daemon/face/tcp-channel.cpp - NFD - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /*
  * Copyright (c) 2014-2019,  Regents of the University of California,
  *                           Arizona Board of Regents,
  *                           Colorado State University,
  *                           University Pierre & Marie Curie, Sorbonne University,
  *                           Washington University in St. Louis,
  *                           Beijing Institute of Technology,
  *                           The University of Memphis.
  *
  * This file is part of NFD (Named Data Networking Forwarding Daemon).
  * See AUTHORS.md for complete list of NFD authors and contributors.
  *
  * NFD is free software: you can redistribute it and/or modify it under the terms
  * of the GNU General Public License as published by the Free Software Foundation,
  * either version 3 of the License, or (at your option) any later version.
  *
  * NFD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
  * without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
  * PURPOSE.  See the GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License along with
  * NFD, e.g., in COPYING.md file.  If not, see <http://www.gnu.org/licenses/>.
  */

 #include "tcp-channel.hpp"
 #include "generic-link-service.hpp"
 #include "tcp-transport.hpp"
 #include "daemon/global.hpp"

 namespace nfd {
 namespace face {

 NFD_LOG_INIT(TcpChannel);

 namespace ip = boost::asio::ip;

 TcpChannel::TcpChannel(const tcp::Endpoint& localEndpoint, bool wantCongestionMarking,
                        DetermineFaceScopeFromAddress determineFaceScope)
   : m_localEndpoint(localEndpoint)
   , m_acceptor(getGlobalIoService())
   , m_socket(getGlobalIoService())
   , m_wantCongestionMarking(wantCongestionMarking)
   , m_determineFaceScope(std::move(determineFaceScope))
 {
   setUri(FaceUri(m_localEndpoint));
   NFD_LOG_CHAN_INFO("Creating channel");
 }

 void
 TcpChannel::listen(const FaceCreatedCallback& onFaceCreated,
                    const FaceCreationFailedCallback& onAcceptFailed,
                    int backlog/* = tcp::acceptor::max_connections*/)
 {
   if (isListening()) {
     NFD_LOG_CHAN_WARN("Already listening");
     return;
   }

   m_acceptor.open(m_localEndpoint.protocol());
   m_acceptor.set_option(ip::tcp::acceptor::reuse_address(true));
   if (m_localEndpoint.address().is_v6()) {
     m_acceptor.set_option(ip::v6_only(true));
   }
   m_acceptor.bind(m_localEndpoint);
   m_acceptor.listen(backlog);

   accept(onFaceCreated, onAcceptFailed);
   NFD_LOG_CHAN_DEBUG("Started listening");
 }

 void
 TcpChannel::connect(const tcp::Endpoint& remoteEndpoint,
                     const FaceParams& params,
                     const FaceCreatedCallback& onFaceCreated,
                     const FaceCreationFailedCallback& onConnectFailed,
                     time::nanoseconds timeout)
 {
   auto it = m_channelFaces.find(remoteEndpoint);
   if (it != m_channelFaces.end()) {
     NFD_LOG_CHAN_TRACE("Reusing existing face for " << remoteEndpoint);
     onFaceCreated(it->second);
     return;
   }

   auto clientSocket = make_shared<ip::tcp::socket>(std::ref(getGlobalIoService()));
   auto timeoutEvent = getScheduler().schedule(timeout, [=] {
     handleConnectTimeout(remoteEndpoint, clientSocket, onConnectFailed);
   });

   NFD_LOG_CHAN_TRACE("Connecting to " << remoteEndpoint);
   clientSocket->async_connect(remoteEndpoint, [=] (const auto& e) {
     this->handleConnect(e, remoteEndpoint, clientSocket, params, timeoutEvent, onFaceCreated, onConnectFailed);
   });
 }

 void
 TcpChannel::createFace(ip::tcp::socket&& socket,
                        const FaceParams& params,
                        const FaceCreatedCallback& onFaceCreated)
 {
   shared_ptr<Face> face;
   tcp::Endpoint remoteEndpoint = socket.remote_endpoint();

   auto it = m_channelFaces.find(remoteEndpoint);
   if (it == m_channelFaces.end()) {
     GenericLinkService::Options options;
     options.allowLocalFields = params.wantLocalFields;
     options.reliabilityOptions.isEnabled = params.wantLpReliability;

     if (boost::logic::indeterminate(params.wantCongestionMarking)) {
       // Use default value for this channel if parameter is indeterminate
       options.allowCongestionMarking = m_wantCongestionMarking;
     }
     else {
       options.allowCongestionMarking = bool(params.wantCongestionMarking);
     }

     if (params.baseCongestionMarkingInterval) {
       options.baseCongestionMarkingInterval = *params.baseCongestionMarkingInterval;
     }
     if (params.defaultCongestionThreshold) {
       options.defaultCongestionThreshold = *params.defaultCongestionThreshold;
     }

     auto linkService = make_unique<GenericLinkService>(options);
     auto faceScope = m_determineFaceScope(socket.local_endpoint().address(),
                                           socket.remote_endpoint().address());
     auto transport = make_unique<TcpTransport>(std::move(socket), params.persistency, faceScope);
     face = make_shared<Face>(std::move(linkService), std::move(transport));

     m_channelFaces[remoteEndpoint] = face;
     connectFaceClosedSignal(*face, [this, remoteEndpoint] { m_channelFaces.erase(remoteEndpoint); });
   }
   else {
     // we already have a face for this endpoint, just reuse it
     face = it->second;
     NFD_LOG_CHAN_TRACE("Reusing existing face for " << remoteEndpoint);

     boost::system::error_code error;
     socket.shutdown(ip::tcp::socket::shutdown_both, error);
     socket.close(error);
   }

   // Need to invoke the callback regardless of whether or not we have already created
   // the face so that control responses and such can be sent.
   onFaceCreated(face);
 }

 void
 TcpChannel::accept(const FaceCreatedCallback& onFaceCreated,
                    const FaceCreationFailedCallback& onAcceptFailed)
 {
   m_acceptor.async_accept(m_socket, [=] (const auto& e) { this->handleAccept(e, onFaceCreated, onAcceptFailed); });
 }

 void
 TcpChannel::handleAccept(const boost::system::error_code& error,
                          const FaceCreatedCallback& onFaceCreated,
                          const FaceCreationFailedCallback& onAcceptFailed)
 {
   if (error) {
     if (error != boost::asio::error::operation_aborted) {
       NFD_LOG_CHAN_DEBUG("Accept failed: " << error.message());
       if (onAcceptFailed)
         onAcceptFailed(500, "Accept failed: " + error.message());
     }
     return;
   }

   NFD_LOG_CHAN_TRACE("Incoming connection from " << m_socket.remote_endpoint());

   FaceParams params;
   params.persistency = ndn::nfd::FACE_PERSISTENCY_ON_DEMAND;
   createFace(std::move(m_socket), params, onFaceCreated);

   // prepare accepting the next connection
   accept(onFaceCreated, onAcceptFailed);
 }

 void
 TcpChannel::handleConnect(const boost::system::error_code& error,
                           const tcp::Endpoint& remoteEndpoint,
                           const shared_ptr<ip::tcp::socket>& socket,
                           const FaceParams& params,
                           const scheduler::EventId& connectTimeoutEvent,
                           const FaceCreatedCallback& onFaceCreated,
                           const FaceCreationFailedCallback& onConnectFailed)
 {
   connectTimeoutEvent.cancel();

   if (error) {
     if (error != boost::asio::error::operation_aborted) {
       NFD_LOG_CHAN_DEBUG("Connection to " << remoteEndpoint << " failed: " << error.message());
       if (onConnectFailed)
         onConnectFailed(504, "Connection failed: " + error.message());
     }
     return;
   }

   NFD_LOG_CHAN_TRACE("Connected to " << socket->remote_endpoint());
   createFace(std::move(*socket), params, onFaceCreated);
 }

 void
 TcpChannel::handleConnectTimeout(const tcp::Endpoint& remoteEndpoint,
                                  const shared_ptr<ip::tcp::socket>& socket,
                                  const FaceCreationFailedCallback& onConnectFailed)
 {
   NFD_LOG_CHAN_DEBUG("Connection to " << remoteEndpoint << " timed out");

   // abort the connection attempt
   boost::system::error_code error;
   socket->close(error);

   if (onConnectFailed)
     onConnectFailed(504, "Connection timed out");
 }

 } // namespace face
 } // namespace nfd
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/*
	* Copyright (c) 2014-2019, Regents of the University of California,
	* Arizona Board of Regents,
	* Colorado State University,
	* University Pierre & Marie Curie, Sorbonne University,
	* Washington University in St. Louis,
	* Beijing Institute of Technology,
	* The University of Memphis.
	*
	* This file is part of NFD (Named Data Networking Forwarding Daemon).
	* See AUTHORS.md for complete list of NFD authors and contributors.
	*
	* NFD is free software: you can redistribute it and/or modify it under the terms
	* of the GNU General Public License as published by the Free Software Foundation,
	* either version 3 of the License, or (at your option) any later version.
	*
	* NFD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
	* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
	* PURPOSE. See the GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License along with
	* NFD, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
	*/

	#include "tcp-channel.hpp"
	#include "generic-link-service.hpp"
	#include "tcp-transport.hpp"
	#include "daemon/global.hpp"

	namespace nfd {
	namespace face {

	NFD_LOG_INIT(TcpChannel);

	namespace ip = boost::asio::ip;

	TcpChannel::TcpChannel(const tcp::Endpoint& localEndpoint, bool wantCongestionMarking,
	DetermineFaceScopeFromAddress determineFaceScope)
	: m_localEndpoint(localEndpoint)
	, m_acceptor(getGlobalIoService())
	, m_socket(getGlobalIoService())
	, m_wantCongestionMarking(wantCongestionMarking)
	, m_determineFaceScope(std::move(determineFaceScope))
	{
	setUri(FaceUri(m_localEndpoint));
	NFD_LOG_CHAN_INFO("Creating channel");
	}

	void
	TcpChannel::listen(const FaceCreatedCallback& onFaceCreated,
	const FaceCreationFailedCallback& onAcceptFailed,
	int backlog/* = tcp::acceptor::max_connections*/)
	{
	if (isListening()) {
	NFD_LOG_CHAN_WARN("Already listening");
	return;
	}

	m_acceptor.open(m_localEndpoint.protocol());
	m_acceptor.set_option(ip::tcp::acceptor::reuse_address(true));
	if (m_localEndpoint.address().is_v6()) {
	m_acceptor.set_option(ip::v6_only(true));
	}
	m_acceptor.bind(m_localEndpoint);
	m_acceptor.listen(backlog);

	accept(onFaceCreated, onAcceptFailed);
	NFD_LOG_CHAN_DEBUG("Started listening");
	}

	void
	TcpChannel::connect(const tcp::Endpoint& remoteEndpoint,
	const FaceParams& params,
	const FaceCreatedCallback& onFaceCreated,
	const FaceCreationFailedCallback& onConnectFailed,
	time::nanoseconds timeout)
	{
	auto it = m_channelFaces.find(remoteEndpoint);
	if (it != m_channelFaces.end()) {
	NFD_LOG_CHAN_TRACE("Reusing existing face for " << remoteEndpoint);
	onFaceCreated(it->second);
	return;
	}

	auto clientSocket = make_shared<ip::tcp::socket>(std::ref(getGlobalIoService()));
	auto timeoutEvent = getScheduler().schedule(timeout, [=] {
	handleConnectTimeout(remoteEndpoint, clientSocket, onConnectFailed);
	});

	NFD_LOG_CHAN_TRACE("Connecting to " << remoteEndpoint);
	clientSocket->async_connect(remoteEndpoint, [=] (const auto& e) {
	this->handleConnect(e, remoteEndpoint, clientSocket, params, timeoutEvent, onFaceCreated, onConnectFailed);
	});
	}

	void
	TcpChannel::createFace(ip::tcp::socket&& socket,
	const FaceParams& params,
	const FaceCreatedCallback& onFaceCreated)
	{
	shared_ptr<Face> face;
	tcp::Endpoint remoteEndpoint = socket.remote_endpoint();

	auto it = m_channelFaces.find(remoteEndpoint);
	if (it == m_channelFaces.end()) {
	GenericLinkService::Options options;
	options.allowLocalFields = params.wantLocalFields;
	options.reliabilityOptions.isEnabled = params.wantLpReliability;

	if (boost::logic::indeterminate(params.wantCongestionMarking)) {
	// Use default value for this channel if parameter is indeterminate
	options.allowCongestionMarking = m_wantCongestionMarking;
	}
	else {
	options.allowCongestionMarking = bool(params.wantCongestionMarking);
	}

	if (params.baseCongestionMarkingInterval) {
	options.baseCongestionMarkingInterval = *params.baseCongestionMarkingInterval;
	}
	if (params.defaultCongestionThreshold) {
	options.defaultCongestionThreshold = *params.defaultCongestionThreshold;
	}

	auto linkService = make_unique<GenericLinkService>(options);
	auto faceScope = m_determineFaceScope(socket.local_endpoint().address(),
	socket.remote_endpoint().address());
	auto transport = make_unique<TcpTransport>(std::move(socket), params.persistency, faceScope);
	face = make_shared<Face>(std::move(linkService), std::move(transport));

	m_channelFaces[remoteEndpoint] = face;
	connectFaceClosedSignal(*face, [this, remoteEndpoint] { m_channelFaces.erase(remoteEndpoint); });
	}
	else {
	// we already have a face for this endpoint, just reuse it
	face = it->second;
	NFD_LOG_CHAN_TRACE("Reusing existing face for " << remoteEndpoint);

	boost::system::error_code error;
	socket.shutdown(ip::tcp::socket::shutdown_both, error);
	socket.close(error);
	}

	// Need to invoke the callback regardless of whether or not we have already created
	// the face so that control responses and such can be sent.
	onFaceCreated(face);
	}

	void
	TcpChannel::accept(const FaceCreatedCallback& onFaceCreated,
	const FaceCreationFailedCallback& onAcceptFailed)
	{
	m_acceptor.async_accept(m_socket, [=] (const auto& e) { this->handleAccept(e, onFaceCreated, onAcceptFailed); });
	}

	void
	TcpChannel::handleAccept(const boost::system::error_code& error,
	const FaceCreatedCallback& onFaceCreated,
	const FaceCreationFailedCallback& onAcceptFailed)
	{
	if (error) {
	if (error != boost::asio::error::operation_aborted) {
	NFD_LOG_CHAN_DEBUG("Accept failed: " << error.message());
	if (onAcceptFailed)
	onAcceptFailed(500, "Accept failed: " + error.message());
	}
	return;
	}

	NFD_LOG_CHAN_TRACE("Incoming connection from " << m_socket.remote_endpoint());

	FaceParams params;
	params.persistency = ndn::nfd::FACE_PERSISTENCY_ON_DEMAND;
	createFace(std::move(m_socket), params, onFaceCreated);

	// prepare accepting the next connection
	accept(onFaceCreated, onAcceptFailed);
	}

	void
	TcpChannel::handleConnect(const boost::system::error_code& error,
	const tcp::Endpoint& remoteEndpoint,
	const shared_ptr<ip::tcp::socket>& socket,
	const FaceParams& params,
	const scheduler::EventId& connectTimeoutEvent,
	const FaceCreatedCallback& onFaceCreated,
	const FaceCreationFailedCallback& onConnectFailed)
	{
	connectTimeoutEvent.cancel();

	if (error) {
	if (error != boost::asio::error::operation_aborted) {
	NFD_LOG_CHAN_DEBUG("Connection to " << remoteEndpoint << " failed: " << error.message());
	if (onConnectFailed)
	onConnectFailed(504, "Connection failed: " + error.message());
	}
	return;
	}

	NFD_LOG_CHAN_TRACE("Connected to " << socket->remote_endpoint());
	createFace(std::move(*socket), params, onFaceCreated);
	}

	void
	TcpChannel::handleConnectTimeout(const tcp::Endpoint& remoteEndpoint,
	const shared_ptr<ip::tcp::socket>& socket,
	const FaceCreationFailedCallback& onConnectFailed)
	{
	NFD_LOG_CHAN_DEBUG("Connection to " << remoteEndpoint << " timed out");

	// abort the connection attempt
	boost::system::error_code error;
	socket->close(error);

	if (onConnectFailed)
	onConnectFailed(504, "Connection timed out");
	}

	} // namespace face
	} // namespace nfd