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mergerfs/libfuse/lib/thread_pool.hpp

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#pragma once
#include "moodycamel/blockingconcurrentqueue.h"
#include "syslog.h"
#include <atomic>
#include <csignal>
#include <cstring>
#include <future>
#include <memory>
#include <mutex>
#include <stdexcept>
#include <string>
#include <thread>
#include <vector>
struct ThreadPoolTraits : public moodycamel::ConcurrentQueueDefaultTraits
{
static const int MAX_SEMA_SPINS = 1;
};
class ThreadPool
{
private:
using Func = std::function<void(void)>;
using Queue = moodycamel::BlockingConcurrentQueue<Func,ThreadPoolTraits>;
public:
explicit
ThreadPool(std::size_t const thread_count_ = std::thread::hardware_concurrency(),
std::size_t const queue_depth_ = 1,
std::string const name_ = {})
: _queue(queue_depth_,thread_count_,thread_count_),
_name(get_thread_name(name_))
{
syslog_debug("threadpool: spawning %zu threads of queue depth %zu named '%s'",
thread_count_,
queue_depth_,
_name.c_str());
sigset_t oldset;
sigset_t newset;
sigfillset(&newset);
pthread_sigmask(SIG_BLOCK,&newset,&oldset);
_threads.reserve(thread_count_);
for(std::size_t i = 0; i < thread_count_; ++i)
{
int rv;
pthread_t t;
rv = pthread_create(&t,NULL,ThreadPool::start_routine,this);
if(rv != 0)
{
syslog_warning("threadpool: error spawning thread - %d (%s)",
rv,
strerror(rv));
continue;
}
if(!_name.empty())
pthread_setname_np(t,_name.c_str());
_threads.push_back(t);
}
pthread_sigmask(SIG_SETMASK,&oldset,NULL);
if(_threads.empty())
throw std::runtime_error("threadpool: failed to spawn any threads");
}
~ThreadPool()
{
syslog_debug("threadpool: destroying %zu threads named '%s'",
_threads.size(),
_name.c_str());
for(auto t : _threads)
pthread_cancel(t);
Func f;
while(_queue.try_dequeue(f))
continue;
for(auto t : _threads)
pthread_join(t,NULL);
}
private:
static
std::string
get_thread_name(std::string const name_)
{
if(!name_.empty())
return name_;
char name[16];
pthread_getname_np(pthread_self(),name,sizeof(name));
return name;
}
static
void*
start_routine(void *arg_)
{
ThreadPool *btp = static_cast<ThreadPool*>(arg_);
ThreadPool::Func func;
ThreadPool::Queue &q = btp->_queue;
moodycamel::ConsumerToken ctok(btp->_queue);
while(true)
{
q.wait_dequeue(ctok,func);
func();
}
return NULL;
}
public:
int
add_thread(std::string const name_ = {})
{
int rv;
pthread_t t;
sigset_t oldset;
sigset_t newset;
std::string name;
name = (name_.empty() ? _name : name_);
sigfillset(&newset);
pthread_sigmask(SIG_BLOCK,&newset,&oldset);
rv = pthread_create(&t,NULL,ThreadPool::start_routine,this);
pthread_sigmask(SIG_SETMASK,&oldset,NULL);
if(rv != 0)
{
syslog_warning("threadpool: error spawning thread - %d (%s)",
rv,
strerror(rv));
return -rv;
}
if(!name.empty())
pthread_setname_np(t,name.c_str());
{
std::lock_guard<std::mutex> lg(_threads_mutex);
_threads.push_back(t);
}
syslog_debug("threadpool: 1 thread added to pool '%s' named '%s'",
_name.c_str(),
name.c_str());
return 0;
}
int
remove_thread(void)
{
{
std::lock_guard<std::mutex> lg(_threads_mutex);
if(_threads.size() <= 1)
return -EINVAL;
}
std::promise<pthread_t> promise;
auto func = [&]()
{
pthread_t t;
t = pthread_self();
promise.set_value(t);
{
std::lock_guard<std::mutex> lg(_threads_mutex);
for(auto i = _threads.begin(); i != _threads.end(); ++i)
{
if(*i != t)
continue;
_threads.erase(i);
break;
}
}
char name[16];
pthread_getname_np(t,name,sizeof(name));
syslog_debug("threadpool: 1 thread removed from pool '%s' named '%s'",
_name.c_str(),
name);
pthread_exit(NULL);
};
enqueue_work(func);
pthread_join(promise.get_future().get(),NULL);
return 0;
}
int
set_threads(std::size_t const count_)
{
int diff;
{
std::lock_guard<std::mutex> lg(_threads_mutex);
diff = ((int)count_ - (int)_threads.size());
}
syslog_debug("diff: %d",diff);
for(auto i = diff; i > 0; --i)
add_thread();
for(auto i = diff; i < 0; ++i)
remove_thread();
return diff;
}
public:
template<typename FuncType>
void
enqueue_work(moodycamel::ProducerToken &ptok_,
FuncType &&f_)
{
timespec ts = {0,10};
while(true)
{
if(_queue.try_enqueue(ptok_,f_))
return;
::nanosleep(&ts,NULL);
ts.tv_nsec += 10;
}
}
template<typename FuncType>
void
enqueue_work(FuncType &&f_)
{
timespec ts = {0,10};
while(true)
{
if(_queue.try_enqueue(f_))
return;
::nanosleep(&ts,NULL);
ts.tv_nsec += 10;
}
}
template<typename FuncType>
[[nodiscard]]
std::future<typename std::result_of<FuncType()>::type>
enqueue_task(FuncType&& f_)
{
using TaskReturnType = typename std::result_of<FuncType()>::type;
using Promise = std::promise<TaskReturnType>;
auto promise = std::make_shared<Promise>();
auto future = promise->get_future();
auto work = [=]()
{
auto rv = f_();
promise->set_value(rv);
};
timespec ts = {0,10};
while(true)
{
if(_queue.try_enqueue(work))
break;
::nanosleep(&ts,NULL);
ts.tv_nsec += 10;
}
return future;
}
public:
std::vector<pthread_t>
threads() const
{
std::lock_guard<std::mutex> lg(_threads_mutex);
return _threads;
}
moodycamel::ProducerToken
ptoken()
{
return moodycamel::ProducerToken(_queue);
}
private:
Queue _queue;
private:
std::string const _name;
std::vector<pthread_t> _threads;
mutable std::mutex _threads_mutex;
};