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Atmosphere/libraries/libstratosphere/source/os/impl/os_thread_manager.cpp

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2020-04-08 10:21:35 +01:00
/*
* Copyright (c) 2018-2020 Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stratosphere.hpp>
#include "os_thread_manager.hpp"
#include "os_waitable_manager_impl.hpp"
#include "os_waitable_holder_base.hpp"
#include "os_waitable_holder_impl.hpp"
#include "os_waitable_object_list.hpp"
namespace ams::os::impl {
void SetupThreadObjectUnsafe(ThreadType *thread, ThreadImpl *thread_impl, ThreadFunction function, void *arg, void *stack, size_t stack_size, s32 priority) {
/* Setup objects. */
new (GetPointer(thread->cs_thread)) impl::InternalCriticalSection;
new (GetPointer(thread->cv_thread)) impl::InternalConditionVariable;
new (GetPointer(thread->all_threads_node)) util::IntrusiveListNode;
new (GetPointer(thread->waitlist)) WaitableObjectList;
/* Set member variables. */
thread->thread_impl = (thread_impl != nullptr) ? thread_impl : std::addressof(thread->thread_impl_storage);
thread->function = function;
thread->argument = arg;
thread->stack = stack;
thread->stack_size = stack_size;
thread->base_priority = priority;
thread->suspend_count = 0;
thread->name_buffer[0] = '\x00';
thread->name_pointer = thread->name_buffer;
/* Set internal tls variables. */
thread->atomic_sf_inline_context = 0;
2020-04-08 10:21:35 +01:00
/* Mark initialized. */
thread->state = ThreadType::State_Initialized;
}
void ThreadManager::InvokeThread(ThreadType *thread) {
auto &manager = GetThreadManager();
manager.SetCurrentThread(thread);
manager.NotifyThreadNameChanged(thread);
{
std::unique_lock lk(GetReference(thread->cs_thread));
while (thread->state == ThreadType::State_Initialized) {
GetReference(thread->cv_thread).Wait(GetPointer(thread->cs_thread));
}
if (thread->state == ThreadType::State_Started) {
lk.unlock();
thread->function(thread->argument);
}
}
manager.CleanupThread();
}
ThreadManager::ThreadManager() : impl(std::addressof(main_thread)), total_thread_stack_size(0), num_created_threads(0) {
this->main_thread.state = ThreadType::State_Started;
this->SetCurrentThread(std::addressof(this->main_thread));
this->PlaceThreadObjectUnderThreadManagerSafe(std::addressof(this->main_thread));
}
void ThreadManager::CleanupThread() {
ThreadType *thread = this->GetCurrentThread();
{
std::scoped_lock lk(GetReference(thread->cs_thread));
thread->state = ThreadType::State_Terminated;
GetReference(thread->cv_thread).Broadcast();
GetReference(thread->waitlist).SignalAllThreads();
}
}
Result ThreadManager::CreateThread(ThreadType *thread, ThreadFunction function, void *argument, void *stack, size_t stack_size, s32 priority, s32 ideal_core) {
SetupThreadObjectUnsafe(thread, nullptr, function, argument, stack, stack_size, priority);
auto guard = SCOPE_GUARD { thread->state = ThreadType::State_NotInitialized; };
R_TRY(this->impl.CreateThread(thread, ideal_core));
guard.Cancel();
this->PlaceThreadObjectUnderThreadManagerSafe(thread);
return ResultSuccess();
}
Result ThreadManager::CreateThread(ThreadType *thread, ThreadFunction function, void *argument, void *stack, size_t stack_size, s32 priority) {
return this->CreateThread(thread, function, argument, stack, stack_size, priority, this->impl.GetDefaultCoreNumber());
}
void ThreadManager::DestroyThread(ThreadType *thread) {
{
std::scoped_lock lk(GetReference(thread->cs_thread));
if (thread->state == ThreadType::State_Initialized) {
thread->state = ThreadType::State_DestroyedBeforeStarted;
this->impl.StartThread(thread);
GetReference(thread->cv_thread).Signal();
}
}
this->impl.WaitForThreadExit(thread);
AMS_ASSERT(thread->state == ThreadType::State_Initialized);
{
std::scoped_lock lk(GetReference(thread->cs_thread));
/* NOTE: Here Nintendo would cleanup the alias stack. */
this->impl.DestroyThreadUnsafe(thread);
thread->state = ThreadType::State_NotInitialized;
GetReference(thread->waitlist).~WaitableObjectList();
thread->name_buffer[0] = '\x00';
{
std::scoped_lock tlk(this->cs);
this->EraseFromAllThreadsListUnsafe(thread);
}
}
}
void ThreadManager::StartThread(ThreadType *thread) {
std::scoped_lock lk(GetReference(thread->cs_thread));
AMS_ASSERT(thread->state == ThreadType::State_Initialized);
this->impl.StartThread(thread);
thread->state = ThreadType::State_Started;
GetReference(thread->cv_thread).Signal();
}
void ThreadManager::WaitThread(ThreadType *thread) {
this->impl.WaitForThreadExit(thread);
{
std::scoped_lock lk(GetReference(thread->cs_thread));
/* Note: Here Nintendo would cleanup the alias stack. */
}
}
bool ThreadManager::TryWaitThread(ThreadType *thread) {
const bool result = this->impl.TryWaitForThreadExit(thread);
if (result) {
std::scoped_lock lk(GetReference(thread->cs_thread));
/* Note: Here Nintendo would cleanup the alias stack. */
}
return result;
}
s32 ThreadManager::SuspendThread(ThreadType *thread) {
std::scoped_lock lk(GetReference(thread->cs_thread));
auto prev_suspend_count = thread->suspend_count;
AMS_ASSERT(prev_suspend_count < ThreadSuspendCountMax);
thread->suspend_count = prev_suspend_count + 1;
if (prev_suspend_count == 0) {
this->impl.SuspendThreadUnsafe(thread);
}
return prev_suspend_count;
}
s32 ThreadManager::ResumeThread(ThreadType *thread) {
std::scoped_lock lk(GetReference(thread->cs_thread));
auto prev_suspend_count = thread->suspend_count;
if (prev_suspend_count > 0) {
thread->suspend_count = prev_suspend_count - 1;
if (prev_suspend_count == 1) {
this->impl.ResumeThreadUnsafe(thread);
}
}
return prev_suspend_count;
}
void ThreadManager::CancelThreadSynchronization(ThreadType *thread) {
std::scoped_lock lk(GetReference(thread->cs_thread));
this->impl.CancelThreadSynchronizationUnsafe(thread);
}
/* TODO void ThreadManager::GetThreadContext(ThreadContextInfo *out_context, const ThreadType *thread); */
void ThreadManager::SetInitialThreadNameUnsafe(ThreadType *thread) {
if (thread == std::addressof(this->main_thread)) {
constexpr const char MainThreadName[] = "MainThread";
static_assert(sizeof(thread->name_buffer) >= sizeof(MainThreadName));
static_assert(MainThreadName[sizeof(MainThreadName) - 1] == '\x00');
std::memcpy(thread->name_buffer, MainThreadName, sizeof(MainThreadName));
} else {
constexpr const char ThreadNamePrefix[] = "Thread_0x";
constexpr size_t ThreadNamePrefixSize = sizeof(ThreadNamePrefix) - 1;
const u64 func = reinterpret_cast<u64>(thread->function);
static_assert(ThreadNamePrefixSize + sizeof(func) * 2 + 1 <= sizeof(thread->name_buffer));
std::snprintf(thread->name_buffer, sizeof(thread->name_buffer), "%s%016lX", ThreadNamePrefix, func);
}
thread->name_pointer = thread->name_buffer;
}
}