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blah2/lib/asio-1.26.0/asio/experimental/detail/impl/channel_service.hpp

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//
// experimental/detail/impl/channel_service.hpp
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
// Copyright (c) 2003-2022 Christopher M. Kohlhoff (chris at kohlhoff dot com)
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#ifndef ASIO_EXPERIMENTAL_DETAIL_IMPL_CHANNEL_SERVICE_HPP
#define ASIO_EXPERIMENTAL_DETAIL_IMPL_CHANNEL_SERVICE_HPP
#if defined(_MSC_VER) && (_MSC_VER >= 1200)
# pragma once
#endif // defined(_MSC_VER) && (_MSC_VER >= 1200)
#include "asio/detail/push_options.hpp"
namespace asio {
namespace experimental {
namespace detail {
template <typename Mutex>
inline channel_service<Mutex>::channel_service(execution_context& ctx)
: asio::detail::execution_context_service_base<channel_service>(ctx),
mutex_(),
impl_list_(0)
{
}
template <typename Mutex>
inline void channel_service<Mutex>::shutdown()
{
// Abandon all pending operations.
asio::detail::op_queue<channel_operation> ops;
asio::detail::mutex::scoped_lock lock(mutex_);
base_implementation_type* impl = impl_list_;
while (impl)
{
ops.push(impl->waiters_);
impl = impl->next_;
}
}
template <typename Mutex>
inline void channel_service<Mutex>::construct(
channel_service<Mutex>::base_implementation_type& impl,
std::size_t max_buffer_size)
{
impl.max_buffer_size_ = max_buffer_size;
impl.receive_state_ = block;
impl.send_state_ = max_buffer_size ? buffer : block;
// Insert implementation into linked list of all implementations.
asio::detail::mutex::scoped_lock lock(mutex_);
impl.next_ = impl_list_;
impl.prev_ = 0;
if (impl_list_)
impl_list_->prev_ = &impl;
impl_list_ = &impl;
}
template <typename Mutex>
template <typename Traits, typename... Signatures>
void channel_service<Mutex>::destroy(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl)
{
cancel(impl);
base_destroy(impl);
}
template <typename Mutex>
template <typename Traits, typename... Signatures>
void channel_service<Mutex>::move_construct(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl,
channel_service<Mutex>::implementation_type<
Traits, Signatures...>& other_impl)
{
impl.max_buffer_size_ = other_impl.max_buffer_size_;
impl.receive_state_ = other_impl.receive_state_;
other_impl.receive_state_ = block;
impl.send_state_ = other_impl.send_state_;
other_impl.send_state_ = other_impl.max_buffer_size_ ? buffer : block;
impl.buffer_move_from(other_impl);
// Insert implementation into linked list of all implementations.
asio::detail::mutex::scoped_lock lock(mutex_);
impl.next_ = impl_list_;
impl.prev_ = 0;
if (impl_list_)
impl_list_->prev_ = &impl;
impl_list_ = &impl;
}
template <typename Mutex>
template <typename Traits, typename... Signatures>
void channel_service<Mutex>::move_assign(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl,
channel_service& other_service,
channel_service<Mutex>::implementation_type<
Traits, Signatures...>& other_impl)
{
cancel(impl);
if (this != &other_service)
{
// Remove implementation from linked list of all implementations.
asio::detail::mutex::scoped_lock lock(mutex_);
if (impl_list_ == &impl)
impl_list_ = impl.next_;
if (impl.prev_)
impl.prev_->next_ = impl.next_;
if (impl.next_)
impl.next_->prev_= impl.prev_;
impl.next_ = 0;
impl.prev_ = 0;
}
impl.max_buffer_size_ = other_impl.max_buffer_size_;
impl.receive_state_ = other_impl.receive_state_;
other_impl.receive_state_ = block;
impl.send_state_ = other_impl.send_state_;
other_impl.send_state_ = other_impl.max_buffer_size_ ? buffer : block;
impl.buffer_move_from(other_impl);
if (this != &other_service)
{
// Insert implementation into linked list of all implementations.
asio::detail::mutex::scoped_lock lock(other_service.mutex_);
impl.next_ = other_service.impl_list_;
impl.prev_ = 0;
if (other_service.impl_list_)
other_service.impl_list_->prev_ = &impl;
other_service.impl_list_ = &impl;
}
}
template <typename Mutex>
inline void channel_service<Mutex>::base_destroy(
channel_service<Mutex>::base_implementation_type& impl)
{
// Remove implementation from linked list of all implementations.
asio::detail::mutex::scoped_lock lock(mutex_);
if (impl_list_ == &impl)
impl_list_ = impl.next_;
if (impl.prev_)
impl.prev_->next_ = impl.next_;
if (impl.next_)
impl.next_->prev_= impl.prev_;
impl.next_ = 0;
impl.prev_ = 0;
}
template <typename Mutex>
inline std::size_t channel_service<Mutex>::capacity(
const channel_service<Mutex>::base_implementation_type& impl)
const ASIO_NOEXCEPT
{
typename Mutex::scoped_lock lock(impl.mutex_);
return impl.max_buffer_size_;
}
template <typename Mutex>
inline bool channel_service<Mutex>::is_open(
const channel_service<Mutex>::base_implementation_type& impl)
const ASIO_NOEXCEPT
{
typename Mutex::scoped_lock lock(impl.mutex_);
return impl.send_state_ != closed;
}
template <typename Mutex>
template <typename Traits, typename... Signatures>
void channel_service<Mutex>::reset(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl)
{
cancel(impl);
typename Mutex::scoped_lock lock(impl.mutex_);
impl.receive_state_ = block;
impl.send_state_ = impl.max_buffer_size_ ? buffer : block;
impl.buffer_clear();
}
template <typename Mutex>
template <typename Traits, typename... Signatures>
void channel_service<Mutex>::close(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl)
{
typedef typename implementation_type<Traits,
Signatures...>::traits_type traits_type;
typedef typename implementation_type<Traits,
Signatures...>::payload_type payload_type;
typename Mutex::scoped_lock lock(impl.mutex_);
if (impl.receive_state_ == block)
{
while (channel_operation* op = impl.waiters_.front())
{
impl.waiters_.pop();
traits_type::invoke_receive_closed(
complete_receive<payload_type,
typename traits_type::receive_closed_signature>(
static_cast<channel_receive<payload_type>*>(op)));
}
}
impl.send_state_ = closed;
impl.receive_state_ = closed;
}
template <typename Mutex>
template <typename Traits, typename... Signatures>
void channel_service<Mutex>::cancel(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl)
{
typedef typename implementation_type<Traits,
Signatures...>::traits_type traits_type;
typedef typename implementation_type<Traits,
Signatures...>::payload_type payload_type;
typename Mutex::scoped_lock lock(impl.mutex_);
while (channel_operation* op = impl.waiters_.front())
{
if (impl.send_state_ == block)
{
impl.waiters_.pop();
static_cast<channel_send<payload_type>*>(op)->cancel();
}
else
{
impl.waiters_.pop();
traits_type::invoke_receive_cancelled(
complete_receive<payload_type,
typename traits_type::receive_cancelled_signature>(
static_cast<channel_receive<payload_type>*>(op)));
}
}
if (impl.receive_state_ == waiter)
impl.receive_state_ = block;
if (impl.send_state_ == waiter)
impl.send_state_ = block;
}
template <typename Mutex>
template <typename Traits, typename... Signatures>
void channel_service<Mutex>::cancel_by_key(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl,
void* cancellation_key)
{
typedef typename implementation_type<Traits,
Signatures...>::traits_type traits_type;
typedef typename implementation_type<Traits,
Signatures...>::payload_type payload_type;
typename Mutex::scoped_lock lock(impl.mutex_);
asio::detail::op_queue<channel_operation> other_ops;
while (channel_operation* op = impl.waiters_.front())
{
if (op->cancellation_key_ == cancellation_key)
{
if (impl.send_state_ == block)
{
impl.waiters_.pop();
static_cast<channel_send<payload_type>*>(op)->cancel();
}
else
{
impl.waiters_.pop();
traits_type::invoke_receive_cancelled(
complete_receive<payload_type,
typename traits_type::receive_cancelled_signature>(
static_cast<channel_receive<payload_type>*>(op)));
}
}
else
{
impl.waiters_.pop();
other_ops.push(op);
}
}
impl.waiters_.push(other_ops);
if (impl.waiters_.empty())
{
if (impl.receive_state_ == waiter)
impl.receive_state_ = block;
if (impl.send_state_ == waiter)
impl.send_state_ = block;
}
}
template <typename Mutex>
inline bool channel_service<Mutex>::ready(
const channel_service<Mutex>::base_implementation_type& impl)
const ASIO_NOEXCEPT
{
typename Mutex::scoped_lock lock(impl.mutex_);
return impl.receive_state_ != block;
}
template <typename Mutex>
template <typename Message, typename Traits,
typename... Signatures, typename... Args>
bool channel_service<Mutex>::try_send(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl,
ASIO_MOVE_ARG(Args)... args)
{
typedef typename implementation_type<Traits,
Signatures...>::payload_type payload_type;
typename Mutex::scoped_lock lock(impl.mutex_);
switch (impl.send_state_)
{
case block:
{
return false;
}
case buffer:
{
impl.buffer_push(Message(0, ASIO_MOVE_CAST(Args)(args)...));
impl.receive_state_ = buffer;
if (impl.buffer_size() == impl.max_buffer_size_)
impl.send_state_ = block;
return true;
}
case waiter:
{
payload_type payload(Message(0, ASIO_MOVE_CAST(Args)(args)...));
channel_receive<payload_type>* receive_op =
static_cast<channel_receive<payload_type>*>(impl.waiters_.front());
impl.waiters_.pop();
receive_op->complete(ASIO_MOVE_CAST(payload_type)(payload));
if (impl.waiters_.empty())
impl.send_state_ = impl.max_buffer_size_ ? buffer : block;
return true;
}
case closed:
default:
{
return false;
}
}
}
template <typename Mutex>
template <typename Message, typename Traits,
typename... Signatures, typename... Args>
std::size_t channel_service<Mutex>::try_send_n(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl,
std::size_t count, ASIO_MOVE_ARG(Args)... args)
{
typedef typename implementation_type<Traits,
Signatures...>::payload_type payload_type;
typename Mutex::scoped_lock lock(impl.mutex_);
if (count == 0)
return 0;
switch (impl.send_state_)
{
case block:
return 0;
case buffer:
case waiter:
break;
case closed:
default:
return 0;
}
payload_type payload(Message(0, ASIO_MOVE_CAST(Args)(args)...));
for (std::size_t i = 0; i < count; ++i)
{
switch (impl.send_state_)
{
case block:
{
return i;
}
case buffer:
{
i += impl.buffer_push_n(count - i,
ASIO_MOVE_CAST(payload_type)(payload));
impl.receive_state_ = buffer;
if (impl.buffer_size() == impl.max_buffer_size_)
impl.send_state_ = block;
return i;
}
case waiter:
{
channel_receive<payload_type>* receive_op =
static_cast<channel_receive<payload_type>*>(impl.waiters_.front());
impl.waiters_.pop();
receive_op->complete(payload);
if (impl.waiters_.empty())
impl.send_state_ = impl.max_buffer_size_ ? buffer : block;
break;
}
case closed:
default:
{
return i;
}
}
}
return count;
}
template <typename Mutex>
template <typename Traits, typename... Signatures>
void channel_service<Mutex>::start_send_op(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl,
channel_send<typename implementation_type<
Traits, Signatures...>::payload_type>* send_op)
{
typedef typename implementation_type<Traits,
Signatures...>::payload_type payload_type;
typename Mutex::scoped_lock lock(impl.mutex_);
switch (impl.send_state_)
{
case block:
{
impl.waiters_.push(send_op);
if (impl.receive_state_ == block)
impl.receive_state_ = waiter;
return;
}
case buffer:
{
impl.buffer_push(send_op->get_payload());
impl.receive_state_ = buffer;
if (impl.buffer_size() == impl.max_buffer_size_)
impl.send_state_ = block;
send_op->complete();
break;
}
case waiter:
{
channel_receive<payload_type>* receive_op =
static_cast<channel_receive<payload_type>*>(impl.waiters_.front());
impl.waiters_.pop();
receive_op->complete(send_op->get_payload());
if (impl.waiters_.empty())
impl.send_state_ = impl.max_buffer_size_ ? buffer : block;
send_op->complete();
break;
}
case closed:
default:
{
send_op->close();
break;
}
}
}
template <typename Mutex>
template <typename Traits, typename... Signatures, typename Handler>
bool channel_service<Mutex>::try_receive(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl,
ASIO_MOVE_ARG(Handler) handler)
{
typedef typename implementation_type<Traits,
Signatures...>::payload_type payload_type;
typename Mutex::scoped_lock lock(impl.mutex_);
switch (impl.receive_state_)
{
case block:
{
return false;
}
case buffer:
{
payload_type payload(impl.buffer_front());
if (channel_send<payload_type>* send_op =
static_cast<channel_send<payload_type>*>(impl.waiters_.front()))
{
impl.buffer_pop();
impl.buffer_push(send_op->get_payload());
impl.waiters_.pop();
send_op->complete();
}
else
{
impl.buffer_pop();
if (impl.buffer_size() == 0)
impl.receive_state_ = (impl.send_state_ == closed) ? closed : block;
impl.send_state_ = (impl.send_state_ == closed) ? closed : buffer;
}
lock.unlock();
asio::detail::non_const_lvalue<Handler> handler2(handler);
channel_handler<payload_type, typename decay<Handler>::type>(
ASIO_MOVE_CAST(payload_type)(payload), handler2.value)();
return true;
}
case waiter:
{
channel_send<payload_type>* send_op =
static_cast<channel_send<payload_type>*>(impl.waiters_.front());
payload_type payload = send_op->get_payload();
impl.waiters_.pop();
send_op->complete();
if (impl.waiters_.front() == 0)
impl.receive_state_ = (impl.send_state_ == closed) ? closed : block;
lock.unlock();
asio::detail::non_const_lvalue<Handler> handler2(handler);
channel_handler<payload_type, typename decay<Handler>::type>(
ASIO_MOVE_CAST(payload_type)(payload), handler2.value)();
return true;
}
case closed:
default:
{
return false;
}
}
}
template <typename Mutex>
template <typename Traits, typename... Signatures>
void channel_service<Mutex>::start_receive_op(
channel_service<Mutex>::implementation_type<Traits, Signatures...>& impl,
channel_receive<typename implementation_type<
Traits, Signatures...>::payload_type>* receive_op)
{
typedef typename implementation_type<Traits,
Signatures...>::traits_type traits_type;
typedef typename implementation_type<Traits,
Signatures...>::payload_type payload_type;
typename Mutex::scoped_lock lock(impl.mutex_);
switch (impl.receive_state_)
{
case block:
{
impl.waiters_.push(receive_op);
if (impl.send_state_ != closed)
impl.send_state_ = waiter;
return;
}
case buffer:
{
receive_op->complete(impl.buffer_front());
if (channel_send<payload_type>* send_op =
static_cast<channel_send<payload_type>*>(impl.waiters_.front()))
{
impl.buffer_pop();
impl.buffer_push(send_op->get_payload());
impl.waiters_.pop();
send_op->complete();
}
else
{
impl.buffer_pop();
if (impl.buffer_size() == 0)
impl.receive_state_ = (impl.send_state_ == closed) ? closed : block;
impl.send_state_ = (impl.send_state_ == closed) ? closed : buffer;
}
break;
}
case waiter:
{
channel_send<payload_type>* send_op =
static_cast<channel_send<payload_type>*>(impl.waiters_.front());
payload_type payload = send_op->get_payload();
impl.waiters_.pop();
send_op->complete();
receive_op->complete(ASIO_MOVE_CAST(payload_type)(payload));
if (impl.waiters_.front() == 0)
impl.receive_state_ = (impl.send_state_ == closed) ? closed : block;
break;
}
case closed:
default:
{
traits_type::invoke_receive_closed(
complete_receive<payload_type,
typename traits_type::receive_closed_signature>(receive_op));
break;
}
}
}
} // namespace detail
} // namespace experimental
} // namespace asio
#include "asio/detail/pop_options.hpp"
#endif // ASIO_EXPERIMENTAL_DETAIL_IMPL_CHANNEL_SERVICE_HPP
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