/** * Copyright (C) 2021 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 "GpgKeyManager.h" #include #include #include "core/GpgModel.h" #include "core/function/gpg/GpgBasicOperator.h" #include "core/function/gpg/GpgKeyGetter.h" #include "core/utils/GpgUtils.h" GpgFrontend::GpgKeyManager::GpgKeyManager(int channel) : SingletonFunctionObject(channel) {} auto GpgFrontend::GpgKeyManager::SignKey( const GpgFrontend::GpgKey& target, GpgFrontend::KeyArgsList& keys, const std::string& uid, const std::unique_ptr& expires) -> bool { GpgBasicOperator::GetInstance().SetSigners(keys); unsigned int flags = 0; unsigned int expires_time_t = 0; if (expires == nullptr) { flags |= GPGME_KEYSIGN_NOEXPIRE; } else { expires_time_t = to_time_t(*expires); } auto err = CheckGpgError( gpgme_op_keysign(ctx_.DefaultContext(), static_cast(target), uid.c_str(), expires_time_t, flags)); return CheckGpgError(err) == GPG_ERR_NO_ERROR; } auto GpgFrontend::GpgKeyManager::RevSign( const GpgFrontend::GpgKey& key, const GpgFrontend::SignIdArgsListPtr& signature_id) -> bool { auto& key_getter = GpgKeyGetter::GetInstance(); for (const auto& sign_id : *signature_id) { auto signing_key = key_getter.GetKey(sign_id.first); assert(signing_key.IsGood()); auto err = CheckGpgError( gpgme_op_revsig(ctx_.DefaultContext(), gpgme_key_t(key), gpgme_key_t(signing_key), sign_id.second.c_str(), 0)); if (CheckGpgError(err) != GPG_ERR_NO_ERROR) return false; } return true; } auto GpgFrontend::GpgKeyManager::SetExpire( const GpgFrontend::GpgKey& key, std::unique_ptr& subkey, std::unique_ptr& expires) -> bool { using namespace boost::posix_time; unsigned long expires_time = 0; if (expires != nullptr) expires_time = to_time_t(ptime(*expires)); const char* sub_fprs = nullptr; if (subkey != nullptr) sub_fprs = subkey->GetFingerprint().c_str(); auto err = CheckGpgError(gpgme_op_setexpire(ctx_.DefaultContext(), static_cast(key), expires_time, sub_fprs, 0)); return CheckGpgError(err) == GPG_ERR_NO_ERROR; } auto GpgFrontend::GpgKeyManager::SetOwnerTrustLevel(const GpgKey& key, int trust_level) -> bool { if (trust_level < 0 || trust_level > 5) { SPDLOG_ERROR("illegal owner trust level: {}", trust_level); } AutomatonNextStateHandler next_state_handler = [](AutomatonState state, std::string status, std::string args) { SPDLOG_DEBUG("next_state_handler state: {}, gpg_status: {}, args: {}", state, status, args); std::vector tokens; boost::split(tokens, args, boost::is_any_of(" ")); switch (state) { case AS_START: if (status == "GET_LINE" && args == "keyedit.prompt") { return AS_COMMAND; } return AS_ERROR; case AS_COMMAND: if (status == "GET_LINE" && args == "edit_ownertrust.value") { return AS_VALUE; } return AS_ERROR; case AS_VALUE: if (status == "GET_LINE" && args == "keyedit.prompt") { return AS_QUIT; } else if (status == "GET_BOOL" && args == "edit_ownertrust.set_ultimate.okay") { return AS_REALLY_ULTIMATE; } return AS_ERROR; case AS_REALLY_ULTIMATE: if (status == "GET_LINE" && args == "keyedit.prompt") { return AS_QUIT; } return AS_ERROR; case AS_QUIT: if (status == "GET_LINE" && args == "keyedit.save.okay") { return AS_SAVE; } return AS_ERROR; case AS_ERROR: if (status == "GET_LINE" && args == "keyedit.prompt") { return AS_QUIT; } return AS_ERROR; default: return AS_ERROR; }; }; AutomatonActionHandler action_handler = [trust_level](AutomatonHandelStruct& handler, AutomatonState state) { SPDLOG_DEBUG("action_handler state: {}", state); switch (state) { case AS_COMMAND: return std::string("trust"); case AS_VALUE: handler.SetSuccess(true); return std::to_string(trust_level); case AS_REALLY_ULTIMATE: handler.SetSuccess(true); return std::string("Y"); case AS_QUIT: return std::string("quit"); case AS_SAVE: handler.SetSuccess(true); return std::string("Y"); case AS_START: case AS_ERROR: return std::string(""); default: return std::string(""); } return std::string(""); }; auto key_fpr = key.GetFingerprint(); AutomatonHandelStruct handel_struct(key_fpr); handel_struct.SetHandler(next_state_handler, action_handler); GpgData data_out; auto err = gpgme_op_interact( ctx_.DefaultContext(), static_cast(key), 0, GpgKeyManager::interactor_cb_fnc, (void*)&handel_struct, data_out); return CheckGpgError(err) == GPG_ERR_NO_ERROR && handel_struct.Success(); } auto GpgFrontend::GpgKeyManager::interactor_cb_fnc(void* handle, const char* status, const char* args, int fd) -> gpgme_error_t { auto handle_struct = static_cast(handle); std::string status_s = status; std::string args_s = args; SPDLOG_DEBUG("cb start status: {}, args: {}, fd: {}, handle struct state: {}", status_s, args_s, fd, handle_struct->CuurentStatus()); if (status_s == "KEY_CONSIDERED") { std::vector tokens; boost::split(tokens, args, boost::is_any_of(" ")); if (tokens.empty() || tokens[0] != handle_struct->KeyFpr()) { SPDLOG_ERROR("handle struct key fpr {} mismatch token: {}, exit...", handle_struct->KeyFpr(), tokens[0]); return -1; } return 0; } if (status_s == "GOT_IT" || status_s.empty()) { SPDLOG_DEBUG("status GOT_IT, continue..."); return 0; } AutomatonState next_state = handle_struct->NextState(status_s, args_s); if (next_state == AS_ERROR) { SPDLOG_DEBUG("handle struct next state caught error, skipping..."); return GPG_ERR_FALSE; } if (next_state == AS_SAVE) { handle_struct->SetSuccess(true); } // set state and preform action handle_struct->SetStatus(next_state); Command cmd = handle_struct->Action(); SPDLOG_DEBUG("handle struct action done, next state: {}, action cmd: {}", next_state, cmd); if (!cmd.empty()) { gpgme_io_write(fd, cmd.c_str(), cmd.size()); gpgme_io_write(fd, "\n", 1); } else if (status_s == "GET_LINE") { // avoid trapping in this state return GPG_ERR_FALSE; } return 0; }