General: Initial Setup for Single Core.
This commit is contained in:
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391f5f360d
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ab9aae28bf
@ -149,6 +149,9 @@ struct System::Impl {
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device_memory = std::make_unique<Core::DeviceMemory>(system);
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kernel.SetMulticore(Settings::values.use_multi_core);
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cpu_manager.SetMulticore(Settings::values.use_multi_core);
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core_timing.Initialize([&system]() { system.RegisterHostThread(); });
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kernel.Initialize();
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cpu_manager.Initialize();
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@ -26,9 +26,13 @@ void CpuManager::ThreadStart(CpuManager& cpu_manager, std::size_t core) {
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void CpuManager::Initialize() {
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running_mode = true;
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for (std::size_t core = 0; core < Core::Hardware::NUM_CPU_CORES; core++) {
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core_data[core].host_thread =
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std::make_unique<std::thread>(ThreadStart, std::ref(*this), core);
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if (is_multicore) {
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for (std::size_t core = 0; core < Core::Hardware::NUM_CPU_CORES; core++) {
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core_data[core].host_thread =
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std::make_unique<std::thread>(ThreadStart, std::ref(*this), core);
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}
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} else {
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core_data[0].host_thread = std::make_unique<std::thread>(ThreadStart, std::ref(*this), 0);
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}
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}
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@ -41,26 +45,6 @@ void CpuManager::Shutdown() {
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}
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}
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void CpuManager::GuestThreadFunction(void* cpu_manager_) {
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CpuManager* cpu_manager = static_cast<CpuManager*>(cpu_manager_);
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cpu_manager->RunGuestThread();
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}
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void CpuManager::GuestRewindFunction(void* cpu_manager_) {
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CpuManager* cpu_manager = static_cast<CpuManager*>(cpu_manager_);
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cpu_manager->RunGuestLoop();
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}
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void CpuManager::IdleThreadFunction(void* cpu_manager_) {
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CpuManager* cpu_manager = static_cast<CpuManager*>(cpu_manager_);
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cpu_manager->RunIdleThread();
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}
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void CpuManager::SuspendThreadFunction(void* cpu_manager_) {
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CpuManager* cpu_manager = static_cast<CpuManager*>(cpu_manager_);
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cpu_manager->RunSuspendThread();
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}
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std::function<void(void*)> CpuManager::GetGuestThreadStartFunc() {
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return std::function<void(void*)>(GuestThreadFunction);
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}
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@ -73,20 +57,60 @@ std::function<void(void*)> CpuManager::GetSuspendThreadStartFunc() {
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return std::function<void(void*)>(SuspendThreadFunction);
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}
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void CpuManager::GuestThreadFunction(void* cpu_manager_) {
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CpuManager* cpu_manager = static_cast<CpuManager*>(cpu_manager_);
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if (cpu_manager->is_multicore) {
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cpu_manager->MultiCoreRunGuestThread();
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} else {
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cpu_manager->SingleCoreRunGuestThread();
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}
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}
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void CpuManager::GuestRewindFunction(void* cpu_manager_) {
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CpuManager* cpu_manager = static_cast<CpuManager*>(cpu_manager_);
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if (cpu_manager->is_multicore) {
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cpu_manager->MultiCoreRunGuestLoop();
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} else {
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cpu_manager->SingleCoreRunGuestLoop();
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}
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}
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void CpuManager::IdleThreadFunction(void* cpu_manager_) {
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CpuManager* cpu_manager = static_cast<CpuManager*>(cpu_manager_);
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if (cpu_manager->is_multicore) {
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cpu_manager->MultiCoreRunIdleThread();
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} else {
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cpu_manager->SingleCoreRunIdleThread();
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}
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}
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void CpuManager::SuspendThreadFunction(void* cpu_manager_) {
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CpuManager* cpu_manager = static_cast<CpuManager*>(cpu_manager_);
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if (cpu_manager->is_multicore) {
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cpu_manager->MultiCoreRunSuspendThread();
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} else {
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cpu_manager->SingleCoreRunSuspendThread();
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}
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}
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void* CpuManager::GetStartFuncParamater() {
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return static_cast<void*>(this);
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}
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void CpuManager::RunGuestThread() {
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///////////////////////////////////////////////////////////////////////////////
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/// MultiCore ///
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///////////////////////////////////////////////////////////////////////////////
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void CpuManager::MultiCoreRunGuestThread() {
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auto& kernel = system.Kernel();
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{
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auto& sched = kernel.CurrentScheduler();
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sched.OnThreadStart();
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}
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RunGuestLoop();
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MultiCoreRunGuestLoop();
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}
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void CpuManager::RunGuestLoop() {
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void CpuManager::MultiCoreRunGuestLoop() {
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auto& kernel = system.Kernel();
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auto* thread = kernel.CurrentScheduler().GetCurrentThread();
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auto host_context = thread->GetHostContext();
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@ -103,7 +127,7 @@ void CpuManager::RunGuestLoop() {
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}
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}
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void CpuManager::RunIdleThread() {
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void CpuManager::MultiCoreRunIdleThread() {
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auto& kernel = system.Kernel();
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while (true) {
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auto& physical_core = kernel.CurrentPhysicalCore();
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@ -113,7 +137,7 @@ void CpuManager::RunIdleThread() {
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}
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}
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void CpuManager::RunSuspendThread() {
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void CpuManager::MultiCoreRunSuspendThread() {
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auto& kernel = system.Kernel();
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{
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auto& sched = kernel.CurrentScheduler();
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@ -130,7 +154,7 @@ void CpuManager::RunSuspendThread() {
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}
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}
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void CpuManager::Pause(bool paused) {
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void CpuManager::MultiCorePause(bool paused) {
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if (!paused) {
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bool all_not_barrier = false;
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while (!all_not_barrier) {
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@ -171,10 +195,120 @@ void CpuManager::Pause(bool paused) {
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paused_state = paused;
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}
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///////////////////////////////////////////////////////////////////////////////
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/// SingleCore ///
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///////////////////////////////////////////////////////////////////////////////
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void CpuManager::SingleCoreRunGuestThread() {
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auto& kernel = system.Kernel();
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{
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auto& sched = kernel.CurrentScheduler();
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sched.OnThreadStart();
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}
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SingleCoreRunGuestLoop();
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}
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void CpuManager::SingleCoreRunGuestLoop() {
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auto& kernel = system.Kernel();
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auto* thread = kernel.CurrentScheduler().GetCurrentThread();
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auto host_context = thread->GetHostContext();
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host_context->SetRewindPoint(std::function<void(void*)>(GuestRewindFunction), this);
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host_context.reset();
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while (true) {
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auto& physical_core = kernel.CurrentPhysicalCore();
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while (!physical_core.IsInterrupted()) {
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physical_core.Run();
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preemption_count++;
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if (preemption_count % max_cycle_runs == 0) {
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break;
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}
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}
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physical_core.ClearExclusive();
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PreemptSingleCore();
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auto& scheduler = physical_core.Scheduler();
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scheduler.TryDoContextSwitch();
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}
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}
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void CpuManager::SingleCoreRunIdleThread() {
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auto& kernel = system.Kernel();
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while (true) {
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auto& physical_core = kernel.CurrentPhysicalCore();
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PreemptSingleCore();
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auto& scheduler = physical_core.Scheduler();
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scheduler.TryDoContextSwitch();
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}
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}
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void CpuManager::SingleCoreRunSuspendThread() {
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auto& kernel = system.Kernel();
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{
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auto& sched = kernel.CurrentScheduler();
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sched.OnThreadStart();
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}
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while (true) {
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auto core = kernel.GetCurrentHostThreadID();
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auto& scheduler = kernel.CurrentScheduler();
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Kernel::Thread* current_thread = scheduler.GetCurrentThread();
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Common::Fiber::YieldTo(current_thread->GetHostContext(), core_data[0].host_context);
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ASSERT(scheduler.ContextSwitchPending());
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ASSERT(core == kernel.GetCurrentHostThreadID());
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scheduler.TryDoContextSwitch();
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}
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}
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void CpuManager::PreemptSingleCore() {
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preemption_count = 0;
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std::size_t old_core = current_core;
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current_core = (current_core + 1) % Core::Hardware::NUM_CPU_CORES;
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auto& scheduler = system.Kernel().Scheduler(old_core);
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Kernel::Thread* current_thread = system.Kernel().Scheduler(old_core).GetCurrentThread();
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Kernel::Thread* next_thread = system.Kernel().Scheduler(current_core).GetCurrentThread();
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Common::Fiber::YieldTo(current_thread->GetHostContext(), next_thread->GetHostContext());
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}
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void CpuManager::SingleCorePause(bool paused) {
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if (!paused) {
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bool all_not_barrier = false;
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while (!all_not_barrier) {
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all_not_barrier = !core_data[0].is_running.load() && core_data[0].initialized.load();
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}
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core_data[0].enter_barrier->Set();
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if (paused_state.load()) {
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bool all_barrier = false;
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while (!all_barrier) {
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all_barrier = core_data[0].is_paused.load() && core_data[0].initialized.load();
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}
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core_data[0].exit_barrier->Set();
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}
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} else {
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/// Wait until all cores are paused.
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bool all_barrier = false;
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while (!all_barrier) {
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all_barrier = core_data[0].is_paused.load() && core_data[0].initialized.load();
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}
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/// Don't release the barrier
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}
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paused_state = paused;
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}
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void CpuManager::Pause(bool paused) {
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if (is_multicore) {
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MultiCorePause(paused);
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} else {
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SingleCorePause(paused);
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}
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}
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void CpuManager::RunThread(std::size_t core) {
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/// Initialization
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system.RegisterCoreThread(core);
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std::string name = "yuzu:CoreHostThread_" + std::to_string(core);
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std::string name;
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if (is_multicore) {
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name = "yuzu:CoreCPUThread_" + std::to_string(core);
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} else {
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name = "yuzu:CPUThread";
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}
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MicroProfileOnThreadCreate(name.c_str());
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Common::SetCurrentThreadName(name.c_str());
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auto& data = core_data[core];
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@ -30,6 +30,10 @@ public:
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CpuManager& operator=(const CpuManager&) = delete;
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CpuManager& operator=(CpuManager&&) = delete;
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/// Sets if emulation is multicore or single core, must be set before Initialize
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void SetMulticore(bool is_multicore) {
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this->is_multicore = is_multicore;
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}
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void Initialize();
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void Shutdown();
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@ -40,21 +44,34 @@ public:
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std::function<void(void*)> GetSuspendThreadStartFunc();
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void* GetStartFuncParamater();
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std::size_t CurrentCore() const {
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return current_core;
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}
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private:
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static void GuestThreadFunction(void* cpu_manager);
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static void GuestRewindFunction(void* cpu_manager);
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static void IdleThreadFunction(void* cpu_manager);
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static void SuspendThreadFunction(void* cpu_manager);
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void RunGuestThread();
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void RunGuestLoop();
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void RunIdleThread();
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void RunSuspendThread();
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void MultiCoreRunGuestThread();
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void MultiCoreRunGuestLoop();
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void MultiCoreRunIdleThread();
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void MultiCoreRunSuspendThread();
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void MultiCorePause(bool paused);
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void SingleCoreRunGuestThread();
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void SingleCoreRunGuestLoop();
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void SingleCoreRunIdleThread();
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void SingleCoreRunSuspendThread();
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void SingleCorePause(bool paused);
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static void ThreadStart(CpuManager& cpu_manager, std::size_t core);
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void RunThread(std::size_t core);
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void PreemptSingleCore();
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struct CoreData {
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std::shared_ptr<Common::Fiber> host_context;
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std::unique_ptr<Common::Event> enter_barrier;
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@ -70,6 +87,11 @@ private:
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std::array<CoreData, Core::Hardware::NUM_CPU_CORES> core_data{};
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bool is_multicore{};
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std::size_t current_core{};
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std::size_t preemption_count{};
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static constexpr std::size_t max_cycle_runs = 5;
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System& system;
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};
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@ -113,6 +113,10 @@ struct KernelCore::Impl {
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explicit Impl(Core::System& system, KernelCore& kernel)
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: global_scheduler{kernel}, synchronization{system}, time_manager{system}, system{system} {}
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void SetMulticore(bool is_multicore) {
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this->is_multicore = is_multicore;
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}
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void Initialize(KernelCore& kernel) {
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Shutdown();
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@ -237,6 +241,9 @@ struct KernelCore::Impl {
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void RegisterCoreThread(std::size_t core_id) {
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std::unique_lock lock{register_thread_mutex};
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if (!is_multicore) {
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single_core_thread_id = std::this_thread::get_id();
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}
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const std::thread::id this_id = std::this_thread::get_id();
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const auto it = host_thread_ids.find(this_id);
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ASSERT(core_id < Core::Hardware::NUM_CPU_CORES);
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@ -258,6 +265,11 @@ struct KernelCore::Impl {
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u32 GetCurrentHostThreadID() const {
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const std::thread::id this_id = std::this_thread::get_id();
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if (!is_multicore) {
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if (single_core_thread_id == this_id) {
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return static_cast<u32>(system.GetCpuManager().CurrentCore());
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}
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}
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const auto it = host_thread_ids.find(this_id);
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if (it == host_thread_ids.end()) {
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return Core::INVALID_HOST_THREAD_ID;
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@ -378,6 +390,9 @@ struct KernelCore::Impl {
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std::array<std::shared_ptr<Thread>, Core::Hardware::NUM_CPU_CORES> suspend_threads{};
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bool is_multicore{};
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std::thread::id single_core_thread_id{};
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// System context
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Core::System& system;
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};
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@ -387,6 +402,10 @@ KernelCore::~KernelCore() {
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Shutdown();
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}
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void KernelCore::SetMulticore(bool is_multicore) {
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impl->SetMulticore(is_multicore);
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}
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void KernelCore::Initialize() {
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impl->Initialize(*this);
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}
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KernelCore(KernelCore&&) = delete;
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KernelCore& operator=(KernelCore&&) = delete;
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/// Sets if emulation is multicore or single core, must be set before Initialize
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void SetMulticore(bool is_multicore);
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/// Resets the kernel to a clean slate for use.
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void Initialize();
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@ -715,8 +715,8 @@ struct Memory::Impl {
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ASSERT_MSG(false, "Mapped memory page without a pointer @ {:016X}", vaddr);
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break;
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case Common::PageType::RasterizerCachedMemory: {
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u8* host_ptr{GetPointerFromVMA(vaddr)};
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system.GPU().InvalidateRegion(ToCacheAddr(host_ptr), sizeof(T));
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u8* host_ptr{GetPointerFromRasterizerCachedMemory(vaddr)};
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system.GPU().InvalidateRegion(vaddr, sizeof(T));
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T volatile* pointer = reinterpret_cast<T volatile*>(&host_ptr);
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return Common::AtomicCompareAndSwap(pointer, data, expected);
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break;
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@ -745,8 +745,8 @@ struct Memory::Impl {
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ASSERT_MSG(false, "Mapped memory page without a pointer @ {:016X}", vaddr);
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break;
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case Common::PageType::RasterizerCachedMemory: {
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u8* host_ptr{GetPointerFromVMA(vaddr)};
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system.GPU().InvalidateRegion(ToCacheAddr(host_ptr), sizeof(u128));
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u8* host_ptr{GetPointerFromRasterizerCachedMemory(vaddr)};
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system.GPU().InvalidateRegion(vaddr, sizeof(u128));
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u64 volatile* pointer = reinterpret_cast<u64 volatile*>(&host_ptr);
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return Common::AtomicCompareAndSwap(pointer, data, expected);
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break;
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@ -23,6 +23,11 @@ ConfigureGeneral::ConfigureGeneral(QWidget* parent)
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ConfigureGeneral::~ConfigureGeneral() = default;
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void ConfigureGeneral::SetConfiguration() {
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const bool runtime_lock = !Core::System::GetInstance().IsPoweredOn();
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ui->use_multi_core->setEnabled(runtime_lock);
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ui->use_multi_core->setChecked(Settings::values.use_multi_core);
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ui->toggle_check_exit->setChecked(UISettings::values.confirm_before_closing);
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ui->toggle_user_on_boot->setChecked(UISettings::values.select_user_on_boot);
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ui->toggle_background_pause->setChecked(UISettings::values.pause_when_in_background);
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@ -41,6 +46,7 @@ void ConfigureGeneral::ApplyConfiguration() {
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Settings::values.use_frame_limit = ui->toggle_frame_limit->isChecked();
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Settings::values.frame_limit = ui->frame_limit->value();
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Settings::values.use_multi_core = ui->use_multi_core->isChecked();
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}
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void ConfigureGeneral::changeEvent(QEvent* event) {
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@ -51,6 +51,13 @@
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</item>
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</layout>
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</item>
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<item>
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<widget class="QCheckBox" name="use_multi_core">
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<property name="text">
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<string>Emulate CPU in Multiple Cores</string>
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</property>
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</widget>
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</item>
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<item>
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<widget class="QCheckBox" name="toggle_check_exit">
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<property name="text">
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