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qt: Extend SignKeyJob to create trust signatures

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* lang/qt/src/signkeyjob.h (SignKeyJob::setTrustSignature): New.
* lang/qt/src/qgpgmesignkeyjob.h, lang/qt/src/qgpgmesignkeyjob.cpp
(QGpgMESignKeyJob::setTrustSignature): New.
* lang/qt/src/qgpgmesignkeyjob.cpp (sign_key): Handle trust signatures.
(QGpgMESignKeyJob::start): Pass trust signature attributes to sign_key.
(QGpgMESignKeyJob::setTrustSignature): New.
--

This allows Kleopatra to create trust signatures for trusted
introducers.

GnuPG-bug-id: 5245, 5421
This commit is contained in:
Ingo Klöcker 2021-05-05 18:38:16 +02:00
parent dae01f8185
commit f0858e45b0
5 changed files with 629 additions and 5 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

38
lang/qt/src/qgpgmesignkeyjob.cpp
View File

@ -51,6 +51,15 @@
using namespace QGpgME;
using namespace GpgME;
namespace
{
struct TrustSignatureProperties {
TrustSignatureTrust trust = TrustSignatureTrust::None;
unsigned int depth = 0;
QString scope;
};
}
class QGpgMESignKeyJob::Private
{
public:
@ -64,6 +73,7 @@ public:
bool m_started = false;
bool m_dupeOk = false;
QString m_remark;
TrustSignatureProperties m_trustSignature;
};
QGpgMESignKeyJob::QGpgMESignKeyJob(Context *context)
@ -77,7 +87,8 @@ QGpgMESignKeyJob::~QGpgMESignKeyJob() {}
static QGpgMESignKeyJob::result_type sign_key(Context *ctx, const Key &key, const std::vector<unsigned int> &uids,
unsigned int checkLevel, const Key &signer, unsigned int opts,
bool dupeOk, const QString &remark)
bool dupeOk, const QString &remark,
const TrustSignatureProperties &trustSignature)
{
QGpgME::QByteArrayDataProvider dp;
Data data(&dp);
@ -97,6 +108,12 @@ static QGpgMESignKeyJob::result_type sign_key(Context *ctx, const Key &key, cons
ctx->addSignatureNotation("rem@gnupg.org", remark.toUtf8().constData());
}
if (opts & GpgSignKeyEditInteractor::Trust) {
skei->setTrustSignatureTrust(trustSignature.trust);
skei->setTrustSignatureDepth(trustSignature.depth);
skei->setTrustSignatureScope(trustSignature.scope.toUtf8().toStdString());
}
if (!signer.isNull())
if (const Error err = ctx->addSigningKey(signer)) {
return std::make_tuple(err, QString(), Error());
@ -116,8 +133,17 @@ Error QGpgMESignKeyJob::start(const Key &key)
if (d->m_exportable) {
opts |= GpgSignKeyEditInteractor::Exportable;
}
switch (d->m_trustSignature.trust) {
case TrustSignatureTrust::Partial:
case TrustSignatureTrust::Complete:
opts |= GpgSignKeyEditInteractor::Trust;
break;
default:
opts &= ~GpgSignKeyEditInteractor::Trust;
break;
}
run(std::bind(&sign_key, std::placeholders::_1, key, d->m_userIDsToSign, d->m_checkLevel, d->m_signingKey,
opts, d->m_dupeOk, d->m_remark));
opts, d->m_dupeOk, d->m_remark, d->m_trustSignature));
d->m_started = true;
return Error();
}
@ -163,4 +189,12 @@ void QGpgMESignKeyJob::setDupeOk(bool value)
assert(!d->m_started);
d->m_dupeOk = value;
}
void QGpgMESignKeyJob::setTrustSignature(GpgME::TrustSignatureTrust trust, unsigned short depth, const QString &scope)
{
assert(!d->m_started);
assert(depth <= 255);
d->m_trustSignature = {trust, depth, scope};
}
#include "qgpgmesignkeyjob.moc"

3
lang/qt/src/qgpgmesignkeyjob.h
View File

@ -84,6 +84,9 @@ public:
/* from SignKeyJob */
void setDupeOk(bool value) Q_DECL_OVERRIDE;
/* from SignKeyJob */
void setTrustSignature(GpgME::TrustSignatureTrust trust, unsigned short depth, const QString &scope) Q_DECL_OVERRIDE;
private:
class Private;
std::unique_ptr<Private> d;

20
lang/qt/src/signkeyjob.h
View File

@ -43,6 +43,7 @@ namespace GpgME
{
class Error;
class Key;
enum class TrustSignatureTrust : char;
}
class QString;
@ -127,6 +128,25 @@ public:
**/
virtual void setRemark(const QString &) {};
/**
* If set, then the created signature will be a trust signature. By default,
* no trust signatures are created.
*
* @a trust is the amount of trust to put into the signed key, either
* @c TrustSignatureTrust::Partial or @c TrustSignatureTrust::Complete.
* @a depth is the level of the trust signature. Values between 0 and 255 are
* allowed. Level 0 has the same meaning as an ordinary validity signature.
* Level 1 means that the signed key is asserted to be a valid trusted
* introducer. Level n >= 2 means that the signed key is asserted to be
* trusted to issue level n-1 trust signatures, i.e., that it is a "meta
* introducer".
* @a scope is a domain name that limits the scope of trust of the signed key
* to user IDs with email addresses matching the domain (or a subdomain).
*
* Not pure virtual for ABI compatibility.
**/
virtual void setTrustSignature(GpgME::TrustSignatureTrust trust, unsigned short depth, const QString &scope) { Q_UNUSED(trust); Q_UNUSED(depth); Q_UNUSED(scope); };
Q_SIGNALS:
void result(const GpgME::Error &result, const QString &auditLogAsHtml = QString(), const GpgME::Error &auditLogError = GpgME::Error());
};

8
lang/qt/tests/Makefile.am
View File

@ -27,11 +27,11 @@ TESTS_ENVIRONMENT = GNUPGHOME=$(GNUPGHOME)
EXTRA_DIST = initial.test
TESTS = initial.test t-keylist t-keylocate t-ownertrust t-tofuinfo \
t-encrypt t-verify t-various t-config t-remarks
t-encrypt t-verify t-various t-config t-remarks t-trustsignatures
moc_files = t-keylist.moc t-keylocate.moc t-ownertrust.moc t-tofuinfo.moc \
t-encrypt.moc t-support.hmoc t-wkspublish.moc t-verify.moc \
t-various.moc t-config.moc t-remarks.moc
t-various.moc t-config.moc t-remarks.moc t-trustsignatures.moc
AM_LDFLAGS = -no-install
@ -57,6 +57,7 @@ t_verify_SOURCES = t-verify.cpp $(support_src)
t_various_SOURCES = t-various.cpp $(support_src)
t_config_SOURCES = t-config.cpp $(support_src)
t_remarks_SOURCES = t-remarks.cpp $(support_src)
t_trustsignatures_SOURCES = t-trustsignatures.cpp $(support_src)
run_keyformailboxjob_SOURCES = run-keyformailboxjob.cpp
nodist_t_keylist_SOURCES = $(moc_files)
@ -64,7 +65,8 @@ nodist_t_keylist_SOURCES = $(moc_files)
BUILT_SOURCES = $(moc_files) pubring-stamp
noinst_PROGRAMS = t-keylist t-keylocate t-ownertrust t-tofuinfo t-encrypt \
run-keyformailboxjob t-wkspublish t-verify t-various t-config t-remarks
run-keyformailboxjob t-wkspublish t-verify t-various t-config t-remarks \
t-trustsignatures
CLEANFILES = secring.gpg pubring.gpg pubring.kbx trustdb.gpg dirmngr.conf \
gpg-agent.conf pubring.kbx~ S.gpg-agent gpg.conf pubring.gpg~ \

565
lang/qt/tests/t-trustsignatures.cpp Normal file
View File

@ -0,0 +1,565 @@
/* t-remarks.cpp
This file is part of qgpgme, the Qt API binding for gpgme
Copyright (c) 2021 g10 Code GmbH
Software engineering by Ingo Klöcker <dev@ingo-kloecker.de>
QGpgME is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version.
QGpgME is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
In addition, as a special exception, the copyright holders give
permission to link the code of this program with any edition of
the Qt library by Trolltech AS, Norway (or with modified versions
of Qt that use the same license as Qt), and distribute linked
combinations including the two. You must obey the GNU General
Public License in all respects for all of the code used other than
Qt. If you modify this file, you may extend this exception to
your version of the file, but you are not obligated to do so. If
you do not wish to do so, delete this exception statement from
your version.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "t-support.h"
#include "context.h"
#include "engineinfo.h"
#include "protocol.h"
#include "signkeyjob.h"
#include <QSignalSpy>
#include <QTemporaryDir>
#include <QTest>
using namespace QGpgME;
using namespace GpgME;
class TestTrustSignatures: public QGpgMETest
{
Q_OBJECT
Q_SIGNALS:
void asyncDone();
private Q_SLOTS:
void test_tsign_single_uid_key_and_then_tsign_it_again()
{
Error err;
if (!loopbackSupported()) {
return;
}
auto ctx = Context::create(OpenPGP);
QVERIFY(ctx);
// Get the signing key (alfa@example.net)
auto seckey = ctx->key("A0FF4590BB6122EDEF6E3C542D727CC768697734", err, true);
QVERIFY(!err);
QVERIFY(!seckey.isNull());
// Get the target key (victor@example.org)
auto target = ctx->key("E8143C489C8D41124DC40D0B47AF4B6961F04784", err, false);
QVERIFY(!err);
QVERIFY(!target.isNull());
QVERIFY(target.numUserIDs() > 0);
// Create first trust signature
{
// Create the job
auto job = std::unique_ptr<SignKeyJob>{openpgp()->signKeyJob()};
QVERIFY(job);
// Hack in the passphrase provider
auto jobCtx = Job::context(job.get());
TestPassphraseProvider provider;
jobCtx->setPassphraseProvider(&provider);
jobCtx->setPinentryMode(Context::PinentryLoopback);
// Setup the job
job->setExportable(true);
job->setSigningKey(seckey);
job->setTrustSignature(TrustSignatureTrust::Complete, 1, QStringLiteral("example.org"));
connect(job.get(), &SignKeyJob::result,
this, [this] (const GpgME::Error &err2, const QString &, const GpgME::Error &) {
Q_EMIT asyncDone();
if (err2) {
if (err2.code() == GPG_ERR_GENERAL) {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.\n"
"Hint: Run with GPGMEPP_INTERACTOR_DEBUG=stderr to debug the edit interaction.").arg(err2.asString())));
} else {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.").arg(err2.asString())));
}
}
});
job->start(target);
QSignalSpy spy (this, SIGNAL(asyncDone()));
QVERIFY(spy.wait(QSIGNALSPY_TIMEOUT));
// At this point the trust signature should have been added.
target.update();
const auto trustSignature = target.userID(0).signature(target.userID(0).numSignatures() - 1);
QVERIFY(trustSignature.isTrustSignature());
QCOMPARE(trustSignature.trustDepth(), 1u);
QCOMPARE(trustSignature.trustValue(), TrustSignatureTrust::Complete);
QVERIFY(trustSignature.trustScope());
const auto trustScope = QString::fromUtf8(trustSignature.trustScope());
QVERIFY(!trustScope.isEmpty());
const QRegExp regex{trustScope};
QVERIFY(regex.isValid());
QVERIFY(regex.indexIn(QStringLiteral("Foo <foo@example.org>")) != -1);
}
// Create second trust signature
{
// Create the job
auto job = std::unique_ptr<SignKeyJob>{openpgp()->signKeyJob()};
QVERIFY(job);
// Hack in the passphrase provider
auto jobCtx = Job::context(job.get());
TestPassphraseProvider provider;
jobCtx->setPassphraseProvider(&provider);
jobCtx->setPinentryMode(Context::PinentryLoopback);
// Setup the job
job->setExportable(true);
job->setSigningKey(seckey);
job->setDupeOk(true);
job->setTrustSignature(TrustSignatureTrust::Partial, 2, QStringLiteral("example.net"));
connect(job.get(), &SignKeyJob::result,
this, [this] (const GpgME::Error &err2, const QString &, const GpgME::Error &) {
Q_EMIT asyncDone();
if (err2) {
if (err2.code() == GPG_ERR_GENERAL) {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.\n"
"Hint: Run with GPGMEPP_INTERACTOR_DEBUG=stderr to debug the edit interaction.").arg(err2.asString())));
} else {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.").arg(err2.asString())));
}
}
});
err = job->start(target);
QVERIFY(!err);
QSignalSpy spy (this, SIGNAL(asyncDone()));
QVERIFY(spy.wait(QSIGNALSPY_TIMEOUT));
// At this point the trust signature should have been added.
target.update();
const auto trustSignature = target.userID(0).signature(target.userID(0).numSignatures() - 1);
QVERIFY(trustSignature.isTrustSignature());
QCOMPARE(trustSignature.trustDepth(), 2u);
QCOMPARE(trustSignature.trustValue(), TrustSignatureTrust::Partial);
QVERIFY(trustSignature.trustScope());
const auto trustScope = QString::fromUtf8(trustSignature.trustScope());
QVERIFY(!trustScope.isEmpty());
const QRegExp regex{trustScope};
QVERIFY(regex.isValid());
QVERIFY(regex.indexIn(QStringLiteral("Foo <foo@example.net>")) != -1);
}
}
void test_tsign_multi_uid_key_and_then_tsign_it_again()
{
Error err;
if (!loopbackSupported()) {
return;
}
auto ctx = Context::create(OpenPGP);
QVERIFY(ctx);
// Get the signing key (alfa@example.net)
auto seckey = ctx->key("A0FF4590BB6122EDEF6E3C542D727CC768697734", err, true);
QVERIFY(!err);
QVERIFY(!seckey.isNull());
// Get the target key (Bob / Bravo Test)
auto target = ctx->key("D695676BDCEDCC2CDD6152BCFE180B1DA9E3B0B2", err, false);
QVERIFY(!err);
QVERIFY(!target.isNull());
QVERIFY(target.numUserIDs() > 0);
// Create first trust signature
{
// Create the job
auto job = openpgp()->signKeyJob();//std::unique_ptr<SignKeyJob>{openpgp()->signKeyJob()};
QVERIFY(job);
// Hack in the passphrase provider
auto jobCtx = Job::context(job);
TestPassphraseProvider provider;
jobCtx->setPassphraseProvider(&provider);
jobCtx->setPinentryMode(Context::PinentryLoopback);
// Setup the job
job->setExportable(true);
job->setSigningKey(seckey);
job->setTrustSignature(TrustSignatureTrust::Complete, 1, QStringLiteral("example.org"));
connect(job, &SignKeyJob::result,
this, [this] (const GpgME::Error &err2, const QString &, const GpgME::Error &) {
Q_EMIT asyncDone();
if (err2) {
if (err2.code() == GPG_ERR_GENERAL) {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.\n"
"Hint: Run with GPGMEPP_INTERACTOR_DEBUG=stderr to debug the edit interaction.").arg(err2.asString())));
} else {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.").arg(err2.asString())));
}
}
});
job->start(target);
QSignalSpy spy (this, SIGNAL(asyncDone()));
QVERIFY(spy.wait(QSIGNALSPY_TIMEOUT));
// At this point the trust signature should have been added.
target.update();
const auto trustSignature = target.userID(0).signature(target.userID(0).numSignatures() - 1);
QVERIFY(trustSignature.isTrustSignature());
QCOMPARE(trustSignature.trustDepth(), 1u);
QCOMPARE(trustSignature.trustValue(), TrustSignatureTrust::Complete);
QVERIFY(trustSignature.trustScope());
const auto trustScope = QString::fromUtf8(trustSignature.trustScope());
QVERIFY(!trustScope.isEmpty());
const QRegExp regex{trustScope};
QVERIFY(regex.isValid());
QVERIFY(regex.indexIn(QStringLiteral("Foo <foo@example.org>")) != -1);
}
// Create second trust signature
{
// Create the job
auto job = openpgp()->signKeyJob();//std::unique_ptr<SignKeyJob>{openpgp()->signKeyJob()};
QVERIFY(job);
// Hack in the passphrase provider
auto jobCtx = Job::context(job);
TestPassphraseProvider provider;
jobCtx->setPassphraseProvider(&provider);
jobCtx->setPinentryMode(Context::PinentryLoopback);
// Setup the job
job->setExportable(true);
job->setSigningKey(seckey);
job->setDupeOk(true);
job->setTrustSignature(TrustSignatureTrust::Partial, 2, QStringLiteral("example.net"));
connect(job, &SignKeyJob::result,
this, [this] (const GpgME::Error &err2, const QString &, const GpgME::Error &) {
Q_EMIT asyncDone();
if (err2) {
if (err2.code() == GPG_ERR_GENERAL) {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.\n"
"Hint: Run with GPGMEPP_INTERACTOR_DEBUG=stderr to debug the edit interaction.").arg(err2.asString())));
} else {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.").arg(err2.asString())));
}
}
});
err = job->start(target);
QVERIFY(!err);
QSignalSpy spy (this, SIGNAL(asyncDone()));
QVERIFY(spy.wait(QSIGNALSPY_TIMEOUT));
// At this point the trust signature should have been added.
target.update();
const auto trustSignature = target.userID(0).signature(target.userID(0).numSignatures() - 1);
QVERIFY(trustSignature.isTrustSignature());
QCOMPARE(trustSignature.trustDepth(), 2u);
QCOMPARE(trustSignature.trustValue(), TrustSignatureTrust::Partial);
QVERIFY(trustSignature.trustScope());
const auto trustScope = QString::fromUtf8(trustSignature.trustScope());
QVERIFY(!trustScope.isEmpty());
const QRegExp regex{trustScope};
QVERIFY(regex.isValid());
QVERIFY(regex.indexIn(QStringLiteral("Foo <foo@example.net>")) != -1);
}
}
void test_tsign_first_uid_and_then_tsign_both_uids()
{
Error err;
if (!loopbackSupported()) {
return;
}
auto ctx = Context::create(OpenPGP);
QVERIFY(ctx);
// Get the signing key (alfa@example.net)
auto seckey = ctx->key("A0FF4590BB6122EDEF6E3C542D727CC768697734", err, true);
QVERIFY(!err);
QVERIFY(!seckey.isNull());
// Get the target key (Mallory / Mike Test)
auto target = ctx->key("2686AA191A278013992C72EBBE794852BE5CF886", err, false);
QVERIFY(!err);
QVERIFY(!target.isNull());
QVERIFY(target.numUserIDs() > 0);
// Create first trust signature
{
// Create the job
auto job = openpgp()->signKeyJob();//std::unique_ptr<SignKeyJob>{openpgp()->signKeyJob()};
QVERIFY(job);
// Hack in the passphrase provider
auto jobCtx = Job::context(job);
TestPassphraseProvider provider;
jobCtx->setPassphraseProvider(&provider);
jobCtx->setPinentryMode(Context::PinentryLoopback);
// Setup the job
job->setExportable(true);
job->setSigningKey(seckey);
job->setUserIDsToSign({0});
job->setTrustSignature(TrustSignatureTrust::Complete, 1, QStringLiteral("example.org"));
connect(job, &SignKeyJob::result,
this, [this] (const GpgME::Error &err2, const QString &, const GpgME::Error &) {
Q_EMIT asyncDone();
if (err2) {
if (err2.code() == GPG_ERR_GENERAL) {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.\n"
"Hint: Run with GPGMEPP_INTERACTOR_DEBUG=stderr to debug the edit interaction.").arg(err2.asString())));
} else {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.").arg(err2.asString())));
}
}
});
job->start(target);
QSignalSpy spy (this, SIGNAL(asyncDone()));
QVERIFY(spy.wait(QSIGNALSPY_TIMEOUT));
// At this point the trust signature should have been added.
target.update();
const auto trustSignature = target.userID(0).signature(target.userID(0).numSignatures() - 1);
QVERIFY(trustSignature.isTrustSignature());
QCOMPARE(trustSignature.trustDepth(), 1u);
QCOMPARE(trustSignature.trustValue(), TrustSignatureTrust::Complete);
QVERIFY(trustSignature.trustScope());
const auto trustScope = QString::fromUtf8(trustSignature.trustScope());
QVERIFY(!trustScope.isEmpty());
const QRegExp regex{trustScope};
QVERIFY(regex.isValid());
QVERIFY(regex.indexIn(QStringLiteral("Foo <foo@example.org>")) != -1);
}
// Create second trust signature
{
// Create the job
auto job = openpgp()->signKeyJob();//std::unique_ptr<SignKeyJob>{openpgp()->signKeyJob()};
QVERIFY(job);
// Hack in the passphrase provider
auto jobCtx = Job::context(job);
TestPassphraseProvider provider;
jobCtx->setPassphraseProvider(&provider);
jobCtx->setPinentryMode(Context::PinentryLoopback);
// Setup the job
job->setExportable(true);
job->setSigningKey(seckey);
job->setDupeOk(true);
job->setTrustSignature(TrustSignatureTrust::Partial, 2, QStringLiteral("example.net"));
connect(job, &SignKeyJob::result,
this, [this] (const GpgME::Error &err2, const QString &, const GpgME::Error &) {
Q_EMIT asyncDone();
if (err2) {
if (err2.code() == GPG_ERR_GENERAL) {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.\n"
"Hint: Run with GPGMEPP_INTERACTOR_DEBUG=stderr to debug the edit interaction.").arg(err2.asString())));
} else {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.").arg(err2.asString())));
}
}
});
err = job->start(target);
QVERIFY(!err);
QSignalSpy spy (this, SIGNAL(asyncDone()));
QVERIFY(spy.wait(QSIGNALSPY_TIMEOUT));
// At this point the trust signature should have been added.
target.update();
const auto trustSignature = target.userID(0).signature(target.userID(0).numSignatures() - 1);
QVERIFY(trustSignature.isTrustSignature());
QCOMPARE(trustSignature.trustDepth(), 2u);
QCOMPARE(trustSignature.trustValue(), TrustSignatureTrust::Partial);
QVERIFY(trustSignature.trustScope());
const auto trustScope = QString::fromUtf8(trustSignature.trustScope());
QVERIFY(!trustScope.isEmpty());
const QRegExp regex{trustScope};
QVERIFY(regex.isValid());
QVERIFY(regex.indexIn(QStringLiteral("Foo <foo@example.net>")) != -1);
}
}
void test_tsign_all_uids_and_then_tsign_first_uid()
{
Error err;
if (!loopbackSupported()) {
return;
}
auto ctx = Context::create(OpenPGP);
QVERIFY(ctx);
// Get the signing key (alfa@example.net)
auto seckey = ctx->key("A0FF4590BB6122EDEF6E3C542D727CC768697734", err, true);
QVERIFY(!err);
QVERIFY(!seckey.isNull());
// Get the target key (Echelon / Echo Test / Eve)
auto target = ctx->key("3531152DE293E26A07F504BC318C1FAEFAEF6D1B", err, false);
QVERIFY(!err);
QVERIFY(!target.isNull());
QVERIFY(target.numUserIDs() > 0);
// Create first trust signature
{
// Create the job
auto job = openpgp()->signKeyJob();//std::unique_ptr<SignKeyJob>{openpgp()->signKeyJob()};
QVERIFY(job);
// Hack in the passphrase provider
auto jobCtx = Job::context(job);
TestPassphraseProvider provider;
jobCtx->setPassphraseProvider(&provider);
jobCtx->setPinentryMode(Context::PinentryLoopback);
// Setup the job
job->setExportable(true);
job->setSigningKey(seckey);
job->setTrustSignature(TrustSignatureTrust::Complete, 1, QStringLiteral("example.org"));
connect(job, &SignKeyJob::result,
this, [this] (const GpgME::Error &err2, const QString &, const GpgME::Error &) {
Q_EMIT asyncDone();
if (err2) {
if (err2.code() == GPG_ERR_GENERAL) {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.\n"
"Hint: Run with GPGMEPP_INTERACTOR_DEBUG=stderr to debug the edit interaction.").arg(err2.asString())));
} else {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.").arg(err2.asString())));
}
}
});
job->start(target);
QSignalSpy spy (this, SIGNAL(asyncDone()));
QVERIFY(spy.wait(QSIGNALSPY_TIMEOUT));
// At this point the trust signature should have been added.
target.update();
const auto trustSignature = target.userID(0).signature(target.userID(0).numSignatures() - 1);
QVERIFY(trustSignature.isTrustSignature());
QCOMPARE(trustSignature.trustDepth(), 1u);
QCOMPARE(trustSignature.trustValue(), TrustSignatureTrust::Complete);
QVERIFY(trustSignature.trustScope());
const auto trustScope = QString::fromUtf8(trustSignature.trustScope());
QVERIFY(!trustScope.isEmpty());
const QRegExp regex{trustScope};
QVERIFY(regex.isValid());
QVERIFY(regex.indexIn(QStringLiteral("Foo <foo@example.org>")) != -1);
}
// Create second trust signature
{
// Create the job
auto job = openpgp()->signKeyJob();//std::unique_ptr<SignKeyJob>{openpgp()->signKeyJob()};
QVERIFY(job);
// Hack in the passphrase provider
auto jobCtx = Job::context(job);
TestPassphraseProvider provider;
jobCtx->setPassphraseProvider(&provider);
jobCtx->setPinentryMode(Context::PinentryLoopback);
// Setup the job
job->setExportable(true);
job->setSigningKey(seckey);
job->setUserIDsToSign({0});
job->setDupeOk(true);
job->setTrustSignature(TrustSignatureTrust::Partial, 2, QStringLiteral("example.net"));
connect(job, &SignKeyJob::result,
this, [this] (const GpgME::Error &err2, const QString &, const GpgME::Error &) {
Q_EMIT asyncDone();
if (err2) {
if (err2.code() == GPG_ERR_GENERAL) {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.\n"
"Hint: Run with GPGMEPP_INTERACTOR_DEBUG=stderr to debug the edit interaction.").arg(err2.asString())));
} else {
QFAIL(qPrintable(QString("The SignKeyJob failed with '%1'.").arg(err2.asString())));
}
}
});
err = job->start(target);
QVERIFY(!err);
QSignalSpy spy (this, SIGNAL(asyncDone()));
QVERIFY(spy.wait(QSIGNALSPY_TIMEOUT));
// At this point the trust signature should have been added.
target.update();
const auto trustSignature = target.userID(0).signature(target.userID(0).numSignatures() - 1);
QVERIFY(trustSignature.isTrustSignature());
QCOMPARE(trustSignature.trustDepth(), 2u);
QCOMPARE(trustSignature.trustValue(), TrustSignatureTrust::Partial);
QVERIFY(trustSignature.trustScope());
const auto trustScope = QString::fromUtf8(trustSignature.trustScope());
QVERIFY(!trustScope.isEmpty());
const QRegExp regex{trustScope};
QVERIFY(regex.isValid());
QVERIFY(regex.indexIn(QStringLiteral("Foo <foo@example.net>")) != -1);
}
}
void initTestCase()
{
QGpgMETest::initTestCase();
const QString gpgHome = qgetenv("GNUPGHOME");
QVERIFY(copyKeyrings(gpgHome, mDir.path()));
qputenv("GNUPGHOME", mDir.path().toUtf8());
QFile conf(mDir.path() + QStringLiteral("/gpg.conf"));
QVERIFY(conf.open(QIODevice::WriteOnly));
if (GpgME::engineInfo(GpgME::GpgEngine).engineVersion() >= "2.2.18") {
conf.write("allow-weak-key-signatures");
}
conf.close();
}
private:
QTemporaryDir mDir;
};
QTEST_MAIN(TestTrustSignatures)
#include "t-trustsignatures.moc"