qt5base-lts/tests/auto/network/ssl/qsslcertificate/tst_qsslcertificate.cpp
Mårten Nordheim ef242e0b34 OpenSSL 1.1.1: Fix tst_QSslCertificate::toText
The formatting of the output from QSslCertificate::toText has
changed slightly from before, so it no longer matches the test's
data.

From what I can tell we just do a manual sanity check and create
a new file with the new output and then augment the test.

Task-number: QTBUG-67463
Change-Id: I751e5a3f9a28015f97c895cea47384704fd68e38
Reviewed-by: Timur Pocheptsov <timur.pocheptsov@qt.io>
2018-05-04 12:57:47 +00:00

1359 lines
56 KiB
C++

/****************************************************************************
**
** Copyright (C) 2016 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of the test suite of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:GPL-EXCEPT$
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** accordance with the commercial license agreement provided with the
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** information use the contact form at https://www.qt.io/contact-us.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3 as published by the Free Software
** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
** included in the packaging of this file. Please review the following
** information to ensure the GNU General Public License requirements will
** be met: https://www.gnu.org/licenses/gpl-3.0.html.
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****************************************************************************/
#include <QtTest/QtTest>
#include <qsslcertificate.h>
#include <qsslkey.h>
#include <qsslsocket.h>
#include <qsslcertificateextension.h>
class tst_QSslCertificate : public QObject
{
Q_OBJECT
struct CertInfo {
QFileInfo fileInfo;
QFileInfo fileInfo_digest_md5;
QFileInfo fileInfo_digest_sha1;
QSsl::EncodingFormat format;
CertInfo(const QFileInfo &fileInfo, QSsl::EncodingFormat format)
: fileInfo(fileInfo), format(format) {}
};
QList<CertInfo> certInfoList;
QMap<QString, QString> subjAltNameMap;
QMap<QString, QString> pubkeyMap;
QMap<QString, QString> md5Map;
QMap<QString, QString> sha1Map;
void createTestRows();
#ifndef QT_NO_SSL
void compareCertificates(const QSslCertificate & cert1, const QSslCertificate & cert2);
#endif
public slots:
void initTestCase();
#ifndef QT_NO_SSL
private slots:
void hash();
void emptyConstructor();
void constructor_data();
void constructor();
void constructor_device();
void constructingGarbage();
void copyAndAssign_data();
void copyAndAssign();
void digest_data();
void digest();
void subjectAlternativeNames_data();
void utf8SubjectNames();
void subjectAlternativeNames();
void publicKey_data();
void publicKey();
void toPemOrDer_data();
void toPemOrDer();
void fromDevice();
void fromPath_data();
void fromPath();
void certInfo();
void certInfoQByteArray();
void task256066toPem();
void nulInCN();
void nulInSan();
void largeSerialNumber();
void largeExpirationDate();
void blacklistedCertificates();
void selfsignedCertificates();
void toText();
void multipleCommonNames();
void subjectAndIssuerAttributes();
void verify();
void extensions();
void extensionsCritical();
void threadSafeConstMethods();
void version_data();
void version();
void pkcs12();
// helper for verbose test failure messages
QString toString(const QList<QSslError>&);
// ### add tests for certificate bundles (multiple certificates concatenated into a single
// structure); both PEM and DER formatted
#endif
private:
QString testDataDir;
};
void tst_QSslCertificate::initTestCase()
{
testDataDir = QFileInfo(QFINDTESTDATA("certificates")).absolutePath();
if (testDataDir.isEmpty())
testDataDir = QCoreApplication::applicationDirPath();
if (!testDataDir.endsWith(QLatin1String("/")))
testDataDir += QLatin1String("/");
QDir dir(testDataDir + "certificates");
QFileInfoList fileInfoList = dir.entryInfoList(QDir::Files | QDir::Readable);
QRegExp rxCert(QLatin1String("^.+\\.(pem|der)$"));
QRegExp rxSan(QLatin1String("^(.+\\.(?:pem|der))\\.san$"));
QRegExp rxPubKey(QLatin1String("^(.+\\.(?:pem|der))\\.pubkey$"));
QRegExp rxDigest(QLatin1String("^(.+\\.(?:pem|der))\\.digest-(md5|sha1)$"));
foreach (QFileInfo fileInfo, fileInfoList) {
if (rxCert.indexIn(fileInfo.fileName()) >= 0)
certInfoList <<
CertInfo(fileInfo,
rxCert.cap(1) == QLatin1String("pem") ? QSsl::Pem : QSsl::Der);
if (rxSan.indexIn(fileInfo.fileName()) >= 0)
subjAltNameMap.insert(rxSan.cap(1), fileInfo.absoluteFilePath());
if (rxPubKey.indexIn(fileInfo.fileName()) >= 0)
pubkeyMap.insert(rxPubKey.cap(1), fileInfo.absoluteFilePath());
if (rxDigest.indexIn(fileInfo.fileName()) >= 0) {
if (rxDigest.cap(2) == QLatin1String("md5"))
md5Map.insert(rxDigest.cap(1), fileInfo.absoluteFilePath());
else
sha1Map.insert(rxDigest.cap(1), fileInfo.absoluteFilePath());
}
}
}
#ifndef QT_NO_SSL
void tst_QSslCertificate::hash()
{
// mostly a compile-only test, to check that qHash(QSslCertificate) is found.
QSet<QSslCertificate> certs;
certs << QSslCertificate();
QCOMPARE(certs.size(), 1);
}
static QByteArray readFile(const QString &absFilePath)
{
QFile file(absFilePath);
if (!file.open(QIODevice::ReadOnly)) {
QWARN("failed to open file");
return QByteArray();
}
return file.readAll();
}
void tst_QSslCertificate::emptyConstructor()
{
if (!QSslSocket::supportsSsl())
return;
QSslCertificate certificate;
QVERIFY(certificate.isNull());
//make sure none of the functions crash (task 203035)
QVERIFY(!certificate.isBlacklisted());
QCOMPARE(certificate.version() , QByteArray());
QCOMPARE(certificate.serialNumber(), QByteArray());
QCOMPARE(certificate.digest(), QCryptographicHash::hash(QByteArray(), QCryptographicHash::Md5));
QCOMPARE(certificate.issuerInfo(QSslCertificate::Organization), QStringList());
QCOMPARE(certificate.subjectInfo(QSslCertificate::Organization), QStringList());
QCOMPARE(certificate.subjectAlternativeNames(),(QMultiMap<QSsl::AlternativeNameEntryType, QString>()));
QCOMPARE(certificate.effectiveDate(), QDateTime());
QCOMPARE(certificate.expiryDate(), QDateTime());
}
Q_DECLARE_METATYPE(QSsl::EncodingFormat);
void tst_QSslCertificate::createTestRows()
{
QTest::addColumn<QString>("absFilePath");
QTest::addColumn<QSsl::EncodingFormat>("format");
foreach (CertInfo certInfo, certInfoList) {
QTest::newRow(certInfo.fileInfo.fileName().toLatin1())
<< certInfo.fileInfo.absoluteFilePath() << certInfo.format;
}
}
void tst_QSslCertificate::constructor_data()
{
createTestRows();
}
void tst_QSslCertificate::constructor()
{
if (!QSslSocket::supportsSsl())
return;
QFETCH(QString, absFilePath);
QFETCH(QSsl::EncodingFormat, format);
QByteArray encoded = readFile(absFilePath);
QSslCertificate certificate(encoded, format);
QVERIFY(!certificate.isNull());
}
void tst_QSslCertificate::constructor_device()
{
if (!QSslSocket::supportsSsl())
return;
QFile f(testDataDir + "verify-certs/test-ocsp-good-cert.pem");
bool ok = f.open(QIODevice::ReadOnly);
QVERIFY(ok);
QSslCertificate cert(&f);
QVERIFY(!cert.isNull());
f.close();
// Check opening a DER as a PEM fails
QFile f2(testDataDir + "certificates/cert.der");
ok = f2.open(QIODevice::ReadOnly);
QVERIFY(ok);
QSslCertificate cert2(&f2);
QVERIFY(cert2.isNull());
f2.close();
// Check opening a DER as a DER works
QFile f3(testDataDir + "certificates/cert.der");
ok = f3.open(QIODevice::ReadOnly);
QVERIFY(ok);
QSslCertificate cert3(&f3, QSsl::Der);
QVERIFY(!cert3.isNull());
f3.close();
// Check opening a PEM as a DER fails
QFile f4(testDataDir + "verify-certs/test-ocsp-good-cert.pem");
ok = f4.open(QIODevice::ReadOnly);
QVERIFY(ok);
QSslCertificate cert4(&f4, QSsl::Der);
QVERIFY(cert4.isNull());
f4.close();
}
void tst_QSslCertificate::constructingGarbage()
{
if (!QSslSocket::supportsSsl())
return;
QByteArray garbage("garbage");
QSslCertificate certificate(garbage);
QVERIFY(certificate.isNull());
}
void tst_QSslCertificate::copyAndAssign_data()
{
createTestRows();
}
void tst_QSslCertificate::compareCertificates(
const QSslCertificate & cert1, const QSslCertificate & cert2)
{
QCOMPARE(cert1.isNull(), cert2.isNull());
// Note: in theory, the next line could fail even if the certificates are identical!
QCOMPARE(cert1.isBlacklisted(), cert2.isBlacklisted());
QCOMPARE(cert1.version(), cert2.version());
QCOMPARE(cert1.serialNumber(), cert2.serialNumber());
QCOMPARE(cert1.digest(), cert2.digest());
QCOMPARE(cert1.toPem(), cert2.toPem());
QCOMPARE(cert1.toDer(), cert2.toDer());
for (int info = QSslCertificate::Organization;
info <= QSslCertificate::StateOrProvinceName; info++) {
const QSslCertificate::SubjectInfo subjectInfo = (QSslCertificate::SubjectInfo)info;
QCOMPARE(cert1.issuerInfo(subjectInfo), cert2.issuerInfo(subjectInfo));
QCOMPARE(cert1.subjectInfo(subjectInfo), cert2.subjectInfo(subjectInfo));
}
QCOMPARE(cert1.subjectAlternativeNames(), cert2.subjectAlternativeNames());
QCOMPARE(cert1.effectiveDate(), cert2.effectiveDate());
QCOMPARE(cert1.expiryDate(), cert2.expiryDate());
QCOMPARE(cert1.version(), cert2.version());
QCOMPARE(cert1.serialNumber(), cert2.serialNumber());
// ### add more functions here ...
}
void tst_QSslCertificate::copyAndAssign()
{
if (!QSslSocket::supportsSsl())
return;
QFETCH(QString, absFilePath);
QFETCH(QSsl::EncodingFormat, format);
QByteArray encoded = readFile(absFilePath);
QSslCertificate certificate(encoded, format);
QVERIFY(!certificate.isNull());
QSslCertificate copied(certificate);
compareCertificates(certificate, copied);
QSslCertificate assigned = certificate;
compareCertificates(certificate, assigned);
}
void tst_QSslCertificate::digest_data()
{
QTest::addColumn<QString>("absFilePath");
QTest::addColumn<QSsl::EncodingFormat>("format");
QTest::addColumn<QString>("absFilePath_digest_md5");
QTest::addColumn<QString>("absFilePath_digest_sha1");
foreach (CertInfo certInfo, certInfoList) {
QString certName = certInfo.fileInfo.fileName();
QTest::newRow(certName.toLatin1())
<< certInfo.fileInfo.absoluteFilePath()
<< certInfo.format
<< md5Map.value(certName)
<< sha1Map.value(certName);
}
}
// Converts a digest of the form '{MD5|SHA1} Fingerprint=AB:B8:32...' to binary format.
static QByteArray convertDigest(const QByteArray &input)
{
QByteArray result;
QRegExp rx(QLatin1String("(?:=|:)([0-9A-Fa-f]{2})"));
int pos = 0;
while ((pos = rx.indexIn(input, pos)) != -1) {
result.append(rx.cap(1).toLatin1());
pos += rx.matchedLength();
}
return QByteArray::fromHex(result);
}
void tst_QSslCertificate::digest()
{
if (!QSslSocket::supportsSsl())
return;
QFETCH(QString, absFilePath);
QFETCH(QSsl::EncodingFormat, format);
QFETCH(QString, absFilePath_digest_md5);
QFETCH(QString, absFilePath_digest_sha1);
QByteArray encoded = readFile(absFilePath);
QSslCertificate certificate(encoded, format);
QVERIFY(!certificate.isNull());
if (!absFilePath_digest_md5.isEmpty())
QCOMPARE(convertDigest(readFile(absFilePath_digest_md5)),
certificate.digest(QCryptographicHash::Md5));
if (!absFilePath_digest_sha1.isEmpty())
QCOMPARE(convertDigest(readFile(absFilePath_digest_sha1)),
certificate.digest(QCryptographicHash::Sha1));
}
void tst_QSslCertificate::subjectAlternativeNames_data()
{
QTest::addColumn<QString>("certFilePath");
QTest::addColumn<QSsl::EncodingFormat>("format");
QTest::addColumn<QString>("subjAltNameFilePath");
foreach (CertInfo certInfo, certInfoList) {
QString certName = certInfo.fileInfo.fileName();
if (subjAltNameMap.contains(certName))
QTest::newRow(certName.toLatin1())
<< certInfo.fileInfo.absoluteFilePath()
<< certInfo.format
<< subjAltNameMap.value(certName);
}
}
void tst_QSslCertificate::subjectAlternativeNames()
{
if (!QSslSocket::supportsSsl())
return;
QFETCH(QString, certFilePath);
QFETCH(QSsl::EncodingFormat, format);
QFETCH(QString, subjAltNameFilePath);
QByteArray encodedCert = readFile(certFilePath);
QSslCertificate certificate(encodedCert, format);
QVERIFY(!certificate.isNull());
QByteArray fileContents = readFile(subjAltNameFilePath);
const QMultiMap<QSsl::AlternativeNameEntryType, QString> altSubjectNames =
certificate.subjectAlternativeNames();
// verify that each entry in subjAltNames is present in fileContents
QMapIterator<QSsl::AlternativeNameEntryType, QString> it(altSubjectNames);
while (it.hasNext()) {
it.next();
QByteArray type;
if (it.key() == QSsl::EmailEntry)
type = "email";
else if (it.key() == QSsl::DnsEntry)
type = "DNS";
else
QFAIL("unsupported alternative name type");
const QByteArray entry = type + ':' + it.value().toLatin1();
QVERIFY(fileContents.contains(entry));
}
// verify that each entry in fileContents is present in subjAltNames
QRegExp rx(QLatin1String("(email|DNS):([^,\\r\\n]+)"));
for (int pos = 0; (pos = rx.indexIn(fileContents, pos)) != -1; pos += rx.matchedLength()) {
QSsl::AlternativeNameEntryType key;
if (rx.cap(1) == QLatin1String("email"))
key = QSsl::EmailEntry;
else if (rx.cap(1) == QLatin1String("DNS"))
key = QSsl::DnsEntry;
else
QFAIL("unsupported alternative name type");
QVERIFY(altSubjectNames.contains(key, rx.cap(2)));
}
}
void tst_QSslCertificate::utf8SubjectNames()
{
QSslCertificate cert = QSslCertificate::fromPath(testDataDir + "certificates/cert-ss-san-utf8.pem", QSsl::Pem,
QRegExp::FixedString).first();
QVERIFY(!cert.isNull());
// O is "Heavy Metal Records" with heavy use of "decorations" like accents, umlauts etc.,
// OU uses arabian / asian script letters near codepoint 64K.
// strings split where the compiler would otherwise find three-digit hex numbers
static const char *o = "H\xc4\x95\xc4\x82\xc6\xb2\xc3\xbf \xca\x8d\xe1\xba\xbf\xca\x88\xe1\xba"
"\xb7\xe1\xb8\xbb R\xc3\xa9" "c" "\xc3\xb6rd\xc5\x9d";
static const char *ou = "\xe3\x88\xa7" "A" "\xe3\x89\x81\xef\xbd\xab" "BC";
// the following two tests should help find "\x"-literal encoding bugs in the test itself
QCOMPARE(cert.subjectInfo("O")[0].length(), QString::fromUtf8(o).length());
QCOMPARE (cert.subjectInfo("O")[0].toUtf8().toHex(), QByteArray(o).toHex());
QCOMPARE(cert.subjectInfo("O")[0], QString::fromUtf8(o));
QCOMPARE(cert.subjectInfo("OU")[0], QString::fromUtf8(ou));
}
void tst_QSslCertificate::publicKey_data()
{
QTest::addColumn<QString>("certFilePath");
QTest::addColumn<QSsl::EncodingFormat>("format");
QTest::addColumn<QString>("pubkeyFilePath");
foreach (CertInfo certInfo, certInfoList) {
QString certName = certInfo.fileInfo.fileName();
if (pubkeyMap.contains(certName))
QTest::newRow(certName.toLatin1())
<< certInfo.fileInfo.absoluteFilePath()
<< certInfo.format
<< pubkeyMap.value(certName);
}
}
void tst_QSslCertificate::publicKey()
{
if (!QSslSocket::supportsSsl())
return;
QFETCH(QString, certFilePath);
QFETCH(QSsl::EncodingFormat, format);
QFETCH(QString, pubkeyFilePath);
QSsl::KeyAlgorithm algorithm;
if (QFileInfo(pubkeyFilePath).fileName().startsWith("dsa-"))
algorithm = QSsl::Dsa;
else if (QFileInfo(pubkeyFilePath).fileName().startsWith("ec-"))
algorithm = QSsl::Ec;
else
algorithm = QSsl::Rsa;
QByteArray encodedCert = readFile(certFilePath);
QSslCertificate certificate(encodedCert, format);
QVERIFY(!certificate.isNull());
QByteArray encodedPubkey = readFile(pubkeyFilePath);
QSslKey pubkey(encodedPubkey, algorithm, format, QSsl::PublicKey);
QVERIFY(!pubkey.isNull());
QCOMPARE(certificate.publicKey(), pubkey);
}
void tst_QSslCertificate::toPemOrDer_data()
{
createTestRows();
}
static const char BeginCertString[] = "-----BEGIN CERTIFICATE-----";
static const char EndCertString[] = "-----END CERTIFICATE-----";
// Returns, in Pem-format, the first certificate found in a Pem-formatted block
// (Note that such a block may contain e.g. a private key at the end).
static QByteArray firstPemCertificateFromPem(const QByteArray &pem)
{
int startPos = pem.indexOf(BeginCertString);
int endPos = pem.indexOf(EndCertString);
if (startPos == -1 || endPos == -1)
return QByteArray();
return pem.mid(startPos, endPos + sizeof(EndCertString) - startPos);
}
void tst_QSslCertificate::toPemOrDer()
{
if (!QSslSocket::supportsSsl())
return;
QFETCH(QString, absFilePath);
QFETCH(QSsl::EncodingFormat, format);
QByteArray encoded = readFile(absFilePath);
QSslCertificate certificate(encoded, format);
QVERIFY(!certificate.isNull());
if (format == QSsl::Pem) {
encoded.replace('\r',"");
QByteArray firstPem = firstPemCertificateFromPem(encoded);
QCOMPARE(certificate.toPem(), firstPem);
} else {
// ### for now, we assume that DER-encoded certificates don't contain bundled stuff
QCOMPARE(certificate.toDer(), encoded);
}
}
void tst_QSslCertificate::fromDevice()
{
QTest::ignoreMessage(QtWarningMsg, "QSslCertificate::fromDevice: cannot read from a null device");
QList<QSslCertificate> certs = QSslCertificate::fromDevice(0); // don't crash
QVERIFY(certs.isEmpty());
}
void tst_QSslCertificate::fromPath_data()
{
QTest::addColumn<QString>("path");
QTest::addColumn<int>("syntax");
QTest::addColumn<bool>("pemencoding");
QTest::addColumn<int>("numCerts");
QTest::newRow("empty fixed pem") << QString() << int(QRegExp::FixedString) << true << 0;
QTest::newRow("empty fixed der") << QString() << int(QRegExp::FixedString) << false << 0;
QTest::newRow("empty regexp pem") << QString() << int(QRegExp::RegExp) << true << 0;
QTest::newRow("empty regexp der") << QString() << int(QRegExp::RegExp) << false << 0;
QTest::newRow("empty wildcard pem") << QString() << int(QRegExp::Wildcard) << true << 0;
QTest::newRow("empty wildcard der") << QString() << int(QRegExp::Wildcard) << false << 0;
QTest::newRow("\"certificates\" fixed pem") << (testDataDir + "certificates") << int(QRegExp::FixedString) << true << 0;
QTest::newRow("\"certificates\" fixed der") << (testDataDir + "certificates") << int(QRegExp::FixedString) << false << 0;
QTest::newRow("\"certificates\" regexp pem") << (testDataDir + "certificates") << int(QRegExp::RegExp) << true << 0;
QTest::newRow("\"certificates\" regexp der") << (testDataDir + "certificates") << int(QRegExp::RegExp) << false << 0;
QTest::newRow("\"certificates\" wildcard pem") << (testDataDir + "certificates") << int(QRegExp::Wildcard) << true << 0;
QTest::newRow("\"certificates\" wildcard der") << (testDataDir + "certificates") << int(QRegExp::Wildcard) << false << 0;
QTest::newRow("\"certificates/cert.pem\" fixed pem") << (testDataDir + "certificates/cert.pem") << int(QRegExp::FixedString) << true << 1;
QTest::newRow("\"certificates/cert.pem\" fixed der") << (testDataDir + "certificates/cert.pem") << int(QRegExp::FixedString) << false << 0;
QTest::newRow("\"certificates/cert.pem\" regexp pem") << (testDataDir + "certificates/cert.pem") << int(QRegExp::RegExp) << true << 1;
QTest::newRow("\"certificates/cert.pem\" regexp der") << (testDataDir + "certificates/cert.pem") << int(QRegExp::RegExp) << false << 0;
QTest::newRow("\"certificates/cert.pem\" wildcard pem") << (testDataDir + "certificates/cert.pem") << int(QRegExp::Wildcard) << true << 1;
QTest::newRow("\"certificates/cert.pem\" wildcard der") << (testDataDir + "certificates/cert.pem") << int(QRegExp::Wildcard) << false << 0;
QTest::newRow("\"certificates/*\" fixed pem") << (testDataDir + "certificates/*") << int(QRegExp::FixedString) << true << 0;
QTest::newRow("\"certificates/*\" fixed der") << (testDataDir + "certificates/*") << int(QRegExp::FixedString) << false << 0;
QTest::newRow("\"certificates/*\" regexp pem") << (testDataDir + "certificates/*") << int(QRegExp::RegExp) << true << 0;
QTest::newRow("\"certificates/*\" regexp der") << (testDataDir + "certificates/*") << int(QRegExp::RegExp) << false << 0;
QTest::newRow("\"certificates/*\" wildcard pem") << (testDataDir + "certificates/*") << int(QRegExp::Wildcard) << true << 7;
QTest::newRow("\"certificates/ca*\" wildcard pem") << (testDataDir + "certificates/ca*") << int(QRegExp::Wildcard) << true << 1;
QTest::newRow("\"certificates/cert*\" wildcard pem") << (testDataDir + "certificates/cert*") << int(QRegExp::Wildcard) << true << 4;
QTest::newRow("\"certificates/cert-[sure]*\" wildcard pem") << (testDataDir + "certificates/cert-[sure]*") << int(QRegExp::Wildcard) << true << 3;
QTest::newRow("\"certificates/cert-[not]*\" wildcard pem") << (testDataDir + "certificates/cert-[not]*") << int(QRegExp::Wildcard) << true << 0;
QTest::newRow("\"certificates/*\" wildcard der") << (testDataDir + "certificates/*") << int(QRegExp::Wildcard) << false << 2;
QTest::newRow("\"c*/c*.pem\" fixed pem") << (testDataDir + "c*/c*.pem") << int(QRegExp::FixedString) << true << 0;
QTest::newRow("\"c*/c*.pem\" fixed der") << (testDataDir + "c*/c*.pem") << int(QRegExp::FixedString) << false << 0;
QTest::newRow("\"c*/c*.pem\" regexp pem") << (testDataDir + "c*/c*.pem") << int(QRegExp::RegExp) << true << 0;
QTest::newRow("\"c*/c*.pem\" regexp der") << (testDataDir + "c*/c*.pem") << int(QRegExp::RegExp) << false << 0;
QTest::newRow("\"c*/c*.pem\" wildcard pem") << (testDataDir + "c*/c*.pem") << int(QRegExp::Wildcard) << true << 5;
QTest::newRow("\"c*/c*.pem\" wildcard der") << (testDataDir + "c*/c*.pem") << int(QRegExp::Wildcard) << false << 0;
QTest::newRow("\"d*/c*.pem\" fixed pem") << (testDataDir + "d*/c*.pem") << int(QRegExp::FixedString) << true << 0;
QTest::newRow("\"d*/c*.pem\" fixed der") << (testDataDir + "d*/c*.pem") << int(QRegExp::FixedString) << false << 0;
QTest::newRow("\"d*/c*.pem\" regexp pem") << (testDataDir + "d*/c*.pem") << int(QRegExp::RegExp) << true << 0;
QTest::newRow("\"d*/c*.pem\" regexp der") << (testDataDir + "d*/c*.pem") << int(QRegExp::RegExp) << false << 0;
QTest::newRow("\"d*/c*.pem\" wildcard pem") << (testDataDir + "d*/c*.pem") << int(QRegExp::Wildcard) << true << 0;
QTest::newRow("\"d*/c*.pem\" wildcard der") << (testDataDir + "d*/c*.pem") << int(QRegExp::Wildcard) << false << 0;
QTest::newRow("\"c.*/c.*.pem\" fixed pem") << (testDataDir + "c.*/c.*.pem") << int(QRegExp::FixedString) << true << 0;
QTest::newRow("\"c.*/c.*.pem\" fixed der") << (testDataDir + "c.*/c.*.pem") << int(QRegExp::FixedString) << false << 0;
QTest::newRow("\"c.*/c.*.pem\" regexp pem") << (testDataDir + "c.*/c.*.pem") << int(QRegExp::RegExp) << true << 5;
QTest::newRow("\"c.*/c.*.pem\" regexp der") << (testDataDir + "c.*/c.*.pem") << int(QRegExp::RegExp) << false << 0;
QTest::newRow("\"c.*/c.*.pem\" wildcard pem") << (testDataDir + "c.*/c.*.pem") << int(QRegExp::Wildcard) << true << 0;
QTest::newRow("\"c.*/c.*.pem\" wildcard der") << (testDataDir + "c.*/c.*.pem") << int(QRegExp::Wildcard) << false << 0;
QTest::newRow("\"d.*/c.*.pem\" fixed pem") << (testDataDir + "d.*/c.*.pem") << int(QRegExp::FixedString) << true << 0;
QTest::newRow("\"d.*/c.*.pem\" fixed der") << (testDataDir + "d.*/c.*.pem") << int(QRegExp::FixedString) << false << 0;
QTest::newRow("\"d.*/c.*.pem\" regexp pem") << (testDataDir + "d.*/c.*.pem") << int(QRegExp::RegExp) << true << 0;
QTest::newRow("\"d.*/c.*.pem\" regexp der") << (testDataDir + "d.*/c.*.pem") << int(QRegExp::RegExp) << false << 0;
QTest::newRow("\"d.*/c.*.pem\" wildcard pem") << (testDataDir + "d.*/c.*.pem") << int(QRegExp::Wildcard) << true << 0;
QTest::newRow("\"d.*/c.*.pem\" wildcard der") << (testDataDir + "d.*/c.*.pem") << int(QRegExp::Wildcard) << false << 0;
#ifdef Q_OS_LINUX
QTest::newRow("absolute path wildcard pem") << (testDataDir + "certificates/*.pem") << int(QRegExp::Wildcard) << true << 7;
#endif
QTest::newRow("trailing-whitespace") << (testDataDir + "more-certificates/trailing-whitespace.pem") << int(QRegExp::FixedString) << true << 1;
QTest::newRow("no-ending-newline") << (testDataDir + "more-certificates/no-ending-newline.pem") << int(QRegExp::FixedString) << true << 1;
QTest::newRow("malformed-just-begin") << (testDataDir + "more-certificates/malformed-just-begin.pem") << int(QRegExp::FixedString) << true << 0;
QTest::newRow("malformed-just-begin-no-newline") << (testDataDir + "more-certificates/malformed-just-begin-no-newline.pem") << int(QRegExp::FixedString) << true << 0;
}
void tst_QSslCertificate::fromPath()
{
QFETCH(QString, path);
QFETCH(int, syntax);
QFETCH(bool, pemencoding);
QFETCH(int, numCerts);
QCOMPARE(QSslCertificate::fromPath(path,
pemencoding ? QSsl::Pem : QSsl::Der,
QRegExp::PatternSyntax(syntax)).size(),
numCerts);
}
void tst_QSslCertificate::certInfo()
{
// MD5 Fingerprint=B6:CF:57:34:DA:A9:73:21:82:F7:CF:4D:3D:85:31:88
// SHA1 Fingerprint=B6:D1:51:82:E0:29:CA:59:96:38:BD:B6:F9:40:05:91:6D:49:09:60
// Certificate:
// Data:
// Version: 1 (0x0)
// Serial Number: 17 (0x11)
// Signature Algorithm: sha1WithRSAEncryption
// Issuer: C=AU, ST=Queensland, O=CryptSoft Pty Ltd, CN=Test CA (1024 bit)
// Validity
// Not Before: Apr 17 07:40:26 2007 GMT
// Not After : May 17 07:40:26 2007 GMT
// Subject: CN=name/with/slashes, C=NO
// Subject Public Key Info:
// Public Key Algorithm: rsaEncryption
// RSA Public Key: (1024 bit)
// Modulus (1024 bit):
// 00:eb:9d:e9:03:ac:30:4f:a9:58:03:44:c7:18:26:
// 2f:48:93:d5:ac:a0:fb:e8:53:c4:7b:2a:01:89:e6:
// fc:5a:0c:c5:f5:21:f8:d7:4a:92:02:67:db:f1:9f:
// 36:9a:62:9d:f3:ce:48:8e:ba:ed:5a:a8:9d:4f:bb:
// 24:16:43:4c:b5:79:08:f6:d9:22:8f:5f:15:0a:43:
// 25:03:7a:9d:a7:af:e3:26:b1:53:55:5e:60:57:c8:
// ed:2f:1c:f3:36:0a:78:64:91:f9:17:a7:34:d7:8b:
// bd:f1:fc:d1:8c:4f:a5:96:75:b2:7b:fc:21:f0:c7:
// d9:5f:0c:57:18:b2:af:b9:4b
// Exponent: 65537 (0x10001)
// Signature Algorithm: sha1WithRSAEncryption
// 95:e6:94:e2:98:33:57:a2:98:fa:af:50:b9:76:a9:51:83:2c:
// 0b:61:a2:36:d0:e6:90:6d:e4:f8:c4:c7:50:ef:17:94:4e:21:
// a8:fa:c8:33:aa:d1:7f:bc:ca:41:d6:7d:e7:44:76:c0:bf:45:
// 4a:76:25:42:6d:53:76:fd:fc:74:29:1a:ea:2b:cc:06:ab:d1:
// b8:eb:7d:6b:11:f7:9b:41:bb:9f:31:cb:ed:4d:f3:68:26:ed:
// 13:1d:f2:56:59:fe:6f:7c:98:b6:25:69:4e:ea:b4:dc:c2:eb:
// b7:bb:50:18:05:ba:ad:af:08:49:fe:98:63:55:ba:e7:fb:95:
// 5d:91
static const char pem[] =
"-----BEGIN CERTIFICATE-----\n"
"MIIB8zCCAVwCAREwDQYJKoZIhvcNAQEFBQAwWzELMAkGA1UEBhMCQVUxEzARBgNV\n"
"BAgTClF1ZWVuc2xhbmQxGjAYBgNVBAoTEUNyeXB0U29mdCBQdHkgTHRkMRswGQYD\n"
"VQQDExJUZXN0IENBICgxMDI0IGJpdCkwHhcNMDcwNDE3MDc0MDI2WhcNMDcwNTE3\n"
"MDc0MDI2WjApMRowGAYDVQQDExFuYW1lL3dpdGgvc2xhc2hlczELMAkGA1UEBhMC\n"
"Tk8wgZ8wDQYJKoZIhvcNAQEBBQADgY0AMIGJAoGBAOud6QOsME+pWANExxgmL0iT\n"
"1ayg++hTxHsqAYnm/FoMxfUh+NdKkgJn2/GfNppinfPOSI667VqonU+7JBZDTLV5\n"
"CPbZIo9fFQpDJQN6naev4yaxU1VeYFfI7S8c8zYKeGSR+RenNNeLvfH80YxPpZZ1\n"
"snv8IfDH2V8MVxiyr7lLAgMBAAEwDQYJKoZIhvcNAQEFBQADgYEAleaU4pgzV6KY\n"
"+q9QuXapUYMsC2GiNtDmkG3k+MTHUO8XlE4hqPrIM6rRf7zKQdZ950R2wL9FSnYl\n"
"Qm1Tdv38dCka6ivMBqvRuOt9axH3m0G7nzHL7U3zaCbtEx3yVln+b3yYtiVpTuq0\n"
"3MLrt7tQGAW6ra8ISf6YY1W65/uVXZE=\n"
"-----END CERTIFICATE-----\n";
static const char der[] = // hex encoded
"30:82:01:f3:30:82:01:5c:02:01:11:30:0d:06:09:2a"
"86:48:86:f7:0d:01:01:05:05:00:30:5b:31:0b:30:09"
"06:03:55:04:06:13:02:41:55:31:13:30:11:06:03:55"
"04:08:13:0a:51:75:65:65:6e:73:6c:61:6e:64:31:1a"
"30:18:06:03:55:04:0a:13:11:43:72:79:70:74:53:6f"
"66:74:20:50:74:79:20:4c:74:64:31:1b:30:19:06:03"
"55:04:03:13:12:54:65:73:74:20:43:41:20:28:31:30"
"32:34:20:62:69:74:29:30:1e:17:0d:30:37:30:34:31"
"37:30:37:34:30:32:36:5a:17:0d:30:37:30:35:31:37"
"30:37:34:30:32:36:5a:30:29:31:1a:30:18:06:03:55"
"04:03:13:11:6e:61:6d:65:2f:77:69:74:68:2f:73:6c"
"61:73:68:65:73:31:0b:30:09:06:03:55:04:06:13:02"
"4e:4f:30:81:9f:30:0d:06:09:2a:86:48:86:f7:0d:01"
"01:01:05:00:03:81:8d:00:30:81:89:02:81:81:00:eb"
"9d:e9:03:ac:30:4f:a9:58:03:44:c7:18:26:2f:48:93"
"d5:ac:a0:fb:e8:53:c4:7b:2a:01:89:e6:fc:5a:0c:c5"
"f5:21:f8:d7:4a:92:02:67:db:f1:9f:36:9a:62:9d:f3"
"ce:48:8e:ba:ed:5a:a8:9d:4f:bb:24:16:43:4c:b5:79"
"08:f6:d9:22:8f:5f:15:0a:43:25:03:7a:9d:a7:af:e3"
"26:b1:53:55:5e:60:57:c8:ed:2f:1c:f3:36:0a:78:64"
"91:f9:17:a7:34:d7:8b:bd:f1:fc:d1:8c:4f:a5:96:75"
"b2:7b:fc:21:f0:c7:d9:5f:0c:57:18:b2:af:b9:4b:02"
"03:01:00:01:30:0d:06:09:2a:86:48:86:f7:0d:01:01"
"05:05:00:03:81:81:00:95:e6:94:e2:98:33:57:a2:98"
"fa:af:50:b9:76:a9:51:83:2c:0b:61:a2:36:d0:e6:90"
"6d:e4:f8:c4:c7:50:ef:17:94:4e:21:a8:fa:c8:33:aa"
"d1:7f:bc:ca:41:d6:7d:e7:44:76:c0:bf:45:4a:76:25"
"42:6d:53:76:fd:fc:74:29:1a:ea:2b:cc:06:ab:d1:b8"
"eb:7d:6b:11:f7:9b:41:bb:9f:31:cb:ed:4d:f3:68:26"
"ed:13:1d:f2:56:59:fe:6f:7c:98:b6:25:69:4e:ea:b4"
"dc:c2:eb:b7:bb:50:18:05:ba:ad:af:08:49:fe:98:63"
"55:ba:e7:fb:95:5d:91";
QSslCertificate cert = QSslCertificate::fromPath(testDataDir + "certificates/cert.pem", QSsl::Pem,
QRegExp::FixedString).first();
QVERIFY(!cert.isNull());
QCOMPARE(cert.issuerInfo(QSslCertificate::Organization)[0], QString("CryptSoft Pty Ltd"));
QCOMPARE(cert.issuerInfo(QSslCertificate::CommonName)[0], QString("Test CA (1024 bit)"));
QCOMPARE(cert.issuerInfo(QSslCertificate::LocalityName), QStringList());
QCOMPARE(cert.issuerInfo(QSslCertificate::OrganizationalUnitName), QStringList());
QCOMPARE(cert.issuerInfo(QSslCertificate::CountryName)[0], QString("AU"));
QCOMPARE(cert.issuerInfo(QSslCertificate::StateOrProvinceName)[0], QString("Queensland"));
QCOMPARE(cert.issuerInfo("O")[0], QString("CryptSoft Pty Ltd"));
QCOMPARE(cert.issuerInfo("CN")[0], QString("Test CA (1024 bit)"));
QCOMPARE(cert.issuerInfo("L"), QStringList());
QCOMPARE(cert.issuerInfo("OU"), QStringList());
QCOMPARE(cert.issuerInfo("C")[0], QString("AU"));
QCOMPARE(cert.issuerInfo("ST")[0], QString("Queensland"));
QCOMPARE(cert.subjectInfo(QSslCertificate::Organization), QStringList());
QCOMPARE(cert.subjectInfo(QSslCertificate::CommonName)[0], QString("name/with/slashes"));
QCOMPARE(cert.subjectInfo(QSslCertificate::LocalityName), QStringList());
QCOMPARE(cert.subjectInfo(QSslCertificate::OrganizationalUnitName), QStringList());
QCOMPARE(cert.subjectInfo(QSslCertificate::CountryName)[0], QString("NO"));
QCOMPARE(cert.subjectInfo(QSslCertificate::StateOrProvinceName), QStringList());
QCOMPARE(cert.subjectInfo("O"), QStringList());
QCOMPARE(cert.subjectInfo("CN")[0], QString("name/with/slashes"));
QCOMPARE(cert.subjectInfo("L"), QStringList());
QCOMPARE(cert.subjectInfo("OU"), QStringList());
QCOMPARE(cert.subjectInfo("C")[0], QString("NO"));
QCOMPARE(cert.subjectInfo("ST"), QStringList());
QCOMPARE(cert.version(), QByteArray::number(1));
QCOMPARE(cert.serialNumber(), QByteArray("11"));
QCOMPARE(cert.toPem().constData(), (const char*)pem);
QCOMPARE(cert.toDer(), QByteArray::fromHex(der));
QCOMPARE(cert.digest(QCryptographicHash::Md5),
QByteArray::fromHex("B6:CF:57:34:DA:A9:73:21:82:F7:CF:4D:3D:85:31:88"));
QCOMPARE(cert.digest(QCryptographicHash::Sha1),
QByteArray::fromHex("B6:D1:51:82:E0:29:CA:59:96:38:BD:B6:F9:40:05:91:6D:49:09:60"));
QCOMPARE(cert.effectiveDate().toUTC(), QDateTime(QDate(2007, 4, 17), QTime(7,40,26), Qt::UTC));
QCOMPARE(cert.expiryDate().toUTC(), QDateTime(QDate(2007, 5, 17), QTime(7,40,26), Qt::UTC));
QVERIFY(cert.expiryDate() < QDateTime::currentDateTime()); // cert has expired
QSslCertificate copy = cert;
QCOMPARE(cert, copy);
QVERIFY(!(cert != copy));
QCOMPARE(cert, QSslCertificate(pem, QSsl::Pem));
QCOMPARE(cert, QSslCertificate(QByteArray::fromHex(der), QSsl::Der));
}
void tst_QSslCertificate::certInfoQByteArray()
{
QSslCertificate cert = QSslCertificate::fromPath(testDataDir + "certificates/cert.pem", QSsl::Pem,
QRegExp::FixedString).first();
QVERIFY(!cert.isNull());
// in this test, check the bytearray variants before the enum variants to see if
// we fixed a bug we had with lazy initialization of the values.
QCOMPARE(cert.issuerInfo("CN")[0], QString("Test CA (1024 bit)"));
QCOMPARE(cert.subjectInfo("CN")[0], QString("name/with/slashes"));
}
void tst_QSslCertificate::task256066toPem()
{
// a certificate whose PEM encoding's length is a multiple of 64
const char *mycert = "-----BEGIN CERTIFICATE-----\n" \
"MIIEGjCCAwKgAwIBAgIESikYSjANBgkqhkiG9w0BAQUFADBbMQswCQYDVQQGEwJF\n" \
"RTEiMCAGA1UEChMZQVMgU2VydGlmaXRzZWVyaW1pc2tlc2t1czEPMA0GA1UECxMG\n" \
"RVNURUlEMRcwFQYDVQQDEw5FU1RFSUQtU0sgMjAwNzAeFw0wOTA2MDUxMzA2MTha\n" \
"Fw0xNDA2MDkyMTAwMDBaMIGRMQswCQYDVQQGEwJFRTEPMA0GA1UEChMGRVNURUlE\n" \
"MRcwFQYDVQQLEw5hdXRoZW50aWNhdGlvbjEhMB8GA1UEAxMYSEVJQkVSRyxTVkVO\n" \
"LDM3NzA5MjcwMjg1MRAwDgYDVQQEEwdIRUlCRVJHMQ0wCwYDVQQqEwRTVkVOMRQw\n" \
"EgYDVQQFEwszNzcwOTI3MDI4NTCBnzANBgkqhkiG9w0BAQEFAAOBjQAwgYkCgYEA\n" \
"k2Euwhm34vu1jOFp02J5fQRx9LW2C7x78CbJ7yInoAKn7QR8UdxTU7mJk90Opejo\n" \
"71RUi2/aYl4jCr9gr99v2YoLufMRwAuqdmwmwqH1WAHRUtIcD0oPdKyelmmn9ig0\n" \
"RV+yJLNT3dnyrwPw+uuzDe3DeKepGKE4lxexliCaAx0CAyCMW6OCATEwggEtMA4G\n" \
"A1UdDwEB/wQEAwIEsDAdBgNVHSUEFjAUBggrBgEFBQcDAgYIKwYBBQUHAwQwPAYD\n" \
"VR0fBDUwMzAxoC+gLYYraHR0cDovL3d3dy5zay5lZS9jcmxzL2VzdGVpZC9lc3Rl\n" \
"aWQyMDA3LmNybDAgBgNVHREEGTAXgRVzdmVuLmhlaWJlcmdAZWVzdGkuZWUwUQYD\n" \
"VR0gBEowSDBGBgsrBgEEAc4fAQEBATA3MBIGCCsGAQUFBwICMAYaBG5vbmUwIQYI\n" \
"KwYBBQUHAgEWFWh0dHA6Ly93d3cuc2suZWUvY3BzLzAfBgNVHSMEGDAWgBRIBt6+\n" \
"jIdXlYB4Y/qcIysroDoYdTAdBgNVHQ4EFgQUKCjpDf+LcvL6AH0QOiW6rMTtB/0w\n" \
"CQYDVR0TBAIwADANBgkqhkiG9w0BAQUFAAOCAQEABRyRuUm9zt8V27WuNeXtCDmU\n" \
"MGzA6g4QXNAd2nxFzT3k+kNzzQTOcgRdmjiEPuK49On+GWnBr/5MSBNhbCJVPWr/\n" \
"yym1UYTBisaqhRt/N/kwZqd0bHeLJk+ZxSePXRyqkp9H8KPWqz7H+O/FxRS4ffxo\n" \
"Q9Clem+e0bcjNlL5xXiRGycBeZq8cKj+0+A/UuattznQlvHdlCEsSeu1fPOORqFV\n" \
"fZur4HC31lQD7xVvETLiL83CtOQC78+29XPD6Zlrrc5OF2yibSVParY19b8Zh6yu\n" \
"p1dNvN8pBgXGrsyxRonwHooV2ghGNmGILkpdvlQfnxeCUg4erfHjDdSY9vmT7w==\n" \
"-----END CERTIFICATE-----\n";
QByteArray pem1(mycert);
QSslCertificate cert1(pem1);
QVERIFY(!cert1.isNull());
QByteArray pem2(cert1.toPem());
QSslCertificate cert2(pem2);
QVERIFY(!cert2.isNull());
QCOMPARE(pem1, pem2);
}
void tst_QSslCertificate::nulInCN()
{
#if defined(QT_SECURETRANSPORT) || defined(Q_OS_WINRT)
QSKIP("Generic QSslCertificatePrivate fails this test");
#endif
QList<QSslCertificate> certList =
QSslCertificate::fromPath(testDataDir + "more-certificates/badguy-nul-cn.crt");
QCOMPARE(certList.size(), 1);
const QSslCertificate &cert = certList.at(0);
QVERIFY(!cert.isNull());
QString cn = cert.subjectInfo(QSslCertificate::CommonName)[0];
QVERIFY(cn != QLatin1String("www.bank.com"));
static const char realCN[] = "www.bank.com\0.badguy.com";
QCOMPARE(cn, QString::fromLatin1(realCN, sizeof realCN - 1));
}
void tst_QSslCertificate::nulInSan()
{
#if defined(QT_SECURETRANSPORT) || defined(Q_OS_WINRT)
QSKIP("Generic QSslCertificatePrivate fails this test");
#endif
QList<QSslCertificate> certList =
QSslCertificate::fromPath(testDataDir + "more-certificates/badguy-nul-san.crt");
QCOMPARE(certList.size(), 1);
const QSslCertificate &cert = certList.at(0);
QVERIFY(!cert.isNull());
QMultiMap<QSsl::AlternativeNameEntryType, QString> san = cert.subjectAlternativeNames();
QVERIFY(!san.isEmpty());
QString dnssan = san.value(QSsl::DnsEntry);
QVERIFY(!dnssan.isEmpty());
QVERIFY(dnssan != "www.bank.com");
static const char realSAN[] = "www.bank.com\0www.badguy.com";
QCOMPARE(dnssan, QString::fromLatin1(realSAN, sizeof realSAN - 1));
}
void tst_QSslCertificate::largeSerialNumber()
{
QList<QSslCertificate> certList =
QSslCertificate::fromPath(testDataDir + "more-certificates/cert-large-serial-number.pem");
QCOMPARE(certList.size(), 1);
const QSslCertificate &cert = certList.at(0);
QVERIFY(!cert.isNull());
QCOMPARE(cert.serialNumber(), QByteArray("01:02:03:04:05:06:07:08:09:10:aa:bb:cc:dd:ee:ff:17:18:19:20"));
}
void tst_QSslCertificate::largeExpirationDate() // QTBUG-12489
{
QList<QSslCertificate> certList =
QSslCertificate::fromPath(testDataDir + "more-certificates/cert-large-expiration-date.pem");
QCOMPARE(certList.size(), 1);
const QSslCertificate &cert = certList.at(0);
QVERIFY(!cert.isNull());
QCOMPARE(cert.effectiveDate().toUTC(), QDateTime(QDate(2010, 8, 4), QTime(9, 53, 41), Qt::UTC));
// if the date is larger than 2049, then the generalized time format is used
QCOMPARE(cert.expiryDate().toUTC(), QDateTime(QDate(2051, 8, 29), QTime(9, 53, 41), Qt::UTC));
}
void tst_QSslCertificate::blacklistedCertificates()
{
QList<QSslCertificate> blacklistedCerts = QSslCertificate::fromPath(testDataDir + "more-certificates/blacklisted*.pem", QSsl::Pem, QRegExp::Wildcard);
QVERIFY(blacklistedCerts.count() > 0);
for (int a = 0; a < blacklistedCerts.count(); a++) {
QVERIFY(blacklistedCerts.at(a).isBlacklisted());
}
}
void tst_QSslCertificate::selfsignedCertificates()
{
QVERIFY(QSslCertificate::fromPath(testDataDir + "certificates/cert-ss.pem").first().isSelfSigned());
QVERIFY(!QSslCertificate::fromPath(testDataDir + "certificates/cert.pem").first().isSelfSigned());
QVERIFY(!QSslCertificate().isSelfSigned());
}
void tst_QSslCertificate::toText()
{
QList<QSslCertificate> certList =
QSslCertificate::fromPath(testDataDir + "more-certificates/cert-large-expiration-date.pem");
QCOMPARE(certList.size(), 1);
const QSslCertificate &cert = certList.at(0);
// Openssl's cert dump method changed slightly between 0.9.8, 1.0.0 and 1.01 versions, so we want it to match any output
QFile f098(testDataDir + "more-certificates/cert-large-expiration-date.txt.0.9.8");
QVERIFY(f098.open(QIODevice::ReadOnly | QFile::Text));
QByteArray txt098 = f098.readAll();
QFile f100(testDataDir + "more-certificates/cert-large-expiration-date.txt.1.0.0");
QVERIFY(f100.open(QIODevice::ReadOnly | QFile::Text));
QByteArray txt100 = f100.readAll();
QFile f101(testDataDir + "more-certificates/cert-large-expiration-date.txt.1.0.1");
QVERIFY(f101.open(QIODevice::ReadOnly | QFile::Text));
QByteArray txt101 = f101.readAll();
QFile f101c(testDataDir + "more-certificates/cert-large-expiration-date.txt.1.0.1c");
QVERIFY(f101c.open(QIODevice::ReadOnly | QFile::Text));
QByteArray txt101c = f101c.readAll();
QFile f111(testDataDir + "more-certificates/cert-large-expiration-date.txt.1.1.1");
QVERIFY(f111.open(QIODevice::ReadOnly | QFile::Text));
QByteArray txt111 = f111.readAll();
QString txtcert = cert.toText();
#ifdef QT_NO_OPENSSL
QEXPECT_FAIL("", "QTBUG-40884: QSslCertificate::toText is not implemented on WinRT", Continue);
#endif
QVERIFY(QString::fromLatin1(txt098) == txtcert ||
QString::fromLatin1(txt100) == txtcert ||
QString::fromLatin1(txt101) == txtcert ||
QString::fromLatin1(txt101c) == txtcert ||
QString::fromLatin1(txt111) == txtcert );
}
void tst_QSslCertificate::multipleCommonNames()
{
QList<QSslCertificate> certList =
QSslCertificate::fromPath(testDataDir + "more-certificates/test-cn-two-cns-cert.pem");
QVERIFY(certList.count() > 0);
QStringList commonNames = certList[0].subjectInfo(QSslCertificate::CommonName);
QVERIFY(commonNames.contains(QString("www.example.com")));
QVERIFY(commonNames.contains(QString("www2.example.com")));
}
void tst_QSslCertificate::subjectAndIssuerAttributes()
{
QList<QSslCertificate> certList =
QSslCertificate::fromPath(testDataDir + "more-certificates/test-cn-with-drink-cert.pem");
QVERIFY(certList.count() > 0);
QList<QByteArray> attributes = certList[0].subjectInfoAttributes();
QVERIFY(attributes.contains(QByteArray("favouriteDrink")));
attributes.clear();
certList = QSslCertificate::fromPath(testDataDir + "more-certificates/natwest-banking.pem");
QVERIFY(certList.count() > 0);
attributes = certList[0].subjectInfoAttributes();
QVERIFY(attributes.contains(QByteArray("1.3.6.1.4.1.311.60.2.1.3")));
}
void tst_QSslCertificate::verify()
{
#ifdef QT_SECURETRANSPORT
QSKIP("Not implemented in SecureTransport");
#endif
QList<QSslError> errors;
QList<QSslCertificate> toVerify;
// Like QVERIFY, but be verbose about the content of `errors' when failing
#define VERIFY_VERBOSE(A) \
QVERIFY2((A), \
qPrintable(QString("errors: %1").arg(toString(errors))) \
)
#ifdef QT_NO_OPENSSL
QEXPECT_FAIL("", "QTBUG-40884: WinRT API does not yet support verifying a chain", Abort);
#endif
// Empty chain is unspecified error
errors = QSslCertificate::verify(toVerify);
VERIFY_VERBOSE(errors.count() == 1);
VERIFY_VERBOSE(errors[0] == QSslError(QSslError::UnspecifiedError));
errors.clear();
// Verify a valid cert signed by a CA
QList<QSslCertificate> caCerts = QSslCertificate::fromPath(testDataDir + "verify-certs/cacert.pem");
QSslSocket::addDefaultCaCertificate(caCerts.first());
toVerify = QSslCertificate::fromPath(testDataDir + "verify-certs/test-ocsp-good-cert.pem");
errors = QSslCertificate::verify(toVerify);
VERIFY_VERBOSE(errors.count() == 0);
errors.clear();
// Test a blacklisted certificate
toVerify = QSslCertificate::fromPath(testDataDir + "verify-certs/test-addons-mozilla-org-cert.pem");
errors = QSslCertificate::verify(toVerify);
bool foundBlack = false;
foreach (const QSslError &error, errors) {
if (error.error() == QSslError::CertificateBlacklisted) {
foundBlack = true;
break;
}
}
QVERIFY(foundBlack);
errors.clear();
// This one is expired and untrusted
toVerify = QSslCertificate::fromPath(testDataDir + "more-certificates/cert-large-serial-number.pem");
errors = QSslCertificate::verify(toVerify);
VERIFY_VERBOSE(errors.contains(QSslError(QSslError::SelfSignedCertificate, toVerify[0])));
VERIFY_VERBOSE(errors.contains(QSslError(QSslError::CertificateExpired, toVerify[0])));
errors.clear();
toVerify.clear();
// This one is signed by a valid cert, but the signer is not a valid CA
toVerify << QSslCertificate::fromPath(testDataDir + "verify-certs/test-intermediate-not-ca-cert.pem").first();
toVerify << QSslCertificate::fromPath(testDataDir + "verify-certs/test-ocsp-good-cert.pem").first();
errors = QSslCertificate::verify(toVerify);
VERIFY_VERBOSE(errors.contains(QSslError(QSslError::InvalidCaCertificate, toVerify[1])));
toVerify.clear();
// This one is signed by a valid cert, and the signer is a valid CA
toVerify << QSslCertificate::fromPath(testDataDir + "verify-certs/test-intermediate-is-ca-cert.pem").first();
toVerify << QSslCertificate::fromPath(testDataDir + "verify-certs/test-intermediate-ca-cert.pem").first();
errors = QSslCertificate::verify(toVerify);
VERIFY_VERBOSE(errors.count() == 0);
// Recheck the above with hostname validation
errors = QSslCertificate::verify(toVerify, QLatin1String("example.com"));
VERIFY_VERBOSE(errors.count() == 0);
// Recheck the above with a bad hostname
errors = QSslCertificate::verify(toVerify, QLatin1String("fail.example.com"));
VERIFY_VERBOSE(errors.contains(QSslError(QSslError::HostNameMismatch, toVerify[0])));
toVerify.clear();
#undef VERIFY_VERBOSE
}
QString tst_QSslCertificate::toString(const QList<QSslError>& errors)
{
QStringList errorStrings;
foreach (const QSslError& error, errors) {
errorStrings.append(QLatin1Char('"') + error.errorString() + QLatin1Char('"'));
}
return QLatin1String("[ ") + errorStrings.join(QLatin1String(", ")) + QLatin1String(" ]");
}
void tst_QSslCertificate::extensions()
{
QList<QSslCertificate> certList =
QSslCertificate::fromPath(testDataDir + "more-certificates/natwest-banking.pem");
QVERIFY(certList.count() > 0);
QSslCertificate cert = certList[0];
QList<QSslCertificateExtension> extensions = cert.extensions();
QCOMPARE(extensions.count(), 9);
int unknown_idx = -1;
int authority_info_idx = -1;
int basic_constraints_idx = -1;
int subject_key_idx = -1;
int auth_key_idx = -1;
for (int i=0; i < extensions.length(); ++i) {
QSslCertificateExtension ext = extensions[i];
//qDebug() << i << ":" << ext.name() << ext.oid();
if (ext.oid() == QStringLiteral("1.3.6.1.5.5.7.1.12"))
unknown_idx = i;
if (ext.name() == QStringLiteral("authorityInfoAccess"))
authority_info_idx = i;
if (ext.name() == QStringLiteral("basicConstraints"))
basic_constraints_idx = i;
if (ext.name() == QStringLiteral("subjectKeyIdentifier"))
subject_key_idx = i;
if (ext.name() == QStringLiteral("authorityKeyIdentifier"))
auth_key_idx = i;
}
QVERIFY(unknown_idx != -1);
QVERIFY(authority_info_idx != -1);
QVERIFY(basic_constraints_idx != -1);
QVERIFY(subject_key_idx != -1);
QVERIFY(auth_key_idx != -1);
// Unknown
QSslCertificateExtension unknown = extensions[unknown_idx];
QCOMPARE(unknown.oid(), QStringLiteral("1.3.6.1.5.5.7.1.12"));
QCOMPARE(unknown.name(), QStringLiteral("1.3.6.1.5.5.7.1.12"));
QVERIFY(!unknown.isCritical());
QVERIFY(!unknown.isSupported());
QByteArray unknownValue = QByteArray::fromHex(
"3060A15EA05C305A305830561609696D6167652F6769663021301F300706052B0E03021A0414" \
"4B6BB92896060CBBD052389B29AC4B078B21051830261624687474703A2F2F6C6F676F2E7665" \
"72697369676E2E636F6D2F76736C6F676F312E676966");
QCOMPARE(unknown.value().toByteArray(), unknownValue);
// Authority Info Access
QSslCertificateExtension aia = extensions[authority_info_idx];
QCOMPARE(aia.oid(), QStringLiteral("1.3.6.1.5.5.7.1.1"));
QCOMPARE(aia.name(), QStringLiteral("authorityInfoAccess"));
QVERIFY(!aia.isCritical());
QVERIFY(aia.isSupported());
QVariantMap aiaValue = aia.value().toMap();
QCOMPARE(aiaValue.keys(), QList<QString>() << QStringLiteral("OCSP") << QStringLiteral("caIssuers"));
QString ocsp = aiaValue[QStringLiteral("OCSP")].toString();
QString caIssuers = aiaValue[QStringLiteral("caIssuers")].toString();
QCOMPARE(ocsp, QStringLiteral("http://EVIntl-ocsp.verisign.com"));
QCOMPARE(caIssuers, QStringLiteral("http://EVIntl-aia.verisign.com/EVIntl2006.cer"));
// Basic constraints
QSslCertificateExtension basic = extensions[basic_constraints_idx];
QCOMPARE(basic.oid(), QStringLiteral("2.5.29.19"));
QCOMPARE(basic.name(), QStringLiteral("basicConstraints"));
QVERIFY(!basic.isCritical());
QVERIFY(basic.isSupported());
QVariantMap basicValue = basic.value().toMap();
QCOMPARE(basicValue.keys(), QList<QString>() << QStringLiteral("ca"));
QVERIFY(!basicValue[QStringLiteral("ca")].toBool());
// Subject key identifier
QSslCertificateExtension subjectKey = extensions[subject_key_idx];
QCOMPARE(subjectKey.oid(), QStringLiteral("2.5.29.14"));
QCOMPARE(subjectKey.name(), QStringLiteral("subjectKeyIdentifier"));
QVERIFY(!subjectKey.isCritical());
QVERIFY(subjectKey.isSupported());
QCOMPARE(subjectKey.value().toString(), QStringLiteral("5F:90:23:CD:24:CA:52:C9:36:29:F0:7E:9D:B1:FE:08:E0:EE:69:F0"));
// Authority key identifier
QSslCertificateExtension authKey = extensions[auth_key_idx];
QCOMPARE(authKey.oid(), QStringLiteral("2.5.29.35"));
QCOMPARE(authKey.name(), QStringLiteral("authorityKeyIdentifier"));
QVERIFY(!authKey.isCritical());
QVERIFY(authKey.isSupported());
QVariantMap authValue = authKey.value().toMap();
QCOMPARE(authValue.keys(), QList<QString>() << QStringLiteral("keyid"));
QVERIFY(authValue[QStringLiteral("keyid")].toByteArray() ==
QByteArray("4e43c81d76ef37537a4ff2586f94f338e2d5bddf"));
}
void tst_QSslCertificate::extensionsCritical()
{
QList<QSslCertificate> certList =
QSslCertificate::fromPath(testDataDir + "verify-certs/test-addons-mozilla-org-cert.pem");
QVERIFY(certList.count() > 0);
QSslCertificate cert = certList[0];
QList<QSslCertificateExtension> extensions = cert.extensions();
QCOMPARE(extensions.count(), 9);
int basic_constraints_idx = -1;
int key_usage_idx = -1;
for (int i=0; i < extensions.length(); ++i) {
QSslCertificateExtension ext = extensions[i];
if (ext.name() == QStringLiteral("basicConstraints"))
basic_constraints_idx = i;
if (ext.name() == QStringLiteral("keyUsage"))
key_usage_idx = i;
}
QVERIFY(basic_constraints_idx != -1);
QVERIFY(key_usage_idx != -1);
// Basic constraints
QSslCertificateExtension basic = extensions[basic_constraints_idx];
QCOMPARE(basic.oid(), QStringLiteral("2.5.29.19"));
QCOMPARE(basic.name(), QStringLiteral("basicConstraints"));
QVERIFY(basic.isCritical());
QVERIFY(basic.isSupported());
QVariantMap basicValue = basic.value().toMap();
QCOMPARE(basicValue.keys(), QList<QString>() << QStringLiteral("ca"));
QVERIFY(!basicValue[QStringLiteral("ca")].toBool());
// Key Usage
QSslCertificateExtension keyUsage = extensions[key_usage_idx];
QCOMPARE(keyUsage.oid(), QStringLiteral("2.5.29.15"));
QCOMPARE(keyUsage.name(), QStringLiteral("keyUsage"));
QVERIFY(keyUsage.isCritical());
QVERIFY(!keyUsage.isSupported());
}
class TestThread : public QThread
{
public:
void run()
{
effectiveDate = cert.effectiveDate();
expiryDate = cert.expiryDate();
extensions = cert.extensions();
isBlacklisted = cert.isBlacklisted();
issuerInfo = cert.issuerInfo(QSslCertificate::CommonName);
issuerInfoAttributes = cert.issuerInfoAttributes();
publicKey = cert.publicKey();
serialNumber = cert.serialNumber();
subjectInfo = cert.subjectInfo(QSslCertificate::CommonName);
subjectInfoAttributes = cert.subjectInfoAttributes();
toDer = cert.toDer();
toPem = cert.toPem();
toText = cert.toText();
version = cert.version();
}
QSslCertificate cert;
QDateTime effectiveDate;
QDateTime expiryDate;
QList<QSslCertificateExtension> extensions;
bool isBlacklisted;
QStringList issuerInfo;
QList<QByteArray> issuerInfoAttributes;
QSslKey publicKey;
QByteArray serialNumber;
QStringList subjectInfo;
QList<QByteArray> subjectInfoAttributes;
QByteArray toDer;
QByteArray toPem;
QString toText;
QByteArray version;
};
void tst_QSslCertificate::threadSafeConstMethods()
{
if (!QSslSocket::supportsSsl())
return;
QByteArray encoded = readFile(testDataDir + "certificates/cert.pem");
QSslCertificate certificate(encoded);
QVERIFY(!certificate.isNull());
TestThread t1;
t1.cert = certificate; //shallow copy
TestThread t2;
t2.cert = certificate; //shallow copy
t1.start();
t2.start();
QVERIFY(t1.wait(5000));
QVERIFY(t2.wait(5000));
QCOMPARE(t1.cert, t2.cert);
QCOMPARE(t1.effectiveDate, t2.effectiveDate);
QCOMPARE(t1.expiryDate, t2.expiryDate);
//QVERIFY(t1.extensions == t2.extensions); // no equality operator, so not tested
QCOMPARE(t1.isBlacklisted, t2.isBlacklisted);
QCOMPARE(t1.issuerInfo, t2.issuerInfo);
QCOMPARE(t1.issuerInfoAttributes, t2.issuerInfoAttributes);
QCOMPARE(t1.publicKey, t2.publicKey);
QCOMPARE(t1.serialNumber, t2.serialNumber);
QCOMPARE(t1.subjectInfo, t2.subjectInfo);
QCOMPARE(t1.subjectInfoAttributes, t2.subjectInfoAttributes);
QCOMPARE(t1.toDer, t2.toDer);
QCOMPARE(t1.toPem, t2.toPem);
QCOMPARE(t1.toText, t2.toText);
QCOMPARE(t1.version, t2.version);
}
void tst_QSslCertificate::version_data()
{
QTest::addColumn<QSslCertificate>("certificate");
QTest::addColumn<QByteArray>("result");
QTest::newRow("null certificate") << QSslCertificate() << QByteArray();
QList<QSslCertificate> certs;
certs << QSslCertificate::fromPath(testDataDir + "verify-certs/test-ocsp-good-cert.pem");
QTest::newRow("v3 certificate") << certs.first() << QByteArrayLiteral("3");
certs.clear();
certs << QSslCertificate::fromPath(testDataDir + "certificates/cert.pem");
QTest::newRow("v1 certificate") << certs.first() << QByteArrayLiteral("1");
}
void tst_QSslCertificate::version()
{
if (!QSslSocket::supportsSsl())
return;
QFETCH(QSslCertificate, certificate);
QFETCH(QByteArray, result);
QCOMPARE(certificate.version(), result);
}
void tst_QSslCertificate::pkcs12()
{
// See pkcs12/README for how to generate the PKCS12 files used here.
if (!QSslSocket::supportsSsl()) {
qWarning("SSL not supported, skipping test");
return;
}
QFile f(testDataDir + QLatin1String("pkcs12/leaf.p12"));
bool ok = f.open(QIODevice::ReadOnly);
QVERIFY(ok);
QSslKey key;
QSslCertificate cert;
QList<QSslCertificate> caCerts;
#ifdef QT_NO_OPENSSL
QEXPECT_FAIL("", "QTBUG-40884: WinRT API does not support pkcs12 imports", Abort);
#endif
ok = QSslCertificate::importPkcs12(&f, &key, &cert, &caCerts);
QVERIFY(ok);
f.close();
QList<QSslCertificate> leafCert = QSslCertificate::fromPath(testDataDir + QLatin1String("pkcs12/leaf.crt"));
QVERIFY(!leafCert.isEmpty());
QCOMPARE(cert, leafCert.first());
QFile f2(testDataDir + QLatin1String("pkcs12/leaf.key"));
ok = f2.open(QIODevice::ReadOnly);
QVERIFY(ok);
QSslKey leafKey(&f2, QSsl::Rsa);
f2.close();
QVERIFY(!leafKey.isNull());
QCOMPARE(key, leafKey);
QList<QSslCertificate> caCert = QSslCertificate::fromPath(testDataDir + QLatin1String("pkcs12/inter.crt"));
QVERIFY(!caCert.isEmpty());
QVERIFY(!caCerts.isEmpty());
QCOMPARE(caCerts.first(), caCert.first());
QCOMPARE(caCerts, caCert);
// QTBUG-62335 - Fail (found no private key) but don't crash:
QFile nocert(testDataDir + QLatin1String("pkcs12/leaf-nokey.p12"));
ok = nocert.open(QIODevice::ReadOnly);
QVERIFY(ok);
QTest::ignoreMessage(QtWarningMsg, "Unable to convert private key");
ok = QSslCertificate::importPkcs12(&nocert, &key, &cert, &caCerts);
QVERIFY(!ok);
nocert.close();
}
#endif // QT_NO_SSL
QTEST_MAIN(tst_QSslCertificate)
#include "tst_qsslcertificate.moc"