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Kernel: replace usage of Core::System::GetInstance()::Timing()
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@ -174,7 +174,7 @@ System::ResultStatus System::Init(EmuWindow& emu_window, u32 system_mode) {
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timing = std::make_unique<Timing>();
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kernel = std::make_unique<Kernel::KernelSystem>(*memory, system_mode);
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kernel = std::make_unique<Kernel::KernelSystem>(*memory, *timing, system_mode);
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if (Settings::values.use_cpu_jit) {
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#ifdef ARCHITECTURE_x86_64
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@ -16,12 +16,13 @@
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namespace Kernel {
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/// Initialize the kernel
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KernelSystem::KernelSystem(Memory::MemorySystem& memory, u32 system_mode) : memory(memory) {
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KernelSystem::KernelSystem(Memory::MemorySystem& memory, Core::Timing& timing, u32 system_mode)
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: memory(memory), timing(timing) {
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MemoryInit(system_mode);
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resource_limits = std::make_unique<ResourceLimitList>(*this);
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thread_manager = std::make_unique<ThreadManager>(*this);
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timer_manager = std::make_unique<TimerManager>();
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timer_manager = std::make_unique<TimerManager>(timing);
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}
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/// Shutdown the kernel
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@ -27,6 +27,10 @@ namespace Memory {
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class MemorySystem;
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}
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namespace Core {
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class Timing;
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}
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namespace Kernel {
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class AddressArbiter;
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@ -78,7 +82,7 @@ using SharedPtr = boost::intrusive_ptr<T>;
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class KernelSystem {
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public:
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explicit KernelSystem(Memory::MemorySystem& memory, u32 system_mode);
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explicit KernelSystem(Memory::MemorySystem& memory, Core::Timing& timing, u32 system_mode);
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~KernelSystem();
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/**
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@ -229,6 +233,8 @@ public:
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Memory::MemorySystem& memory;
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Core::Timing& timing;
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private:
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void MemoryInit(u32 mem_type);
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@ -66,7 +66,7 @@ void KernelSystem::MemoryInit(u32 mem_type) {
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config_mem.sys_mem_alloc = memory_regions[1].size;
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config_mem.base_mem_alloc = memory_regions[2].size;
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shared_page_handler = std::make_unique<SharedPage::Handler>();
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shared_page_handler = std::make_unique<SharedPage::Handler>(timing);
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}
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MemoryRegionInfo* KernelSystem::GetMemoryRegion(MemoryRegion region) {
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@ -37,7 +37,7 @@ static std::chrono::seconds GetInitTime() {
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}
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}
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Handler::Handler() {
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Handler::Handler(Core::Timing& timing) : timing(timing) {
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std::memset(&shared_page, 0, sizeof(shared_page));
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shared_page.running_hw = 0x1; // product
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@ -54,9 +54,9 @@ Handler::Handler() {
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init_time = GetInitTime();
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using namespace std::placeholders;
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update_time_event = Core::System::GetInstance().CoreTiming().RegisterEvent(
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"SharedPage::UpdateTimeCallback", std::bind(&Handler::UpdateTimeCallback, this, _1, _2));
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Core::System::GetInstance().CoreTiming().ScheduleEvent(0, update_time_event);
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update_time_event = timing.RegisterEvent("SharedPage::UpdateTimeCallback",
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std::bind(&Handler::UpdateTimeCallback, this, _1, _2));
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timing.ScheduleEvent(0, update_time_event);
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float slidestate =
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Settings::values.toggle_3d ? (float_le)Settings::values.factor_3d / 100 : 0.0f;
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@ -66,8 +66,7 @@ Handler::Handler() {
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/// Gets system time in 3DS format. The epoch is Jan 1900, and the unit is millisecond.
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u64 Handler::GetSystemTime() const {
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std::chrono::milliseconds now =
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init_time + std::chrono::duration_cast<std::chrono::milliseconds>(
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Core::System::GetInstance().CoreTiming().GetGlobalTimeUs());
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init_time + std::chrono::duration_cast<std::chrono::milliseconds>(timing.GetGlobalTimeUs());
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// 3DS system does't allow user to set a time before Jan 1 2000,
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// so we use it as an auxiliary epoch to calculate the console time.
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@ -98,15 +97,14 @@ void Handler::UpdateTimeCallback(u64 userdata, int cycles_late) {
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shared_page.date_time_counter % 2 ? shared_page.date_time_0 : shared_page.date_time_1;
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date_time.date_time = GetSystemTime();
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date_time.update_tick = Core::System::GetInstance().CoreTiming().GetTicks();
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date_time.update_tick = timing.GetTicks();
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date_time.tick_to_second_coefficient = BASE_CLOCK_RATE_ARM11;
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date_time.tick_offset = 0;
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++shared_page.date_time_counter;
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// system time is updated hourly
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Core::System::GetInstance().CoreTiming().ScheduleEvent(msToCycles(60 * 60 * 1000) - cycles_late,
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update_time_event);
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timing.ScheduleEvent(msToCycles(60 * 60 * 1000) - cycles_late, update_time_event);
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}
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void Handler::SetMacAddress(const MacAddress& addr) {
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@ -23,7 +23,8 @@
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namespace Core {
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struct TimingEventType;
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}
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class Timing;
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} // namespace Core
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namespace SharedPage {
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@ -83,7 +84,7 @@ static_assert(sizeof(SharedPageDef) == Memory::SHARED_PAGE_SIZE,
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class Handler {
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public:
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Handler();
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Handler(Core::Timing& timing);
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void SetMacAddress(const MacAddress&);
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@ -98,6 +99,7 @@ public:
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private:
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u64 GetSystemTime() const;
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void UpdateTimeCallback(u64 userdata, int cycles_late);
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Core::Timing& timing;
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Core::TimingEventType* update_time_event;
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std::chrono::seconds init_time;
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@ -48,8 +48,7 @@ Thread* ThreadManager::GetCurrentThread() const {
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void Thread::Stop() {
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// Cancel any outstanding wakeup events for this thread
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Core::System::GetInstance().CoreTiming().UnscheduleEvent(thread_manager.ThreadWakeupEventType,
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thread_id);
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thread_manager.kernel.timing.UnscheduleEvent(thread_manager.ThreadWakeupEventType, thread_id);
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thread_manager.wakeup_callback_table.erase(thread_id);
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// Clean up thread from ready queue
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@ -81,7 +80,7 @@ void Thread::Stop() {
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void ThreadManager::SwitchContext(Thread* new_thread) {
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Thread* previous_thread = GetCurrentThread();
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Core::Timing& timing = Core::System::GetInstance().CoreTiming();
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Core::Timing& timing = kernel.timing;
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// Save context for previous thread
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if (previous_thread) {
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@ -186,8 +185,8 @@ void Thread::WakeAfterDelay(s64 nanoseconds) {
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if (nanoseconds == -1)
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return;
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Core::System::GetInstance().CoreTiming().ScheduleEvent(
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nsToCycles(nanoseconds), thread_manager.ThreadWakeupEventType, thread_id);
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thread_manager.kernel.timing.ScheduleEvent(nsToCycles(nanoseconds),
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thread_manager.ThreadWakeupEventType, thread_id);
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}
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void Thread::ResumeFromWait() {
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@ -320,7 +319,7 @@ ResultVal<SharedPtr<Thread>> KernelSystem::CreateThread(std::string name, VAddr
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thread->entry_point = entry_point;
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thread->stack_top = stack_top;
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thread->nominal_priority = thread->current_priority = priority;
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thread->last_running_ticks = Core::System::GetInstance().CoreTiming().GetTicks();
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thread->last_running_ticks = timing.GetTicks();
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thread->processor_id = processor_id;
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thread->wait_objects.clear();
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thread->wait_address = 0;
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@ -462,9 +461,10 @@ VAddr Thread::GetCommandBufferAddress() const {
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}
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ThreadManager::ThreadManager(Kernel::KernelSystem& kernel) : kernel(kernel) {
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ThreadWakeupEventType = Core::System::GetInstance().CoreTiming().RegisterEvent(
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"ThreadWakeupCallback",
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[this](u64 thread_id, s64 cycle_late) { ThreadWakeupCallback(thread_id, cycle_late); });
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ThreadWakeupEventType =
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kernel.timing.RegisterEvent("ThreadWakeupCallback", [this](u64 thread_id, s64 cycle_late) {
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ThreadWakeupCallback(thread_id, cycle_late);
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});
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}
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ThreadManager::~ThreadManager() {
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@ -14,7 +14,8 @@
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namespace Kernel {
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Timer::Timer(KernelSystem& kernel) : WaitObject(kernel), timer_manager(kernel.GetTimerManager()) {}
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Timer::Timer(KernelSystem& kernel)
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: WaitObject(kernel), kernel(kernel), timer_manager(kernel.GetTimerManager()) {}
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Timer::~Timer() {
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Cancel();
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timer_manager.timer_callback_table.erase(callback_id);
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@ -56,14 +57,13 @@ void Timer::Set(s64 initial, s64 interval) {
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// Immediately invoke the callback
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Signal(0);
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} else {
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Core::System::GetInstance().CoreTiming().ScheduleEvent(
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nsToCycles(initial), timer_manager.timer_callback_event_type, callback_id);
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kernel.timing.ScheduleEvent(nsToCycles(initial), timer_manager.timer_callback_event_type,
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callback_id);
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}
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}
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void Timer::Cancel() {
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Core::System::GetInstance().CoreTiming().UnscheduleEvent(
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timer_manager.timer_callback_event_type, callback_id);
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kernel.timing.UnscheduleEvent(timer_manager.timer_callback_event_type, callback_id);
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}
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void Timer::Clear() {
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@ -87,9 +87,8 @@ void Timer::Signal(s64 cycles_late) {
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if (interval_delay != 0) {
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// Reschedule the timer with the interval delay
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Core::System::GetInstance().CoreTiming().ScheduleEvent(
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nsToCycles(interval_delay) - cycles_late, timer_manager.timer_callback_event_type,
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callback_id);
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kernel.timing.ScheduleEvent(nsToCycles(interval_delay) - cycles_late,
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timer_manager.timer_callback_event_type, callback_id);
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}
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}
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@ -105,10 +104,11 @@ void TimerManager::TimerCallback(u64 callback_id, s64 cycles_late) {
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timer->Signal(cycles_late);
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}
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TimerManager::TimerManager() {
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timer_callback_event_type = Core::System::GetInstance().CoreTiming().RegisterEvent(
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"TimerCallback",
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[this](u64 thread_id, s64 cycle_late) { TimerCallback(thread_id, cycle_late); });
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TimerManager::TimerManager(Core::Timing& timing) : timing(timing) {
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timer_callback_event_type =
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timing.RegisterEvent("TimerCallback", [this](u64 thread_id, s64 cycle_late) {
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TimerCallback(thread_id, cycle_late);
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});
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}
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} // namespace Kernel
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@ -9,16 +9,22 @@
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#include "core/hle/kernel/object.h"
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#include "core/hle/kernel/wait_object.h"
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namespace Core {
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class Timing;
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}
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namespace Kernel {
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class TimerManager {
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public:
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TimerManager();
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TimerManager(Core::Timing& timing);
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private:
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/// The timer callback event, called when a timer is fired
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void TimerCallback(u64 callback_id, s64 cycles_late);
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Core::Timing& timing;
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/// The event type of the generic timer callback event
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Core::TimingEventType* timer_callback_event_type = nullptr;
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@ -93,6 +99,7 @@ private:
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/// ID used as userdata to reference this object when inserting into the CoreTiming queue.
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u64 callback_id;
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KernelSystem& kernel;
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TimerManager& timer_manager;
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friend class KernelSystem;
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@ -21,7 +21,8 @@ TestEnvironment::TestEnvironment(bool mutable_memory_)
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Core::System::GetInstance().timing = std::make_unique<Core::Timing>();
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Core::System::GetInstance().memory = std::make_unique<Memory::MemorySystem>();
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Memory::MemorySystem& memory = *Core::System::GetInstance().memory;
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Core::System::GetInstance().kernel = std::make_unique<Kernel::KernelSystem>(memory, 0);
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Core::System::GetInstance().kernel =
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std::make_unique<Kernel::KernelSystem>(memory, *Core::System::GetInstance().timing, 0);
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kernel = Core::System::GetInstance().kernel.get();
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kernel->SetCurrentProcess(kernel->CreateProcess(kernel->CreateCodeSet("", 0)));
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@ -24,7 +24,7 @@ TEST_CASE("HLERequestContext::PopulateFromIncomingCommandBuffer", "[core][kernel
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// HACK: see comments of member timing
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Core::System::GetInstance().timing = std::make_unique<Core::Timing>();
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auto memory = std::make_unique<Memory::MemorySystem>();
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Kernel::KernelSystem kernel(*memory, 0);
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Kernel::KernelSystem kernel(*memory, *Core::System::GetInstance().timing, 0);
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auto session = std::get<SharedPtr<ServerSession>>(kernel.CreateSessionPair());
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HLERequestContext context(std::move(session));
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@ -237,7 +237,7 @@ TEST_CASE("HLERequestContext::WriteToOutgoingCommandBuffer", "[core][kernel]") {
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// HACK: see comments of member timing
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Core::System::GetInstance().timing = std::make_unique<Core::Timing>();
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auto memory = std::make_unique<Memory::MemorySystem>();
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Kernel::KernelSystem kernel(*memory, 0);
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Kernel::KernelSystem kernel(*memory, *Core::System::GetInstance().timing, 0);
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auto session = std::get<SharedPtr<ServerSession>>(kernel.CreateSessionPair());
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HLERequestContext context(std::move(session));
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@ -14,7 +14,8 @@ TEST_CASE("Memory::IsValidVirtualAddress", "[core][memory]") {
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// HACK: see comments of member timing
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Core::System::GetInstance().timing = std::make_unique<Core::Timing>();
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Core::System::GetInstance().memory = std::make_unique<Memory::MemorySystem>();
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Kernel::KernelSystem kernel(*Core::System::GetInstance().memory, 0);
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Kernel::KernelSystem kernel(*Core::System::GetInstance().memory,
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*Core::System::GetInstance().timing, 0);
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SECTION("these regions should not be mapped on an empty process") {
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auto process = kernel.CreateProcess(kernel.CreateCodeSet("", 0));
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CHECK(Memory::IsValidVirtualAddress(*process, Memory::PROCESS_IMAGE_VADDR) == false);
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