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rpcs3/Utilities/Thread.h

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#pragma once
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#include "types.h"
#include "Atomic.h"
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#include <exception>
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#include <string>
#include <memory>
#include "sema.h"
#include "cond.h"
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// Will report exception and call std::abort() if put in catch(...)
[[noreturn]] void catch_all_exceptions();
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// Simple list of void() functors
class task_stack
{
struct task_base
{
std::unique_ptr<task_base> next;
virtual ~task_base();
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virtual void invoke()
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{
if (next)
{
next->invoke();
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}
}
};
template <typename F>
struct task_type final : task_base
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{
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std::remove_reference_t<F> func;
task_type(F&& func)
: func(std::forward<F>(func))
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{
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}
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void invoke() final override
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{
func();
task_base::invoke();
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}
};
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std::unique_ptr<task_base> m_stack;
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public:
task_stack() = default;
template <typename F>
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task_stack(F&& func)
: m_stack(new task_type<F>(std::forward<F>(func)))
{
}
void push(task_stack stack)
{
auto _top = stack.m_stack.release();
auto _next = m_stack.release();
m_stack.reset(_top);
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while (UNLIKELY(_top->next)) _top = _top->next.get();
_top->next.reset(_next);
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}
void reset()
{
m_stack.reset();
}
void invoke() const
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{
if (m_stack)
{
m_stack->invoke();
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}
}
};
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// Thread control class
class thread_ctrl final
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{
// Current thread
static thread_local thread_ctrl* g_tls_this_thread;
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// Self pointer
std::shared_ptr<thread_ctrl> m_self;
// Thread handle (platform-specific)
atomic_t<std::uintptr_t> m_thread{0};
// Thread mutex
mutable semaphore<> m_mutex;
// Thread condition variable
cond_variable m_cond;
// Thread flags
atomic_t<u32> m_signal{0};
// Thread joining condition variable
cond_variable m_jcv;
// Remotely set or caught exception
std::exception_ptr m_exception;
// Thread initial task or atexit task
task_stack m_task;
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// Fixed name
std::string m_name;
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// Start thread
static void start(const std::shared_ptr<thread_ctrl>&, task_stack);
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// Called at the thread start
void initialize();
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// Called at the thread end
void finalize(std::exception_ptr) noexcept;
// Add task (atexit)
static void _push(task_stack);
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// Internal waiting function, may throw. Infinite value is -1.
static bool _wait_for(u64 usec);
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// Internal throwing function. Mutex must be locked and will be unlocked.
[[noreturn]] void _throw();
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// Internal notification function
void _notify(cond_variable thread_ctrl::*);
public:
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thread_ctrl(std::string&& name);
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thread_ctrl(const thread_ctrl&) = delete;
~thread_ctrl();
// Get thread name
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const std::string& get_name() const
{
return m_name;
}
// Get exception
std::exception_ptr get_exception() const;
// Set exception
void set_exception(std::exception_ptr ptr);
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// Get thread result (may throw, simultaneous joining allowed)
void join();
// Notify the thread
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void notify();
// Wait once with timeout. Abortable, may throw. May spuriously return false.
static inline bool wait_for(u64 usec)
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{
return _wait_for(usec);
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}
// Wait. Abortable, may throw.
static inline void wait()
{
_wait_for(-1);
}
// Wait until pred(). Abortable, may throw.
template<typename F, typename RT = std::result_of_t<F()>>
static inline RT wait(F&& pred)
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{
while (true)
{
if (RT result = pred())
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{
return result;
}
_wait_for(-1);
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}
}
// Wait eternally until aborted.
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[[noreturn]] static inline void eternalize()
{
while (true)
{
_wait_for(-1);
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}
}
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// Test exception (may throw).
static void test();
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// Get current thread (may be nullptr)
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static thread_ctrl* get_current()
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{
return g_tls_this_thread;
}
// Register function at thread exit (for the current thread)
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template<typename F>
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static inline void atexit(F&& func)
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{
_push(std::forward<F>(func));
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}
// Create detached named thread
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template<typename N, typename F>
static inline void spawn(N&& name, F&& func)
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{
auto out = std::make_shared<thread_ctrl>(std::forward<N>(name));
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thread_ctrl::start(out, std::forward<F>(func));
}
// Named thread factory
template<typename N, typename F>
static inline void spawn(std::shared_ptr<thread_ctrl>& out, N&& name, F&& func)
{
out = std::make_shared<thread_ctrl>(std::forward<N>(name));
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thread_ctrl::start(out, std::forward<F>(func));
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}
};
class named_thread
{
// Pointer to managed resource (shared with actual thread)
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std::shared_ptr<thread_ctrl> m_thread;
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public:
named_thread();
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virtual ~named_thread();
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// Deleted copy/move constructors + copy/move operators
named_thread(const named_thread&) = delete;
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// Get thread name
virtual std::string get_name() const;
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protected:
// Start thread (cannot be called from the constructor: should throw in such case)
void start_thread(const std::shared_ptr<void>& _this);
// Thread task (called in the thread)
virtual void on_task() = 0;
// Thread finalization (called after on_task)
virtual void on_exit() {}
public:
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// ID initialization
virtual void on_init(const std::shared_ptr<void>& _this)
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{
return start_thread(_this);
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}
// ID finalization
virtual void on_stop()
{
m_thread->join();
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}
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// Access thread_ctrl
thread_ctrl* get() const
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{
return m_thread.get();
}
void join() const
{
return m_thread->join();
}
void notify() const
{
return m_thread->notify();
}
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};
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// Wrapper for named thread, joins automatically in the destructor, can only be used in function scope
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class scope_thread final
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{
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std::shared_ptr<thread_ctrl> m_thread;
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public:
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template<typename N, typename F>
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scope_thread(N&& name, F&& func)
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{
thread_ctrl::spawn(m_thread, std::forward<N>(name), std::forward<F>(func));
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}
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// Deleted copy/move constructors + copy/move operators
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scope_thread(const scope_thread&) = delete;
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// Destructor with exceptions allowed
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~scope_thread() noexcept(false)
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{
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m_thread->join();
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}
// Access thread_ctrl
thread_ctrl* get() const
{
return m_thread.get();
}
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};