/** * Copyright (C) 2021-2024 Saturneric * * This file is part of GpgFrontend. * * GpgFrontend 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 3 of the License, or * (at your option) any later version. * * GpgFrontend 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 GpgFrontend. If not, see . * * The initial version of the source code is inherited from * the gpg4usb project, which is under GPL-3.0-or-later. * * All the source code of GpgFrontend was modified and released by * Saturneric starting on May 12, 2021. * * SPDX-License-Identifier: GPL-3.0-or-later * */ #include "GpgCoreTest.h" #include "core/function/gpg/GpgBasicOperator.h" #include "core/function/gpg/GpgKeyGetter.h" #include "core/function/result_analyse/GpgDecryptResultAnalyse.h" #include "core/model/GpgDecryptResult.h" #include "core/model/GpgEncryptResult.h" #include "core/model/GpgSignResult.h" #include "core/model/GpgVerifyResult.h" #include "core/utils/GpgUtils.h" namespace GpgFrontend::Test { TEST_F(GpgCoreTest, CoreEncryptDecrTest) { auto encrypt_key = GpgKeyGetter::GetInstance().GetPubkeyPtr( "E87C6A2D8D95C818DE93B3AE6A2764F8298DEB29"); ASSERT_TRUE(encrypt_key != nullptr); auto buffer = GFBuffer(QString("Hello GpgFrontend!")); auto [err, data_object] = GpgBasicOperator::GetInstance().EncryptSync({encrypt_key}, buffer, true); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); ASSERT_TRUE((data_object->Check())); auto result = ExtractParams(data_object, 0); auto encr_out_buffer = ExtractParams(data_object, 1); ASSERT_TRUE(result.InvalidRecipients().empty()); auto [err_0, data_object_0] = GpgBasicOperator::GetInstance().DecryptSync(encr_out_buffer); ASSERT_EQ(CheckGpgError(err_0), GPG_ERR_NO_ERROR); ASSERT_TRUE((data_object_0->Check())); auto decr_result = ExtractParams(data_object_0, 0); auto decr_out_buffer = ExtractParams(data_object_0, 1); ASSERT_FALSE(decr_result.Recipients().empty()); ASSERT_EQ(decr_result.Recipients()[0].keyid, "6A2764F8298DEB29"); ASSERT_EQ(decr_out_buffer, buffer); } TEST_F(GpgCoreTest, CoreEncryptSymmetricDecrTest) { auto encrypt_text = GFBuffer(QString("Hello GpgFrontend!")); auto [err, data_object] = GpgBasicOperator::GetInstance().EncryptSymmetricSync(encrypt_text, true); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); ASSERT_TRUE((data_object->Check())); auto encr_result = ExtractParams(data_object, 0); auto encr_out_buffer = ExtractParams(data_object, 1); ASSERT_TRUE(encr_result.InvalidRecipients().empty()); auto [err_0, data_object_0] = GpgBasicOperator::GetInstance().DecryptSync(encr_out_buffer); ASSERT_EQ(CheckGpgError(err_0), GPG_ERR_NO_ERROR); ASSERT_TRUE((data_object_0->Check())); auto decr_result = ExtractParams(data_object_0, 0); auto decr_out_buffer = ExtractParams(data_object_0, 1); ASSERT_TRUE(decr_result.Recipients().empty()); ASSERT_EQ(decr_out_buffer, encrypt_text); } TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_1) { auto encr_out_data = GFBuffer(QString( "-----BEGIN PGP MESSAGE-----\n" "\n" "hQEMA6UM/S9sZ32MAQf9Fb6gp6nvgKTQBv2mmjXia6ODXYq6kNeLsPVzLCbHyWOs\n" "0GDED11R1NksA3EQxFf4fzLkDpbo68r5bWy7c28c99Fr68IRET19Tw6Gu65MQezD\n" "Rdzo1oVqmK9sfKqOT3+0S2H+suFYw5kfBztMZLVGGl9R9fOXdKcj0fqGs2br3e9D\n" "ArBFqq07Bae2DD1J8mckWB2x9Uem4vjRiY+vEJcEdAS1N5xu1n7qzzyDgcRcS34X\n" "PNBQeTrFMc2RS7mnip2DbyZVEjORobhguK6xZyqXXbvFacStGWDLptV3dcCn4JRO\n" "dIORyt5wugqAtgE4qEGTvr/pJ/oXPw4Wve/trece/9I/AR38vW8ntVmDa/hV75iZ\n" "4QGAhQ8grD4kq31GHXHUOmBX51XXW9SINmplC8elEx3R460EUZJjjb0OvTih+eZH\n" "=8n2H\n" "-----END PGP MESSAGE-----")); auto [err, data_object] = GpgBasicOperator::GetInstance().DecryptSync(encr_out_data); auto decr_result = ExtractParams(data_object, 0); auto decr_out_buffer = ExtractParams(data_object, 1); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_SECKEY); ASSERT_FALSE(decr_result.Recipients().empty()); ASSERT_EQ(decr_result.Recipients()[0].keyid, "A50CFD2F6C677D8C"); } TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_ResultAnalyse) { auto encr_out_data = GFBuffer(QString( "-----BEGIN PGP MESSAGE-----\n" "\n" "hQEMA6UM/S9sZ32MAQf9Fb6gp6nvgKTQBv2mmjXia6ODXYq6kNeLsPVzLCbHyWOs\n" "0GDED11R1NksA3EQxFf4fzLkDpbo68r5bWy7c28c99Fr68IRET19Tw6Gu65MQezD\n" "Rdzo1oVqmK9sfKqOT3+0S2H+suFYw5kfBztMZLVGGl9R9fOXdKcj0fqGs2br3e9D\n" "ArBFqq07Bae2DD1J8mckWB2x9Uem4vjRiY+vEJcEdAS1N5xu1n7qzzyDgcRcS34X\n" "PNBQeTrFMc2RS7mnip2DbyZVEjORobhguK6xZyqXXbvFacStGWDLptV3dcCn4JRO\n" "dIORyt5wugqAtgE4qEGTvr/pJ/oXPw4Wve/trece/9I/AR38vW8ntVmDa/hV75iZ\n" "4QGAhQ8grD4kq31GHXHUOmBX51XXW9SINmplC8elEx3R460EUZJjjb0OvTih+eZH\n" "=8n2H\n" "-----END PGP MESSAGE-----")); auto [err, data_object] = GpgBasicOperator::GetInstance().DecryptSync(encr_out_data); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_SECKEY); ASSERT_TRUE((data_object->Check())); auto decr_result = ExtractParams(data_object, 0); auto decr_out_buffer = ExtractParams(data_object, 1); ASSERT_FALSE(decr_result.Recipients().empty()); ASSERT_EQ(decr_result.Recipients()[0].keyid, "A50CFD2F6C677D8C"); GpgDecryptResultAnalyse analyse{kGpgFrontendDefaultChannel, err, decr_result}; analyse.Analyse(); ASSERT_EQ(analyse.GetStatus(), -1); ASSERT_FALSE(analyse.GetResultReport().isEmpty()); } TEST_F(GpgCoreTest, CoreSignVerifyNormalTest) { auto sign_key = GpgKeyGetter::GetInstance().GetPubkeyPtr( "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); ASSERT_TRUE(sign_key != nullptr); auto sign_text = GFBuffer(QString("Hello GpgFrontend!")); auto [err, data_object] = GpgBasicOperator::GetInstance().SignSync( {sign_key}, sign_text, GPGME_SIG_MODE_NORMAL, true); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); ASSERT_TRUE((data_object->Check())); auto result = ExtractParams(data_object, 0); auto sign_out_buffer = ExtractParams(data_object, 1); ASSERT_TRUE(result.InvalidSigners().empty()); auto [err_0, data_object_0] = GpgBasicOperator::GetInstance().VerifySync(sign_out_buffer, GFBuffer()); ASSERT_EQ(CheckGpgError(err_0), GPG_ERR_NO_ERROR); ASSERT_TRUE((data_object_0->Check())); auto verify_result = ExtractParams(data_object_0, 0); ASSERT_FALSE(verify_result.GetSignature().empty()); ASSERT_EQ(verify_result.GetSignature().at(0).GetFingerprint(), "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); } TEST_F(GpgCoreTest, CoreSignVerifyDetachTest) { auto sign_key = GpgKeyGetter::GetInstance().GetPubkeyPtr( "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); ASSERT_TRUE(sign_key != nullptr); auto sign_text = GFBuffer(QString("Hello GpgFrontend!")); auto [err, data_object] = GpgBasicOperator::GetInstance().SignSync( {sign_key}, sign_text, GPGME_SIG_MODE_DETACH, true); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); ASSERT_TRUE((data_object->Check())); auto result = ExtractParams(data_object, 0); auto sign_out_buffer = ExtractParams(data_object, 1); ASSERT_TRUE(result.InvalidSigners().empty()); auto [err_0, data_object_0] = GpgBasicOperator::GetInstance().VerifySync(sign_text, sign_out_buffer); ASSERT_EQ(CheckGpgError(err_0), GPG_ERR_NO_ERROR); ASSERT_TRUE((data_object_0->Check())); auto verify_result = ExtractParams(data_object_0, 0); ASSERT_FALSE(verify_result.GetSignature().empty()); ASSERT_EQ(verify_result.GetSignature().at(0).GetFingerprint(), "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); } TEST_F(GpgCoreTest, CoreSignVerifyClearTest) { auto sign_key = GpgKeyGetter::GetInstance().GetPubkeyPtr( "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); ASSERT_TRUE(sign_key != nullptr); auto sign_text = GFBuffer(QString("Hello GpgFrontend!")); auto [err, data_object] = GpgBasicOperator::GetInstance().SignSync( {sign_key}, sign_text, GPGME_SIG_MODE_CLEAR, true); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); ASSERT_TRUE((data_object->Check())); auto result = ExtractParams(data_object, 0); auto sign_out_buffer = ExtractParams(data_object, 1); ASSERT_TRUE(result.InvalidSigners().empty()); auto [err_0, data_object_0] = GpgBasicOperator::GetInstance().VerifySync(sign_out_buffer, GFBuffer()); ASSERT_EQ(CheckGpgError(err_0), GPG_ERR_NO_ERROR); auto verify_reult = ExtractParams(data_object_0, 0); ASSERT_FALSE(verify_reult.GetSignature().empty()); ASSERT_EQ(verify_reult.GetSignature().at(0).GetFingerprint(), "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); } TEST_F(GpgCoreTest, CoreEncryptSignDecrVerifyTest) { auto encrypt_key = GpgKeyGetter::GetInstance().GetPubkeyPtr( "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); ASSERT_TRUE(encrypt_key != nullptr); auto sign_key = GpgKeyGetter::GetInstance().GetKeyPtr( "8933EB283A18995F45D61DAC021D89771B680FFB"); ASSERT_TRUE(sign_key != nullptr); auto encrypt_text = GFBuffer(QString("Hello GpgFrontend!")); ASSERT_TRUE(sign_key->IsPrivateKey()); ASSERT_TRUE(sign_key->IsHasActualSignCap()); auto [err, data_object] = GpgBasicOperator::GetInstance().EncryptSignSync( {encrypt_key}, {sign_key}, encrypt_text, true); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); ASSERT_TRUE( (data_object->Check())); auto encr_result = ExtractParams(data_object, 0); auto sign_result = ExtractParams(data_object, 1); auto encr_out_buffer = ExtractParams(data_object, 2); ASSERT_TRUE(encr_result.InvalidRecipients().empty()); ASSERT_TRUE(sign_result.InvalidSigners().empty()); auto [err_0, data_object_0] = GpgBasicOperator::GetInstance().DecryptVerifySync(encr_out_buffer); ASSERT_EQ(CheckGpgError(err_0), GPG_ERR_NO_ERROR); ASSERT_TRUE( (data_object_0->Check())); auto decrypt_result = ExtractParams(data_object_0, 0); auto verify_reult = ExtractParams(data_object_0, 1); auto decr_out_buffer = ExtractParams(data_object_0, 2); ASSERT_FALSE(decrypt_result.Recipients().empty()); ASSERT_EQ(decr_out_buffer, encrypt_text); ASSERT_EQ(decrypt_result.Recipients()[0].keyid, "F89C95A05088CC93"); ASSERT_FALSE(verify_reult.GetSignature().empty()); ASSERT_EQ(verify_reult.GetSignature().at(0).GetFingerprint(), "8933EB283A18995F45D61DAC021D89771B680FFB"); } } // namespace GpgFrontend::Test