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SVC: Correct SignalEvent, ClearEvent, ResetSignal, WaitSynchronization, CancelSynchronization, ArbitrateLock
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ef4afa9760
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@ -72,42 +72,55 @@ ResultCode Mutex::TryAcquire(VAddr address, Handle holding_thread_handle,
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return ERR_INVALID_ADDRESS;
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}
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const auto& handle_table = system.Kernel().CurrentProcess()->GetHandleTable();
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auto& kernel = system.Kernel();
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std::shared_ptr<Thread> current_thread =
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SharedFrom(system.CurrentScheduler().GetCurrentThread());
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std::shared_ptr<Thread> holding_thread = handle_table.Get<Thread>(holding_thread_handle);
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std::shared_ptr<Thread> requesting_thread = handle_table.Get<Thread>(requesting_thread_handle);
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SharedFrom(kernel.CurrentScheduler().GetCurrentThread());
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{
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SchedulerLock lock(kernel);
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// The mutex address must be 4-byte aligned
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if ((address % sizeof(u32)) != 0) {
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return ERR_INVALID_ADDRESS;
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}
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// TODO(Subv): It is currently unknown if it is possible to lock a mutex in behalf of another
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// thread.
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ASSERT(requesting_thread == current_thread);
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const auto& handle_table = kernel.CurrentProcess()->GetHandleTable();
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std::shared_ptr<Thread> holding_thread = handle_table.Get<Thread>(holding_thread_handle);
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std::shared_ptr<Thread> requesting_thread = handle_table.Get<Thread>(requesting_thread_handle);
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const u32 addr_value = system.Memory().Read32(address);
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// TODO(Subv): It is currently unknown if it is possible to lock a mutex in behalf of another
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// thread.
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ASSERT(requesting_thread == current_thread);
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// If the mutex isn't being held, just return success.
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if (addr_value != (holding_thread_handle | Mutex::MutexHasWaitersFlag)) {
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return RESULT_SUCCESS;
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current_thread->SetSynchronizationResults(nullptr, RESULT_SUCCESS);
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const u32 addr_value = system.Memory().Read32(address);
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// If the mutex isn't being held, just return success.
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if (addr_value != (holding_thread_handle | Mutex::MutexHasWaitersFlag)) {
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return RESULT_SUCCESS;
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}
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if (holding_thread == nullptr) {
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return ERR_INVALID_HANDLE;
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}
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// Wait until the mutex is released
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current_thread->SetMutexWaitAddress(address);
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current_thread->SetWaitHandle(requesting_thread_handle);
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current_thread->SetStatus(ThreadStatus::WaitMutex);
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// Update the lock holder thread's priority to prevent priority inversion.
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holding_thread->AddMutexWaiter(current_thread);
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}
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if (holding_thread == nullptr) {
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LOG_ERROR(Kernel, "Holding thread does not exist! thread_handle={:08X}",
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holding_thread_handle);
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return ERR_INVALID_HANDLE;
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{
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SchedulerLock lock(kernel);
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auto* owner = current_thread->GetLockOwner();
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if (owner != nullptr) {
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owner->RemoveMutexWaiter(current_thread);
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}
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}
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// Wait until the mutex is released
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current_thread->SetMutexWaitAddress(address);
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current_thread->SetWaitHandle(requesting_thread_handle);
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current_thread->SetStatus(ThreadStatus::WaitMutex);
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current_thread->InvalidateWakeupCallback();
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// Update the lock holder thread's priority to prevent priority inversion.
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holding_thread->AddMutexWaiter(current_thread);
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system.PrepareReschedule();
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return RESULT_SUCCESS;
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return current_thread->GetSignalingResult();
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}
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ResultCode Mutex::Release(VAddr address) {
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@ -212,6 +212,7 @@ void Process::UnregisterThread(const Thread* thread) {
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}
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ResultCode Process::ClearSignalState() {
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SchedulerLock lock(system.Kernel());
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if (status == ProcessStatus::Exited) {
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LOG_ERROR(Kernel, "called on a terminated process instance.");
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return ERR_INVALID_STATE;
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@ -6,8 +6,10 @@
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#include "common/assert.h"
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#include "common/logging/log.h"
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#include "core/hle/kernel/errors.h"
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#include "core/hle/kernel/kernel.h"
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#include "core/hle/kernel/object.h"
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#include "core/hle/kernel/readable_event.h"
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#include "core/hle/kernel/scheduler.h"
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#include "core/hle/kernel/thread.h"
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namespace Kernel {
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@ -37,6 +39,7 @@ void ReadableEvent::Clear() {
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}
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ResultCode ReadableEvent::Reset() {
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SchedulerLock lock(kernel);
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if (!is_signaled) {
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LOG_TRACE(Kernel, "Handle is not signaled! object_id={}, object_type={}, object_name={}",
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GetObjectId(), GetTypeName(), GetName());
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@ -448,7 +448,6 @@ static ResultCode CancelSynchronization(Core::System& system, Handle thread_hand
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}
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thread->CancelWait();
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system.PrepareReschedule(thread->GetProcessorID());
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return RESULT_SUCCESS;
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}
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@ -10,78 +10,88 @@
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#include "core/hle/kernel/synchronization.h"
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#include "core/hle/kernel/synchronization_object.h"
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#include "core/hle/kernel/thread.h"
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#include "core/hle/kernel/time_manager.h"
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namespace Kernel {
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/// Default thread wakeup callback for WaitSynchronization
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static bool DefaultThreadWakeupCallback(ThreadWakeupReason reason, std::shared_ptr<Thread> thread,
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std::shared_ptr<SynchronizationObject> object,
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std::size_t index) {
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ASSERT(thread->GetStatus() == ThreadStatus::WaitSynch);
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if (reason == ThreadWakeupReason::Timeout) {
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thread->SetWaitSynchronizationResult(RESULT_TIMEOUT);
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return true;
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}
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ASSERT(reason == ThreadWakeupReason::Signal);
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thread->SetWaitSynchronizationResult(RESULT_SUCCESS);
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thread->SetWaitSynchronizationOutput(static_cast<u32>(index));
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return true;
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}
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Synchronization::Synchronization(Core::System& system) : system{system} {}
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void Synchronization::SignalObject(SynchronizationObject& obj) const {
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SchedulerLock lock(system.Kernel());
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if (obj.IsSignaled()) {
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obj.WakeupAllWaitingThreads();
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for (auto thread : obj.GetWaitingThreads()) {
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if (thread->GetSchedulingStatus() == ThreadSchedStatus::Paused) {
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thread->SetSynchronizationResults(&obj, RESULT_SUCCESS);
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thread->ResumeFromWait();
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}
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}
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}
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}
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std::pair<ResultCode, Handle> Synchronization::WaitFor(
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std::vector<std::shared_ptr<SynchronizationObject>>& sync_objects, s64 nano_seconds) {
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auto& kernel = system.Kernel();
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auto* const thread = system.CurrentScheduler().GetCurrentThread();
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// Find the first object that is acquirable in the provided list of objects
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const auto itr = std::find_if(sync_objects.begin(), sync_objects.end(),
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[thread](const std::shared_ptr<SynchronizationObject>& object) {
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return object->IsSignaled();
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});
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Handle event_handle = InvalidHandle;
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{
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SchedulerLockAndSleep lock(kernel, event_handle, thread, nano_seconds);
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const auto itr =
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std::find_if(sync_objects.begin(), sync_objects.end(),
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[thread](const std::shared_ptr<SynchronizationObject>& object) {
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return object->IsSignaled();
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});
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if (itr != sync_objects.end()) {
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// We found a ready object, acquire it and set the result value
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SynchronizationObject* object = itr->get();
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object->Acquire(thread);
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const u32 index = static_cast<s32>(std::distance(sync_objects.begin(), itr));
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return {RESULT_SUCCESS, index};
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if (itr != sync_objects.end()) {
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// We found a ready object, acquire it and set the result value
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SynchronizationObject* object = itr->get();
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object->Acquire(thread);
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const u32 index = static_cast<s32>(std::distance(sync_objects.begin(), itr));
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lock.CancelSleep();
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return {RESULT_SUCCESS, index};
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}
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if (nano_seconds == 0) {
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lock.CancelSleep();
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return {RESULT_TIMEOUT, InvalidHandle};
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}
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/// TODO(Blinkhawk): Check for termination pending
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if (thread->IsSyncCancelled()) {
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thread->SetSyncCancelled(false);
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lock.CancelSleep();
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return {ERR_SYNCHRONIZATION_CANCELED, InvalidHandle};
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}
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for (auto& object : sync_objects) {
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object->AddWaitingThread(SharedFrom(thread));
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}
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thread->SetSynchronizationResults(nullptr, RESULT_TIMEOUT);
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thread->SetStatus(ThreadStatus::WaitSynch);
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}
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// No objects were ready to be acquired, prepare to suspend the thread.
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// If a timeout value of 0 was provided, just return the Timeout error code instead of
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// suspending the thread.
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if (nano_seconds == 0) {
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return {RESULT_TIMEOUT, InvalidHandle};
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if (event_handle != InvalidHandle) {
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auto& time_manager = kernel.TimeManager();
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time_manager.UnscheduleTimeEvent(event_handle);
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}
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if (thread->IsSyncCancelled()) {
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thread->SetSyncCancelled(false);
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return {ERR_SYNCHRONIZATION_CANCELED, InvalidHandle};
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{
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SchedulerLock lock(kernel);
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ResultCode signaling_result = thread->GetSignalingResult();
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SynchronizationObject* signaling_object = thread->GetSignalingObject();
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if (signaling_result == RESULT_SUCCESS) {
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const auto itr = std::find_if(
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sync_objects.begin(), sync_objects.end(),
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[signaling_object](const std::shared_ptr<SynchronizationObject>& object) {
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return object.get() == signaling_object;
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});
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ASSERT(itr != sync_objects.end());
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signaling_object->Acquire(thread);
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const u32 index = static_cast<s32>(std::distance(sync_objects.begin(), itr));
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return {RESULT_SUCCESS, index};
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}
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return {signaling_result, -1};
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}
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for (auto& object : sync_objects) {
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object->AddWaitingThread(SharedFrom(thread));
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}
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thread->SetSynchronizationObjects(std::move(sync_objects));
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thread->SetStatus(ThreadStatus::WaitSynch);
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// Create an event to wake the thread up after the specified nanosecond delay has passed
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thread->WakeAfterDelay(nano_seconds);
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thread->SetWakeupCallback(DefaultThreadWakeupCallback);
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system.PrepareReschedule(thread->GetProcessorID());
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return {RESULT_TIMEOUT, InvalidHandle};
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}
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} // namespace Kernel
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@ -12,6 +12,7 @@
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namespace Kernel {
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class KernelCore;
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class Synchronization;
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class Thread;
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/// Class that represents a Kernel object that a thread can be waiting on
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* Wake up all threads waiting on this object that can be awoken, in priority order,
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* and set the synchronization result and output of the thread.
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*/
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void WakeupAllWaitingThreads();
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void /* deprecated */ WakeupAllWaitingThreads();
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/**
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* Wakes up a single thread waiting on this object.
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@ -62,7 +63,7 @@ public:
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void WakeupWaitingThread(std::shared_ptr<Thread> thread);
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/// Obtains the highest priority thread that is ready to run from this object's waiting list.
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std::shared_ptr<Thread> GetHighestPriorityReadyThread() const;
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std::shared_ptr<Thread> /* deprecated */ GetHighestPriorityReadyThread() const;
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/// Get a const reference to the waiting threads list for debug use
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const std::vector<std::shared_ptr<Thread>>& GetWaitingThreads() const;
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@ -139,12 +139,13 @@ ResultCode Thread::Start() {
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}
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void Thread::CancelWait() {
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SchedulerLock lock(kernel);
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if (GetSchedulingStatus() != ThreadSchedStatus::Paused) {
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is_sync_cancelled = true;
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return;
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}
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is_sync_cancelled = false;
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SetWaitSynchronizationResult(ERR_SYNCHRONIZATION_CANCELED);
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SetSynchronizationResults(nullptr, ERR_SYNCHRONIZATION_CANCELED);
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ResumeFromWait();
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}
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@ -258,13 +259,16 @@ void Thread::SetPriority(u32 priority) {
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}
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void Thread::SetWaitSynchronizationResult(ResultCode result) {
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context_32.cpu_registers[0] = result.raw;
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context_64.cpu_registers[0] = result.raw;
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UNREACHABLE();
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}
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void Thread::SetWaitSynchronizationOutput(s32 output) {
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context_32.cpu_registers[1] = output;
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context_64.cpu_registers[1] = output;
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UNREACHABLE();
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}
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void Thread::SetSynchronizationResults(SynchronizationObject* object, ResultCode result) {
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signaling_object = object;
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signaling_result = result;
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}
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s32 Thread::GetSynchronizationObjectIndex(std::shared_ptr<SynchronizationObject> object) const {
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@ -259,13 +259,23 @@ public:
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* Sets the result after the thread awakens (from svcWaitSynchronization)
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* @param result Value to set to the returned result
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*/
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void SetWaitSynchronizationResult(ResultCode result);
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void /*deprecated*/ SetWaitSynchronizationResult(ResultCode result);
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/**
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* Sets the output parameter value after the thread awakens (from svcWaitSynchronization)
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* @param output Value to set to the output parameter
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*/
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void SetWaitSynchronizationOutput(s32 output);
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void /*deprecated*/ SetWaitSynchronizationOutput(s32 output);
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void SetSynchronizationResults(SynchronizationObject* object, ResultCode result);
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SynchronizationObject* GetSignalingObject() const {
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return signaling_object;
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}
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ResultCode GetSignalingResult() const {
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return signaling_result;
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}
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/**
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* Retrieves the index that this particular object occupies in the list of objects
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/// passed to WaitSynchronization.
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ThreadSynchronizationObjects wait_objects;
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SynchronizationObject* signaling_object;
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ResultCode signaling_result{RESULT_SUCCESS};
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/// List of threads that are waiting for a mutex that is held by this thread.
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MutexWaitingThreads wait_mutex_threads;
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