/* decryptionresult.cpp - wraps a gpgme keygen result Copyright (C) 2004 Klarälvdalens Datakonsult AB 2016 Bundesamt für Sicherheit in der Informationstechnik Software engineering by Intevation GmbH This file is part of GPGME++. GPGME++ is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. GPGME++ 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with GPGME++; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include "result_p.h" #include "util.h" #include #include #include #include #include #include #include class GpgME::DecryptionResult::Private { public: explicit Private(const _gpgme_op_decrypt_result &r) : res(r) { if (res.unsupported_algorithm) { res.unsupported_algorithm = strdup(res.unsupported_algorithm); } if (res.file_name) { res.file_name = strdup(res.file_name); } if (res.symkey_algo) { res.symkey_algo = strdup(res.symkey_algo); } //FIXME: copying gpgme_recipient_t objects invalidates the keyid member, //thus we use _keyid for now (internal API) for (gpgme_recipient_t r = res.recipients ; r ; r = r->next) { recipients.push_back(*r); } res.recipients = nullptr; } ~Private() { if (res.unsupported_algorithm) { std::free(res.unsupported_algorithm); } res.unsupported_algorithm = nullptr; if (res.file_name) { std::free(res.file_name); } res.file_name = nullptr; if (res.symkey_algo) { std::free(res.symkey_algo); } res.symkey_algo = nullptr; } _gpgme_op_decrypt_result res; std::vector<_gpgme_recipient> recipients; }; GpgME::DecryptionResult::DecryptionResult(gpgme_ctx_t ctx, int error) : GpgME::Result(error), d() { init(ctx); } GpgME::DecryptionResult::DecryptionResult(gpgme_ctx_t ctx, const Error &error) : GpgME::Result(error), d() { init(ctx); } void GpgME::DecryptionResult::init(gpgme_ctx_t ctx) { if (!ctx) { return; } gpgme_decrypt_result_t res = gpgme_op_decrypt_result(ctx); if (!res) { return; } d.reset(new Private(*res)); } make_standard_stuff(DecryptionResult) const char *GpgME::DecryptionResult::unsupportedAlgorithm() const { return d ? d->res.unsupported_algorithm : nullptr ; } bool GpgME::DecryptionResult::isWrongKeyUsage() const { return d && d->res.wrong_key_usage; } bool GpgME::DecryptionResult::isDeVs() const { return d && d->res.is_de_vs; } bool GpgME::DecryptionResult::isMime() const { return d && d->res.is_mime; } const char *GpgME::DecryptionResult::fileName() const { return d ? d->res.file_name : nullptr ; } unsigned int GpgME::DecryptionResult::numRecipients() const { return d ? d->recipients.size() : 0 ; } GpgME::DecryptionResult::Recipient GpgME::DecryptionResult::recipient(unsigned int idx) const { if (d && idx < d->recipients.size()) { return Recipient(&d->recipients[idx]); } return Recipient(); } namespace { struct make_recipient { GpgME::DecryptionResult::Recipient operator()(_gpgme_recipient &t) { return GpgME::DecryptionResult::Recipient(&t); } }; } std::vector GpgME::DecryptionResult::recipients() const { std::vector result; if (d) { result.reserve(d->recipients.size()); std::transform(d->recipients.begin(), d->recipients.end(), std::back_inserter(result), make_recipient()); } return result; } const char *GpgME::DecryptionResult::sessionKey() const { return d ? d->res.session_key : nullptr; } const char *GpgME::DecryptionResult::symkeyAlgo() const { return d ? d->res.symkey_algo : nullptr; } bool GpgME::DecryptionResult::isLegacyCipherNoMDC() const { return d && d->res.legacy_cipher_nomdc; } class GpgME::DecryptionResult::Recipient::Private : public _gpgme_recipient { public: Private(gpgme_recipient_t reci) : _gpgme_recipient(*reci) {} }; GpgME::DecryptionResult::Recipient::Recipient() : d() { } GpgME::DecryptionResult::Recipient::Recipient(gpgme_recipient_t r) : d() { if (r) { d.reset(new Private(r)); } } bool GpgME::DecryptionResult::Recipient::isNull() const { return !d; } const char *GpgME::DecryptionResult::Recipient::keyID() const { //_keyid is internal API, but the public keyid is invalid after copying (see above) if (d) { return d->_keyid; } return nullptr; } const char *GpgME::DecryptionResult::Recipient::shortKeyID() const { //_keyid is internal API, but the public keyid is invalid after copying (see above) if (d) { return d->_keyid + 8; } return nullptr; } unsigned int GpgME::DecryptionResult::Recipient::publicKeyAlgorithm() const { if (d) { return d->pubkey_algo; } return 0; } const char *GpgME::DecryptionResult::Recipient::publicKeyAlgorithmAsString() const { if (d) { return gpgme_pubkey_algo_name(d->pubkey_algo); } return nullptr; } GpgME::Error GpgME::DecryptionResult::Recipient::status() const { if (d) { return Error(d->status); } return Error(); } std::ostream &GpgME::operator<<(std::ostream &os, const DecryptionResult &result) { os << "GpgME::DecryptionResult("; if (!result.isNull()) { os << "\n error: " << result.error() << "\n fileName: " << protect(result.fileName()) << "\n unsupportedAlgorithm: " << protect(result.unsupportedAlgorithm()) << "\n isWrongKeyUsage: " << result.isWrongKeyUsage() << "\n isDeVs " << result.isDeVs() << "\n legacyCipherNoMDC " << result.isLegacyCipherNoMDC() << "\n symkeyAlgo: " << protect(result.symkeyAlgo()) << "\n recipients:\n"; const std::vector recipients = result.recipients(); std::copy(recipients.begin(), recipients.end(), std::ostream_iterator(os, "\n")); } return os << ')'; } std::ostream &GpgME::operator<<(std::ostream &os, const DecryptionResult::Recipient &reci) { os << "GpgME::DecryptionResult::Recipient("; if (!reci.isNull()) { os << "\n keyID: " << protect(reci.keyID()) << "\n shortKeyID: " << protect(reci.shortKeyID()) << "\n publicKeyAlgorithm: " << protect(reci.publicKeyAlgorithmAsString()) << "\n status: " << reci.status(); } return os << ')'; }