/* * 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 namespace ams::kern::arm64 { void KInterruptManager::Initialize(s32 core_id) { this->interrupt_controller.Initialize(core_id); } void KInterruptManager::Finalize(s32 core_id) { this->interrupt_controller.Finalize(core_id); } Result KInterruptManager::BindHandler(KInterruptHandler *handler, s32 irq, s32 core_id, s32 priority, bool manual_clear, bool level) { R_UNLESS(KInterruptController::IsGlobal(irq) || KInterruptController::IsLocal(irq), svc::ResultOutOfRange()); KScopedInterruptDisable di; if (KInterruptController::IsGlobal(irq)) { KScopedSpinLock lk(GetLock()); return this->BindGlobal(handler, irq, core_id, priority, manual_clear, level); } else { MESOSPHERE_ASSERT(core_id == GetCurrentCoreId()); return this->BindLocal(handler, irq, priority, manual_clear); } } Result KInterruptManager::UnbindHandler(s32 irq, s32 core_id) { R_UNLESS(KInterruptController::IsGlobal(irq) || KInterruptController::IsLocal(irq), svc::ResultOutOfRange()); KScopedInterruptDisable di; if (KInterruptController::IsGlobal(irq)) { KScopedSpinLock lk(GetLock()); return this->UnbindGlobal(irq); } else { MESOSPHERE_ASSERT(core_id == GetCurrentCoreId()); return this->UnbindLocal(irq); } } Result KInterruptManager::ClearInterrupt(s32 irq) { R_UNLESS(KInterruptController::IsGlobal(irq), svc::ResultOutOfRange()); KScopedInterruptDisable di; KScopedSpinLock lk(GetLock()); return this->ClearGlobal(irq); } Result KInterruptManager::ClearInterrupt(s32 irq, s32 core_id) { R_UNLESS(KInterruptController::IsGlobal(irq) || KInterruptController::IsLocal(irq), svc::ResultOutOfRange()); KScopedInterruptDisable di; if (KInterruptController::IsGlobal(irq)) { KScopedSpinLock lk(GetLock()); return this->ClearGlobal(irq); } else { MESOSPHERE_ASSERT(core_id == GetCurrentCoreId()); return this->ClearLocal(irq); } } Result KInterruptManager::BindGlobal(KInterruptHandler *handler, s32 irq, s32 core_id, s32 priority, bool manual_clear, bool level) { /* Ensure the priority level is valid. */ R_UNLESS(KInterruptController::PriorityLevel_High <= priority, svc::ResultOutOfRange()); R_UNLESS(priority <= KInterruptController::PriorityLevel_Low, svc::ResultOutOfRange()); /* Ensure we aren't already bound. */ auto &entry = GetGlobalInterruptEntry(irq); R_UNLESS(entry.handler == nullptr, svc::ResultBusy()); /* Set entry fields. */ entry.needs_clear = false; entry.manually_cleared = manual_clear; entry.handler = handler; /* Configure the interrupt as level or edge. */ if (level) { this->interrupt_controller.SetLevel(irq); } else { this->interrupt_controller.SetEdge(irq); } /* Configure the interrupt. */ this->interrupt_controller.Clear(irq); this->interrupt_controller.SetTarget(irq, core_id); this->interrupt_controller.SetPriorityLevel(irq, priority); this->interrupt_controller.Enable(irq); return ResultSuccess(); } Result KInterruptManager::BindLocal(KInterruptHandler *handler, s32 irq, s32 priority, bool manual_clear) { /* Ensure the priority level is valid. */ R_UNLESS(KInterruptController::PriorityLevel_High <= priority, svc::ResultOutOfRange()); R_UNLESS(priority <= KInterruptController::PriorityLevel_Low, svc::ResultOutOfRange()); /* Ensure we aren't already bound. */ auto &entry = this->GetLocalInterruptEntry(irq); R_UNLESS(entry.handler == nullptr, svc::ResultBusy()); /* Set entry fields. */ entry.needs_clear = false; entry.manually_cleared = manual_clear; entry.handler = handler; entry.priority = static_cast(priority); /* Configure the interrupt. */ this->interrupt_controller.Clear(irq); this->interrupt_controller.SetPriorityLevel(irq, priority); this->interrupt_controller.Enable(irq); return ResultSuccess(); } Result KInterruptManager::UnbindGlobal(s32 irq) { for (size_t core_id = 0; core_id < cpu::NumCores; core_id++) { this->interrupt_controller.ClearTarget(irq, static_cast(core_id)); } this->interrupt_controller.SetPriorityLevel(irq, KInterruptController::PriorityLevel_Low); this->interrupt_controller.Disable(irq); GetGlobalInterruptEntry(irq).handler = nullptr; return ResultSuccess(); } Result KInterruptManager::UnbindLocal(s32 irq) { auto &entry = this->GetLocalInterruptEntry(irq); R_UNLESS(entry.handler != nullptr, svc::ResultInvalidState()); this->interrupt_controller.SetPriorityLevel(irq, KInterruptController::PriorityLevel_Low); this->interrupt_controller.Disable(irq); entry.handler = nullptr; return ResultSuccess(); } Result KInterruptManager::ClearGlobal(s32 irq) { /* We can't clear an entry with no handler. */ auto &entry = GetGlobalInterruptEntry(irq); R_UNLESS(entry.handler != nullptr, svc::ResultInvalidState()); /* If auto-cleared, we can succeed immediately. */ R_UNLESS(entry.manually_cleared, ResultSuccess()); R_UNLESS(entry.needs_clear, ResultSuccess()); /* Clear and enable. */ entry.needs_clear = false; this->interrupt_controller.Enable(irq); return ResultSuccess(); } Result KInterruptManager::ClearLocal(s32 irq) { /* We can't clear an entry with no handler. */ auto &entry = this->GetLocalInterruptEntry(irq); R_UNLESS(entry.handler != nullptr, svc::ResultInvalidState()); /* If auto-cleared, we can succeed immediately. */ R_UNLESS(entry.manually_cleared, ResultSuccess()); R_UNLESS(entry.needs_clear, ResultSuccess()); /* Clear and set priority. */ entry.needs_clear = false; this->interrupt_controller.SetPriorityLevel(irq, entry.priority); return ResultSuccess(); } }