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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (C) 2014 Named Data Networking Project
* See COPYING for copyright and distribution information.
*/
#include "udp-factory.hpp"
#include "core/global-io.hpp"
#include "core/resolver.hpp"
namespace nfd {
using namespace boost::asio;
NFD_LOG_INIT("UdpFactory");
UdpFactory::UdpFactory(const std::string& defaultPort/* = "6363"*/)
: m_defaultPort(defaultPort)
{
}
shared_ptr<UdpChannel>
UdpFactory::createChannel(const udp::Endpoint& endpoint,
const time::seconds& timeout)
{
NFD_LOG_DEBUG("Creating unicast " << endpoint);
shared_ptr<UdpChannel> channel = findChannel(endpoint);
if (static_cast<bool>(channel))
return channel;
//checking if the endpoint is already in use for multicast face
shared_ptr<MulticastUdpFace> multicast = findMulticastFace(endpoint);
if (static_cast<bool>(multicast))
throw Error("Cannot create the requested UDP unicast channel, local "
"endpoint is already allocated for a UDP multicast face");
if (endpoint.address().is_multicast()) {
throw Error("This method is only for unicast channel. The provided "
"endpoint is multicast. Use createMulticastFace to "
"create a multicast face");
}
channel = make_shared<UdpChannel>(boost::cref(endpoint),
timeout);
m_channels[endpoint] = channel;
return channel;
}
shared_ptr<UdpChannel>
UdpFactory::createChannel(const std::string& localHost,
const std::string& localPort,
const time::seconds& timeout)
{
return createChannel(UdpResolver::syncResolve(localHost, localPort),
timeout);
}
shared_ptr<MulticastUdpFace>
UdpFactory::createMulticastFace(const udp::Endpoint& localEndpoint,
const udp::Endpoint& multicastEndpoint)
{
//checking if the local and musticast endpoint are already in use for a multicast face
shared_ptr<MulticastUdpFace> multicastFace = findMulticastFace(localEndpoint);
if (static_cast<bool>(multicastFace)) {
if (multicastFace->getMulticastGroup() == multicastEndpoint)
return multicastFace;
else
throw Error("Cannot create the requested UDP multicast face, local "
"endpoint is already allocated for a UDP multicast face "
"on a different multicast group");
}
//checking if the local endpoint is already in use for an unicast channel
shared_ptr<UdpChannel> unicast = findChannel(localEndpoint);
if (static_cast<bool>(unicast)) {
throw Error("Cannot create the requested UDP multicast face, local "
"endpoint is already allocated for a UDP unicast channel");
}
if (localEndpoint.address().is_v6() || multicastEndpoint.address().is_v6()) {
throw Error("IPv6 multicast is not supported yet. Please provide an IPv4 address");
}
if (localEndpoint.port() != multicastEndpoint.port()) {
throw Error("Cannot create the requested UDP multicast face, "
"both endpoints should have the same port number. ");
}
if (!multicastEndpoint.address().is_multicast()) {
throw Error("Cannot create the requested UDP multicast face, "
"the multicast group given as input is not a multicast address");
}
shared_ptr<ip::udp::socket> clientSocket =
make_shared<ip::udp::socket>(boost::ref(getGlobalIoService()));
clientSocket->open(multicastEndpoint.protocol());
clientSocket->set_option(ip::udp::socket::reuse_address(true));
try {
clientSocket->bind(multicastEndpoint);
if (localEndpoint.address() != ip::address::from_string("0.0.0.0")) {
clientSocket->set_option(ip::multicast::outbound_interface(localEndpoint.address().to_v4()));
}
clientSocket->set_option(ip::multicast::join_group(multicastEndpoint.address().to_v4(),
localEndpoint.address().to_v4()));
}
catch (boost::system::system_error& e) {
std::stringstream msg;
msg << "Failed to properly configure the socket, check the address (" << e.what() << ")";
throw Error(msg.str());
}
clientSocket->set_option(ip::multicast::enable_loopback(false));
multicastFace = make_shared<MulticastUdpFace>(boost::cref(clientSocket));
multicastFace->onFail += bind(&UdpFactory::afterFaceFailed, this, localEndpoint);
m_multicastFaces[localEndpoint] = multicastFace;
return multicastFace;
}
shared_ptr<MulticastUdpFace>
UdpFactory::createMulticastFace(const std::string& localIp,
const std::string& multicastIp,
const std::string& multicastPort)
{
return createMulticastFace(UdpResolver::syncResolve(localIp,
multicastPort),
UdpResolver::syncResolve(multicastIp,
multicastPort));
}
void
UdpFactory::createFace(const FaceUri& uri,
const FaceCreatedCallback& onCreated,
const FaceConnectFailedCallback& onConnectFailed)
{
resolver::AddressSelector addressSelector = resolver::AnyAddress();
if (uri.getScheme() == "udp4")
addressSelector = resolver::Ipv4Address();
else if (uri.getScheme() == "udp6")
addressSelector = resolver::Ipv6Address();
UdpResolver::asyncResolve(uri.getHost(),
uri.getPort().empty() ? m_defaultPort : uri.getPort(),
bind(&UdpFactory::continueCreateFaceAfterResolve, this, _1,
onCreated, onConnectFailed),
onConnectFailed,
addressSelector);
}
void
UdpFactory::continueCreateFaceAfterResolve(const udp::Endpoint& endpoint,
const FaceCreatedCallback& onCreated,
const FaceConnectFailedCallback& onConnectFailed)
{
if (endpoint.address().is_multicast()) {
onConnectFailed("The provided address is multicast. Please use createMulticastFace method");
return;
}
// very simple logic for now
for (ChannelMap::iterator channel = m_channels.begin();
channel != m_channels.end();
++channel)
{
if ((channel->first.address().is_v4() && endpoint.address().is_v4()) ||
(channel->first.address().is_v6() && endpoint.address().is_v6()))
{
channel->second->connect(endpoint, onCreated);
return;
}
}
onConnectFailed("No channels available to connect to "
+ boost::lexical_cast<std::string>(endpoint));
}
shared_ptr<UdpChannel>
UdpFactory::findChannel(const udp::Endpoint& localEndpoint)
{
ChannelMap::iterator i = m_channels.find(localEndpoint);
if (i != m_channels.end())
return i->second;
else
return shared_ptr<UdpChannel>();
}
shared_ptr<MulticastUdpFace>
UdpFactory::findMulticastFace(const udp::Endpoint& localEndpoint)
{
MulticastFaceMap::iterator i = m_multicastFaces.find(localEndpoint);
if (i != m_multicastFaces.end())
return i->second;
else
return shared_ptr<MulticastUdpFace>();
}
void
UdpFactory::afterFaceFailed(udp::Endpoint& endpoint)
{
NFD_LOG_DEBUG("afterFaceFailed: " << endpoint);
m_multicastFaces.erase(endpoint);
}
} // namespace nfd