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Common: Polish Fiber class, add comments, asserts and more tests.
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@ -2,6 +2,7 @@
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// Licensed under GPLv2 or any later version
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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// Refer to the license.txt file included.
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#include "common/assert.h"
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#include "common/fiber.h"
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#include "common/fiber.h"
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#ifdef _MSC_VER
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#ifdef _MSC_VER
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#include <windows.h>
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#include <windows.h>
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@ -18,11 +19,11 @@ struct Fiber::FiberImpl {
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};
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};
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void Fiber::start() {
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void Fiber::start() {
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if (previous_fiber) {
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ASSERT(previous_fiber != nullptr);
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previous_fiber->guard.unlock();
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previous_fiber->guard.unlock();
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previous_fiber = nullptr;
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previous_fiber.reset();
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}
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entry_point(start_parameter);
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entry_point(start_parameter);
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UNREACHABLE();
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}
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}
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void __stdcall Fiber::FiberStartFunc(void* fiber_parameter)
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void __stdcall Fiber::FiberStartFunc(void* fiber_parameter)
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@ -43,12 +44,16 @@ Fiber::Fiber() : guard{}, entry_point{}, start_parameter{}, previous_fiber{} {
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Fiber::~Fiber() {
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Fiber::~Fiber() {
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// Make sure the Fiber is not being used
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// Make sure the Fiber is not being used
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guard.lock();
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bool locked = guard.try_lock();
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guard.unlock();
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ASSERT_MSG(locked, "Destroying a fiber that's still running");
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if (locked) {
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guard.unlock();
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}
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DeleteFiber(impl->handle);
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DeleteFiber(impl->handle);
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}
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}
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void Fiber::Exit() {
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void Fiber::Exit() {
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ASSERT_MSG(is_thread_fiber, "Exitting non main thread fiber");
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if (!is_thread_fiber) {
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if (!is_thread_fiber) {
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return;
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return;
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}
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}
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@ -57,14 +62,15 @@ void Fiber::Exit() {
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}
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}
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void Fiber::YieldTo(std::shared_ptr<Fiber> from, std::shared_ptr<Fiber> to) {
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void Fiber::YieldTo(std::shared_ptr<Fiber> from, std::shared_ptr<Fiber> to) {
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ASSERT_MSG(from != nullptr, "Yielding fiber is null!");
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ASSERT_MSG(to != nullptr, "Next fiber is null!");
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to->guard.lock();
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to->guard.lock();
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to->previous_fiber = from;
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to->previous_fiber = from;
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SwitchToFiber(to->impl->handle);
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SwitchToFiber(to->impl->handle);
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auto previous_fiber = from->previous_fiber;
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auto previous_fiber = from->previous_fiber;
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if (previous_fiber) {
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ASSERT(previous_fiber != nullptr);
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previous_fiber->guard.unlock();
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previous_fiber->guard.unlock();
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previous_fiber.reset();
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previous_fiber.reset();
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}
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}
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}
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std::shared_ptr<Fiber> Fiber::ThreadToFiber() {
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std::shared_ptr<Fiber> Fiber::ThreadToFiber() {
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@ -85,12 +91,12 @@ struct alignas(64) Fiber::FiberImpl {
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};
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};
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void Fiber::start(boost::context::detail::transfer_t& transfer) {
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void Fiber::start(boost::context::detail::transfer_t& transfer) {
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if (previous_fiber) {
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ASSERT(previous_fiber != nullptr);
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previous_fiber->impl->context = transfer.fctx;
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previous_fiber->impl->context = transfer.fctx;
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previous_fiber->guard.unlock();
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previous_fiber->guard.unlock();
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previous_fiber = nullptr;
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previous_fiber.reset();
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}
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entry_point(start_parameter);
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entry_point(start_parameter);
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UNREACHABLE();
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}
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}
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void Fiber::FiberStartFunc(boost::context::detail::transfer_t transfer)
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void Fiber::FiberStartFunc(boost::context::detail::transfer_t transfer)
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@ -113,11 +119,15 @@ Fiber::Fiber() : guard{}, entry_point{}, start_parameter{}, previous_fiber{} {
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Fiber::~Fiber() {
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Fiber::~Fiber() {
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// Make sure the Fiber is not being used
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// Make sure the Fiber is not being used
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guard.lock();
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bool locked = guard.try_lock();
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guard.unlock();
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ASSERT_MSG(locked, "Destroying a fiber that's still running");
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if (locked) {
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guard.unlock();
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}
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}
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}
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void Fiber::Exit() {
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void Fiber::Exit() {
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ASSERT_MSG(is_thread_fiber, "Exitting non main thread fiber");
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if (!is_thread_fiber) {
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if (!is_thread_fiber) {
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return;
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return;
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}
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}
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@ -125,15 +135,16 @@ void Fiber::Exit() {
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}
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}
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void Fiber::YieldTo(std::shared_ptr<Fiber> from, std::shared_ptr<Fiber> to) {
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void Fiber::YieldTo(std::shared_ptr<Fiber> from, std::shared_ptr<Fiber> to) {
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ASSERT_MSG(from != nullptr, "Yielding fiber is null!");
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ASSERT_MSG(to != nullptr, "Next fiber is null!");
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to->guard.lock();
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to->guard.lock();
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to->previous_fiber = from;
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to->previous_fiber = from;
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auto transfer = boost::context::detail::jump_fcontext(to->impl.context, nullptr);
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auto transfer = boost::context::detail::jump_fcontext(to->impl.context, nullptr);
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auto previous_fiber = from->previous_fiber;
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auto previous_fiber = from->previous_fiber;
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if (previous_fiber) {
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ASSERT(previous_fiber != nullptr);
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previous_fiber->impl->context = transfer.fctx;
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previous_fiber->impl->context = transfer.fctx;
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previous_fiber->guard.unlock();
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previous_fiber->guard.unlock();
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previous_fiber.reset();
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previous_fiber.reset();
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}
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}
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}
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std::shared_ptr<Fiber> Fiber::ThreadToFiber() {
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std::shared_ptr<Fiber> Fiber::ThreadToFiber() {
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@ -18,6 +18,18 @@ namespace boost::context::detail {
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namespace Common {
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namespace Common {
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/**
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* Fiber class
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* a fiber is a userspace thread with it's own context. They can be used to
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* implement coroutines, emulated threading systems and certain asynchronous
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* patterns.
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*
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* This class implements fibers at a low level, thus allowing greater freedom
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* to implement such patterns. This fiber class is 'threadsafe' only one fiber
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* can be running at a time and threads will be locked while trying to yield to
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* a running fiber until it yields. WARNING exchanging two running fibers between
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* threads will cause a deadlock.
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*/
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class Fiber {
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class Fiber {
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public:
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public:
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Fiber(std::function<void(void*)>&& entry_point_func, void* start_parameter);
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Fiber(std::function<void(void*)>&& entry_point_func, void* start_parameter);
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@ -53,8 +65,6 @@ private:
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static void FiberStartFunc(boost::context::detail::transfer_t transfer);
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static void FiberStartFunc(boost::context::detail::transfer_t transfer);
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#endif
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#endif
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struct FiberImpl;
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struct FiberImpl;
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SpinLock guard;
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SpinLock guard;
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@ -43,4 +43,11 @@ void SpinLock::unlock() {
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lck.clear(std::memory_order_release);
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lck.clear(std::memory_order_release);
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}
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}
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bool SpinLock::try_lock() {
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if (lck.test_and_set(std::memory_order_acquire)) {
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return false;
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}
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return true;
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}
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} // namespace Common
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} // namespace Common
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@ -12,6 +12,7 @@ class SpinLock {
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public:
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public:
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void lock();
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void lock();
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void unlock();
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void unlock();
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bool try_lock();
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private:
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private:
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std::atomic_flag lck = ATOMIC_FLAG_INIT;
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std::atomic_flag lck = ATOMIC_FLAG_INIT;
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test_control.ExecuteThread(id);
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test_control.ExecuteThread(id);
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}
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}
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/** This test checks for fiber setup configuration and validates that fibers are
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* doing all the work required.
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*/
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TEST_CASE("Fibers::Setup", "[common]") {
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TEST_CASE("Fibers::Setup", "[common]") {
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constexpr u32 num_threads = 7;
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constexpr u32 num_threads = 7;
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TestControl1 test_control{};
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TestControl1 test_control{};
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@ -188,6 +190,10 @@ static void ThreadStart2_2(u32 id, TestControl2& test_control) {
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test_control.Exit();
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test_control.Exit();
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}
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}
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/** This test checks for fiber thread exchange configuration and validates that fibers are
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* that a fiber has been succesfully transfered from one thread to another and that the TLS
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* region of the thread is kept while changing fibers.
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*/
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TEST_CASE("Fibers::InterExchange", "[common]") {
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TEST_CASE("Fibers::InterExchange", "[common]") {
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TestControl2 test_control{};
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TestControl2 test_control{};
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test_control.thread_fibers.resize(2, nullptr);
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test_control.thread_fibers.resize(2, nullptr);
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@ -210,5 +216,92 @@ TEST_CASE("Fibers::InterExchange", "[common]") {
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REQUIRE(test_control.value1 == cal_value);
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REQUIRE(test_control.value1 == cal_value);
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}
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}
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class TestControl3 {
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public:
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TestControl3() = default;
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void DoWork1() {
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value1 += 1;
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Fiber::YieldTo(fiber1, fiber2);
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std::thread::id this_id = std::this_thread::get_id();
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u32 id = ids[this_id];
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value3 += 1;
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Fiber::YieldTo(fiber1, thread_fibers[id]);
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}
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void DoWork2() {
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value2 += 1;
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std::thread::id this_id = std::this_thread::get_id();
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u32 id = ids[this_id];
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Fiber::YieldTo(fiber2, thread_fibers[id]);
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}
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void ExecuteThread(u32 id);
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void CallFiber1() {
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std::thread::id this_id = std::this_thread::get_id();
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u32 id = ids[this_id];
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Fiber::YieldTo(thread_fibers[id], fiber1);
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}
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void Exit();
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u32 value1{};
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u32 value2{};
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u32 value3{};
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std::unordered_map<std::thread::id, u32> ids;
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std::vector<std::shared_ptr<Common::Fiber>> thread_fibers;
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std::shared_ptr<Common::Fiber> fiber1;
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std::shared_ptr<Common::Fiber> fiber2;
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};
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static void WorkControl3_1(void* control) {
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TestControl3* test_control = static_cast<TestControl3*>(control);
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test_control->DoWork1();
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}
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static void WorkControl3_2(void* control) {
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TestControl3* test_control = static_cast<TestControl3*>(control);
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test_control->DoWork2();
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}
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void TestControl3::ExecuteThread(u32 id) {
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std::thread::id this_id = std::this_thread::get_id();
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ids[this_id] = id;
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auto thread_fiber = Fiber::ThreadToFiber();
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thread_fibers[id] = thread_fiber;
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}
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void TestControl3::Exit() {
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std::thread::id this_id = std::this_thread::get_id();
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u32 id = ids[this_id];
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thread_fibers[id]->Exit();
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}
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static void ThreadStart3(u32 id, TestControl3& test_control) {
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test_control.ExecuteThread(id);
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test_control.CallFiber1();
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test_control.Exit();
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}
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/** This test checks for one two threads racing for starting the same fiber.
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* It checks execution occured in an ordered manner and by no time there were
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* two contexts at the same time.
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*/
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TEST_CASE("Fibers::StartRace", "[common]") {
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TestControl3 test_control{};
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test_control.thread_fibers.resize(2, nullptr);
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test_control.fiber1 = std::make_shared<Fiber>(std::function<void(void*)>{WorkControl3_1}, &test_control);
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test_control.fiber2 = std::make_shared<Fiber>(std::function<void(void*)>{WorkControl3_2}, &test_control);
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std::thread thread1(ThreadStart3, 0, std::ref(test_control));
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std::thread thread2(ThreadStart3, 1, std::ref(test_control));
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thread1.join();
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thread2.join();
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REQUIRE(test_control.value1 == 1);
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REQUIRE(test_control.value2 == 1);
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REQUIRE(test_control.value3 == 1);
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}
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} // namespace Common
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} // namespace Common
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