/** * 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 "core/thread/TaskRunner.h" #include "core/thread/Task.h" #include "spdlog/spdlog.h" GpgFrontend::Thread::TaskRunner::TaskRunner() = default; GpgFrontend::Thread::TaskRunner::~TaskRunner() = default; void GpgFrontend::Thread::TaskRunner::PostTask(Task* task) { if (task == nullptr) { SPDLOG_ERROR("task posted is null"); return; } SPDLOG_TRACE("post task: {}", task->GetFullID()); task->setParent(nullptr); task->moveToThread(this); { std::lock_guard lock(tasks_mutex_); tasks.push(task); } quit(); } void GpgFrontend::Thread::TaskRunner::PostScheduleTask(Task* task, size_t seconds) { if (task == nullptr) return; // TODO } [[noreturn]] void GpgFrontend::Thread::TaskRunner::run() { SPDLOG_TRACE("task runner runing, thread id: {}", QThread::currentThreadId()); while (true) { if (tasks.empty()) { SPDLOG_TRACE("no tasks to run, trapping into event loop..."); exec(); } else { SPDLOG_TRACE("start to run task(s), queue size: {}", tasks.size()); Task* task = nullptr; { std::lock_guard lock(tasks_mutex_); task = std::move(tasks.front()); tasks.pop(); pending_tasks_.insert({task->GetUUID(), task}); } if (task != nullptr) { try { // triger SPDLOG_TRACE("running task {}, sequency: {}", task->GetFullID(), task->GetSequency()); // when a signal SignalTaskEnd raise, do unregister work connect(task, &Task::SignalTaskEnd, this, [this, task]() { unregister_finished_task(task->GetUUID()); }); if (!task->GetSequency()) { // if it need to run concurrently, we should create a new thread to // run it. auto* concurrent_thread = new QThread(nullptr); task->setParent(nullptr); task->moveToThread(concurrent_thread); // start thread concurrent_thread->start(); connect(task, &Task::SignalTaskEnd, concurrent_thread, &QThread::quit); // concurrent thread is responsible for deleting the task connect(concurrent_thread, &QThread::finished, task, &Task::deleteLater); } // run the task task->run(); } catch (const std::exception& e) { SPDLOG_ERROR("task runner: exception in task {}, exception: {}", task->GetFullID(), e.what()); // if any exception caught, destroy the task, remove the task from the // pending tasks unregister_finished_task(task->GetUUID()); } catch (...) { SPDLOG_ERROR("task runner: unknown exception in task: {}", task->GetFullID()); // if any exception caught, destroy the task, remove the task from the // pending tasks unregister_finished_task(task->GetUUID()); } } } } } /** * @brief * */ void GpgFrontend::Thread::TaskRunner::unregister_finished_task( std::string task_uuid) { SPDLOG_DEBUG("cleaning task {}", task_uuid); // search in map auto pending_task = pending_tasks_.find(task_uuid); if (pending_task == pending_tasks_.end()) { SPDLOG_ERROR("cannot find task in pending list: {}", task_uuid); return; } else { std::lock_guard lock(tasks_mutex_); // if thread runs sequenctly, that means the thread is living in this // thread, so we can delete it. Or, its living thread need to delete it. if (pending_task->second->GetSequency()) pending_task->second->deleteLater(); pending_tasks_.erase(pending_task); } SPDLOG_DEBUG("clean task {} done", task_uuid); }