// // Copyright 2010-2013 Ettus Research LLC // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #include "udp_common.hpp" #include #include //mtu #include #include #include #include #include #include //sleep #include using namespace uhd; using namespace uhd::transport; namespace asio = boost::asio; //A reasonable number of frames for send/recv and async/sync //static const size_t DEFAULT_NUM_FRAMES = 32; /*********************************************************************** * Check registry for correct fast-path setting (windows only) **********************************************************************/ #ifdef HAVE_ATLBASE_H #define CHECK_REG_SEND_THRESH #include //CRegKey static void check_registry_for_fast_send_threshold(const size_t mtu){ static bool warned = false; if (warned) return; //only allow one printed warning per process CRegKey reg_key; DWORD threshold = 1024; //system default when threshold is not specified if ( reg_key.Open(HKEY_LOCAL_MACHINE, "System\\CurrentControlSet\\Services\\AFD\\Parameters", KEY_READ) != ERROR_SUCCESS or reg_key.QueryDWORDValue("FastSendDatagramThreshold", threshold) != ERROR_SUCCESS or threshold < mtu ){ UHD_LOGGER_WARNING("UDP") << boost::format( "The MTU (%d) is larger than the FastSendDatagramThreshold (%d)!\n" "This will negatively affect the transmit performance.\n" "See the transport application notes for more detail.\n" ) % mtu % threshold ; warned = true; } reg_key.Close(); } #endif /*HAVE_ATLBASE_H*/ /*********************************************************************** * Reusable managed receiver buffer: * - get_new performs the recv operation **********************************************************************/ class udp_zero_copy_asio_mrb : public managed_recv_buffer{ public: udp_zero_copy_asio_mrb(void *mem, int sock_fd, const size_t frame_size): _mem(mem), _sock_fd(sock_fd), _frame_size(frame_size), _len(0) { /*NOP*/ } void release(void){ _claimer.release(); } UHD_INLINE sptr get_new(const double timeout, size_t &index){ if (not _claimer.claim_with_wait(timeout)) return sptr(); #ifdef MSG_DONTWAIT //try a non-blocking recv() if supported _len = ::recv(_sock_fd, (char *)_mem, _frame_size, MSG_DONTWAIT); if (_len > 0){ index++; //advances the caller's buffer return make(this, _mem, size_t(_len)); } #endif if (wait_for_recv_ready(_sock_fd, timeout)){ _len = ::recv(_sock_fd, (char *)_mem, _frame_size, 0); if (_len == 0) throw uhd::io_error("socket closed"); if (_len < 0) throw uhd::io_error(str(boost::format("recv error on socket: %s") % strerror(errno))); index++; //advances the caller's buffer return make(this, _mem, size_t(_len)); } _claimer.release(); //undo claim return sptr(); //null for timeout } private: void *_mem; int _sock_fd; size_t _frame_size; ssize_t _len; simple_claimer _claimer; }; /*********************************************************************** * Reusable managed send buffer: * - commit performs the send operation **********************************************************************/ class udp_zero_copy_asio_msb : public managed_send_buffer{ public: udp_zero_copy_asio_msb(void *mem, int sock_fd, const size_t frame_size): _mem(mem), _sock_fd(sock_fd), _frame_size(frame_size) { /*NOP*/ } void release(void){ //Retry logic because send may fail with ENOBUFS. //This is known to occur at least on some OSX systems. //But it should be safe to always check for the error. while (true) { const ssize_t ret = ::send(_sock_fd, (const char *)_mem, size(), 0); if (ret == ssize_t(size())) break; if (ret == -1 and errno == ENOBUFS) { boost::this_thread::sleep(boost::posix_time::microseconds(1)); continue; //try to send again } if (ret == -1) { throw uhd::io_error(str(boost::format("send error on socket: %s") % strerror(errno))); } UHD_ASSERT_THROW(ret == ssize_t(size())); } _claimer.release(); } UHD_INLINE sptr get_new(const double timeout, size_t &index){ if (not _claimer.claim_with_wait(timeout)) return sptr(); index++; //advances the caller's buffer return make(this, _mem, _frame_size); } private: void *_mem; int _sock_fd; size_t _frame_size; simple_claimer _claimer; }; /*********************************************************************** * Zero Copy UDP implementation with ASIO: * This is the portable zero copy implementation for systems * where a faster, platform specific solution is not available. * However, it is not a true zero copy implementation as each * send and recv requires a copy operation to/from userspace. **********************************************************************/ class udp_zero_copy_asio_impl : public udp_zero_copy{ public: typedef boost::shared_ptr sptr; udp_zero_copy_asio_impl( const std::string &addr, const std::string &port, const zero_copy_xport_params& xport_params ): _recv_frame_size(xport_params.recv_frame_size), _num_recv_frames(xport_params.num_recv_frames), _send_frame_size(xport_params.send_frame_size), _num_send_frames(xport_params.num_send_frames), _recv_buffer_pool(buffer_pool::make(xport_params.num_recv_frames, xport_params.recv_frame_size)), _send_buffer_pool(buffer_pool::make(xport_params.num_send_frames, xport_params.send_frame_size)), _next_recv_buff_index(0), _next_send_buff_index(0) { UHD_LOGGER_TRACE("UDP") << boost::format("Creating UDP transport to %s:%s") % addr % port; #ifdef CHECK_REG_SEND_THRESH check_registry_for_fast_send_threshold(this->get_send_frame_size()); #endif /*CHECK_REG_SEND_THRESH*/ //resolve the address asio::ip::udp::resolver resolver(_io_service); asio::ip::udp::resolver::query query(asio::ip::udp::v4(), addr, port); asio::ip::udp::endpoint receiver_endpoint = *resolver.resolve(query); //create, open, and connect the socket _socket = socket_sptr(new asio::ip::udp::socket(_io_service)); _socket->open(asio::ip::udp::v4()); _socket->connect(receiver_endpoint); _sock_fd = _socket->native_handle(); UHD_LOGGER_TRACE("UDP") << boost::format("Local UDP socket endpoint: %s:%s") % get_local_addr() % get_local_port(); //allocate re-usable managed receive buffers for (size_t i = 0; i < get_num_recv_frames(); i++){ _mrb_pool.push_back(boost::make_shared( _recv_buffer_pool->at(i), _sock_fd, get_recv_frame_size() )); } //allocate re-usable managed send buffers for (size_t i = 0; i < get_num_send_frames(); i++){ _msb_pool.push_back(boost::make_shared( _send_buffer_pool->at(i), _sock_fd, get_send_frame_size() )); } } //get size for internal socket buffer template size_t get_buff_size(void) const{ Opt option; _socket->get_option(option); return option.value(); } //set size for internal socket buffer template size_t resize_buff(size_t num_bytes){ Opt option(num_bytes); _socket->set_option(option); return get_buff_size(); } /******************************************************************* * Receive implementation: * Block on the managed buffer's get call and advance the index. ******************************************************************/ managed_recv_buffer::sptr get_recv_buff(double timeout){ if (_next_recv_buff_index == _num_recv_frames) _next_recv_buff_index = 0; return _mrb_pool[_next_recv_buff_index]->get_new(timeout, _next_recv_buff_index); } size_t get_num_recv_frames(void) const {return _num_recv_frames;} size_t get_recv_frame_size(void) const {return _recv_frame_size;} /******************************************************************* * Send implementation: * Block on the managed buffer's get call and advance the index. ******************************************************************/ managed_send_buffer::sptr get_send_buff(double timeout){ if (_next_send_buff_index == _num_send_frames) _next_send_buff_index = 0; return _msb_pool[_next_send_buff_index]->get_new(timeout, _next_send_buff_index); } size_t get_num_send_frames(void) const {return _num_send_frames;} size_t get_send_frame_size(void) const {return _send_frame_size;} uint16_t get_local_port(void) const { return _socket->local_endpoint().port(); } std::string get_local_addr(void) const { return _socket->local_endpoint().address().to_string(); } private: //memory management -> buffers and fifos const size_t _recv_frame_size, _num_recv_frames; const size_t _send_frame_size, _num_send_frames; buffer_pool::sptr _recv_buffer_pool, _send_buffer_pool; std::vector > _msb_pool; std::vector > _mrb_pool; size_t _next_recv_buff_index, _next_send_buff_index; //asio guts -> socket and service asio::io_service _io_service; socket_sptr _socket; int _sock_fd; }; /*********************************************************************** * UDP zero copy make function **********************************************************************/ template static size_t resize_buff_helper( udp_zero_copy_asio_impl::sptr udp_trans, const size_t target_size, const std::string &name ){ size_t actual_size = 0; std::string help_message; #if defined(UHD_PLATFORM_LINUX) help_message = str(boost::format( "Please run: sudo sysctl -w net.core.%smem_max=%d" ) % ((name == "recv")?"r":"w") % target_size); #endif /*defined(UHD_PLATFORM_LINUX)*/ //resize the buffer if size was provided if (target_size > 0){ actual_size = udp_trans->resize_buff(target_size); UHD_LOGGER_DEBUG("UDP") << boost::format("Target/actual %s sock buff size: %d/%d bytes") % name % target_size % actual_size ; if (actual_size < target_size) UHD_LOGGER_WARNING("UDP") << boost::format( "The %s buffer could not be resized sufficiently.\n" "Target sock buff size: %d bytes.\n" "Actual sock buff size: %d bytes.\n" "See the transport application notes on buffer resizing.\n%s" ) % name % target_size % actual_size % help_message; } return actual_size; } udp_zero_copy::sptr udp_zero_copy::make( const std::string &addr, const std::string &port, const zero_copy_xport_params &default_buff_args, udp_zero_copy::buff_params& buff_params_out, const device_addr_t &hints ){ //Initialize xport_params zero_copy_xport_params xport_params = default_buff_args; xport_params.recv_frame_size = size_t(hints.cast("recv_frame_size", default_buff_args.recv_frame_size)); xport_params.num_recv_frames = size_t(hints.cast("num_recv_frames", default_buff_args.num_recv_frames)); xport_params.send_frame_size = size_t(hints.cast("send_frame_size", default_buff_args.send_frame_size)); xport_params.num_send_frames = size_t(hints.cast("num_send_frames", default_buff_args.num_send_frames)); //extract buffer size hints from the device addr size_t usr_recv_buff_size = size_t(hints.cast("recv_buff_size", xport_params.num_recv_frames * MAX_ETHERNET_MTU)); size_t usr_send_buff_size = size_t(hints.cast("send_buff_size", xport_params.num_send_frames * MAX_ETHERNET_MTU)); if (hints.has_key("recv_buff_size")) { if (usr_recv_buff_size < xport_params.num_recv_frames * MAX_ETHERNET_MTU) { throw uhd::value_error((boost::format( "recv_buff_size must be equal to or greater than %d") % (xport_params.num_recv_frames * MAX_ETHERNET_MTU)).str()); } } if (hints.has_key("send_buff_size")) { if (usr_send_buff_size < xport_params.num_send_frames * MAX_ETHERNET_MTU) { throw uhd::value_error((boost::format( "send_buff_size must be equal to or greater than %d") % (xport_params.num_send_frames * MAX_ETHERNET_MTU)).str()); } } udp_zero_copy_asio_impl::sptr udp_trans( new udp_zero_copy_asio_impl(addr, port, xport_params) ); //call the helper to resize send and recv buffers buff_params_out.recv_buff_size = resize_buff_helper(udp_trans, usr_recv_buff_size, "recv"); buff_params_out.send_buff_size = resize_buff_helper (udp_trans, usr_send_buff_size, "send"); return udp_trans; }