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hle: kernel: KConditionVariable: Various updates & simplifications.
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f62c7091a2
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f3d6e31e78
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@ -121,26 +121,31 @@ ResultCode KConditionVariable::SignalToAddress(VAddr addr) {
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// Determine the next tag.
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// Determine the next tag.
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u32 next_value{};
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u32 next_value{};
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if (next_owner_thread) {
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if (next_owner_thread != nullptr) {
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next_value = next_owner_thread->GetAddressKeyValue();
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next_value = next_owner_thread->GetAddressKeyValue();
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if (num_waiters > 1) {
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if (num_waiters > 1) {
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next_value |= Svc::HandleWaitMask;
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next_value |= Svc::HandleWaitMask;
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}
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}
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next_owner_thread->EndWait(ResultSuccess);
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// Write the value to userspace.
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}
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ResultCode result{ResultSuccess};
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if (WriteToUser(system, addr, std::addressof(next_value))) [[likely]] {
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// Write the value to userspace.
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result = ResultSuccess;
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if (!WriteToUser(system, addr, std::addressof(next_value))) {
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} else {
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if (next_owner_thread) {
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result = ResultInvalidCurrentMemory;
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next_owner_thread->SetWaitResult(ResultInvalidCurrentMemory);
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}
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}
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return ResultInvalidCurrentMemory;
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// Signal the next owner thread.
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next_owner_thread->EndWait(result);
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return result;
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} else {
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// Just write the value to userspace.
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R_UNLESS(WriteToUser(system, addr, std::addressof(next_value)),
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ResultInvalidCurrentMemory);
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return ResultSuccess;
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}
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}
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}
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}
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return ResultSuccess;
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}
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}
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ResultCode KConditionVariable::WaitForAddress(Handle handle, VAddr addr, u32 value) {
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ResultCode KConditionVariable::WaitForAddress(Handle handle, VAddr addr, u32 value) {
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@ -148,58 +153,45 @@ ResultCode KConditionVariable::WaitForAddress(Handle handle, VAddr addr, u32 val
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ThreadQueueImplForKConditionVariableWaitForAddress wait_queue(kernel);
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ThreadQueueImplForKConditionVariableWaitForAddress wait_queue(kernel);
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// Wait for the address.
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// Wait for the address.
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{
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KThread* owner_thread{};
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KScopedAutoObject<KThread> owner_thread;
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ASSERT(owner_thread.IsNull());
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{
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KScopedSchedulerLock sl(kernel);
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cur_thread->SetWaitResult(ResultSuccess);
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// Check if the thread should terminate.
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R_UNLESS(!cur_thread->IsTerminationRequested(), ResultTerminationRequested);
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{
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// Read the tag from userspace.
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u32 test_tag{};
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R_UNLESS(ReadFromUser(system, std::addressof(test_tag), addr),
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ResultInvalidCurrentMemory);
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// If the tag isn't the handle (with wait mask), we're done.
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R_UNLESS(test_tag == (handle | Svc::HandleWaitMask), ResultSuccess);
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// Get the lock owner thread.
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owner_thread =
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kernel.CurrentProcess()->GetHandleTable().GetObjectWithoutPseudoHandle<KThread>(
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handle);
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R_UNLESS(owner_thread.IsNotNull(), ResultInvalidHandle);
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// Update the lock.
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cur_thread->SetAddressKey(addr, value);
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owner_thread->AddWaiter(cur_thread);
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// Begin waiting.
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cur_thread->BeginWait(std::addressof(wait_queue));
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cur_thread->SetWaitReasonForDebugging(ThreadWaitReasonForDebugging::ConditionVar);
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cur_thread->SetMutexWaitAddressForDebugging(addr);
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}
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}
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ASSERT(owner_thread.IsNotNull());
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}
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// Remove the thread as a waiter from the lock owner.
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{
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{
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KScopedSchedulerLock sl(kernel);
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KScopedSchedulerLock sl(kernel);
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KThread* owner_thread = cur_thread->GetLockOwner();
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if (owner_thread != nullptr) {
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// Check if the thread should terminate.
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owner_thread->RemoveWaiter(cur_thread);
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R_UNLESS(!cur_thread->IsTerminationRequested(), ResultTerminationRequested);
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}
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// Read the tag from userspace.
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u32 test_tag{};
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R_UNLESS(ReadFromUser(system, std::addressof(test_tag), addr), ResultInvalidCurrentMemory);
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// If the tag isn't the handle (with wait mask), we're done.
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R_SUCCEED_IF(test_tag != (handle | Svc::HandleWaitMask));
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// Get the lock owner thread.
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owner_thread = kernel.CurrentProcess()
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->GetHandleTable()
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.GetObjectWithoutPseudoHandle<KThread>(handle)
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.ReleasePointerUnsafe();
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R_UNLESS(owner_thread != nullptr, ResultInvalidHandle);
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// Update the lock.
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cur_thread->SetAddressKey(addr, value);
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owner_thread->AddWaiter(cur_thread);
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// Begin waiting.
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cur_thread->BeginWait(std::addressof(wait_queue));
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cur_thread->SetWaitReasonForDebugging(ThreadWaitReasonForDebugging::ConditionVar);
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cur_thread->SetMutexWaitAddressForDebugging(addr);
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}
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}
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// Close our reference to the owner thread, now that the wait is over.
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owner_thread->Close();
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// Get the wait result.
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// Get the wait result.
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return cur_thread->GetWaitResult();
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return cur_thread->GetWaitResult();
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}
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}
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KThread* KConditionVariable::SignalImpl(KThread* thread) {
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void KConditionVariable::SignalImpl(KThread* thread) {
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// Check pre-conditions.
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// Check pre-conditions.
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ASSERT(kernel.GlobalSchedulerContext().IsLocked());
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ASSERT(kernel.GlobalSchedulerContext().IsLocked());
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@ -213,14 +205,13 @@ KThread* KConditionVariable::SignalImpl(KThread* thread) {
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// TODO(bunnei): We should disable interrupts here via KScopedInterruptDisable.
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// TODO(bunnei): We should disable interrupts here via KScopedInterruptDisable.
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// TODO(bunnei): We should call CanAccessAtomic(..) here.
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// TODO(bunnei): We should call CanAccessAtomic(..) here.
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can_access = true;
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can_access = true;
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if (can_access) {
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if (can_access) [[likely]] {
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UpdateLockAtomic(system, std::addressof(prev_tag), address, own_tag,
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UpdateLockAtomic(system, std::addressof(prev_tag), address, own_tag,
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Svc::HandleWaitMask);
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Svc::HandleWaitMask);
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}
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}
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}
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}
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KThread* thread_to_close = nullptr;
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if (can_access) [[likely]] {
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if (can_access) {
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if (prev_tag == Svc::InvalidHandle) {
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if (prev_tag == Svc::InvalidHandle) {
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// If nobody held the lock previously, we're all good.
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// If nobody held the lock previously, we're all good.
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thread->EndWait(ResultSuccess);
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thread->EndWait(ResultSuccess);
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@ -232,10 +223,10 @@ KThread* KConditionVariable::SignalImpl(KThread* thread) {
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static_cast<Handle>(prev_tag & ~Svc::HandleWaitMask))
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static_cast<Handle>(prev_tag & ~Svc::HandleWaitMask))
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.ReleasePointerUnsafe();
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.ReleasePointerUnsafe();
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if (owner_thread) {
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if (owner_thread) [[likely]] {
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// Add the thread as a waiter on the owner.
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// Add the thread as a waiter on the owner.
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owner_thread->AddWaiter(thread);
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owner_thread->AddWaiter(thread);
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thread_to_close = owner_thread;
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owner_thread->Close();
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} else {
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} else {
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// The lock was tagged with a thread that doesn't exist.
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// The lock was tagged with a thread that doesn't exist.
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thread->EndWait(ResultInvalidState);
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thread->EndWait(ResultInvalidState);
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@ -245,20 +236,11 @@ KThread* KConditionVariable::SignalImpl(KThread* thread) {
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// If the address wasn't accessible, note so.
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// If the address wasn't accessible, note so.
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thread->EndWait(ResultInvalidCurrentMemory);
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thread->EndWait(ResultInvalidCurrentMemory);
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}
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}
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return thread_to_close;
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}
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}
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void KConditionVariable::Signal(u64 cv_key, s32 count) {
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void KConditionVariable::Signal(u64 cv_key, s32 count) {
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// Prepare for signaling.
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constexpr int MaxThreads = 16;
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KLinkedList<KThread> thread_list{kernel};
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std::array<KThread*, MaxThreads> thread_array;
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s32 num_to_close{};
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// Perform signaling.
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// Perform signaling.
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s32 num_waiters{};
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int num_waiters = 0;
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{
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{
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KScopedSchedulerLock sl(kernel);
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KScopedSchedulerLock sl(kernel);
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@ -267,14 +249,7 @@ void KConditionVariable::Signal(u64 cv_key, s32 count) {
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(it->GetConditionVariableKey() == cv_key)) {
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(it->GetConditionVariableKey() == cv_key)) {
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KThread* target_thread = std::addressof(*it);
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KThread* target_thread = std::addressof(*it);
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if (KThread* thread = SignalImpl(target_thread); thread != nullptr) {
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this->SignalImpl(target_thread);
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if (num_to_close < MaxThreads) {
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thread_array[num_to_close++] = thread;
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} else {
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thread_list.push_back(*thread);
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}
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}
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it = thread_tree.erase(it);
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it = thread_tree.erase(it);
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target_thread->ClearConditionVariable();
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target_thread->ClearConditionVariable();
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++num_waiters;
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++num_waiters;
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@ -282,33 +257,20 @@ void KConditionVariable::Signal(u64 cv_key, s32 count) {
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// If we have no waiters, clear the has waiter flag.
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// If we have no waiters, clear the has waiter flag.
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if (it == thread_tree.end() || it->GetConditionVariableKey() != cv_key) {
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if (it == thread_tree.end() || it->GetConditionVariableKey() != cv_key) {
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const u32 has_waiter_flag{};
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const u32 has_waiter_flag = 0;
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WriteToUser(system, cv_key, std::addressof(has_waiter_flag));
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WriteToUser(system, cv_key, std::addressof(has_waiter_flag));
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}
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}
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}
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}
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// Close threads in the array.
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for (auto i = 0; i < num_to_close; ++i) {
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thread_array[i]->Close();
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}
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// Close threads in the list.
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for (auto it = thread_list.begin(); it != thread_list.end(); it = thread_list.erase(it)) {
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(*it).Close();
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}
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}
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}
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ResultCode KConditionVariable::Wait(VAddr addr, u64 key, u32 value, s64 timeout) {
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ResultCode KConditionVariable::Wait(VAddr addr, u64 key, u32 value, s64 timeout) {
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// Prepare to wait.
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// Prepare to wait.
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KThread* cur_thread = kernel.CurrentScheduler()->GetCurrentThread();
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KThread* cur_thread = GetCurrentThreadPointer(kernel);
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ThreadQueueImplForKConditionVariableWaitConditionVariable wait_queue(
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ThreadQueueImplForKConditionVariableWaitConditionVariable wait_queue(
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kernel, std::addressof(thread_tree));
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kernel, std::addressof(thread_tree));
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{
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{
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KScopedSchedulerLockAndSleep slp{kernel, cur_thread, timeout};
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KScopedSchedulerLockAndSleep slp(kernel, cur_thread, timeout);
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// Set the synced object.
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cur_thread->SetWaitResult(ResultTimedOut);
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// Check that the thread isn't terminating.
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// Check that the thread isn't terminating.
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if (cur_thread->IsTerminationRequested()) {
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if (cur_thread->IsTerminationRequested()) {
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@ -350,38 +312,20 @@ ResultCode KConditionVariable::Wait(VAddr addr, u64 key, u32 value, s64 timeout)
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}
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}
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}
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}
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// If timeout is zero, time out.
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R_UNLESS(timeout != 0, ResultTimedOut);
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// Update condition variable tracking.
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// Update condition variable tracking.
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{
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cur_thread->SetConditionVariable(std::addressof(thread_tree), addr, key, value);
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cur_thread->SetConditionVariable(std::addressof(thread_tree), addr, key, value);
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thread_tree.insert(*cur_thread);
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thread_tree.insert(*cur_thread);
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}
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// If the timeout is non-zero, set the thread as waiting.
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// Begin waiting.
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if (timeout != 0) {
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cur_thread->BeginWait(std::addressof(wait_queue));
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cur_thread->BeginWait(std::addressof(wait_queue));
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cur_thread->SetWaitReasonForDebugging(ThreadWaitReasonForDebugging::ConditionVar);
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cur_thread->SetWaitReasonForDebugging(ThreadWaitReasonForDebugging::ConditionVar);
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cur_thread->SetMutexWaitAddressForDebugging(addr);
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cur_thread->SetMutexWaitAddressForDebugging(addr);
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}
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}
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}
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// Cancel the timer wait.
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// Get the wait result.
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kernel.TimeManager().UnscheduleTimeEvent(cur_thread);
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// Remove from the condition variable.
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{
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KScopedSchedulerLock sl(kernel);
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if (KThread* owner = cur_thread->GetLockOwner(); owner != nullptr) {
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owner->RemoveWaiter(cur_thread);
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}
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if (cur_thread->IsWaitingForConditionVariable()) {
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thread_tree.erase(thread_tree.iterator_to(*cur_thread));
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cur_thread->ClearConditionVariable();
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}
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}
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// Get the result.
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return cur_thread->GetWaitResult();
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return cur_thread->GetWaitResult();
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}
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}
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@ -34,7 +34,7 @@ public:
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[[nodiscard]] ResultCode Wait(VAddr addr, u64 key, u32 value, s64 timeout);
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[[nodiscard]] ResultCode Wait(VAddr addr, u64 key, u32 value, s64 timeout);
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private:
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private:
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[[nodiscard]] KThread* SignalImpl(KThread* thread);
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void SignalImpl(KThread* thread);
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ThreadTree thread_tree;
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ThreadTree thread_tree;
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