/* * Copyright (c) 2018-2020 Atmosphère-NX * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope 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 this program. If not, see . */ #include #include "htclow_mux_task_manager.hpp" namespace ams::htclow::mux { os::EventType *TaskManager::GetTaskEvent(u32 task_id) { /* Check pre-conditions. */ AMS_ASSERT(0 <= task_id && task_id < MaxTaskCount); AMS_ASSERT(m_valid[task_id]); return std::addressof(m_tasks[task_id].event); } EventTrigger TaskManager::GetTrigger(u32 task_id) { /* Check pre-conditions. */ AMS_ASSERT(0 <= task_id && task_id < MaxTaskCount); AMS_ASSERT(m_valid[task_id]); return m_tasks[task_id].event_trigger; } Result TaskManager::AllocateTask(u32 *out_task_id, impl::ChannelInternalType channel) { /* Find a free task. */ u32 task_id = 0; for (task_id = 0; task_id < util::size(m_tasks); ++task_id) { if (!m_valid[task_id]) { break; } } /* Verify the task is free. */ R_UNLESS(task_id < util::size(m_tasks), htclow::ResultOutOfTask()); /* Mark the task as allocated. */ m_valid[task_id] = true; /* Setup the task. */ m_tasks[task_id].channel = channel; m_tasks[task_id].has_event_trigger = false; os::InitializeEvent(std::addressof(m_tasks[task_id].event), false, os::EventClearMode_ManualClear); /* Return the task id. */ *out_task_id = task_id; return ResultSuccess(); } void TaskManager::FreeTask(u32 task_id) { /* Check pre-conditions. */ AMS_ASSERT(0 <= task_id && task_id < MaxTaskCount); /* Invalidate the task. */ if (m_valid[task_id]) { os::FinalizeEvent(std::addressof(m_tasks[task_id].event)); m_valid[task_id] = false; } } void TaskManager::ConfigureConnectTask(u32 task_id) { /* Check pre-conditions. */ AMS_ASSERT(0 <= task_id && task_id < MaxTaskCount); AMS_ASSERT(m_valid[task_id]); /* Set the task type. */ m_tasks[task_id].type = TaskType_Connect; } void TaskManager::ConfigureFlushTask(u32 task_id) { /* Check pre-conditions. */ AMS_ASSERT(0 <= task_id && task_id < MaxTaskCount); AMS_ASSERT(m_valid[task_id]); /* Set the task type. */ m_tasks[task_id].type = TaskType_Flush; } void TaskManager::ConfigureReceiveTask(u32 task_id, size_t size) { /* Check pre-conditions. */ AMS_ASSERT(0 <= task_id && task_id < MaxTaskCount); AMS_ASSERT(m_valid[task_id]); /* Set the task type. */ m_tasks[task_id].type = TaskType_Receive; /* Set the task size. */ m_tasks[task_id].size = size; } void TaskManager::ConfigureSendTask(u32 task_id) { /* Check pre-conditions. */ AMS_ASSERT(0 <= task_id && task_id < MaxTaskCount); AMS_ASSERT(m_valid[task_id]); /* Set the task type. */ m_tasks[task_id].type = TaskType_Send; } void TaskManager::NotifyDisconnect(impl::ChannelInternalType channel) { for (auto i = 0; i < MaxTaskCount; ++i) { if (m_valid[i] && m_tasks[i].channel == channel) { this->CompleteTask(i, EventTrigger_Disconnect); } } } void TaskManager::NotifyReceiveData(impl::ChannelInternalType channel, size_t size) { for (auto i = 0; i < MaxTaskCount; ++i) { if (m_valid[i] && m_tasks[i].channel == channel && m_tasks[i].size <= size) { this->CompleteTask(i, EventTrigger_ReceiveData); } } } void TaskManager::NotifySendReady() { for (auto i = 0; i < MaxTaskCount; ++i) { if (m_valid[i] && m_tasks[i].type == TaskType_Send) { this->CompleteTask(i, EventTrigger_SendReady); } } } void TaskManager::NotifySendBufferEmpty(impl::ChannelInternalType channel) { for (auto i = 0; i < MaxTaskCount; ++i) { if (m_valid[i] && m_tasks[i].channel == channel && m_tasks[i].type == TaskType_Flush) { this->CompleteTask(i, EventTrigger_SendBufferEmpty); } } } void TaskManager::NotifyConnectReady() { for (auto i = 0; i < MaxTaskCount; ++i) { if (m_valid[i] && m_tasks[i].type == TaskType_Connect) { this->CompleteTask(i, EventTrigger_ConnectReady); } } } void TaskManager::CompleteTask(int index, EventTrigger trigger) { /* Check pre-conditions. */ AMS_ASSERT(0 <= index && index < MaxTaskCount); AMS_ASSERT(m_valid[index]); /* Complete the task. */ if (!m_tasks[index].has_event_trigger) { m_tasks[index].has_event_trigger = true; m_tasks[index].event_trigger = trigger; os::SignalEvent(std::addressof(m_tasks[index].event)); } } }