boost/beast/websocket/impl/accept.hpp
// // 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_ACCEPT_IPP #define BOOST_BEAST_WEBSOCKET_IMPL_ACCEPT_IPP #include <boost/beast/websocket/impl/stream_impl.hpp> #include <boost/beast/websocket/detail/type_traits.hpp> #include <boost/beast/http/empty_body.hpp> #include <boost/beast/http/parser.hpp> #include <boost/beast/http/read.hpp> #include <boost/beast/http/string_body.hpp> #include <boost/beast/http/write.hpp> #include <boost/beast/core/async_base.hpp> #include <boost/beast/core/buffer_traits.hpp> #include <boost/beast/core/stream_traits.hpp> #include <boost/beast/core/detail/buffer.hpp> #include <boost/beast/version.hpp> #include <boost/asio/coroutine.hpp> #include <boost/asio/post.hpp> #include <boost/assert.hpp> #include <boost/throw_exception.hpp> #include <memory> #include <type_traits> namespace boost { namespace beast { namespace websocket { //------------------------------------------------------------------------------ namespace detail { template<class Body, class Allocator> void impl_base<true>:: build_response_pmd( http::response<http::string_body>& res, http::request<Body, http::basic_fields<Allocator>> const& req) { pmd_offer offer; pmd_offer unused; pmd_read(offer, req); pmd_negotiate(res, unused, offer, pmd_opts_); } template<class Body, class Allocator> void impl_base<false>:: build_response_pmd( http::response<http::string_body>&, http::request<Body, http::basic_fields<Allocator>> const&) { } } // detail template<class NextLayer, bool deflateSupported> template<class Body, class Allocator, class Decorator> response_type stream<NextLayer, deflateSupported>::impl_type:: build_response( http::request<Body, http::basic_fields<Allocator>> const& req, Decorator const& decorator, error_code& result) { auto const decorate = [this, &decorator](response_type& res) { decorator_opt(res); decorator(res); if(! res.count(http::field::server)) res.set(http::field::server, string_view(BOOST_BEAST_VERSION_STRING)); }; auto err = [&](error e) { result = e; response_type res; res.version(req.version()); res.result(http::status::bad_request); res.body() = result.message(); res.prepare_payload(); decorate(res); return res; }; if(req.version() != 11) return err(error::bad_http_version); if(req.method() != http::verb::get) return err(error::bad_method); if(! req.count(http::field::host)) return err(error::no_host); { auto const it = req.find(http::field::connection); if(it == req.end()) return err(error::no_connection); if(! http::token_list{it->value()}.exists("upgrade")) return err(error::no_connection_upgrade); } { auto const it = req.find(http::field::upgrade); if(it == req.end()) return err(error::no_upgrade); if(! http::token_list{it->value()}.exists("websocket")) return err(error::no_upgrade_websocket); } string_view key; { auto const it = req.find(http::field::sec_websocket_key); if(it == req.end()) return err(error::no_sec_key); key = it->value(); if(key.size() > detail::sec_ws_key_type::max_size_n) return err(error::bad_sec_key); } { auto const it = req.find(http::field::sec_websocket_version); if(it == req.end()) return err(error::no_sec_version); if(it->value() != "13") { response_type res; res.result(http::status::upgrade_required); res.version(req.version()); res.set(http::field::sec_websocket_version, "13"); result = error::bad_sec_version; res.body() = result.message(); res.prepare_payload(); decorate(res); return res; } } response_type res; res.result(http::status::switching_protocols); res.version(req.version()); res.set(http::field::upgrade, "websocket"); res.set(http::field::connection, "upgrade"); { detail::sec_ws_accept_type acc; detail::make_sec_ws_accept(acc, key); res.set(http::field::sec_websocket_accept, acc); } this->build_response_pmd(res, req); decorate(res); result = {}; return res; } //------------------------------------------------------------------------------ /** Respond to an HTTP request */ template<class NextLayer, bool deflateSupported> template<class Handler> class stream<NextLayer, deflateSupported>::response_op : public beast::stable_async_base< Handler, beast::executor_type<stream>> , public asio::coroutine { boost::weak_ptr<impl_type> wp_; error_code result_; // must come before res_ response_type& res_; public: template< class Handler_, class Body, class Allocator, class Decorator> response_op( Handler_&& h, boost::shared_ptr<impl_type> const& sp, http::request<Body, http::basic_fields<Allocator>> const& req, Decorator const& decorator, bool cont = false) : stable_async_base<Handler, beast::executor_type<stream>>( std::forward<Handler_>(h), sp->stream().get_executor()) , wp_(sp) , res_(beast::allocate_stable<response_type>(*this, sp->build_response(req, decorator, result_))) { (*this)({}, 0, cont); } void operator()( error_code ec = {}, std::size_t bytes_transferred = 0, bool cont = true) { boost::ignore_unused(bytes_transferred); auto sp = wp_.lock(); if(! sp) { ec = net::error::operation_aborted; return this->complete(cont, ec); } auto& impl = *sp; BOOST_ASIO_CORO_REENTER(*this) { impl.change_status(status::handshake); impl.update_timer(this->get_executor()); // Send response BOOST_ASIO_CORO_YIELD { BOOST_ASIO_HANDLER_LOCATION(( __FILE__, __LINE__, "websocket::async_accept")); http::async_write( impl.stream(), res_, std::move(*this)); } if(impl.check_stop_now(ec)) goto upcall; if(! ec) ec = result_; if(! ec) { impl.do_pmd_config(res_); impl.open(role_type::server); } upcall: this->complete(cont, ec); } } }; //------------------------------------------------------------------------------ // read and respond to an upgrade request // template<class NextLayer, bool deflateSupported> template<class Handler, class Decorator> class stream<NextLayer, deflateSupported>::accept_op : public beast::stable_async_base< Handler, beast::executor_type<stream>> , public asio::coroutine { boost::weak_ptr<impl_type> wp_; http::request_parser<http::empty_body>& p_; Decorator d_; public: template<class Handler_, class Buffers> accept_op( Handler_&& h, boost::shared_ptr<impl_type> const& sp, Decorator const& decorator, Buffers const& buffers) : stable_async_base<Handler, beast::executor_type<stream>>( std::forward<Handler_>(h), sp->stream().get_executor()) , wp_(sp) , p_(beast::allocate_stable< http::request_parser<http::empty_body>>(*this)) , d_(decorator) { auto& impl = *sp; error_code ec; auto const mb = beast::detail::dynamic_buffer_prepare( impl.rd_buf, buffer_bytes(buffers), ec, error::buffer_overflow); if(! ec) impl.rd_buf.commit( net::buffer_copy(*mb, buffers)); (*this)(ec); } void operator()( error_code ec = {}, std::size_t bytes_transferred = 0, bool cont = true) { boost::ignore_unused(bytes_transferred); auto sp = wp_.lock(); if(! sp) { ec = net::error::operation_aborted; return this->complete(cont, ec); } auto& impl = *sp; BOOST_ASIO_CORO_REENTER(*this) { impl.change_status(status::handshake); impl.update_timer(this->get_executor()); // The constructor could have set ec if(ec) goto upcall; BOOST_ASIO_CORO_YIELD { BOOST_ASIO_HANDLER_LOCATION(( __FILE__, __LINE__, "websocket::async_accept")); http::async_read(impl.stream(), impl.rd_buf, p_, std::move(*this)); } if(ec == http::error::end_of_stream) ec = error::closed; if(impl.check_stop_now(ec)) goto upcall; { // Arguments from our state must be // moved to the stack before releasing // the handler. auto const req = p_.release(); auto const decorator = d_; response_op<Handler>( this->release_handler(), sp, req, decorator, true); return; } upcall: this->complete(cont, ec); } } }; template<class NextLayer, bool deflateSupported> struct stream<NextLayer, deflateSupported>:: run_response_op { template< class AcceptHandler, class Body, class Allocator, class Decorator> void operator()( AcceptHandler&& h, boost::shared_ptr<impl_type> const& sp, http::request<Body, http::basic_fields<Allocator>> const* m, Decorator const& d) { // 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<AcceptHandler, void(error_code)>::value, "AcceptHandler type requirements not met"); response_op< typename std::decay<AcceptHandler>::type>( std::forward<AcceptHandler>(h), sp, *m, d); } }; template<class NextLayer, bool deflateSupported> struct stream<NextLayer, deflateSupported>:: run_accept_op { template< class AcceptHandler, class Decorator, class Buffers> void operator()( AcceptHandler&& h, boost::shared_ptr<impl_type> const& sp, Decorator const& d, Buffers const& b) { // 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<AcceptHandler, void(error_code)>::value, "AcceptHandler type requirements not met"); accept_op< typename std::decay<AcceptHandler>::type, Decorator>( std::forward<AcceptHandler>(h), sp, d, b); } }; //------------------------------------------------------------------------------ template<class NextLayer, bool deflateSupported> template<class Body, class Allocator, class Decorator> void stream<NextLayer, deflateSupported>:: do_accept( http::request<Body, http::basic_fields<Allocator>> const& req, Decorator const& decorator, error_code& ec) { impl_->change_status(status::handshake); error_code result; auto const res = impl_->build_response(req, decorator, result); http::write(impl_->stream(), res, ec); if(ec) return; ec = result; if(ec) { // VFALCO TODO Respect keep alive setting, perform // teardown if Connection: close. return; } impl_->do_pmd_config(res); impl_->open(role_type::server); } template<class NextLayer, bool deflateSupported> template<class Buffers, class Decorator> void stream<NextLayer, deflateSupported>:: do_accept( Buffers const& buffers, Decorator const& decorator, error_code& ec) { impl_->reset(); auto const mb = beast::detail::dynamic_buffer_prepare( impl_->rd_buf, buffer_bytes(buffers), ec, error::buffer_overflow); if(ec) return; impl_->rd_buf.commit(net::buffer_copy(*mb, buffers)); http::request_parser<http::empty_body> p; http::read(next_layer(), impl_->rd_buf, p, ec); if(ec == http::error::end_of_stream) ec = error::closed; if(ec) return; do_accept(p.get(), decorator, ec); } //------------------------------------------------------------------------------ template<class NextLayer, bool deflateSupported> void stream<NextLayer, deflateSupported>:: accept() { static_assert(is_sync_stream<next_layer_type>::value, "SyncStream type requirements not met"); error_code ec; accept(ec); if(ec) BOOST_THROW_EXCEPTION(system_error{ec}); } template<class NextLayer, bool deflateSupported> void stream<NextLayer, deflateSupported>:: accept(error_code& ec) { static_assert(is_sync_stream<next_layer_type>::value, "SyncStream type requirements not met"); do_accept( net::const_buffer{}, &default_decorate_res, ec); } template<class NextLayer, bool deflateSupported> template<class ConstBufferSequence> typename std::enable_if<! http::detail::is_header< ConstBufferSequence>::value>::type stream<NextLayer, deflateSupported>:: accept(ConstBufferSequence const& buffers) { static_assert(is_sync_stream<next_layer_type>::value, "SyncStream type requirements not met"); static_assert(net::is_const_buffer_sequence< ConstBufferSequence>::value, "ConstBufferSequence type requirements not met"); error_code ec; accept(buffers, ec); if(ec) BOOST_THROW_EXCEPTION(system_error{ec}); } template<class NextLayer, bool deflateSupported> template<class ConstBufferSequence> typename std::enable_if<! http::detail::is_header< ConstBufferSequence>::value>::type stream<NextLayer, deflateSupported>:: accept( ConstBufferSequence const& buffers, error_code& ec) { static_assert(is_sync_stream<next_layer_type>::value, "SyncStream type requirements not met"); static_assert(net::is_const_buffer_sequence< ConstBufferSequence>::value, "ConstBufferSequence type requirements not met"); do_accept(buffers, &default_decorate_res, ec); } template<class NextLayer, bool deflateSupported> template<class Body, class Allocator> void stream<NextLayer, deflateSupported>:: accept( http::request<Body, http::basic_fields<Allocator>> const& req) { static_assert(is_sync_stream<next_layer_type>::value, "SyncStream type requirements not met"); error_code ec; accept(req, ec); if(ec) BOOST_THROW_EXCEPTION(system_error{ec}); } template<class NextLayer, bool deflateSupported> template<class Body, class Allocator> void stream<NextLayer, deflateSupported>:: accept( http::request<Body, http::basic_fields<Allocator>> const& req, error_code& ec) { static_assert(is_sync_stream<next_layer_type>::value, "SyncStream type requirements not met"); impl_->reset(); do_accept(req, &default_decorate_res, ec); } //------------------------------------------------------------------------------ template<class NextLayer, bool deflateSupported> template< BOOST_BEAST_ASYNC_TPARAM1 AcceptHandler> BOOST_BEAST_ASYNC_RESULT1(AcceptHandler) stream<NextLayer, deflateSupported>:: async_accept( AcceptHandler&& handler) { static_assert(is_async_stream<next_layer_type>::value, "AsyncStream type requirements not met"); impl_->reset(); return net::async_initiate< AcceptHandler, void(error_code)>( run_accept_op{}, handler, impl_, &default_decorate_res, net::const_buffer{}); } template<class NextLayer, bool deflateSupported> template< class ConstBufferSequence, BOOST_BEAST_ASYNC_TPARAM1 AcceptHandler> BOOST_BEAST_ASYNC_RESULT1(AcceptHandler) stream<NextLayer, deflateSupported>:: async_accept( ConstBufferSequence const& buffers, AcceptHandler&& handler, typename std::enable_if< ! http::detail::is_header< ConstBufferSequence>::value>::type* ) { static_assert(is_async_stream<next_layer_type>::value, "AsyncStream type requirements not met"); static_assert(net::is_const_buffer_sequence< ConstBufferSequence>::value, "ConstBufferSequence type requirements not met"); impl_->reset(); return net::async_initiate< AcceptHandler, void(error_code)>( run_accept_op{}, handler, impl_, &default_decorate_res, buffers); } template<class NextLayer, bool deflateSupported> template< class Body, class Allocator, BOOST_BEAST_ASYNC_TPARAM1 AcceptHandler> BOOST_BEAST_ASYNC_RESULT1(AcceptHandler) stream<NextLayer, deflateSupported>:: async_accept( http::request<Body, http::basic_fields<Allocator>> const& req, AcceptHandler&& handler) { static_assert(is_async_stream<next_layer_type>::value, "AsyncStream type requirements not met"); impl_->reset(); return net::async_initiate< AcceptHandler, void(error_code)>( run_response_op{}, handler, impl_, &req, &default_decorate_res); } } // websocket } // beast } // boost #endif