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//
// detail/impl/win_iocp_io_context.ipp
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
// Copyright (c) 2003-2018 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_DETAIL_IMPL_WIN_IOCP_IO_CONTEXT_IPP
#define ASIO_DETAIL_IMPL_WIN_IOCP_IO_CONTEXT_IPP
#if defined(_MSC_VER) && (_MSC_VER >= 1200)
# pragma once
#endif // defined(_MSC_VER) && (_MSC_VER >= 1200)
#include "asio/detail/config.hpp"
#if defined(ASIO_HAS_IOCP)
#include "asio/error.hpp"
#include "asio/detail/cstdint.hpp"
#include "asio/detail/handler_alloc_helpers.hpp"
#include "asio/detail/handler_invoke_helpers.hpp"
#include "asio/detail/limits.hpp"
#include "asio/detail/throw_error.hpp"
#include "asio/detail/win_iocp_io_context.hpp"
#include "asio/detail/push_options.hpp"
namespace asio {
namespace detail {
struct win_iocp_io_context::work_finished_on_block_exit
{
~work_finished_on_block_exit()
{
io_context_->work_finished();
}
win_iocp_io_context* io_context_;
};
struct win_iocp_io_context::timer_thread_function
{
void operator()()
{
while (::InterlockedExchangeAdd(&io_context_->shutdown_, 0) == 0)
{
if (::WaitForSingleObject(io_context_->waitable_timer_.handle,
INFINITE) == WAIT_OBJECT_0)
{
::InterlockedExchange(&io_context_->dispatch_required_, 1);
::PostQueuedCompletionStatus(io_context_->iocp_.handle,
0, wake_for_dispatch, 0);
}
}
}
win_iocp_io_context* io_context_;
};
win_iocp_io_context::win_iocp_io_context(
asio::execution_context& ctx, int concurrency_hint)
: execution_context_service_base<win_iocp_io_context>(ctx),
iocp_(),
outstanding_work_(0),
stopped_(0),
stop_event_posted_(0),
shutdown_(0),
gqcs_timeout_(get_gqcs_timeout()),
dispatch_required_(0),
concurrency_hint_(concurrency_hint)
{
ASIO_HANDLER_TRACKING_INIT;
iocp_.handle = ::CreateIoCompletionPort(INVALID_HANDLE_VALUE, 0, 0,
static_cast<DWORD>(concurrency_hint >= 0 ? concurrency_hint : DWORD(~0)));
if (!iocp_.handle)
{
DWORD last_error = ::GetLastError();
asio::error_code ec(last_error,
asio::error::get_system_category());
asio::detail::throw_error(ec, "iocp");
}
}
void win_iocp_io_context::shutdown()
{
::InterlockedExchange(&shutdown_, 1);
if (timer_thread_.get())
{
LARGE_INTEGER timeout;
timeout.QuadPart = 1;
::SetWaitableTimer(waitable_timer_.handle, &timeout, 1, 0, 0, FALSE);
}
while (::InterlockedExchangeAdd(&outstanding_work_, 0) > 0)
{
op_queue<win_iocp_operation> ops;
timer_queues_.get_all_timers(ops);
ops.push(completed_ops_);
if (!ops.empty())
{
while (win_iocp_operation* op = ops.front())
{
ops.pop();
::InterlockedDecrement(&outstanding_work_);
op->destroy();
}
}
else
{
DWORD bytes_transferred = 0;
dword_ptr_t completion_key = 0;
LPOVERLAPPED overlapped = 0;
::GetQueuedCompletionStatus(iocp_.handle, &bytes_transferred,
&completion_key, &overlapped, gqcs_timeout_);
if (overlapped)
{
::InterlockedDecrement(&outstanding_work_);
static_cast<win_iocp_operation*>(overlapped)->destroy();
}
}
}
if (timer_thread_.get())
timer_thread_->join();
}
asio::error_code win_iocp_io_context::register_handle(
HANDLE handle, asio::error_code& ec)
{
if (::CreateIoCompletionPort(handle, iocp_.handle, 0, 0) == 0)
{
DWORD last_error = ::GetLastError();
ec = asio::error_code(last_error,
asio::error::get_system_category());
}
else
{
ec = asio::error_code();
}
return ec;
}
size_t win_iocp_io_context::run(asio::error_code& ec)
{
if (::InterlockedExchangeAdd(&outstanding_work_, 0) == 0)
{
stop();
ec = asio::error_code();
return 0;
}
win_iocp_thread_info this_thread;
thread_call_stack::context ctx(this, this_thread);
size_t n = 0;
while (do_one(INFINITE, ec))
if (n != (std::numeric_limits<size_t>::max)())
++n;
return n;
}
size_t win_iocp_io_context::run_one(asio::error_code& ec)
{
if (::InterlockedExchangeAdd(&outstanding_work_, 0) == 0)
{
stop();
ec = asio::error_code();
return 0;
}
win_iocp_thread_info this_thread;
thread_call_stack::context ctx(this, this_thread);
return do_one(INFINITE, ec);
}
size_t win_iocp_io_context::wait_one(long usec, asio::error_code& ec)
{
if (::InterlockedExchangeAdd(&outstanding_work_, 0) == 0)
{
stop();
ec = asio::error_code();
return 0;
}
win_iocp_thread_info this_thread;
thread_call_stack::context ctx(this, this_thread);
return do_one(usec < 0 ? INFINITE : ((usec - 1) / 1000 + 1), ec);
}
size_t win_iocp_io_context::poll(asio::error_code& ec)
{
if (::InterlockedExchangeAdd(&outstanding_work_, 0) == 0)
{
stop();
ec = asio::error_code();
return 0;
}
win_iocp_thread_info this_thread;
thread_call_stack::context ctx(this, this_thread);
size_t n = 0;
while (do_one(0, ec))
if (n != (std::numeric_limits<size_t>::max)())
++n;
return n;
}
size_t win_iocp_io_context::poll_one(asio::error_code& ec)
{
if (::InterlockedExchangeAdd(&outstanding_work_, 0) == 0)
{
stop();
ec = asio::error_code();
return 0;
}
win_iocp_thread_info this_thread;
thread_call_stack::context ctx(this, this_thread);
return do_one(0, ec);
}
void win_iocp_io_context::stop()
{
if (::InterlockedExchange(&stopped_, 1) == 0)
{
if (::InterlockedExchange(&stop_event_posted_, 1) == 0)
{
if (!::PostQueuedCompletionStatus(iocp_.handle, 0, 0, 0))
{
DWORD last_error = ::GetLastError();
asio::error_code ec(last_error,
asio::error::get_system_category());
asio::detail::throw_error(ec, "pqcs");
}
}
}
}
void win_iocp_io_context::post_deferred_completion(win_iocp_operation* op)
{
// Flag the operation as ready.
op->ready_ = 1;
// Enqueue the operation on the I/O completion port.
if (!::PostQueuedCompletionStatus(iocp_.handle, 0, 0, op))
{
// Out of resources. Put on completed queue instead.
mutex::scoped_lock lock(dispatch_mutex_);
completed_ops_.push(op);
::InterlockedExchange(&dispatch_required_, 1);
}
}
void win_iocp_io_context::post_deferred_completions(
op_queue<win_iocp_operation>& ops)
{
while (win_iocp_operation* op = ops.front())
{
ops.pop();
// Flag the operation as ready.
op->ready_ = 1;
// Enqueue the operation on the I/O completion port.
if (!::PostQueuedCompletionStatus(iocp_.handle, 0, 0, op))
{
// Out of resources. Put on completed queue instead.
mutex::scoped_lock lock(dispatch_mutex_);
completed_ops_.push(op);
completed_ops_.push(ops);
::InterlockedExchange(&dispatch_required_, 1);
}
}
}
void win_iocp_io_context::abandon_operations(
op_queue<win_iocp_operation>& ops)
{
while (win_iocp_operation* op = ops.front())
{
ops.pop();
::InterlockedDecrement(&outstanding_work_);
op->destroy();
}
}
void win_iocp_io_context::on_pending(win_iocp_operation* op)
{
if (::InterlockedCompareExchange(&op->ready_, 1, 0) == 1)
{
// Enqueue the operation on the I/O completion port.
if (!::PostQueuedCompletionStatus(iocp_.handle,
0, overlapped_contains_result, op))
{
// Out of resources. Put on completed queue instead.
mutex::scoped_lock lock(dispatch_mutex_);
completed_ops_.push(op);
::InterlockedExchange(&dispatch_required_, 1);
}
}
}
void win_iocp_io_context::on_completion(win_iocp_operation* op,
DWORD last_error, DWORD bytes_transferred)
{
// Flag that the operation is ready for invocation.
op->ready_ = 1;
// Store results in the OVERLAPPED structure.
op->Internal = reinterpret_cast<ulong_ptr_t>(
&asio::error::get_system_category());
op->Offset = last_error;
op->OffsetHigh = bytes_transferred;
// Enqueue the operation on the I/O completion port.
if (!::PostQueuedCompletionStatus(iocp_.handle,
0, overlapped_contains_result, op))
{
// Out of resources. Put on completed queue instead.
mutex::scoped_lock lock(dispatch_mutex_);
completed_ops_.push(op);
::InterlockedExchange(&dispatch_required_, 1);
}
}
void win_iocp_io_context::on_completion(win_iocp_operation* op,
const asio::error_code& ec, DWORD bytes_transferred)
{
// Flag that the operation is ready for invocation.
op->ready_ = 1;
// Store results in the OVERLAPPED structure.
op->Internal = reinterpret_cast<ulong_ptr_t>(&ec.category());
op->Offset = ec.value();
op->OffsetHigh = bytes_transferred;
// Enqueue the operation on the I/O completion port.
if (!::PostQueuedCompletionStatus(iocp_.handle,
0, overlapped_contains_result, op))
{
// Out of resources. Put on completed queue instead.
mutex::scoped_lock lock(dispatch_mutex_);
completed_ops_.push(op);
::InterlockedExchange(&dispatch_required_, 1);
}
}
size_t win_iocp_io_context::do_one(DWORD msec, asio::error_code& ec)
{
for (;;)
{
// Try to acquire responsibility for dispatching timers and completed ops.
if (::InterlockedCompareExchange(&dispatch_required_, 0, 1) == 1)
{
mutex::scoped_lock lock(dispatch_mutex_);
// Dispatch pending timers and operations.
op_queue<win_iocp_operation> ops;
ops.push(completed_ops_);
timer_queues_.get_ready_timers(ops);
post_deferred_completions(ops);
update_timeout();
}
// Get the next operation from the queue.
DWORD bytes_transferred = 0;
dword_ptr_t completion_key = 0;
LPOVERLAPPED overlapped = 0;
::SetLastError(0);
BOOL ok = ::GetQueuedCompletionStatus(iocp_.handle,
&bytes_transferred, &completion_key, &overlapped,
msec < gqcs_timeout_ ? msec : gqcs_timeout_);
DWORD last_error = ::GetLastError();
if (overlapped)
{
win_iocp_operation* op = static_cast<win_iocp_operation*>(overlapped);
asio::error_code result_ec(last_error,
asio::error::get_system_category());
// We may have been passed the last_error and bytes_transferred in the
// OVERLAPPED structure itself.
if (completion_key == overlapped_contains_result)
{
result_ec = asio::error_code(static_cast<int>(op->Offset),
*reinterpret_cast<asio::error_category*>(op->Internal));
bytes_transferred = op->OffsetHigh;
}
// Otherwise ensure any result has been saved into the OVERLAPPED
// structure.
else
{
op->Internal = reinterpret_cast<ulong_ptr_t>(&result_ec.category());
op->Offset = result_ec.value();
op->OffsetHigh = bytes_transferred;
}
// Dispatch the operation only if ready. The operation may not be ready
// if the initiating function (e.g. a call to WSARecv) has not yet
// returned. This is because the initiating function still wants access
// to the operation's OVERLAPPED structure.
if (::InterlockedCompareExchange(&op->ready_, 1, 0) == 1)
{
// Ensure the count of outstanding work is decremented on block exit.
work_finished_on_block_exit on_exit = { this };
(void)on_exit;
op->complete(this, result_ec, bytes_transferred);
ec = asio::error_code();
return 1;
}
}
else if (!ok)
{
if (last_error != WAIT_TIMEOUT)
{
ec = asio::error_code(last_error,
asio::error::get_system_category());
return 0;
}
// If we're waiting indefinitely we need to keep going until we get a
// real handler.
if (msec == INFINITE)
continue;
ec = asio::error_code();
return 0;
}
else if (completion_key == wake_for_dispatch)
{
// We have been woken up to try to acquire responsibility for dispatching
// timers and completed operations.
}
else
{
// Indicate that there is no longer an in-flight stop event.
::InterlockedExchange(&stop_event_posted_, 0);
// The stopped_ flag is always checked to ensure that any leftover
// stop events from a previous run invocation are ignored.
if (::InterlockedExchangeAdd(&stopped_, 0) != 0)
{
// Wake up next thread that is blocked on GetQueuedCompletionStatus.
if (::InterlockedExchange(&stop_event_posted_, 1) == 0)
{
if (!::PostQueuedCompletionStatus(iocp_.handle, 0, 0, 0))
{
last_error = ::GetLastError();
ec = asio::error_code(last_error,
asio::error::get_system_category());
return 0;
}
}
ec = asio::error_code();
return 0;
}
}
}
}
DWORD win_iocp_io_context::get_gqcs_timeout()
{
OSVERSIONINFOEX osvi;
ZeroMemory(&osvi, sizeof(osvi));
osvi.dwOSVersionInfoSize = sizeof(osvi);
osvi.dwMajorVersion = 6ul;
const uint64_t condition_mask = ::VerSetConditionMask(
0, VER_MAJORVERSION, VER_GREATER_EQUAL);
if (!!::VerifyVersionInfo(&osvi, VER_MAJORVERSION, condition_mask))
return INFINITE;
return default_gqcs_timeout;
}
void win_iocp_io_context::do_add_timer_queue(timer_queue_base& queue)
{
mutex::scoped_lock lock(dispatch_mutex_);
timer_queues_.insert(&queue);
if (!waitable_timer_.handle)
{
waitable_timer_.handle = ::CreateWaitableTimer(0, FALSE, 0);
if (waitable_timer_.handle == 0)
{
DWORD last_error = ::GetLastError();
asio::error_code ec(last_error,
asio::error::get_system_category());
asio::detail::throw_error(ec, "timer");
}
LARGE_INTEGER timeout;
timeout.QuadPart = -max_timeout_usec;
timeout.QuadPart *= 10;
::SetWaitableTimer(waitable_timer_.handle,
&timeout, max_timeout_msec, 0, 0, FALSE);
}
if (!timer_thread_.get())
{
timer_thread_function thread_function = { this };
timer_thread_.reset(new thread(thread_function, 65536));
}
}
void win_iocp_io_context::do_remove_timer_queue(timer_queue_base& queue)
{
mutex::scoped_lock lock(dispatch_mutex_);
timer_queues_.erase(&queue);
}
void win_iocp_io_context::update_timeout()
{
if (timer_thread_.get())
{
// There's no point updating the waitable timer if the new timeout period
// exceeds the maximum timeout. In that case, we might as well wait for the
// existing period of the timer to expire.
long timeout_usec = timer_queues_.wait_duration_usec(max_timeout_usec);
if (timeout_usec < max_timeout_usec)
{
LARGE_INTEGER timeout;
timeout.QuadPart = -timeout_usec;
timeout.QuadPart *= 10;
::SetWaitableTimer(waitable_timer_.handle,
&timeout, max_timeout_msec, 0, 0, FALSE);
}
}
}
} // namespace detail
} // namespace asio
#include "asio/detail/pop_options.hpp"
#endif // defined(ASIO_HAS_IOCP)
#endif // ASIO_DETAIL_IMPL_WIN_IOCP_IO_CONTEXT_IPP
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