// // Copyright (c) 2016-2019 Vinnie Falco (vinnie dot falco at gmail 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) // // Official repository: https://github.com/boostorg/beast // #ifndef BOOST_BEAST_WEBSOCKET_IMPL_CLOSE_HPP #define BOOST_BEAST_WEBSOCKET_IMPL_CLOSE_HPP #include #include #include #include #include #include #include #include #include #include #include namespace boost { namespace beast { namespace websocket { /* Close the WebSocket Connection This composed operation sends the close frame if it hasn't already been sent, then reads and discards frames until receiving a close frame. Finally it invokes the teardown operation to shut down the underlying connection. */ template template class stream::close_op : public beast::stable_async_base< Handler, beast::executor_type> , public asio::coroutine { boost::weak_ptr wp_; error_code ev_; detail::frame_buffer& fb_; public: static constexpr int id = 5; // for soft_mutex template close_op( Handler_&& h, boost::shared_ptr const& sp, close_reason const& cr) : stable_async_base>( std::forward(h), sp->stream().get_executor()) , wp_(sp) , fb_(beast::allocate_stable< detail::frame_buffer>(*this)) { // Serialize the close frame sp->template write_close< flat_static_buffer_base>(fb_, cr); (*this)({}, 0, false); } void operator()( error_code ec = {}, std::size_t bytes_transferred = 0, bool cont = true) { using beast::detail::clamp; auto sp = wp_.lock(); if(! sp) { ec = net::error::operation_aborted; return this->complete(cont, ec); } auto& impl = *sp; BOOST_ASIO_CORO_REENTER(*this) { // Acquire the write lock if(! impl.wr_block.try_lock(this)) { BOOST_ASIO_CORO_YIELD { BOOST_ASIO_HANDLER_LOCATION(( __FILE__, __LINE__, "websocket::async_close")); impl.op_close.emplace(std::move(*this)); } impl.wr_block.lock(this); BOOST_ASIO_CORO_YIELD { BOOST_ASIO_HANDLER_LOCATION(( __FILE__, __LINE__, "websocket::async_close")); net::post(std::move(*this)); } BOOST_ASSERT(impl.wr_block.is_locked(this)); } if(impl.check_stop_now(ec)) goto upcall; // Can't call close twice // TODO return a custom error code BOOST_ASSERT(! impl.wr_close); // Send close frame impl.wr_close = true; impl.change_status(status::closing); impl.update_timer(this->get_executor()); BOOST_ASIO_CORO_YIELD { BOOST_ASIO_HANDLER_LOCATION(( __FILE__, __LINE__, "websocket::async_close")); net::async_write(impl.stream(), fb_.data(), beast::detail::bind_continuation(std::move(*this))); } if(impl.check_stop_now(ec)) goto upcall; if(impl.rd_close) { // This happens when the read_op gets a close frame // at the same time close_op is sending the close frame. // The read_op will be suspended on the write block. goto teardown; } // Acquire the read lock if(! impl.rd_block.try_lock(this)) { BOOST_ASIO_CORO_YIELD { BOOST_ASIO_HANDLER_LOCATION(( __FILE__, __LINE__, "websocket::async_close")); impl.op_r_close.emplace(std::move(*this)); } impl.rd_block.lock(this); BOOST_ASIO_CORO_YIELD { BOOST_ASIO_HANDLER_LOCATION(( __FILE__, __LINE__, "websocket::async_close")); net::post(std::move(*this)); } BOOST_ASSERT(impl.rd_block.is_locked(this)); if(impl.check_stop_now(ec)) goto upcall; BOOST_ASSERT(! impl.rd_close); } // Read until a receiving a close frame // TODO There should be a timeout on this if(impl.rd_remain > 0) goto read_payload; for(;;) { // Read frame header while(! impl.parse_fh( impl.rd_fh, impl.rd_buf, ev_)) { if(ev_) goto teardown; BOOST_ASIO_CORO_YIELD { BOOST_ASIO_HANDLER_LOCATION(( __FILE__, __LINE__, "websocket::async_close")); impl.stream().async_read_some( impl.rd_buf.prepare(read_size( impl.rd_buf, impl.rd_buf.max_size())), beast::detail::bind_continuation(std::move(*this))); } impl.rd_buf.commit(bytes_transferred); if(impl.check_stop_now(ec)) goto upcall; } if(detail::is_control(impl.rd_fh.op)) { // Discard ping or pong frame if(impl.rd_fh.op != detail::opcode::close) { impl.rd_buf.consume(clamp(impl.rd_fh.len)); continue; } // Process close frame // TODO Should we invoke the control callback? BOOST_ASSERT(! impl.rd_close); impl.rd_close = true; auto const mb = buffers_prefix( clamp(impl.rd_fh.len), impl.rd_buf.data()); if(impl.rd_fh.len > 0 && impl.rd_fh.mask) detail::mask_inplace(mb, impl.rd_key); detail::read_close(impl.cr, mb, ev_); if(ev_) goto teardown; impl.rd_buf.consume(clamp(impl.rd_fh.len)); goto teardown; } read_payload: // Discard message frame while(impl.rd_buf.size() < impl.rd_remain) { impl.rd_remain -= impl.rd_buf.size(); impl.rd_buf.consume(impl.rd_buf.size()); BOOST_ASIO_CORO_YIELD { BOOST_ASIO_HANDLER_LOCATION(( __FILE__, __LINE__, "websocket::async_close")); impl.stream().async_read_some( impl.rd_buf.prepare(read_size( impl.rd_buf, impl.rd_buf.max_size())), beast::detail::bind_continuation(std::move(*this))); } impl.rd_buf.commit(bytes_transferred); if(impl.check_stop_now(ec)) goto upcall; } BOOST_ASSERT(impl.rd_buf.size() >= impl.rd_remain); impl.rd_buf.consume(clamp(impl.rd_remain)); impl.rd_remain = 0; } teardown: // Teardown BOOST_ASSERT(impl.wr_block.is_locked(this)); using beast::websocket::async_teardown; BOOST_ASIO_CORO_YIELD { BOOST_ASIO_HANDLER_LOCATION(( __FILE__, __LINE__, "websocket::async_close")); async_teardown(impl.role, impl.stream(), beast::detail::bind_continuation(std::move(*this))); } BOOST_ASSERT(impl.wr_block.is_locked(this)); if(ec == net::error::eof) { // Rationale: // http://stackoverflow.com/questions/25587403/boost-asio-ssl-async-shutdown-always-finishes-with-an-error ec = {}; } if(! ec) ec = ev_; if(ec) impl.change_status(status::failed); else impl.change_status(status::closed); impl.close(); upcall: impl.wr_block.unlock(this); impl.rd_block.try_unlock(this) && impl.op_r_rd.maybe_invoke(); impl.op_rd.maybe_invoke() || impl.op_idle_ping.maybe_invoke() || impl.op_ping.maybe_invoke() || impl.op_wr.maybe_invoke(); this->complete(cont, ec); } } }; template struct stream:: run_close_op { template void operator()( CloseHandler&& h, boost::shared_ptr const& sp, close_reason const& cr) { // If you get an error on the following line it means // that your handler does not meet the documented type // requirements for the handler. static_assert( beast::detail::is_invocable::value, "CloseHandler type requirements not met"); close_op< typename std::decay::type>( std::forward(h), sp, cr); } }; //------------------------------------------------------------------------------ template void stream:: close(close_reason const& cr) { static_assert(is_sync_stream::value, "SyncStream type requirements not met"); error_code ec; close(cr, ec); if(ec) BOOST_THROW_EXCEPTION(system_error{ec}); } template void stream:: close(close_reason const& cr, error_code& ec) { static_assert(is_sync_stream::value, "SyncStream type requirements not met"); using beast::detail::clamp; auto& impl = *impl_; ec = {}; if(impl.check_stop_now(ec)) return; BOOST_ASSERT(! impl.rd_close); // Can't call close twice // TODO return a custom error code BOOST_ASSERT(! impl.wr_close); // Send close frame { impl.wr_close = true; impl.change_status(status::closing); detail::frame_buffer fb; impl.template write_close(fb, cr); net::write(impl.stream(), fb.data(), ec); if(impl.check_stop_now(ec)) return; } // Read until a receiving a close frame error_code ev; if(impl.rd_remain > 0) goto read_payload; for(;;) { // Read frame header while(! impl.parse_fh( impl.rd_fh, impl.rd_buf, ev)) { if(ev) { // Protocol violation return do_fail(close_code::none, ev, ec); } impl.rd_buf.commit(impl.stream().read_some( impl.rd_buf.prepare(read_size( impl.rd_buf, impl.rd_buf.max_size())), ec)); if(impl.check_stop_now(ec)) return; } if(detail::is_control(impl.rd_fh.op)) { // Discard ping/pong frame if(impl.rd_fh.op != detail::opcode::close) { impl.rd_buf.consume(clamp(impl.rd_fh.len)); continue; } // Handle close frame // TODO Should we invoke the control callback? BOOST_ASSERT(! impl.rd_close); impl.rd_close = true; auto const mb = buffers_prefix( clamp(impl.rd_fh.len), impl.rd_buf.data()); if(impl.rd_fh.len > 0 && impl.rd_fh.mask) detail::mask_inplace(mb, impl.rd_key); detail::read_close(impl.cr, mb, ev); if(ev) { // Protocol violation return do_fail(close_code::none, ev, ec); } impl.rd_buf.consume(clamp(impl.rd_fh.len)); break; } read_payload: // Discard message frame while(impl.rd_buf.size() < impl.rd_remain) { impl.rd_remain -= impl.rd_buf.size(); impl.rd_buf.consume(impl.rd_buf.size()); impl.rd_buf.commit( impl.stream().read_some( impl.rd_buf.prepare( read_size( impl.rd_buf, impl.rd_buf.max_size())), ec)); if(impl.check_stop_now(ec)) return; } BOOST_ASSERT( impl.rd_buf.size() >= impl.rd_remain); impl.rd_buf.consume(clamp(impl.rd_remain)); impl.rd_remain = 0; } // _Close the WebSocket Connection_ do_fail(close_code::none, error::closed, ec); if(ec == error::closed) ec = {}; } template template BOOST_BEAST_ASYNC_RESULT1(CloseHandler) stream:: async_close(close_reason const& cr, CloseHandler&& handler) { static_assert(is_async_stream::value, "AsyncStream type requirements not met"); return net::async_initiate< CloseHandler, void(error_code)>( run_close_op{}, handler, impl_, cr); } } // websocket } // beast } // boost #endif