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http_server.h
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http_server.h
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#pragma once
#ifdef CROW_USE_BOOST
#include <boost/asio.hpp>
#ifdef CROW_ENABLE_SSL
#include <boost/asio/ssl.hpp>
#endif
#else
#ifndef ASIO_STANDALONE
#define ASIO_STANDALONE
#endif
#include <asio.hpp>
#ifdef CROW_ENABLE_SSL
#include <asio/ssl.hpp>
#endif
#endif
#include <atomic>
#include <chrono>
#include <cstdint>
#include <future>
#include <memory>
#include <vector>
#include "crow/version.h"
#include "crow/http_connection.h"
#include "crow/logging.h"
#include "crow/task_timer.h"
namespace crow // NOTE: Already documented in "crow/app.h"
{
#ifdef CROW_USE_BOOST
namespace asio = boost::asio;
using error_code = boost::system::error_code;
#else
using error_code = asio::error_code;
#endif
using tcp = asio::ip::tcp;
template<typename Handler, typename Adaptor = SocketAdaptor, typename... Middlewares>
class Server
{
public:
Server(Handler* handler, std::string bindaddr, uint16_t port, std::string server_name = std::string("Crow/") + VERSION, std::tuple<Middlewares...>* middlewares = nullptr, uint16_t concurrency = 1, uint8_t timeout = 5, typename Adaptor::context* adaptor_ctx = nullptr):
acceptor_(io_service_, tcp::endpoint(asio::ip::address::from_string(bindaddr), port)),
signals_(io_service_),
tick_timer_(io_service_),
handler_(handler),
concurrency_(concurrency),
timeout_(timeout),
server_name_(server_name),
port_(port),
bindaddr_(bindaddr),
task_queue_length_pool_(concurrency_ - 1),
middlewares_(middlewares),
adaptor_ctx_(adaptor_ctx)
{}
void set_tick_function(std::chrono::milliseconds d, std::function<void()> f)
{
tick_interval_ = d;
tick_function_ = f;
}
void on_tick()
{
tick_function_();
tick_timer_.expires_after(std::chrono::milliseconds(tick_interval_.count()));
tick_timer_.async_wait([this](const error_code& ec) {
if (ec)
return;
on_tick();
});
}
void run()
{
uint16_t worker_thread_count = concurrency_ - 1;
for (int i = 0; i < worker_thread_count; i++)
io_service_pool_.emplace_back(new asio::io_service());
get_cached_date_str_pool_.resize(worker_thread_count);
task_timer_pool_.resize(worker_thread_count);
std::vector<std::future<void>> v;
std::atomic<int> init_count(0);
for (uint16_t i = 0; i < worker_thread_count; i++)
v.push_back(
std::async(
std::launch::async, [this, i, &init_count] {
// thread local date string get function
auto last = std::chrono::steady_clock::now();
std::string date_str;
auto update_date_str = [&] {
auto last_time_t = time(0);
tm my_tm;
#if defined(_MSC_VER) || defined(__MINGW32__)
gmtime_s(&my_tm, &last_time_t);
#else
gmtime_r(&last_time_t, &my_tm);
#endif
date_str.resize(100);
size_t date_str_sz = strftime(&date_str[0], 99, "%a, %d %b %Y %H:%M:%S GMT", &my_tm);
date_str.resize(date_str_sz);
};
update_date_str();
get_cached_date_str_pool_[i] = [&]() -> std::string {
if (std::chrono::steady_clock::now() - last >= std::chrono::seconds(1))
{
last = std::chrono::steady_clock::now();
update_date_str();
}
return date_str;
};
// initializing task timers
detail::task_timer task_timer(*io_service_pool_[i]);
task_timer.set_default_timeout(timeout_);
task_timer_pool_[i] = &task_timer;
task_queue_length_pool_[i] = 0;
init_count++;
while (1)
{
try
{
if (io_service_pool_[i]->run() == 0)
{
// when io_service.run returns 0, there are no more works to do.
break;
}
}
catch (std::exception& e)
{
CROW_LOG_ERROR << "Worker Crash: An uncaught exception occurred: " << e.what();
}
}
}));
if (tick_function_ && tick_interval_.count() > 0)
{
tick_timer_.expires_after(std::chrono::milliseconds(tick_interval_.count()));
tick_timer_.async_wait(
[this](const error_code& ec) {
if (ec)
return;
on_tick();
});
}
port_ = acceptor_.local_endpoint().port();
handler_->port(port_);
CROW_LOG_INFO << server_name_ << " server is running at " << (handler_->ssl_used() ? "https://" : "http://") << bindaddr_ << ":" << acceptor_.local_endpoint().port() << " using " << concurrency_ << " threads";
CROW_LOG_INFO << "Call `app.loglevel(crow::LogLevel::Warning)` to hide Info level logs.";
signals_.async_wait(
[&](const error_code& /*error*/, int /*signal_number*/) {
stop();
});
while (worker_thread_count != init_count)
std::this_thread::yield();
do_accept();
std::thread(
[this] {
notify_start();
io_service_.run();
CROW_LOG_INFO << "Exiting.";
})
.join();
}
void stop()
{
shutting_down_ = true; // Prevent the acceptor from taking new connections
for (auto& io_service : io_service_pool_)
{
if (io_service != nullptr)
{
CROW_LOG_INFO << "Closing IO service " << &io_service;
io_service->stop(); // Close all io_services (and HTTP connections)
}
}
CROW_LOG_INFO << "Closing main IO service (" << &io_service_ << ')';
io_service_.stop(); // Close main io_service
}
uint16_t port(){
return acceptor_.local_endpoint().port();
}
/// Wait until the server has properly started
void wait_for_start()
{
std::unique_lock<std::mutex> lock(start_mutex_);
while (!server_started_)
cv_started_.wait(lock);
}
void signal_clear()
{
signals_.clear();
}
void signal_add(int signal_number)
{
signals_.add(signal_number);
}
private:
uint16_t pick_io_service_idx()
{
uint16_t min_queue_idx = 0;
// TODO improve load balancing
// size_t is used here to avoid the security issue https://codeql.github.com/codeql-query-help/cpp/cpp-comparison-with-wider-type/
// even though the max value of this can be only uint16_t as concurrency is uint16_t.
for (size_t i = 1; i < task_queue_length_pool_.size() && task_queue_length_pool_[min_queue_idx] > 0; i++)
// No need to check other io_services if the current one has no tasks
{
if (task_queue_length_pool_[i] < task_queue_length_pool_[min_queue_idx])
min_queue_idx = i;
}
return min_queue_idx;
}
void do_accept()
{
if (!shutting_down_)
{
uint16_t service_idx = pick_io_service_idx();
asio::io_service& is = *io_service_pool_[service_idx];
task_queue_length_pool_[service_idx]++;
CROW_LOG_DEBUG << &is << " {" << service_idx << "} queue length: " << task_queue_length_pool_[service_idx];
auto p = std::make_shared<Connection<Adaptor, Handler, Middlewares...>>(
is, handler_, server_name_, middlewares_,
get_cached_date_str_pool_[service_idx], *task_timer_pool_[service_idx], adaptor_ctx_, task_queue_length_pool_[service_idx]);
acceptor_.async_accept(
p->socket(),
[this, p, &is, service_idx](error_code ec) {
if (!ec)
{
is.post(
[p] {
p->start();
});
}
else
{
task_queue_length_pool_[service_idx]--;
CROW_LOG_DEBUG << &is << " {" << service_idx << "} queue length: " << task_queue_length_pool_[service_idx];
}
do_accept();
});
}
}
/// Notify anything using `wait_for_start()` to proceed
void notify_start()
{
std::unique_lock<std::mutex> lock(start_mutex_);
server_started_ = true;
cv_started_.notify_all();
}
private:
std::vector<std::unique_ptr<asio::io_service>> io_service_pool_;
asio::io_service io_service_;
std::vector<detail::task_timer*> task_timer_pool_;
std::vector<std::function<std::string()>> get_cached_date_str_pool_;
tcp::acceptor acceptor_;
bool shutting_down_ = false;
bool server_started_{false};
std::condition_variable cv_started_;
std::mutex start_mutex_;
asio::signal_set signals_;
asio::basic_waitable_timer<std::chrono::high_resolution_clock> tick_timer_;
Handler* handler_;
uint16_t concurrency_{2};
std::uint8_t timeout_;
std::string server_name_;
uint16_t port_;
std::string bindaddr_;
std::vector<std::atomic<unsigned int>> task_queue_length_pool_;
std::chrono::milliseconds tick_interval_;
std::function<void()> tick_function_;
std::tuple<Middlewares...>* middlewares_;
typename Adaptor::context* adaptor_ctx_;
};
} // namespace crow