QCA::CertificateInfo issuer1 = client1.issuerInfo(); QCOMPARE( issuer1.isEmpty(), false ); QCOMPARE( issuer1.values(QCA::Country).contains("de") == true, true ); QCOMPARE( issuer1.values(QCA::Organization).contains("InsecureTestCertificate") == true, true ); QCOMPARE( issuer1.values(QCA::CommonName).contains("For Tests Only") == true, true ); QByteArray subjectKeyID = QCA::Hex().stringToArray("889E7EF729719D7B280F361AAE6D00D39DE1AADB").toByteArray(); QCOMPARE( client1.subjectKeyId(), subjectKeyID ); QCOMPARE( QCA::Hex().arrayToString(client1.issuerKeyId()), QString("bf53438278d09ec380e51b67ca0500dfb94883a5") ); QCA::PublicKey pubkey1 = client1.subjectPublicKey(); QCOMPARE( pubkey1.isNull(), false ); QCOMPARE( pubkey1.isRSA(), true ); QCOMPARE( pubkey1.isDSA(), false ); QCOMPARE( pubkey1.isDH(), false ); QCOMPARE( pubkey1.isPublic(), true ); QCOMPARE( pubkey1.isPrivate(), false ); QCOMPARE( pubkey1.bitSize(), 1024 ); QCOMPARE( client1.pathLimit(), 0 ); QCOMPARE( client1.signatureAlgorithm(), QCA::EMSA3_MD5 ); QCA::CertificateCollection trusted; QCA::CertificateCollection untrusted; QCOMPARE( client1.validate( trusted, untrusted ), QCA::ErrorInvalidCA ); QCA::ConvertResult resultca1; QCA::Certificate ca1 = QCA::Certificate::fromPEMFile( "certs/RootCAcert.pem", &resultca1, provider); QCOMPARE( resultca1, QCA::ConvertGood ); trusted.addCertificate( ca1 ); QCOMPARE( client1.validate( trusted, untrusted ), QCA::ErrorExpired ); QCOMPARE( client1.validate( trusted, untrusted, QCA::UsageAny ), QCA::ErrorExpired ); QCOMPARE( client1.validate( trusted, untrusted, QCA::UsageTLSServer ), QCA::ErrorExpired ); QCOMPARE( client1.validate( trusted, untrusted, QCA::UsageTLSClient ), QCA::ErrorExpired ); QCOMPARE( client1.validate( trusted, untrusted, QCA::UsageCodeSigning ), QCA::ErrorExpired ); QCOMPARE( client1.validate( trusted, untrusted, QCA::UsageTimeStamping ), QCA::ErrorExpired ); QCOMPARE( client1.validate( trusted, untrusted, QCA::UsageEmailProtection ), QCA::ErrorExpired ); QCOMPARE( client1.validate( trusted, untrusted, QCA::UsageCRLSigning ), QCA::ErrorExpired ); QByteArray derClient1 = client1.toDER(); QCOMPARE( derClient1.isEmpty(), false ); QCA::Certificate fromDer1 = QCA::Certificate::fromDER( derClient1, &resultClient1, provider ); QCOMPARE( resultClient1, QCA::ConvertGood ); QVERIFY( fromDer1 == client1 ); QString pemClient1 = client1.toPEM(); QCOMPARE( pemClient1.isEmpty(), false ); QCA::Certificate fromPem1 = QCA::Certificate::fromPEM( pemClient1, &resultClient1, provider); QCOMPARE( resultClient1, QCA::ConvertGood ); QVERIFY( fromPem1 == client1); QCOMPARE( fromPem1 != fromDer1, false ); } } } void CertUnitTest::checkClientCerts() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultClient2; QCA::Certificate client2 = QCA::Certificate::fromPEMFile( "certs/QcaTestClientCert.pem", &resultClient2, provider); QCOMPARE( resultClient2, QCA::ConvertGood ); QCOMPARE( client2.isNull(), false ); QCOMPARE( client2.isCA(), false ); QCOMPARE( client2.isSelfSigned(), false ); QCOMPARE( client2.serialNumber(), QCA::BigInteger("13149359243510447488") ); QCOMPARE( client2.commonName(), QString("Qca Test Client Certificate") ); QCOMPARE( client2.notValidBefore().toString(), QDateTime( QDate( 2013, 7, 31 ), QTime( 15, 14, 28 ), Qt::UTC ).toString() ); QCOMPARE( client2.notValidAfter().toString(), QDateTime( QDate( 2033, 7, 26 ), QTime( 15, 14, 28 ), Qt::UTC ).toString() ); QCOMPARE( client2.constraints().contains(QCA::DigitalSignature) == true, true ); QCOMPARE( client2.constraints().contains(QCA::NonRepudiation) == true, true ); QCOMPARE( client2.constraints().contains(QCA::KeyEncipherment) == true, true ); QCOMPARE( client2.constraints().contains(QCA::DataEncipherment) == true, true ); QCOMPARE( client2.constraints().contains(QCA::KeyAgreement) == true, false ); QCOMPARE( client2.constraints().contains(QCA::KeyCertificateSign) == true, false ); QCOMPARE( client2.constraints().contains(QCA::CRLSign) == true, false ); QCOMPARE( client2.constraints().contains(QCA::EncipherOnly) == true, false ); QCOMPARE( client2.constraints().contains(QCA::DecipherOnly) == true, false ); QCOMPARE( client2.constraints().contains(QCA::ServerAuth) == true, false ); QCOMPARE( client2.constraints().contains(QCA::ClientAuth) == true, true ); QCOMPARE( client2.constraints().contains(QCA::CodeSigning) == true, false ); QCOMPARE( client2.constraints().contains(QCA::EmailProtection) == true, true ); QCOMPARE( client2.constraints().contains(QCA::IPSecEndSystem) == true, false ); QCOMPARE( client2.constraints().contains(QCA::IPSecTunnel) == true, false); QCOMPARE( client2.constraints().contains(QCA::IPSecUser) == true, false ); QCOMPARE( client2.constraints().contains(QCA::TimeStamping) == true, false ); QCOMPARE( client2.constraints().contains(QCA::OCSPSigning) == true, false ); // no policies on this cert QCOMPARE( client2.policies().count(), 0 ); QCA::CertificateInfo subject2 = client2.subjectInfo(); QCOMPARE( subject2.isEmpty(), false ); QVERIFY( subject2.values(QCA::Country).contains("US") ); QVERIFY( subject2.values(QCA::Organization).contains("Qca Development and Test") ); QVERIFY( subject2.values(QCA::OrganizationalUnit).contains("Certificate Generation Section") ); QVERIFY( subject2.values(QCA::CommonName).contains("Qca Test Client Certificate") ); QCA::CertificateInfo issuer2 = client2.issuerInfo(); QCOMPARE( issuer2.isEmpty(), false ); QVERIFY( issuer2.values(QCA::Country).contains("AU") ); QVERIFY( issuer2.values(QCA::Organization).contains("Qca Development and Test") ); QVERIFY( issuer2.values(QCA::CommonName).contains("Qca Test Root Certificate") ); QByteArray subjectKeyID = QCA::Hex().stringToArray("1e604e03127d287ba40427a961b428a2d09b50d1").toByteArray(); QCOMPARE( client2.subjectKeyId(), subjectKeyID ); QCOMPARE( QCA::Hex().arrayToString(client2.issuerKeyId()), QString("f61c451de1b0458138c60568c1a7cb0f7ade0363") ); QCA::PublicKey pubkey2 = client2.subjectPublicKey(); QCOMPARE( pubkey2.isNull(), false ); QCOMPARE( pubkey2.isRSA(), true ); QCOMPARE( pubkey2.isDSA(), false ); QCOMPARE( pubkey2.isDH(), false ); QCOMPARE( pubkey2.isPublic(), true ); QCOMPARE( pubkey2.isPrivate(), false ); QCOMPARE( pubkey2.bitSize(), 1024 ); QCOMPARE( client2.pathLimit(), 0 ); QCOMPARE( client2.signatureAlgorithm(), QCA::EMSA3_SHA1 ); QCA::CertificateCollection trusted; QCA::CertificateCollection untrusted; QCOMPARE( client2.validate( trusted, untrusted ), QCA::ErrorInvalidCA ); QCA::ConvertResult resultca2; QCA::Certificate ca2 = QCA::Certificate::fromPEMFile( "certs/QcaTestRootCert.pem", &resultca2, provider); QCOMPARE( resultca2, QCA::ConvertGood ); trusted.addCertificate( ca2 ); QCOMPARE( client2.validate( trusted, untrusted ), QCA::ValidityGood ); QCOMPARE( client2.validate( trusted, untrusted, QCA::UsageAny ), QCA::ValidityGood ); QCOMPARE( client2.validate( trusted, untrusted, QCA::UsageTLSServer ), QCA::ErrorInvalidPurpose ); QCOMPARE( client2.validate( trusted, untrusted, QCA::UsageTLSClient ), QCA::ValidityGood ); QCOMPARE( client2.validate( trusted, untrusted, QCA::UsageCodeSigning ), QCA::ErrorInvalidPurpose ); QCOMPARE( client2.validate( trusted, untrusted, QCA::UsageTimeStamping ), QCA::ErrorInvalidPurpose ); QCOMPARE( client2.validate( trusted, untrusted, QCA::UsageEmailProtection ), QCA::ValidityGood ); QCOMPARE( client2.validate( trusted, untrusted, QCA::UsageCRLSigning ), QCA::ErrorInvalidPurpose ); QByteArray derClient2 = client2.toDER(); QCOMPARE( derClient2.isEmpty(), false ); QCA::Certificate fromDer2 = QCA::Certificate::fromDER( derClient2, &resultClient2, provider ); QCOMPARE( resultClient2, QCA::ConvertGood ); QVERIFY( fromDer2 == client2 ); QString pemClient2 = client2.toPEM(); QCOMPARE( pemClient2.isEmpty(), false ); QCA::Certificate fromPem2 = QCA::Certificate::fromPEM( pemClient2, &resultClient2, provider); QCOMPARE( resultClient2, QCA::ConvertGood ); QVERIFY( fromPem2 == client2); QCOMPARE( fromPem2 != fromDer2, false ); } } } void CertUnitTest::derCAcertstest() { QStringList providersToTest; providersToTest.append("qca-ossl"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QFile f("certs/ov-root-ca-cert.crt"); QVERIFY(f.open(QFile::ReadOnly)); QByteArray der = f.readAll(); QCA::ConvertResult resultca1; QCA::Certificate ca1 = QCA::Certificate::fromDER(der, &resultca1, provider); QCOMPARE( resultca1, QCA::ConvertGood ); QCOMPARE( ca1.pathLimit(), 0 ); QCOMPARE( ca1.isNull(), false ); QCOMPARE( ca1.isCA(), true ); QCOMPARE( ca1.isSelfSigned(), true ); QCOMPARE( ca1.serialNumber(), QCA::BigInteger(0) ); QCOMPARE( ca1.commonName(), QString("For Tests Only") ); QCA::CertificateInfo si = ca1.subjectInfo(); QCOMPARE( si.isEmpty(), false ); QCOMPARE( si.value(QCA::CommonName), QString("For Tests Only") ); QCOMPARE( si.value(QCA::Organization), QString("InsecureTestCertificate") ); QCOMPARE( si.value(QCA::Country), QString("de") ); QCA::CertificateInfo ii = ca1.issuerInfo(); QCOMPARE( ii.isEmpty(), false ); QCOMPARE( ii.value(QCA::CommonName), QString("For Tests Only") ); QCOMPARE( ii.value(QCA::Organization), QString("InsecureTestCertificate") ); QCOMPARE( ii.value(QCA::Country), QString("de") ); QCOMPARE( ca1.notValidBefore().toString(), QDateTime( QDate( 2001, 8, 17 ), QTime( 8, 30, 39 ), Qt::UTC ).toString() ); QCOMPARE( ca1.notValidAfter().toString(), QDateTime( QDate( 2011, 8, 15 ), QTime( 8, 30, 39 ), Qt::UTC ).toString() ); QCOMPARE( ca1.constraints().contains(QCA::DigitalSignature) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::NonRepudiation) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::KeyEncipherment) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::DataEncipherment) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::KeyAgreement) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::KeyCertificateSign) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::CRLSign) == true, true ); QCOMPARE( ca1.constraints().contains(QCA::EncipherOnly) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::DecipherOnly) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::ServerAuth) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::ClientAuth) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::CodeSigning) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::EmailProtection) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::IPSecEndSystem) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::IPSecTunnel) == true, false); QCOMPARE( ca1.constraints().contains(QCA::IPSecUser) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::TimeStamping) == true, false ); QCOMPARE( ca1.constraints().contains(QCA::OCSPSigning) == true, false ); // no policies on this cert QCOMPARE( ca1.policies().count(), 0 ); QCOMPARE( ca1.signatureAlgorithm(), QCA::EMSA3_MD5 ); } } } void CertUnitTest::altName() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultClient1; QCA::Certificate client1 = QCA::Certificate::fromPEMFile( "certs/altname.pem", &resultClient1, provider); QCOMPARE( resultClient1, QCA::ConvertGood ); QCOMPARE( client1.isNull(), false ); QCOMPARE( client1.isCA(), false ); QCOMPARE( client1.isSelfSigned(), false ); QCOMPARE( client1.serialNumber(), QCA::BigInteger(1) ); QCOMPARE( client1.commonName(), QString("Valid RFC822 nameConstraints EE Certificate Test21") ); QCOMPARE( client1.constraints().contains(QCA::DigitalSignature) == true, true ); QCOMPARE( client1.constraints().contains(QCA::NonRepudiation) == true, true ); QCOMPARE( client1.constraints().contains(QCA::KeyEncipherment) == true, true ); QCOMPARE( client1.constraints().contains(QCA::DataEncipherment) == true, true ); QCOMPARE( client1.constraints().contains(QCA::KeyAgreement) == true, false ); QCOMPARE( client1.constraints().contains(QCA::KeyCertificateSign) == true, false ); QCOMPARE( client1.constraints().contains(QCA::CRLSign) == true, false ); QCOMPARE( client1.constraints().contains(QCA::EncipherOnly) == true, false ); QCOMPARE( client1.constraints().contains(QCA::DecipherOnly) == true, false ); QCOMPARE( client1.constraints().contains(QCA::ServerAuth) == true, false ); QCOMPARE( client1.constraints().contains(QCA::ClientAuth) == true, false ); QCOMPARE( client1.constraints().contains(QCA::CodeSigning) == true, false ); QCOMPARE( client1.constraints().contains(QCA::EmailProtection) == true, false ); QCOMPARE( client1.constraints().contains(QCA::IPSecEndSystem) == true, false ); QCOMPARE( client1.constraints().contains(QCA::IPSecTunnel) == true, false); QCOMPARE( client1.constraints().contains(QCA::IPSecUser) == true, false ); QCOMPARE( client1.constraints().contains(QCA::TimeStamping) == true, false ); QCOMPARE( client1.constraints().contains(QCA::OCSPSigning) == true, false ); QCOMPARE( client1.policies().count(), 1 ); QCOMPARE( client1.policies().at(0), QString("2.16.840.1.101.3.2.1.48.1") ); QCA::CertificateInfo subject1 = client1.subjectInfo(); QCOMPARE( subject1.isEmpty(), false ); QVERIFY( subject1.values(QCA::Country).contains("US") ); QVERIFY( subject1.values(QCA::Organization).contains("Test Certificates") ); QVERIFY( subject1.values(QCA::CommonName).contains("Valid RFC822 nameConstraints EE Certificate Test21") ); QVERIFY( subject1.values(QCA::Email).contains("Test21EE@mailserver.testcertificates.gov") ); QCA::CertificateInfo issuer1 = client1.issuerInfo(); QCOMPARE( issuer1.isEmpty(), false ); QVERIFY( issuer1.values(QCA::Country).contains("US") ); QVERIFY( issuer1.values(QCA::Organization).contains("Test Certificates") ); QVERIFY( issuer1.values(QCA::CommonName).contains("nameConstraints RFC822 CA1") ); QByteArray subjectKeyID = QCA::Hex().stringToArray("b4200d42cd95ea87d463d54f0ed6d10fe5b73bfb").toByteArray(); QCOMPARE( client1.subjectKeyId(), subjectKeyID ); QCOMPARE( QCA::Hex().arrayToString(client1.issuerKeyId()), QString("e37f857a8ea23b9eeeb8121d7913aac4bd2e59ad") ); QCA::PublicKey pubkey1 = client1.subjectPublicKey(); QCOMPARE( pubkey1.isNull(), false ); QCOMPARE( pubkey1.isRSA(), true ); QCOMPARE( pubkey1.isDSA(), false ); QCOMPARE( pubkey1.isDH(), false ); QCOMPARE( pubkey1.isPublic(), true ); QCOMPARE( pubkey1.isPrivate(), false ); QCOMPARE( pubkey1.bitSize(), 1024 ); QCOMPARE( client1.pathLimit(), 0 ); QCOMPARE( client1.signatureAlgorithm(), QCA::EMSA3_SHA1 ); } } } void CertUnitTest::extXMPP() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultClient1; QCA::Certificate client1 = QCA::Certificate::fromPEMFile( "certs/xmppcert.pem", &resultClient1, provider); QCOMPARE( resultClient1, QCA::ConvertGood ); QCOMPARE( client1.isNull(), false ); QCOMPARE( client1.isCA(), false ); QCOMPARE( client1.isSelfSigned(), true ); QCOMPARE( client1.serialNumber(), QCA::BigInteger("9635301556349760241") ); QCOMPARE( client1.commonName(), QString("demo.jabber.com") ); QCA::CertificateInfo subject1 = client1.subjectInfo(); QCOMPARE( subject1.isEmpty(), false ); QVERIFY( subject1.values(QCA::Country).contains("US") ); QVERIFY( subject1.values(QCA::Organization).contains("Jabber, Inc.") ); QVERIFY( subject1.values(QCA::Locality).contains("Denver") ); QVERIFY( subject1.values(QCA::State).contains("Colorado") ); QVERIFY( subject1.values(QCA::CommonName).contains("demo.jabber.com") ); QVERIFY( subject1.values(QCA::DNS).contains("demo.jabber.com") ); QVERIFY( subject1.values(QCA::XMPP).contains("demo.jabber.com") ); QCA::CertificateInfo issuer1 = client1.issuerInfo(); QCOMPARE( issuer1.isEmpty(), false ); QVERIFY( issuer1.values(QCA::Country).contains("US") ); QVERIFY( issuer1.values(QCA::Organization).contains("Jabber, Inc.") ); QVERIFY( issuer1.values(QCA::Locality).contains("Denver") ); QVERIFY( issuer1.values(QCA::State).contains("Colorado") ); QVERIFY( issuer1.values(QCA::CommonName).contains("demo.jabber.com") ); } } } void CertUnitTest::altNames76() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultClient1; QCA::Certificate client1 = QCA::Certificate::fromPEMFile( "certs/76.pem", &resultClient1, provider); QCOMPARE( resultClient1, QCA::ConvertGood ); QCOMPARE( client1.isNull(), false ); QCOMPARE( client1.isCA(), false ); QCOMPARE( client1.isSelfSigned(), false ); QCOMPARE( client1.serialNumber(), QCA::BigInteger(118) ); QCOMPARE( client1.commonName(), QString("sip1.su.se") ); QCOMPARE( client1.constraints().contains(QCA::DigitalSignature) == true, true ); QCOMPARE( client1.constraints().contains(QCA::NonRepudiation) == true, true ); QCOMPARE( client1.constraints().contains(QCA::KeyEncipherment) == true, true ); QCOMPARE( client1.constraints().contains(QCA::DataEncipherment) == true, false ); QCOMPARE( client1.constraints().contains(QCA::KeyAgreement) == true, false ); QCOMPARE( client1.constraints().contains(QCA::KeyCertificateSign) == true, false ); QCOMPARE( client1.constraints().contains(QCA::CRLSign) == true, false ); QCOMPARE( client1.constraints().contains(QCA::EncipherOnly) == true, false ); QCOMPARE( client1.constraints().contains(QCA::DecipherOnly) == true, false ); QCOMPARE( client1.constraints().contains(QCA::ServerAuth) == true, true ); QCOMPARE( client1.constraints().contains(QCA::ClientAuth) == true, true ); QCOMPARE( client1.constraints().contains(QCA::CodeSigning) == true, false ); QCOMPARE( client1.constraints().contains(QCA::EmailProtection) == true, false ); QCOMPARE( client1.constraints().contains(QCA::IPSecEndSystem) == true, false ); QCOMPARE( client1.constraints().contains(QCA::IPSecTunnel) == true, false); QCOMPARE( client1.constraints().contains(QCA::IPSecUser) == true, false ); QCOMPARE( client1.constraints().contains(QCA::TimeStamping) == true, false ); QCOMPARE( client1.constraints().contains(QCA::OCSPSigning) == true, false ); QCOMPARE( client1.policies().count(), 1 ); QCA::CertificateInfo subject1 = client1.subjectInfo(); QCOMPARE( subject1.isEmpty(), false ); QVERIFY( subject1.values(QCA::Country).contains("SE") ); QVERIFY( subject1.values(QCA::Organization).contains("Stockholms universitet") ); QVERIFY( subject1.values(QCA::CommonName).contains("sip1.su.se") ); QCOMPARE( subject1.values(QCA::Email).count(), 0 ); QCOMPARE( subject1.values(QCA::DNS).count(), 8 ); QVERIFY( subject1.values(QCA::DNS).contains("incomingproxy.sip.su.se") ); QVERIFY( subject1.values(QCA::DNS).contains("incomingproxy1.sip.su.se") ); QVERIFY( subject1.values(QCA::DNS).contains("outgoingproxy.sip.su.se") ); QVERIFY( subject1.values(QCA::DNS).contains("outgoingproxy1.sip.su.se") ); QVERIFY( subject1.values(QCA::DNS).contains("out.sip.su.se") ); QVERIFY( subject1.values(QCA::DNS).contains("appserver.sip.su.se") ); QVERIFY( subject1.values(QCA::DNS).contains("appserver1.sip.su.se") ); QVERIFY( subject1.values(QCA::DNS).contains("sip1.su.se") ); QVERIFY( client1.matchesHostName("incomingproxy.sip.su.se") ); QVERIFY( client1.matchesHostName("incomingproxy1.sip.su.se") ); QVERIFY( client1.matchesHostName("outgoingproxy.sip.su.se") ); QVERIFY( client1.matchesHostName("outgoingproxy1.sip.su.se") ); QVERIFY( client1.matchesHostName("out.sip.su.se") ); QVERIFY( client1.matchesHostName("appserver.sip.su.se") ); QVERIFY( client1.matchesHostName("appserver1.sip.su.se") ); QVERIFY( client1.matchesHostName("sip1.su.se") ); QCA::CertificateInfo issuer1 = client1.issuerInfo(); QCOMPARE( issuer1.isEmpty(), false ); QVERIFY( issuer1.values(QCA::Country).contains("SE") ); QVERIFY( issuer1.values(QCA::Organization).contains("Stockholms universitet") ); QVERIFY( issuer1.values(QCA::CommonName).contains("Stockholm University CA") ); QVERIFY( issuer1.values(QCA::URI).contains("http://ca.su.se") ); QVERIFY( issuer1.values(QCA::Email).contains("ca@su.se") ); QByteArray subjectKeyID = QCA::Hex().stringToArray("3a5c5cd1cc2c9edf73f73bd81b59b1eab83035c5").toByteArray(); QCOMPARE( client1.subjectKeyId(), subjectKeyID ); QCOMPARE( QCA::Hex().arrayToString(client1.issuerKeyId()), QString("9e2e30ba37d95144c99dbf1821f1bd7eeeb58648") ); QCA::PublicKey pubkey1 = client1.subjectPublicKey(); QCOMPARE( pubkey1.isNull(), false ); QCOMPARE( pubkey1.isRSA(), true ); QCOMPARE( pubkey1.isDSA(), false ); QCOMPARE( pubkey1.isDH(), false ); QCOMPARE( pubkey1.isPublic(), true ); QCOMPARE( pubkey1.isPrivate(), false ); QCOMPARE( pubkey1.bitSize(), 1024 ); QCOMPARE( client1.pathLimit(), 0 ); QCOMPARE( client1.signatureAlgorithm(), QCA::EMSA3_SHA1 ); } } } void CertUnitTest::sha256cert() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QFile f("certs/RAIZ2007_CERTIFICATE_AND_CRL_SIGNING_SHA256.crt"); QVERIFY(f.open(QFile::ReadOnly)); QByteArray der = f.readAll(); QCA::ConvertResult resultcert; QCA::Certificate cert = QCA::Certificate::fromDER(der, &resultcert, provider); QCOMPARE( resultcert, QCA::ConvertGood ); QCOMPARE( cert.isNull(), false ); QCOMPARE( cert.isCA(), true ); QCOMPARE( cert.isSelfSigned(), true ); QCA::PublicKey pubkey = cert.subjectPublicKey(); QCOMPARE( pubkey.isNull(), false ); QCOMPARE( pubkey.isRSA(), true ); QCOMPARE( pubkey.isDSA(), false ); QCOMPARE( pubkey.isDH(), false ); QCOMPARE( pubkey.isPublic(), true ); QCOMPARE( pubkey.isPrivate(), false ); QCOMPARE( pubkey.bitSize(), 4096 ); QCOMPARE( cert.pathLimit(), 0 ); QCOMPARE( cert.signatureAlgorithm(), QCA::EMSA3_SHA256 ); } } } void CertUnitTest::checkExpiredServerCerts() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultServer1; QCA::Certificate server1 = QCA::Certificate::fromPEMFile( "certs/Server.pem", &resultServer1, provider); QCOMPARE( resultServer1, QCA::ConvertGood ); QCOMPARE( server1.isNull(), false ); QCOMPARE( server1.isCA(), false ); QCOMPARE( server1.isSelfSigned(), false ); QCOMPARE( server1.serialNumber(), QCA::BigInteger(4) ); QCOMPARE( server1.commonName(), QString("Insecure Server Cert") ); QCOMPARE( server1.notValidBefore().toString(), QDateTime( QDate( 2001, 8, 17 ), QTime( 8, 46, 24 ), Qt::UTC ).toString() ); QCOMPARE( server1.notValidAfter().toString(), QDateTime( QDate( 2006, 8, 16 ), QTime( 8, 46, 24 ), Qt::UTC ).toString() ); QCOMPARE( server1.constraints().contains(QCA::DigitalSignature) == true, true ); QCOMPARE( server1.constraints().contains(QCA::NonRepudiation) == true, false ); QCOMPARE( server1.constraints().contains(QCA::KeyEncipherment) == true, true ); QCOMPARE( server1.constraints().contains(QCA::DataEncipherment) == true, false ); QCOMPARE( server1.constraints().contains(QCA::KeyAgreement) == true, true ); QCOMPARE( server1.constraints().contains(QCA::KeyCertificateSign) == true, false ); QCOMPARE( server1.constraints().contains(QCA::CRLSign) == true, false ); QCOMPARE( server1.constraints().contains(QCA::EncipherOnly) == true, false ); QCOMPARE( server1.constraints().contains(QCA::DecipherOnly) == true, false ); QCOMPARE( server1.constraints().contains(QCA::ServerAuth) == true, true ); QCOMPARE( server1.constraints().contains(QCA::ClientAuth) == true, false ); QCOMPARE( server1.constraints().contains(QCA::CodeSigning) == true, false ); QCOMPARE( server1.constraints().contains(QCA::EmailProtection) == true, false ); QCOMPARE( server1.constraints().contains(QCA::IPSecEndSystem) == true, false ); QCOMPARE( server1.constraints().contains(QCA::IPSecTunnel) == true, false); QCOMPARE( server1.constraints().contains(QCA::IPSecUser) == true, false ); QCOMPARE( server1.constraints().contains(QCA::TimeStamping) == true, false ); QCOMPARE( server1.constraints().contains(QCA::OCSPSigning) == true, false ); // no policies on this cert QCOMPARE( server1.policies().count(), 0 ); QCA::CertificateInfo subject1 = server1.subjectInfo(); QCOMPARE( subject1.isEmpty(), false ); QCOMPARE( subject1.values(QCA::Country).contains("de") == true, true ); QCOMPARE( subject1.values(QCA::Organization).contains("InsecureTestCertificate") == true, true ); QCOMPARE( subject1.values(QCA::CommonName).contains("Insecure Server Cert") == true, true ); QCA::CertificateInfo issuer1 = server1.issuerInfo(); QCOMPARE( issuer1.isEmpty(), false ); QCOMPARE( issuer1.values(QCA::Country).contains("de") == true, true ); QCOMPARE( issuer1.values(QCA::Organization).contains("InsecureTestCertificate") == true, true ); QCOMPARE( issuer1.values(QCA::CommonName).contains("For Tests Only") == true, true ); QByteArray subjectKeyID = QCA::Hex().stringToArray("0234E2C906F6E0B44253BE04C0CBA7823A6DB509").toByteArray(); QCOMPARE( server1.subjectKeyId(), subjectKeyID ); QByteArray authorityKeyID = QCA::Hex().stringToArray("BF53438278D09EC380E51B67CA0500DFB94883A5").toByteArray(); QCOMPARE( server1.issuerKeyId(), authorityKeyID ); QCA::PublicKey pubkey1 = server1.subjectPublicKey(); QCOMPARE( pubkey1.isNull(), false ); QCOMPARE( pubkey1.isRSA(), true ); QCOMPARE( pubkey1.isDSA(), false ); QCOMPARE( pubkey1.isDH(), false ); QCOMPARE( pubkey1.isPublic(), true ); QCOMPARE( pubkey1.isPrivate(), false ); QCOMPARE( pubkey1.bitSize(), 1024 ); QCOMPARE( server1.pathLimit(), 0 ); QCOMPARE( server1.signatureAlgorithm(), QCA::EMSA3_MD5 ); QCA::CertificateCollection trusted; QCA::CertificateCollection untrusted; QCOMPARE( server1.validate( trusted, untrusted ), QCA::ErrorInvalidCA ); QCA::ConvertResult resultca1; QCA::Certificate ca1 = QCA::Certificate::fromPEMFile( "certs/RootCAcert.pem", &resultca1, provider); QCOMPARE( resultca1, QCA::ConvertGood ); trusted.addCertificate( ca1 ); QCOMPARE( server1.validate( trusted, untrusted ), QCA::ErrorExpired ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageAny ), QCA::ErrorExpired ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageTLSServer ), QCA::ErrorExpired ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageTLSClient ), QCA::ErrorExpired ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageCodeSigning ), QCA::ErrorExpired ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageTimeStamping ), QCA::ErrorExpired ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageEmailProtection ), QCA::ErrorExpired ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageCRLSigning ), QCA::ErrorExpired ); QByteArray derServer1 = server1.toDER(); QCOMPARE( derServer1.isEmpty(), false ); QCA::Certificate fromDer1 = QCA::Certificate::fromDER( derServer1, &resultServer1, provider ); QCOMPARE( resultServer1, QCA::ConvertGood ); QCOMPARE( fromDer1 == server1, true ); } } } void CertUnitTest::checkServerCerts() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "cert", provider ) ) QWARN( QString( "Certificate handling not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultServer1; QCA::Certificate server1 = QCA::Certificate::fromPEMFile( "certs/QcaTestServerCert.pem", &resultServer1, provider); QCOMPARE( resultServer1, QCA::ConvertGood ); QCOMPARE( server1.isNull(), false ); QCOMPARE( server1.isCA(), false ); QCOMPARE( server1.isSelfSigned(), false ); QCOMPARE( server1.serialNumber(), QCA::BigInteger("13149359243510447489") ); QCOMPARE( server1.commonName(), QString("Qca Server Test certificate") ); QCOMPARE( server1.notValidBefore().toString(), QDateTime( QDate( 2013, 7, 31 ), QTime( 15, 23, 25 ), Qt::UTC ).toString() ); QCOMPARE( server1.notValidAfter().toString(), QDateTime( QDate( 2033, 7, 26 ), QTime( 15, 23, 25 ), Qt::UTC ).toString() ); QCOMPARE( server1.constraints().contains(QCA::DigitalSignature) == true, true ); QCOMPARE( server1.constraints().contains(QCA::NonRepudiation) == true, true ); QCOMPARE( server1.constraints().contains(QCA::KeyEncipherment) == true, true ); QCOMPARE( server1.constraints().contains(QCA::DataEncipherment) == true, false ); QCOMPARE( server1.constraints().contains(QCA::KeyAgreement) == true, false ); QCOMPARE( server1.constraints().contains(QCA::KeyCertificateSign) == true, false ); QCOMPARE( server1.constraints().contains(QCA::CRLSign) == true, false ); QCOMPARE( server1.constraints().contains(QCA::EncipherOnly) == true, false ); QCOMPARE( server1.constraints().contains(QCA::DecipherOnly) == true, false ); QCOMPARE( server1.constraints().contains(QCA::ServerAuth) == true, true ); QCOMPARE( server1.constraints().contains(QCA::ClientAuth) == true, false ); QCOMPARE( server1.constraints().contains(QCA::CodeSigning) == true, false ); QCOMPARE( server1.constraints().contains(QCA::EmailProtection) == true, false ); QCOMPARE( server1.constraints().contains(QCA::IPSecEndSystem) == true, false ); QCOMPARE( server1.constraints().contains(QCA::IPSecTunnel) == true, false); QCOMPARE( server1.constraints().contains(QCA::IPSecUser) == true, false ); QCOMPARE( server1.constraints().contains(QCA::TimeStamping) == true, false ); QCOMPARE( server1.constraints().contains(QCA::OCSPSigning) == true, false ); // no policies on this cert QCOMPARE( server1.policies().count(), 0 ); QCA::CertificateInfo subject1 = server1.subjectInfo(); QCOMPARE( subject1.isEmpty(), false ); QVERIFY( subject1.values(QCA::Country).contains("IL") ); QVERIFY( subject1.values(QCA::Organization).contains("Qca Development and Test") ); QVERIFY( subject1.values(QCA::OrganizationalUnit).contains("Server Management Section") ); QVERIFY( subject1.values(QCA::CommonName).contains("Qca Server Test certificate") ); QCA::CertificateInfo issuer1 = server1.issuerInfo(); QCOMPARE( issuer1.isEmpty(), false ); QVERIFY( issuer1.values(QCA::Country).contains("AU") ); QVERIFY( issuer1.values(QCA::Organization).contains("Qca Development and Test") ); QVERIFY( issuer1.values(QCA::OrganizationalUnit).contains("Certificate Generation Section") ); QVERIFY( issuer1.values(QCA::CommonName).contains("Qca Test Root Certificate") ); QByteArray subjectKeyID = QCA::Hex().stringToArray("819870c8b81eab53e72d0446b65790aa0d3eab1a").toByteArray(); QCOMPARE( server1.subjectKeyId(), subjectKeyID ); QByteArray authorityKeyID = QCA::Hex().stringToArray("f61c451de1b0458138c60568c1a7cb0f7ade0363").toByteArray(); QCOMPARE( server1.issuerKeyId(), authorityKeyID ); QCA::PublicKey pubkey1 = server1.subjectPublicKey(); QCOMPARE( pubkey1.isNull(), false ); QCOMPARE( pubkey1.isRSA(), true ); QCOMPARE( pubkey1.isDSA(), false ); QCOMPARE( pubkey1.isDH(), false ); QCOMPARE( pubkey1.isPublic(), true ); QCOMPARE( pubkey1.isPrivate(), false ); QCOMPARE( pubkey1.bitSize(), 1024 ); QCOMPARE( server1.pathLimit(), 0 ); QCOMPARE( server1.signatureAlgorithm(), QCA::EMSA3_SHA1 ); QCA::CertificateCollection trusted; QCA::CertificateCollection untrusted; QCOMPARE( server1.validate( trusted, untrusted ), QCA::ErrorInvalidCA ); QCA::ConvertResult resultca1; QCA::Certificate ca1 = QCA::Certificate::fromPEMFile( "certs/QcaTestRootCert.pem", &resultca1, provider); QCOMPARE( resultca1, QCA::ConvertGood ); trusted.addCertificate( ca1 ); QCOMPARE( server1.validate( trusted, untrusted ), QCA::ValidityGood ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageAny ), QCA::ValidityGood ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageTLSServer ), QCA::ValidityGood ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageTLSClient ), QCA::ErrorInvalidPurpose ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageCodeSigning ), QCA::ErrorInvalidPurpose ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageTimeStamping ), QCA::ErrorInvalidPurpose ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageEmailProtection ), QCA::ErrorInvalidPurpose ); QCOMPARE( server1.validate( trusted, untrusted, QCA::UsageCRLSigning ), QCA::ErrorInvalidPurpose ); QByteArray derServer1 = server1.toDER(); QCOMPARE( derServer1.isEmpty(), false ); QCA::Certificate fromDer1 = QCA::Certificate::fromDER( derServer1, &resultServer1, provider ); QCOMPARE( resultServer1, QCA::ConvertGood ); QCOMPARE( fromDer1 == server1, true ); } } } void CertUnitTest::checkSystemStore() { if ( QCA::isSupported("cert") && QCA::isSupported("crl") ) { QCOMPARE( QCA::haveSystemStore(), true ); QCA::CertificateCollection collection1; collection1 = QCA::systemStore(); // Do we have any certs? QVERIFY( collection1.certificates().count() > 0); } else { QCOMPARE( QCA::haveSystemStore(), false ); } } void CertUnitTest::crl() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "crl", provider ) ) QWARN( QString( "Certificate revocation not supported for "+provider).toLocal8Bit() ); else { QCA::CRL emptyCRL; QVERIFY( emptyCRL.isNull() ); QCA::ConvertResult resultCrl; QCA::CRL crl1 = QCA::CRL::fromPEMFile( "certs/Test_CRL.crl", &resultCrl, provider); QCOMPARE( resultCrl, QCA::ConvertGood ); QCOMPARE( crl1.isNull(), false ); QCA::CertificateInfo issuer = crl1.issuerInfo(); QCOMPARE( issuer.isEmpty(), false ); QVERIFY( issuer.values(QCA::Country).contains("de") ); QVERIFY( issuer.values(QCA::Organization).contains("InsecureTestCertificate") ); QVERIFY( issuer.values(QCA::CommonName).contains("For Tests Only") ); // No keyid extension on this crl QCOMPARE( QCA::arrayToHex( crl1.issuerKeyId() ), QString("") ); QCOMPARE( crl1.thisUpdate(), QDateTime(QDate(2001, 8, 17), QTime(11, 12, 03), Qt::UTC) ); QCOMPARE( crl1.nextUpdate(), QDateTime(QDate(2006, 8, 16), QTime(11, 12, 03), Qt::UTC) ); QCOMPARE( crl1.signatureAlgorithm(), QCA::EMSA3_MD5 ); QCOMPARE( crl1.issuerKeyId(), QByteArray("") ); QCOMPARE( crl1, QCA::CRL(crl1) ); QCOMPARE( crl1 == QCA::CRL(), false ); QCOMPARE( crl1.number(), -1 ); QList revokedList = crl1.revoked(); QCOMPARE( revokedList.size(), 2 ); qSort(revokedList); QCOMPARE( revokedList[0].serialNumber(), QCA::BigInteger("3") ); QCOMPARE( revokedList[1].serialNumber(), QCA::BigInteger("5") ); QCOMPARE( revokedList[0].reason(), QCA::CRLEntry::Unspecified ); QCOMPARE( revokedList[1].reason(), QCA::CRLEntry::Unspecified ); QCOMPARE( revokedList[0].time(), QDateTime(QDate(2001, 8, 17), QTime(11, 10, 39), Qt::UTC) ); QCOMPARE( revokedList[1].time(), QDateTime(QDate(2001, 8, 17), QTime(11, 11, 59), Qt::UTC) ); // convert to DER QByteArray derCRL1 = crl1.toDER(); // check we got something, at least QCOMPARE( derCRL1.isEmpty(), false ); // convert back from DER QCA::CRL fromDer1 = QCA::CRL::fromDER( derCRL1, &resultCrl, provider ); // check the conversion at least appeared to work QCOMPARE( resultCrl, QCA::ConvertGood ); // check the result is the same as what we started with QCOMPARE( fromDer1, crl1 ); } } } void CertUnitTest::crl2() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "crl", provider ) ) QWARN( QString( "Certificate revocation not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultCrl; QCA::CRL crl1 = QCA::CRL::fromPEMFile( "certs/GoodCACRL.pem", &resultCrl, provider); QCOMPARE( resultCrl, QCA::ConvertGood ); QCOMPARE( crl1.isNull(), false ); QCOMPARE( crl1.provider()->name(), provider ); QCA::CertificateInfo issuer = crl1.issuerInfo(); QCOMPARE( issuer.isEmpty(), false ); QVERIFY( issuer.values(QCA::Country).contains("US") ); QVERIFY( issuer.values(QCA::Organization).contains("Test Certificates") ); QVERIFY( issuer.values(QCA::CommonName).contains("Good CA") ); QCOMPARE( crl1.thisUpdate(), QDateTime(QDate(2001, 4, 19), QTime(14, 57, 20), Qt::UTC) ); QCOMPARE( crl1.nextUpdate(), QDateTime(QDate(2011, 4, 19), QTime(14, 57, 20), Qt::UTC) ); QCOMPARE( crl1.signatureAlgorithm(), QCA::EMSA3_SHA1 ); QCOMPARE( QCA::arrayToHex( crl1.issuerKeyId() ), QString("b72ea682cbc2c8bca87b2744d73533df9a1594c7") ); QCOMPARE( crl1.number(), 1 ); QCOMPARE( crl1, QCA::CRL(crl1) ); QCOMPARE( crl1 == QCA::CRL(), false ); QList revokedList = crl1.revoked(); QCOMPARE( revokedList.size(), 2 ); qSort(revokedList); QCOMPARE( revokedList[0].serialNumber(), QCA::BigInteger("14") ); QCOMPARE( revokedList[1].serialNumber(), QCA::BigInteger("15") ); QCOMPARE( revokedList[0].reason(), QCA::CRLEntry::KeyCompromise ); QCOMPARE( revokedList[1].reason(), QCA::CRLEntry::KeyCompromise ); QCOMPARE( revokedList[0].time(), QDateTime(QDate(2001, 4, 19), QTime(14, 57, 20), Qt::UTC) ); QCOMPARE( revokedList[1].time(), QDateTime(QDate(2001, 4, 19), QTime(14, 57, 20), Qt::UTC) ); // convert to DER QByteArray derCRL1 = crl1.toDER(); // check we got something, at least QCOMPARE( derCRL1.isEmpty(), false ); // convert back from DER QCA::CRL fromDer1 = QCA::CRL::fromDER( derCRL1, &resultCrl, provider ); // check the conversion at least appeared to work QCOMPARE( resultCrl, QCA::ConvertGood ); // check the result is the same as what we started with QCOMPARE( fromDer1, crl1 ); // convert to PEM QString pemCRL1 = crl1.toPEM(); // check we got something, at least QCOMPARE( pemCRL1.isEmpty(), false ); // convert back from PEM QCA::CRL fromPEM1 = QCA::CRL::fromPEM( pemCRL1, &resultCrl, provider ); // check the conversion at least appeared to work QCOMPARE( resultCrl, QCA::ConvertGood ); // check the result is the same as what we started with QCOMPARE( fromPEM1, crl1 ); } } } void CertUnitTest::csr() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "csr", provider ) ) QWARN( QString( "Certificate signing requests not supported for "+provider).toLocal8Bit() ); else { QCA::CertificateRequest nullCSR; QVERIFY( nullCSR.isNull() ); QCA::CertificateRequest anotherNullCSR = nullCSR; QVERIFY( anotherNullCSR.isNull() ); QCOMPARE( nullCSR, anotherNullCSR); QCA::ConvertResult resultCsr; QCA::CertificateRequest csr1 = QCA::CertificateRequest::fromPEMFile( "certs/csr1.pem", &resultCsr, provider); QCOMPARE( resultCsr, QCA::ConvertGood ); QCOMPARE( csr1.isNull(), false ); QCOMPARE( csr1.provider()->name(), provider ); QCA::CertificateInfo subject = csr1.subjectInfo(); QCOMPARE( subject.isEmpty(), false ); QVERIFY( subject.values(QCA::Country).contains("AU") ); QVERIFY( subject.values(QCA::State).contains("Victoria") ); QVERIFY( subject.values(QCA::Locality).contains("Mitcham") ); QVERIFY( subject.values(QCA::Organization).contains("GE Interlogix") ); QVERIFY( subject.values(QCA::OrganizationalUnit).contains("Engineering") ); QVERIFY( subject.values(QCA::CommonName).contains("coldfire") ); QCA::PublicKey pkey = csr1.subjectPublicKey(); QCOMPARE( pkey.isNull(), false ); QVERIFY( pkey.isRSA() ); QCA::RSAPublicKey rsaPkey = pkey.toRSA(); QCOMPARE( rsaPkey.isNull(), false ); QCOMPARE( rsaPkey.e(), QCA::BigInteger(65537) ); QCOMPARE( rsaPkey.n(), QCA::BigInteger("104853561647822232509211983664549572246855698961210758585652966258891659217901732470712446421431206166165309547771124747713609923038218156616083520796442797276676074122658684367500665423564881889504308700315044585826841844654287577169905826705891670004942854611681809539126326134927995969418712881512819058439") ); QCOMPARE( csr1.signatureAlgorithm(), QCA::EMSA3_MD5 ); } } } void CertUnitTest::csr2() { QStringList providersToTest; providersToTest.append("qca-ossl"); // providersToTest.append("qca-botan"); foreach(const QString provider, providersToTest) { if( !QCA::isSupported( "csr", provider ) ) QWARN( QString( "Certificate signing requests not supported for "+provider).toLocal8Bit() ); else { QCA::ConvertResult resultCsr; QCA::CertificateRequest csr1 = QCA::CertificateRequest::fromPEMFile( "certs/newreq.pem", &resultCsr, provider); QCOMPARE( resultCsr, QCA::ConvertGood ); QCOMPARE( csr1.isNull(), false ); QCOMPARE( csr1.provider()->name(), provider ); QCA::CertificateInfo subject = csr1.subjectInfo(); QCOMPARE( subject.isEmpty(), false ); QVERIFY( subject.values(QCA::Country).contains("AI") ); QVERIFY( subject.values(QCA::State).contains("Hutt River Province") ); QVERIFY( subject.values(QCA::Locality).contains("Lesser Internet") ); QVERIFY( subject.values(QCA::Organization).contains("My Company Ltd") ); QVERIFY( subject.values(QCA::OrganizationalUnit).contains("Backwater Branch Office") ); QVERIFY( subject.values(QCA::CommonName).contains("FirstName Surname") ); QCA::PublicKey pkey = csr1.subjectPublicKey(); QCOMPARE( pkey.isNull(), false ); QVERIFY( pkey.isRSA() ); QCA::RSAPublicKey rsaPkey = pkey.toRSA(); QCOMPARE( rsaPkey.isNull(), false ); QCOMPARE( rsaPkey.e(), QCA::BigInteger(65537) ); QCOMPARE( rsaPkey.n(), QCA::BigInteger("151872780463004414908584891835397365176526767139347372444365914360701714510188717169754430290680734981291754624394094502297070722505032645306680495915914243593438796635264236530526146243919417744996366836534380790370421346490191416041004278161146551997010463199760480957900518811859984176646089981367745961681" ) ); QCOMPARE( csr1.signatureAlgorithm(), QCA::EMSA3_MD5 ); // convert to DER QByteArray derCSR1 = csr1.toDER(); // check we got something, at least QCOMPARE( derCSR1.isEmpty(), false ); // convert back from DER QCA::CertificateRequest fromDer1 = QCA::CertificateRequest::fromDER( derCSR1, &resultCsr, provider ); // check the conversion at least appeared to work QCOMPARE( resultCsr, QCA::ConvertGood ); // check the result is the same as what we started with QCOMPARE( fromDer1, csr1 ); // convert to PEM QString pemCSR1 = csr1.toPEM(); // check we got something, at least QCOMPARE( pemCSR1.isEmpty(), false ); // convert back from PEM QCA::CertificateRequest fromPEM1 = QCA::CertificateRequest::fromPEM( pemCSR1, &resultCsr, provider ); // check the conversion at least appeared to work QCOMPARE( resultCsr, QCA::ConvertGood ); // check the result is the same as what we started with QCOMPARE( fromPEM1, csr1 ); } } } QTEST_MAIN(CertUnitTest) #include "certunittest.moc"