// // ssl/detail/io.hpp // ~~~~~~~~~~~~~~~~~ // // Copyright (c) 2003-2016 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 BOOST_ASIO_SSL_DETAIL_IO_HPP #define BOOST_ASIO_SSL_DETAIL_IO_HPP #if defined(_MSC_VER) && (_MSC_VER >= 1200) # pragma once #endif // defined(_MSC_VER) && (_MSC_VER >= 1200) #include #if !defined(BOOST_ASIO_ENABLE_OLD_SSL) # include # include # include #endif // !defined(BOOST_ASIO_ENABLE_OLD_SSL) #include namespace boost { namespace asio { namespace ssl { namespace detail { #if !defined(BOOST_ASIO_ENABLE_OLD_SSL) template std::size_t io(Stream& next_layer, stream_core& core, const Operation& op, boost::system::error_code& ec) { std::size_t bytes_transferred = 0; do switch (op(core.engine_, ec, bytes_transferred)) { case engine::want_input_and_retry: // If the input buffer is empty then we need to read some more data from // the underlying transport. if (boost::asio::buffer_size(core.input_) == 0) core.input_ = boost::asio::buffer(core.input_buffer_, next_layer.read_some(core.input_buffer_, ec)); // Pass the new input data to the engine. core.input_ = core.engine_.put_input(core.input_); // Try the operation again. continue; case engine::want_output_and_retry: // Get output data from the engine and write it to the underlying // transport. boost::asio::write(next_layer, core.engine_.get_output(core.output_buffer_), ec); // Try the operation again. continue; case engine::want_output: // Get output data from the engine and write it to the underlying // transport. boost::asio::write(next_layer, core.engine_.get_output(core.output_buffer_), ec); // Operation is complete. Return result to caller. core.engine_.map_error_code(ec); return bytes_transferred; default: // Operation is complete. Return result to caller. core.engine_.map_error_code(ec); return bytes_transferred; } while (!ec); // Operation failed. Return result to caller. core.engine_.map_error_code(ec); return 0; } template class io_op { public: io_op(Stream& next_layer, stream_core& core, const Operation& op, Handler& handler) : next_layer_(next_layer), core_(core), op_(op), start_(0), want_(engine::want_nothing), bytes_transferred_(0), handler_(BOOST_ASIO_MOVE_CAST(Handler)(handler)) { } #if defined(BOOST_ASIO_HAS_MOVE) io_op(const io_op& other) : next_layer_(other.next_layer_), core_(other.core_), op_(other.op_), start_(other.start_), want_(other.want_), ec_(other.ec_), bytes_transferred_(other.bytes_transferred_), handler_(other.handler_) { } io_op(io_op&& other) : next_layer_(other.next_layer_), core_(other.core_), op_(other.op_), start_(other.start_), want_(other.want_), ec_(other.ec_), bytes_transferred_(other.bytes_transferred_), handler_(BOOST_ASIO_MOVE_CAST(Handler)(other.handler_)) { } #endif // defined(BOOST_ASIO_HAS_MOVE) void operator()(boost::system::error_code ec, std::size_t bytes_transferred = ~std::size_t(0), int start = 0) { switch (start_ = start) { case 1: // Called after at least one async operation. do { switch (want_ = op_(core_.engine_, ec_, bytes_transferred_)) { case engine::want_input_and_retry: // If the input buffer already has data in it we can pass it to the // engine and then retry the operation immediately. if (boost::asio::buffer_size(core_.input_) != 0) { core_.input_ = core_.engine_.put_input(core_.input_); continue; } // The engine wants more data to be read from input. However, we // cannot allow more than one read operation at a time on the // underlying transport. The pending_read_ timer's expiry is set to // pos_infin if a read is in progress, and neg_infin otherwise. if (core_.pending_read_.expires_at() == core_.neg_infin()) { // Prevent other read operations from being started. core_.pending_read_.expires_at(core_.pos_infin()); // Start reading some data from the underlying transport. next_layer_.async_read_some( boost::asio::buffer(core_.input_buffer_), BOOST_ASIO_MOVE_CAST(io_op)(*this)); } else { // Wait until the current read operation completes. core_.pending_read_.async_wait(BOOST_ASIO_MOVE_CAST(io_op)(*this)); } // Yield control until asynchronous operation completes. Control // resumes at the "default:" label below. return; case engine::want_output_and_retry: case engine::want_output: // The engine wants some data to be written to the output. However, we // cannot allow more than one write operation at a time on the // underlying transport. The pending_write_ timer's expiry is set to // pos_infin if a write is in progress, and neg_infin otherwise. if (core_.pending_write_.expires_at() == core_.neg_infin()) { // Prevent other write operations from being started. core_.pending_write_.expires_at(core_.pos_infin()); // Start writing all the data to the underlying transport. boost::asio::async_write(next_layer_, core_.engine_.get_output(core_.output_buffer_), BOOST_ASIO_MOVE_CAST(io_op)(*this)); } else { // Wait until the current write operation completes. core_.pending_write_.async_wait(BOOST_ASIO_MOVE_CAST(io_op)(*this)); } // Yield control until asynchronous operation completes. Control // resumes at the "default:" label below. return; default: // The SSL operation is done and we can invoke the handler, but we // have to keep in mind that this function might be being called from // the async operation's initiating function. In this case we're not // allowed to call the handler directly. Instead, issue a zero-sized // read so the handler runs "as-if" posted using io_service::post(). if (start) { next_layer_.async_read_some( boost::asio::buffer(core_.input_buffer_, 0), BOOST_ASIO_MOVE_CAST(io_op)(*this)); // Yield control until asynchronous operation completes. Control // resumes at the "default:" label below. return; } else { // Continue on to run handler directly. break; } } default: if (bytes_transferred == ~std::size_t(0)) bytes_transferred = 0; // Timer cancellation, no data transferred. else if (!ec_) ec_ = ec; switch (want_) { case engine::want_input_and_retry: // Add received data to the engine's input. core_.input_ = boost::asio::buffer( core_.input_buffer_, bytes_transferred); core_.input_ = core_.engine_.put_input(core_.input_); // Release any waiting read operations. core_.pending_read_.expires_at(core_.neg_infin()); // Try the operation again. continue; case engine::want_output_and_retry: // Release any waiting write operations. core_.pending_write_.expires_at(core_.neg_infin()); // Try the operation again. continue; case engine::want_output: // Release any waiting write operations. core_.pending_write_.expires_at(core_.neg_infin()); // Fall through to call handler. default: // Pass the result to the handler. op_.call_handler(handler_, core_.engine_.map_error_code(ec_), ec_ ? 0 : bytes_transferred_); // Our work here is done. return; } } while (!ec_); // Operation failed. Pass the result to the handler. op_.call_handler(handler_, core_.engine_.map_error_code(ec_), 0); } } //private: Stream& next_layer_; stream_core& core_; Operation op_; int start_; engine::want want_; boost::system::error_code ec_; std::size_t bytes_transferred_; Handler handler_; }; template inline void* asio_handler_allocate(std::size_t size, io_op* this_handler) { return boost_asio_handler_alloc_helpers::allocate( size, this_handler->handler_); } template inline void asio_handler_deallocate(void* pointer, std::size_t size, io_op* this_handler) { boost_asio_handler_alloc_helpers::deallocate( pointer, size, this_handler->handler_); } template inline bool asio_handler_is_continuation( io_op* this_handler) { return this_handler->start_ == 0 ? true : boost_asio_handler_cont_helpers::is_continuation(this_handler->handler_); } template inline void asio_handler_invoke(Function& function, io_op* this_handler) { boost_asio_handler_invoke_helpers::invoke( function, this_handler->handler_); } template inline void asio_handler_invoke(const Function& function, io_op* this_handler) { boost_asio_handler_invoke_helpers::invoke( function, this_handler->handler_); } template inline void async_io(Stream& next_layer, stream_core& core, const Operation& op, Handler& handler) { io_op( next_layer, core, op, handler)( boost::system::error_code(), 0, 1); } #endif // !defined(BOOST_ASIO_ENABLE_OLD_SSL) } // namespace detail } // namespace ssl } // namespace asio } // namespace boost #include #endif // BOOST_ASIO_SSL_DETAIL_IO_HPP