diff options
Diffstat (limited to 'src/test/core/GpgCoreTestBasicOpera.cpp')
| -rw-r--r-- | src/test/core/GpgCoreTestBasicOpera.cpp | 384 |
1 files changed, 194 insertions, 190 deletions
diff --git a/src/test/core/GpgCoreTestBasicOpera.cpp b/src/test/core/GpgCoreTestBasicOpera.cpp index 59cb2fa2..19af4918 100644 --- a/src/test/core/GpgCoreTestBasicOpera.cpp +++ b/src/test/core/GpgCoreTestBasicOpera.cpp @@ -36,195 +36,199 @@ namespace GpgFrontend::Test { -TEST_F(GpgCoreTest, CoreEncryptDecrTest) { - auto encrypt_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) - .GetPubkey("467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); - ByteArray encrypt_text = "Hello GpgFrontend!"; - KeyListPtr keys = std::make_unique<KeyArgsList>(); - keys->push_back(std::move(encrypt_key)); - GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - .Encrypt(std::move(keys), encrypt_text, - [](GpgError err, const DataObjectPtr&) { - - }); - - // ASSERT_EQ(e_result->invalid_recipients, nullptr); - // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); - - // GpgDecrResult d_result; - // ByteArrayPtr decr_out_data; - // err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - // .Decrypt(*encr_out_data, decr_out_data, d_result); - // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); - // ASSERT_NE(d_result->recipients, nullptr); - // ASSERT_EQ(std::string(d_result->recipients->keyid), "F89C95A05088CC93"); - // ASSERT_EQ(*decr_out_data, encrypt_text); - // } - - // TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_1) { - // ByteArrayPtr encr_out_data = std::make_unique<ByteArray>( - // "-----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-----"); - - // GpgDecrResult d_result; - // ByteArrayPtr decr_out_data; - // auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - // .Decrypt(*encr_out_data, decr_out_data, d_result); - // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_SECKEY); - // ASSERT_NE(d_result->recipients, nullptr); - // ASSERT_EQ(std::string(d_result->recipients->keyid), "A50CFD2F6C677D8C"); -} - -TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_ResultAnalyse) { - ByteArrayPtr encr_out_data = std::make_unique<ByteArray>( - "-----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-----"); - - GpgDecrResult d_result; - ByteArrayPtr decr_out_data; - auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - .Decrypt(*encr_out_data, decr_out_data, d_result); - ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_SECKEY); - ASSERT_NE(d_result->recipients, nullptr); - ASSERT_EQ(std::string(d_result->recipients->keyid), "A50CFD2F6C677D8C"); - - GpgDecryptResultAnalyse analyse{err, d_result}; - analyse.Analyse(); - ASSERT_EQ(analyse.GetStatus(), -1); - ASSERT_FALSE(analyse.GetResultReport().empty()); -} - -TEST_F(GpgCoreTest, CoreSignVerifyNormalTest) { - auto encrypt_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) - .GetPubkey("467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); - ByteArray sign_text = "Hello GpgFrontend!"; - ByteArrayPtr sign_out_data; - GpgSignResult s_result; - KeyListPtr keys = std::make_unique<KeyArgsList>(); - keys->push_back(std::move(encrypt_key)); - auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - .Sign(std::move(keys), sign_text, sign_out_data, - GPGME_SIG_MODE_NORMAL, s_result); - ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); - ASSERT_EQ(s_result->invalid_signers, nullptr); - - GpgVerifyResult v_result; - ByteArrayPtr sign_buff = nullptr; - err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - .Verify(*sign_out_data, sign_buff, v_result); - ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); - ASSERT_NE(v_result->signatures, nullptr); - ASSERT_EQ(std::string(v_result->signatures->fpr), - "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); - ASSERT_EQ(v_result->signatures->next, nullptr); -} - -TEST_F(GpgCoreTest, CoreSignVerifyDetachTest) { - auto encrypt_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) - .GetPubkey("467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); - ByteArray sign_text = "Hello GpgFrontend!"; - ByteArrayPtr sign_out_data; - GpgSignResult s_result; - KeyListPtr keys = std::make_unique<KeyArgsList>(); - keys->push_back(std::move(encrypt_key)); - auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - .Sign(std::move(keys), sign_text, sign_out_data, - GPGME_SIG_MODE_DETACH, s_result); - ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); - ASSERT_EQ(s_result->invalid_signers, nullptr); - - GpgVerifyResult v_result; - err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - .Verify(sign_text, sign_out_data, v_result); - ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); - ASSERT_NE(v_result->signatures, nullptr); - ASSERT_EQ(std::string(v_result->signatures->fpr), - "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); - ASSERT_EQ(v_result->signatures->next, nullptr); -} - -TEST_F(GpgCoreTest, CoreSignVerifyClearTest) { - auto sign_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) - .GetKey("467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); - ByteArray sign_text = "Hello GpgFrontend!"; - ByteArrayPtr sign_out_data; - GpgSignResult s_result; - KeyListPtr keys = std::make_unique<KeyArgsList>(); - keys->push_back(std::move(sign_key)); - auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - .Sign(std::move(keys), sign_text, sign_out_data, - GPGME_SIG_MODE_CLEAR, s_result); - ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); - ASSERT_EQ(s_result->invalid_signers, nullptr); - - GpgVerifyResult v_result; - ByteArrayPtr sign_buff = nullptr; - err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - .Verify(*sign_out_data, sign_buff, v_result); - ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); - ASSERT_NE(v_result->signatures, nullptr); - ASSERT_EQ(std::string(v_result->signatures->fpr), - "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); - ASSERT_EQ(v_result->signatures->next, nullptr); -} - -TEST_F(GpgCoreTest, CoreEncryptSignDecrVerifyTest) { - auto encrypt_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) - .GetPubkey("467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); - auto sign_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) - .GetKey("8933EB283A18995F45D61DAC021D89771B680FFB"); - // Question? - // ASSERT_FALSE(encrypt_key.is_private_key()); - ASSERT_TRUE(sign_key.IsPrivateKey()); - ASSERT_TRUE(sign_key.IsHasActualSigningCapability()); - ByteArray encrypt_text = "Hello GpgFrontend!"; - ByteArrayPtr encr_out_data; - GpgEncrResult e_result; - GpgSignResult s_result; - - KeyListPtr keys = std::make_unique<KeyArgsList>(), - sign_keys = std::make_unique<KeyArgsList>(); - keys->push_back(std::move(encrypt_key)); - sign_keys->push_back(std::move(sign_key)); - - auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - .EncryptSign(std::move(keys), std::move(sign_keys), - encrypt_text, encr_out_data, e_result, s_result); - ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); - ASSERT_EQ(e_result->invalid_recipients, nullptr); - ASSERT_EQ(s_result->invalid_signers, nullptr); - - GpgDecrResult d_result; - GpgVerifyResult v_result; - ByteArrayPtr decr_out_data = nullptr; - err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) - .DecryptVerify(*encr_out_data, decr_out_data, d_result, v_result); - ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); - ASSERT_NE(d_result->recipients, nullptr); - ASSERT_EQ(std::string(d_result->recipients->keyid), "F89C95A05088CC93"); - ASSERT_EQ(*decr_out_data, encrypt_text); - ASSERT_NE(v_result->signatures, nullptr); - ASSERT_EQ(std::string(v_result->signatures->fpr), - "8933EB283A18995F45D61DAC021D89771B680FFB"); - ASSERT_EQ(v_result->signatures->next, nullptr); -} +// TEST_F(GpgCoreTest, CoreEncryptDecrTest) { +// auto encrypt_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) +// .GetPubkey("467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); +// ByteArray encrypt_text = "Hello GpgFrontend!"; +// KeyListPtr keys = std::make_unique<KeyArgsList>(); +// keys->push_back(std::move(encrypt_key)); +// GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// .Encrypt(std::move(keys), encrypt_text, +// [](GpgError err, const DataObjectPtr&) { + +// }); + +// // ASSERT_EQ(e_result->invalid_recipients, nullptr); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); + +// // GpgDecrResult d_result; +// // ByteArrayPtr decr_out_data; +// // err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .Decrypt(*encr_out_data, decr_out_data, d_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); +// // ASSERT_NE(d_result->recipients, nullptr); +// // ASSERT_EQ(std::string(d_result->recipients->keyid), +// "F89C95A05088CC93"); +// // ASSERT_EQ(*decr_out_data, encrypt_text); +// // } + +// // TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_1) { +// // ByteArrayPtr encr_out_data = std::make_unique<ByteArray>( +// // "-----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-----"); + +// // GpgDecrResult d_result; +// // ByteArrayPtr decr_out_data; +// // auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .Decrypt(*encr_out_data, decr_out_data, d_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_SECKEY); +// // ASSERT_NE(d_result->recipients, nullptr); +// // ASSERT_EQ(std::string(d_result->recipients->keyid), +// "A50CFD2F6C677D8C"); +// } + +// TEST_F(GpgCoreTest, CoreEncryptDecrTest_KeyNotFound_ResultAnalyse) { +// // ByteArrayPtr encr_out_data = std::make_unique<ByteArray>( +// // "-----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-----"); + +// // GpgDecrResult d_result; +// // ByteArrayPtr decr_out_data; +// // auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .Decrypt(*encr_out_data, decr_out_data, d_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_SECKEY); +// // ASSERT_NE(d_result->recipients, nullptr); +// // ASSERT_EQ(std::string(d_result->recipients->keyid), "A50CFD2F6C677D8C"); + +// // GpgDecryptResultAnalyse analyse{err, d_result}; +// // analyse.Analyse(); +// // ASSERT_EQ(analyse.GetStatus(), -1); +// // ASSERT_FALSE(analyse.GetResultReport().empty()); +// } + +// TEST_F(GpgCoreTest, CoreSignVerifyNormalTest) { +// // auto encrypt_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) +// // .GetPubkey("467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); +// // ByteArray sign_text = "Hello GpgFrontend!"; +// // ByteArrayPtr sign_out_data; +// // GpgSignResult s_result; +// // KeyListPtr keys = std::make_unique<KeyArgsList>(); +// // keys->push_back(std::move(encrypt_key)); +// // auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .Sign(std::move(keys), sign_text, sign_out_data, +// // GPGME_SIG_MODE_NORMAL, s_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); +// // ASSERT_EQ(s_result->invalid_signers, nullptr); + +// // GpgVerifyResult v_result; +// // ByteArrayPtr sign_buff = nullptr; +// // err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .Verify(*sign_out_data, sign_buff, v_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); +// // ASSERT_NE(v_result->signatures, nullptr); +// // ASSERT_EQ(std::string(v_result->signatures->fpr), +// // "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); +// // ASSERT_EQ(v_result->signatures->next, nullptr); +// } + +// TEST_F(GpgCoreTest, CoreSignVerifyDetachTest) { +// // auto encrypt_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) +// // .GetPubkey("467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); +// // ByteArray sign_text = "Hello GpgFrontend!"; +// // ByteArrayPtr sign_out_data; +// // GpgSignResult s_result; +// // KeyListPtr keys = std::make_unique<KeyArgsList>(); +// // keys->push_back(std::move(encrypt_key)); +// // auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .Sign(std::move(keys), sign_text, sign_out_data, +// // GPGME_SIG_MODE_DETACH, s_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); +// // ASSERT_EQ(s_result->invalid_signers, nullptr); + +// // GpgVerifyResult v_result; +// // err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .Verify(sign_text, sign_out_data, v_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); +// // ASSERT_NE(v_result->signatures, nullptr); +// // ASSERT_EQ(std::string(v_result->signatures->fpr), +// // "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); +// // ASSERT_EQ(v_result->signatures->next, nullptr); +// } + +// TEST_F(GpgCoreTest, CoreSignVerifyClearTest) { +// // auto sign_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) +// // .GetKey("467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); +// // ByteArray sign_text = "Hello GpgFrontend!"; +// // ByteArrayPtr sign_out_data; +// // GpgSignResult s_result; +// // KeyListPtr keys = std::make_unique<KeyArgsList>(); +// // keys->push_back(std::move(sign_key)); +// // auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .Sign(std::move(keys), sign_text, sign_out_data, +// // GPGME_SIG_MODE_CLEAR, s_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); +// // ASSERT_EQ(s_result->invalid_signers, nullptr); + +// // GpgVerifyResult v_result; +// // ByteArrayPtr sign_buff = nullptr; +// // err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .Verify(*sign_out_data, sign_buff, v_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); +// // ASSERT_NE(v_result->signatures, nullptr); +// // ASSERT_EQ(std::string(v_result->signatures->fpr), +// // "467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); +// // ASSERT_EQ(v_result->signatures->next, nullptr); +// } + +// TEST_F(GpgCoreTest, CoreEncryptSignDecrVerifyTest) { +// // auto encrypt_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) +// // .GetPubkey("467F14220CE8DCF780CF4BAD8465C55B25C9B7D1"); +// // auto sign_key = GpgKeyGetter::GetInstance(kGpgFrontendDefaultChannel) +// // .GetKey("8933EB283A18995F45D61DAC021D89771B680FFB"); +// // // Question? +// // // ASSERT_FALSE(encrypt_key.is_private_key()); +// // ASSERT_TRUE(sign_key.IsPrivateKey()); +// // ASSERT_TRUE(sign_key.IsHasActualSigningCapability()); +// // ByteArray encrypt_text = "Hello GpgFrontend!"; +// // ByteArrayPtr encr_out_data; +// // GpgEncrResult e_result; +// // GpgSignResult s_result; + +// // KeyListPtr keys = std::make_unique<KeyArgsList>(), +// // sign_keys = std::make_unique<KeyArgsList>(); +// // keys->push_back(std::move(encrypt_key)); +// // sign_keys->push_back(std::move(sign_key)); + +// // auto err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .EncryptSign(std::move(keys), std::move(sign_keys), +// // encrypt_text, encr_out_data, e_result, +// // s_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); +// // ASSERT_EQ(e_result->invalid_recipients, nullptr); +// // ASSERT_EQ(s_result->invalid_signers, nullptr); + +// // GpgDecrResult d_result; +// // GpgVerifyResult v_result; +// // ByteArrayPtr decr_out_data = nullptr; +// // err = GpgBasicOperator::GetInstance(kGpgFrontendDefaultChannel) +// // .DecryptVerify(*encr_out_data, decr_out_data, d_result, +// // v_result); +// // ASSERT_EQ(CheckGpgError(err), GPG_ERR_NO_ERROR); +// // ASSERT_NE(d_result->recipients, nullptr); +// // ASSERT_EQ(std::string(d_result->recipients->keyid), "F89C95A05088CC93"); +// // ASSERT_EQ(*decr_out_data, encrypt_text); +// // ASSERT_NE(v_result->signatures, nullptr); +// // ASSERT_EQ(std::string(v_result->signatures->fpr), +// // "8933EB283A18995F45D61DAC021D89771B680FFB"); +// // ASSERT_EQ(v_result->signatures->next, nullptr); +// } } // namespace GpgFrontend::Test |