diff options
Diffstat (limited to 'src/test')
| -rw-r--r-- | src/test/GpgFrontendTest.cpp | 2 | ||||
| -rw-r--r-- | src/test/core/GpgCoreTestBasicOpera.cpp | 133 | ||||
| -rw-r--r-- | src/test/core/GpgCoreTestFileBasicOpera.cpp | 239 |
3 files changed, 359 insertions, 15 deletions
diff --git a/src/test/GpgFrontendTest.cpp b/src/test/GpgFrontendTest.cpp index 73a18654..29903c39 100644 --- a/src/test/GpgFrontendTest.cpp +++ b/src/test/GpgFrontendTest.cpp @@ -122,7 +122,7 @@ void ConfigureGpgContext() { }); } -void ImportPrivateKeys(std::filesystem::path data_path, +void ImportPrivateKeys(const std::filesystem::path& data_path, const libconfig::Setting& config) { if (config.exists("load_keys.private_keys")) { auto& private_keys = config.lookup("load_keys.private_keys"); diff --git a/src/test/core/GpgCoreTestBasicOpera.cpp b/src/test/core/GpgCoreTestBasicOpera.cpp index 8c93f3f8..90645ddd 100644 --- a/src/test/core/GpgCoreTestBasicOpera.cpp +++ b/src/test/core/GpgCoreTestBasicOpera.cpp @@ -41,12 +41,14 @@ namespace GpgFrontend::Test { TEST_F(GpgCoreTest, CoreEncryptDecrTest) { + std::atomic_bool callback_called_flag{false}; + auto encrypt_key = GpgKeyGetter::GetInstance().GetPubkey( "E87C6A2D8D95C818DE93B3AE6A2764F8298DEB29"); GpgBasicOperator::GetInstance().Encrypt( {encrypt_key}, GFBuffer("Hello GpgFrontend!"), true, - [](GpgError err, const DataObjectPtr& data_obj) { + [&callback_called_flag](GpgError err, const DataObjectPtr& data_obj) { ASSERT_TRUE((data_obj->Check<GpgEncryptResult, GFBuffer>())); auto result = ExtractParams<GpgEncryptResult>(data_obj, 0); auto encr_out_buffer = ExtractParams<GFBuffer>(data_obj, 1); @@ -54,7 +56,8 @@ TEST_F(GpgCoreTest, CoreEncryptDecrTest) { ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); GpgBasicOperator::GetInstance().Decrypt( - encr_out_buffer, [](GpgError err, const DataObjectPtr& data_obj) { + encr_out_buffer, [&callback_called_flag]( + GpgError err, const DataObjectPtr& data_obj) { auto d_result = ExtractParams<GpgDecryptResult>(data_obj, 0); auto decr_out_buffer = ExtractParams<GFBuffer>(data_obj, 1); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); @@ -62,15 +65,28 @@ TEST_F(GpgCoreTest, CoreEncryptDecrTest) { ASSERT_EQ(d_result.Recipients()[0].keyid, "6A2764F8298DEB29"); ASSERT_EQ(decr_out_buffer, GFBuffer("Hello GpgFrontend!")); + + // stop waiting + callback_called_flag = true; }); }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); } TEST_F(GpgCoreTest, CoreEncryptSymmetricDecrTest) { + std::atomic_bool callback_called_flag{false}; + auto encrypt_text = GFBuffer("Hello GpgFrontend!"); GpgBasicOperator::GetInstance().EncryptSymmetric( - encrypt_text, true, [](GpgError err, const DataObjectPtr& data_obj) { + encrypt_text, true, + [&callback_called_flag](GpgError err, const DataObjectPtr& data_obj) { ASSERT_TRUE((data_obj->Check<GpgEncryptResult, GFBuffer>())); auto result = ExtractParams<GpgEncryptResult>(data_obj, 0); auto encr_out_buffer = ExtractParams<GFBuffer>(data_obj, 1); @@ -78,17 +94,30 @@ TEST_F(GpgCoreTest, CoreEncryptSymmetricDecrTest) { ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); GpgBasicOperator::GetInstance().Decrypt( - encr_out_buffer, [](GpgError err, const DataObjectPtr& data_obj) { + encr_out_buffer, [&callback_called_flag]( + GpgError err, const DataObjectPtr& data_obj) { auto d_result = ExtractParams<GpgDecryptResult>(data_obj, 0); auto decr_out_buffer = ExtractParams<GFBuffer>(data_obj, 1); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); ASSERT_TRUE(d_result.Recipients().empty()); ASSERT_EQ(decr_out_buffer, GFBuffer("Hello GpgFrontend!")); + + // stop waiting + callback_called_flag = true; }); }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); } TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_1) { + std::atomic_bool callback_called_flag{false}; + auto encr_out_data = GFBuffer( "-----BEGIN PGP MESSAGE-----\n" "\n" @@ -103,16 +132,29 @@ TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_1) { "-----END PGP MESSAGE-----"); GpgBasicOperator::GetInstance().Decrypt( - encr_out_data, [=](GpgError err, const DataObjectPtr& data_obj) { + encr_out_data, + [=, &callback_called_flag](GpgError err, const DataObjectPtr& data_obj) { auto d_result = ExtractParams<GpgDecryptResult>(data_obj, 0); auto decr_out_buffer = ExtractParams<GFBuffer>(data_obj, 1); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_SECKEY); ASSERT_FALSE(d_result.Recipients().empty()); ASSERT_EQ(d_result.Recipients()[0].keyid, "A50CFD2F6C677D8C"); + + // stop waiting + callback_called_flag = true; }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); } TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_ResultAnalyse) { + std::atomic_bool callback_called_flag{false}; + auto encr_out_data = GFBuffer( "-----BEGIN PGP MESSAGE-----\n" "\n" @@ -127,7 +169,8 @@ TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_ResultAnalyse) { "-----END PGP MESSAGE-----"); GpgBasicOperator::GetInstance().Decrypt( - encr_out_data, [=](GpgError err, const DataObjectPtr& data_obj) { + encr_out_data, + [=, &callback_called_flag](GpgError err, const DataObjectPtr& data_obj) { auto d_result = ExtractParams<GpgDecryptResult>(data_obj, 0); auto decr_out_buffer = ExtractParams<GFBuffer>(data_obj, 1); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_SECKEY); @@ -138,17 +181,29 @@ TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_ResultAnalyse) { analyse.Analyse(); ASSERT_EQ(analyse.GetStatus(), -1); ASSERT_FALSE(analyse.GetResultReport().empty()); + + // stop waiting + callback_called_flag = true; }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); } TEST_F(GpgCoreTest, CoreSignVerifyNormalTest) { + std::atomic_bool callback_called_flag{false}; + auto sign_key = GpgKeyGetter::GetInstance().GetPubkey( "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); auto sign_text = GFBuffer("Hello GpgFrontend!"); GpgBasicOperator::GetInstance().Sign( {sign_key}, sign_text, GPGME_SIG_MODE_NORMAL, true, - [](GpgError err, const DataObjectPtr& data_obj) { + [&callback_called_flag](GpgError err, const DataObjectPtr& data_obj) { ASSERT_TRUE((data_obj->Check<GpgSignResult, GFBuffer>())); auto result = ExtractParams<GpgSignResult>(data_obj, 0); auto sign_out_buffer = ExtractParams<GFBuffer>(data_obj, 1); @@ -157,24 +212,37 @@ TEST_F(GpgCoreTest, CoreSignVerifyNormalTest) { GpgBasicOperator::GetInstance().Verify( sign_out_buffer, GFBuffer(), - [](GpgError err, const DataObjectPtr& data_obj) { + [&callback_called_flag](GpgError err, + const DataObjectPtr& data_obj) { auto d_result = ExtractParams<GpgVerifyResult>(data_obj, 0); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); ASSERT_FALSE(d_result.GetSignature().empty()); ASSERT_EQ(d_result.GetSignature().at(0).GetFingerprint(), "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); + + // stop waiting + callback_called_flag = true; }); }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); } TEST_F(GpgCoreTest, CoreSignVerifyDetachTest) { + std::atomic_bool callback_called_flag{false}; + auto sign_key = GpgKeyGetter::GetInstance().GetPubkey( "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); auto sign_text = GFBuffer("Hello GpgFrontend!"); GpgBasicOperator::GetInstance().Sign( {sign_key}, sign_text, GPGME_SIG_MODE_DETACH, true, - [=](GpgError err, const DataObjectPtr& data_obj) { + [=, &callback_called_flag](GpgError err, const DataObjectPtr& data_obj) { ASSERT_TRUE((data_obj->Check<GpgSignResult, GFBuffer>())); auto result = ExtractParams<GpgSignResult>(data_obj, 0); auto sign_out_buffer = ExtractParams<GFBuffer>(data_obj, 1); @@ -183,24 +251,37 @@ TEST_F(GpgCoreTest, CoreSignVerifyDetachTest) { GpgBasicOperator::GetInstance().Verify( sign_text, sign_out_buffer, - [](GpgError err, const DataObjectPtr& data_obj) { + [&callback_called_flag](GpgError err, + const DataObjectPtr& data_obj) { auto d_result = ExtractParams<GpgVerifyResult>(data_obj, 0); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); ASSERT_FALSE(d_result.GetSignature().empty()); ASSERT_EQ(d_result.GetSignature().at(0).GetFingerprint(), "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); + + // stop waiting + callback_called_flag = true; }); }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); } TEST_F(GpgCoreTest, CoreSignVerifyClearTest) { + std::atomic_bool callback_called_flag{false}; + auto sign_key = GpgKeyGetter::GetInstance().GetPubkey( "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); auto sign_text = GFBuffer("Hello GpgFrontend!"); GpgBasicOperator::GetInstance().Sign( {sign_key}, sign_text, GPGME_SIG_MODE_CLEAR, true, - [](GpgError err, const DataObjectPtr& data_obj) { + [&callback_called_flag](GpgError err, const DataObjectPtr& data_obj) { ASSERT_TRUE((data_obj->Check<GpgSignResult, GFBuffer>())); auto result = ExtractParams<GpgSignResult>(data_obj, 0); auto sign_out_buffer = ExtractParams<GFBuffer>(data_obj, 1); @@ -209,17 +290,30 @@ TEST_F(GpgCoreTest, CoreSignVerifyClearTest) { GpgBasicOperator::GetInstance().Verify( sign_out_buffer, GFBuffer(), - [](GpgError err, const DataObjectPtr& data_obj) { + [&callback_called_flag](GpgError err, + const DataObjectPtr& data_obj) { auto verify_reult = ExtractParams<GpgVerifyResult>(data_obj, 0); ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); ASSERT_FALSE(verify_reult.GetSignature().empty()); ASSERT_EQ(verify_reult.GetSignature().at(0).GetFingerprint(), "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); + + // stop waiting + callback_called_flag = true; }); }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); } TEST_F(GpgCoreTest, CoreEncryptSignDecrVerifyTest) { + std::atomic_bool callback_called_flag{false}; + auto encrypt_key = GpgKeyGetter::GetInstance().GetPubkey( "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); auto sign_key = GpgKeyGetter::GetInstance().GetKey( @@ -231,7 +325,7 @@ TEST_F(GpgCoreTest, CoreEncryptSignDecrVerifyTest) { GpgBasicOperator::GetInstance().EncryptSign( {encrypt_key}, {sign_key}, encrypt_text, true, - [](GpgError err, const DataObjectPtr& data_obj) { + [&callback_called_flag](GpgError err, const DataObjectPtr& data_obj) { ASSERT_TRUE( (data_obj->Check<GpgEncryptResult, GpgSignResult, GFBuffer>())); auto encr_result = ExtractParams<GpgEncryptResult>(data_obj, 0); @@ -242,7 +336,8 @@ TEST_F(GpgCoreTest, CoreEncryptSignDecrVerifyTest) { ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); GpgBasicOperator::GetInstance().DecryptVerify( - encr_out_buffer, [](GpgError err, const DataObjectPtr& data_obj) { + encr_out_buffer, [&callback_called_flag]( + GpgError err, const DataObjectPtr& data_obj) { ASSERT_TRUE( (data_obj ->Check<GpgDecryptResult, GpgVerifyResult, GFBuffer>())); @@ -261,8 +356,18 @@ TEST_F(GpgCoreTest, CoreEncryptSignDecrVerifyTest) { ASSERT_FALSE(verify_reult.GetSignature().empty()); ASSERT_EQ(verify_reult.GetSignature().at(0).GetFingerprint(), "8933EB283A18995F45D61DAC021D89771B680FFB"); + + // stop waiting + callback_called_flag = true; }); }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); } } // namespace GpgFrontend::Test diff --git a/src/test/core/GpgCoreTestFileBasicOpera.cpp b/src/test/core/GpgCoreTestFileBasicOpera.cpp new file mode 100644 index 00000000..d07eae4f --- /dev/null +++ b/src/test/core/GpgCoreTestFileBasicOpera.cpp @@ -0,0 +1,239 @@ +/** + * Copyright (C) 2021 Saturneric <[email protected]> + * + * 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 <https://www.gnu.org/licenses/>. + * + * 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 <[email protected]> starting on May 12, 2021. + * + * SPDX-License-Identifier: GPL-3.0-or-later + * + */ + +#include "GpgCoreTest.h" +#include "core/GpgModel.h" +#include "core/function/basic/ChannelObject.h" +#include "core/function/gpg/GpgBasicOperator.h" +#include "core/function/gpg/GpgFileOpera.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" +#include "core/utils/IOUtils.h" + +namespace GpgFrontend::Test { + +TEST_F(GpgCoreTest, CoreFileEncryptDecrTest) { + std::atomic_bool callback_called_flag{false}; + + auto encrypt_key = GpgKeyGetter::GetInstance().GetPubkey( + "E87C6A2D8D95C818DE93B3AE6A2764F8298DEB29"); + auto input_file = CreateTempFileAndWriteData("Hello GpgFrontend!"); + auto output_file = GetTempFilePath(); + + GpgFileOpera::EncryptFile( + {encrypt_key}, input_file, true, output_file, + [output_file, &callback_called_flag](GpgError err, + const DataObjectPtr& data_obj) { + ASSERT_TRUE((data_obj->Check<GpgEncryptResult>())); + + auto result = ExtractParams<GpgEncryptResult>(data_obj, 0); + ASSERT_TRUE(result.InvalidRecipients().empty()); + ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); + + auto decrpypt_output_file = GetTempFilePath(); + GpgFileOpera::DecryptFile( + output_file, decrpypt_output_file, + [decrpypt_output_file, &callback_called_flag]( + GpgError err, const DataObjectPtr& data_obj) { + auto d_result = ExtractParams<GpgDecryptResult>(data_obj, 0); + + ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); + ASSERT_FALSE(d_result.Recipients().empty()); + ASSERT_EQ(d_result.Recipients()[0].keyid, "6A2764F8298DEB29"); + + const auto [read_success, buffer] = + ReadFileGFBuffer(decrpypt_output_file); + ASSERT_TRUE(read_success); + ASSERT_EQ(buffer, GFBuffer("Hello GpgFrontend!")); + + // stop waiting + callback_called_flag = true; + }); + }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); +} + +TEST_F(GpgCoreTest, CoreFileEncryptSymmetricDecrTest) { + std::atomic_bool callback_called_flag{false}; + + auto input_file = CreateTempFileAndWriteData("Hello GpgFrontend!"); + auto output_file = GetTempFilePath(); + + GpgFileOpera::EncryptFileSymmetric( + input_file, true, output_file, + [&callback_called_flag, output_file](GpgError err, + const DataObjectPtr& data_obj) { + ASSERT_TRUE((data_obj->Check<GpgEncryptResult>())); + auto result = ExtractParams<GpgEncryptResult>(data_obj, 0); + ASSERT_TRUE(result.InvalidRecipients().empty()); + ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); + + auto decrpypt_output_file = GetTempFilePath(); + GpgFileOpera::DecryptFile( + output_file, decrpypt_output_file, + [&callback_called_flag, decrpypt_output_file]( + GpgError err, const DataObjectPtr& data_obj) { + ASSERT_TRUE((data_obj->Check<GpgDecryptResult>())); + + auto decrypt_result = + ExtractParams<GpgDecryptResult>(data_obj, 0); + ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); + ASSERT_TRUE(decrypt_result.Recipients().empty()); + + const auto [read_success, buffer] = + ReadFileGFBuffer(decrpypt_output_file); + ASSERT_TRUE(read_success); + ASSERT_EQ(buffer, GFBuffer("Hello GpgFrontend!")); + + // stop waiting + callback_called_flag = true; + }); + }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); +} + +TEST_F(GpgCoreTest, CoreFileSignVerifyNormalTest) { + std::atomic_bool callback_called_flag{false}; + + auto sign_key = GpgKeyGetter::GetInstance().GetPubkey( + "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); + auto input_file = CreateTempFileAndWriteData("Hello GpgFrontend!"); + auto output_file = GetTempFilePath(); + + GpgFileOpera::SignFile( + {sign_key}, input_file, true, output_file, + [&callback_called_flag, input_file, output_file]( + GpgError err, const DataObjectPtr& data_obj) { + ASSERT_TRUE((data_obj->Check<GpgSignResult>())); + auto result = ExtractParams<GpgSignResult>(data_obj, 0); + ASSERT_TRUE(result.InvalidSigners().empty()); + ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); + + GpgFileOpera::VerifyFile( + input_file, output_file, + [&callback_called_flag](GpgError err, + const DataObjectPtr& data_obj) { + auto d_result = ExtractParams<GpgVerifyResult>(data_obj, 0); + ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); + ASSERT_FALSE(d_result.GetSignature().empty()); + ASSERT_EQ(d_result.GetSignature().at(0).GetFingerprint(), + "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); + + // stop waiting + callback_called_flag = true; + }); + }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); +} + +TEST_F(GpgCoreTest, CoreFileEncryptSignDecrVerifyTest) { + std::atomic_bool callback_called_flag{false}; + + auto encrypt_key = GpgKeyGetter::GetInstance().GetPubkey( + "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); + auto sign_key = GpgKeyGetter::GetInstance().GetKey( + "8933EB283A18995F45D61DAC021D89771B680FFB"); + auto input_file = CreateTempFileAndWriteData("Hello GpgFrontend!"); + auto output_file = GetTempFilePath(); + + ASSERT_TRUE(sign_key.IsPrivateKey()); + ASSERT_TRUE(sign_key.IsHasActualSigningCapability()); + + GpgFileOpera::EncryptSignFile( + {encrypt_key}, {sign_key}, input_file, true, output_file, + [&callback_called_flag, output_file](GpgError err, + const DataObjectPtr& data_obj) { + ASSERT_TRUE((data_obj->Check<GpgEncryptResult, GpgSignResult>())); + auto encr_result = ExtractParams<GpgEncryptResult>(data_obj, 0); + auto sign_result = ExtractParams<GpgSignResult>(data_obj, 1); + ASSERT_TRUE(encr_result.InvalidRecipients().empty()); + ASSERT_TRUE(sign_result.InvalidSigners().empty()); + ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); + + auto decrpypt_output_file = GetTempFilePath(); + GpgFileOpera::DecryptVerifyFile( + output_file, decrpypt_output_file, + [&callback_called_flag, decrpypt_output_file]( + GpgError err, const DataObjectPtr& data_obj) { + ASSERT_TRUE( + (data_obj->Check<GpgDecryptResult, GpgVerifyResult>())); + auto decrypt_result = + ExtractParams<GpgDecryptResult>(data_obj, 0); + auto verify_reult = ExtractParams<GpgVerifyResult>(data_obj, 1); + + ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); + + ASSERT_FALSE(decrypt_result.Recipients().empty()); + ASSERT_EQ(decrypt_result.Recipients()[0].keyid, + "F89C95A05088CC93"); + ASSERT_FALSE(verify_reult.GetSignature().empty()); + ASSERT_EQ(verify_reult.GetSignature().at(0).GetFingerprint(), + "8933EB283A18995F45D61DAC021D89771B680FFB"); + + const auto [read_success, buffer] = + ReadFileGFBuffer(decrpypt_output_file); + ASSERT_TRUE(read_success); + ASSERT_EQ(buffer, GFBuffer("Hello GpgFrontend!")); + + // stop waiting + callback_called_flag = true; + }); + }); + + int retry_count = 1000; + while (!callback_called_flag && retry_count-- > 0) { + std::this_thread::sleep_for(std::chrono::milliseconds(10)); + } + + ASSERT_TRUE(callback_called_flag); +} + +} // namespace GpgFrontend::Test |