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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 "face-manager.hpp"
#include "core/face-uri.hpp"
#include "core/network-interface.hpp"
#include "fw/face-table.hpp"
#include "face/tcp-factory.hpp"
#include "face/udp-factory.hpp"
#ifdef HAVE_UNIX_SOCKETS
#include "face/unix-stream-factory.hpp"
#endif // HAVE_UNIX_SOCKETS
#ifdef HAVE_PCAP
#include "face/ethernet-factory.hpp"
#endif // HAVE_PCAP
namespace nfd {
NFD_LOG_INIT("FaceManager");
const Name FaceManager::COMMAND_PREFIX = "/localhost/nfd/faces";
const size_t FaceManager::COMMAND_UNSIGNED_NCOMPS =
FaceManager::COMMAND_PREFIX.size() +
1 + // verb
1; // verb options
const size_t FaceManager::COMMAND_SIGNED_NCOMPS =
FaceManager::COMMAND_UNSIGNED_NCOMPS +
4; // (timestamp, nonce, signed info tlv, signature tlv)
const FaceManager::VerbAndProcessor FaceManager::COMMAND_VERBS[] =
{
VerbAndProcessor(
Name::Component("create"),
&FaceManager::createFace
),
VerbAndProcessor(
Name::Component("destroy"),
&FaceManager::destroyFace
),
};
FaceManager::FaceManager(FaceTable& faceTable,
shared_ptr<InternalFace> face)
: ManagerBase(face, FACE_MANAGER_PRIVILEGE)
, m_faceTable(faceTable)
, m_verbDispatch(COMMAND_VERBS,
COMMAND_VERBS +
(sizeof(COMMAND_VERBS) / sizeof(VerbAndProcessor)))
{
face->setInterestFilter("/localhost/nfd/faces",
bind(&FaceManager::onFaceRequest, this, _2));
}
FaceManager::~FaceManager()
{
}
void
FaceManager::setConfigFile(ConfigFile& configFile)
{
configFile.addSectionHandler("face_system",
bind(&FaceManager::onConfig, this, _1, _2));
}
void
FaceManager::onConfig(const ConfigSection& configSection, bool isDryRun)
{
bool hasSeenUnix = false;
bool hasSeenTcp = false;
bool hasSeenUdp = false;
bool hasSeenEther = false;
const std::list<shared_ptr<NetworkInterfaceInfo> > nicList(listNetworkInterfaces());
for (ConfigSection::const_iterator item = configSection.begin();
item != configSection.end();
++item)
{
if (item->first == "unix")
{
if (hasSeenUnix)
throw Error("Duplicate \"unix\" section");
hasSeenUnix = true;
processSectionUnix(item->second, isDryRun);
}
else if (item->first == "tcp")
{
if (hasSeenTcp)
throw Error("Duplicate \"tcp\" section");
hasSeenTcp = true;
processSectionTcp(item->second, isDryRun);
}
else if (item->first == "udp")
{
if (hasSeenUdp)
throw Error("Duplicate \"udp\" section");
hasSeenUdp = true;
processSectionUdp(item->second, isDryRun, nicList);
}
else if (item->first == "ether")
{
if (hasSeenEther)
throw Error("Duplicate \"ether\" section");
hasSeenEther = true;
processSectionEther(item->second, isDryRun, nicList);
}
else
{
throw Error("Unrecognized option \"" + item->first + "\"");
}
}
}
void
FaceManager::processSectionUnix(const ConfigSection& configSection, bool isDryRun)
{
// ; the unix section contains settings of UNIX stream faces and channels
// unix
// {
// listen yes ; set to 'no' to disable UNIX stream listener, default 'yes'
// path /var/run/nfd.sock ; UNIX stream listener path
// }
#if defined(HAVE_UNIX_SOCKETS)
bool needToListen = true;
std::string path = "/var/run/nfd.sock";
for (ConfigSection::const_iterator i = configSection.begin();
i != configSection.end();
++i)
{
if (i->first == "path")
{
path = i->second.get_value<std::string>();
}
else if (i->first == "listen")
{
needToListen = parseYesNo(i, i->first, "unix");
}
else
{
throw ConfigFile::Error("Unrecognized option \"" + i->first + "\" in \"unix\" section");
}
}
if (!isDryRun)
{
shared_ptr<UnixStreamFactory> factory = make_shared<UnixStreamFactory>();
shared_ptr<UnixStreamChannel> unixChannel = factory->createChannel(path);
if (needToListen)
{
// Should acceptFailed callback be used somehow?
unixChannel->listen(bind(&FaceTable::add, &m_faceTable, _1),
UnixStreamChannel::ConnectFailedCallback());
}
m_factories.insert(std::make_pair("unix", factory));
}
#else
throw ConfigFile::Error("NFD was compiled without UNIX sockets support, cannot process \"unix\" section");
#endif // HAVE_UNIX_SOCKETS
}
void
FaceManager::processSectionTcp(const ConfigSection& configSection, bool isDryRun)
{
// ; the tcp section contains settings of TCP faces and channels
// tcp
// {
// listen yes ; set to 'no' to disable TCP listener, default 'yes'
// port 6363 ; TCP listener port number
// }
std::string port = "6363";
bool needToListen = true;
for (ConfigSection::const_iterator i = configSection.begin();
i != configSection.end();
++i)
{
if (i->first == "port")
{
port = i->second.get_value<std::string>();
}
else if (i->first == "listen")
{
needToListen = parseYesNo(i, i->first, "tcp");
}
else
{
throw ConfigFile::Error("Unrecognized option \"" + i->first + "\" in \"tcp\" section");
}
}
if (!isDryRun)
{
shared_ptr<TcpFactory> factory = make_shared<TcpFactory>(boost::cref(port));
using namespace boost::asio::ip;
shared_ptr<TcpChannel> ipv4Channel = factory->createChannel("0.0.0.0", port);
shared_ptr<TcpChannel> ipv6Channel = factory->createChannel("::", port);
if (needToListen)
{
// Should acceptFailed callback be used somehow?
ipv4Channel->listen(bind(&FaceTable::add, &m_faceTable, _1),
TcpChannel::ConnectFailedCallback());
ipv6Channel->listen(bind(&FaceTable::add, &m_faceTable, _1),
TcpChannel::ConnectFailedCallback());
}
m_factories.insert(std::make_pair("tcp", factory));
m_factories.insert(std::make_pair("tcp4", factory));
m_factories.insert(std::make_pair("tcp6", factory));
}
}
void
FaceManager::processSectionUdp(const ConfigSection& configSection,
bool isDryRun,
const std::list<shared_ptr<NetworkInterfaceInfo> >& nicList)
{
// ; the udp section contains settings of UDP faces and channels
// udp
// {
// port 6363 ; UDP unicast port number
// idle_timeout 30 ; idle time (seconds) before closing a UDP unicast face
// keep_alive_interval 25; interval (seconds) between keep-alive refreshes
// ; NFD creates one UDP multicast face per NIC
// mcast yes ; set to 'no' to disable UDP multicast, default 'yes'
// mcast_port 56363 ; UDP multicast port number
// mcast_group 224.0.23.170 ; UDP multicast group (IPv4 only)
// }
std::string port = "6363";
size_t timeout = 30;
size_t keepAliveInterval = 25;
bool useMcast = true;
std::string mcastGroup = "224.0.23.170";
std::string mcastPort = "56363";
for (ConfigSection::const_iterator i = configSection.begin();
i != configSection.end();
++i)
{
if (i->first == "port")
{
port = i->second.get_value<std::string>();
}
else if (i->first == "idle_timeout")
{
try
{
timeout = i->second.get_value<size_t>();
}
catch (const std::exception& e)
{
throw ConfigFile::Error("Invalid value for option \"" +
i->first + "\" in \"udp\" section");
}
}
else if (i->first == "keep_alive_interval")
{
try
{
keepAliveInterval = i->second.get_value<size_t>();
}
catch (const std::exception& e)
{
throw ConfigFile::Error("Invalid value for option \"" +
i->first + "\" in \"udp\" section");
}
}
else if (i->first == "mcast")
{
useMcast = parseYesNo(i, i->first, "udp");
}
else if (i->first == "mcast_port")
{
mcastPort = i->second.get_value<std::string>();
}
else if (i->first == "mcast_group")
{
using namespace boost::asio::ip;
mcastGroup = i->second.get_value<std::string>();
try
{
address mcastGroupTest = address::from_string(mcastGroup);
if (!mcastGroupTest.is_v4())
{
throw ConfigFile::Error("Invalid value for option \"" +
i->first + "\" in \"udp\" section");
}
}
catch(const std::runtime_error& e)
{
throw ConfigFile::Error("Invalid value for option \"" +
i->first + "\" in \"udp\" section");
}
}
else
{
throw ConfigFile::Error("Unrecognized option \"" + i->first + "\" in \"udp\" section");
}
}
/// \todo what is keep alive interval used for?
if (!isDryRun)
{
shared_ptr<UdpFactory> factory = make_shared<UdpFactory>(boost::cref(port));
factory->createChannel("::", port, time::seconds(timeout));
m_factories.insert(std::make_pair("udp", factory));
m_factories.insert(std::make_pair("udp4", factory));
m_factories.insert(std::make_pair("udp6", factory));
if (useMcast)
{
bool useEndpoint = false;
udp::Endpoint localEndpoint;
try
{
localEndpoint.port(boost::lexical_cast<uint16_t>(port));
useEndpoint = true;
}
catch (const boost::bad_lexical_cast& error)
{
NFD_LOG_DEBUG("Treating UDP port \"" << port << "\" as a service name");
}
for (std::list<shared_ptr<NetworkInterfaceInfo> >::const_iterator i = nicList.begin();
i != nicList.end();
++i)
{
const shared_ptr<NetworkInterfaceInfo>& nic = *i;
if (nic->isUp() && nic->isMulticastCapable() && !nic->ipv4Addresses.empty())
{
shared_ptr<MulticastUdpFace> newFace =
factory->createMulticastFace(nic->ipv4Addresses[0].to_string(),
mcastGroup, mcastPort);
NFD_LOG_INFO("Created multicast Face ID " << newFace->getId());
if (useEndpoint)
{
for (std::vector<boost::asio::ip::address_v4>::const_iterator j =
nic->ipv4Addresses.begin();
j != nic->ipv4Addresses.end();
++j)
{
localEndpoint.address(*j);
factory->createChannel(localEndpoint, time::seconds(timeout));
}
}
else
{
for (std::vector<boost::asio::ip::address_v4>::const_iterator j =
nic->ipv4Addresses.begin();
j != nic->ipv4Addresses.end();
++j)
{
factory->createChannel(j->to_string(), port, time::seconds(timeout));
}
}
}
}
}
else
{
factory->createChannel("0.0.0.0", port, time::seconds(timeout));
}
}
}
void
FaceManager::processSectionEther(const ConfigSection& configSection,
bool isDryRun,
const std::list<shared_ptr<NetworkInterfaceInfo> >& nicList)
{
// ; the ether section contains settings of Ethernet faces and channels
// ether
// {
// ; NFD creates one Ethernet multicast face per NIC
// mcast yes ; set to 'no' to disable Ethernet multicast, default 'yes'
// mcast_group 01:00:5E:00:17:AA ; Ethernet multicast group
// }
#if defined(HAVE_PCAP)
using ethernet::Address;
bool useMcast = true;
Address mcastGroup(ethernet::getDefaultMulticastAddress());
for (ConfigSection::const_iterator i = configSection.begin();
i != configSection.end();
++i)
{
if (i->first == "mcast")
{
useMcast = parseYesNo(i, i->first, "ether");
}
else if (i->first == "mcast_group")
{
mcastGroup = Address::fromString(i->second.get_value<std::string>());
if (mcastGroup.isNull())
{
throw ConfigFile::Error("Invalid value for option \"" +
i->first + "\" in \"ether\" section");
}
}
else
{
throw ConfigFile::Error("Unrecognized option \"" + i->first + "\" in \"ether\" section");
}
}
if (!isDryRun)
{
shared_ptr<EthernetFactory> factory = make_shared<EthernetFactory>();
m_factories.insert(std::make_pair("ether", factory));
if (useMcast)
{
for (std::list<shared_ptr<NetworkInterfaceInfo> >::const_iterator i = nicList.begin();
i != nicList.end();
++i)
{
const shared_ptr<NetworkInterfaceInfo>& nic = *i;
if (nic->isUp() && nic->isMulticastCapable())
{
try
{
shared_ptr<EthernetFace> newFace =
factory->createMulticastFace(nic->name, mcastGroup);
NFD_LOG_INFO("Created multicast Face ID " << newFace->getId());
}
catch (const EthernetFactory::Error& factoryError)
{
NFD_LOG_ERROR(factoryError.what() << ", continuing");
}
catch (const EthernetFace::Error& faceError)
{
NFD_LOG_ERROR(faceError.what() << ", continuing");
}
}
}
}
}
#else
throw ConfigFile::Error("NFD was compiled without libpcap, cannot process \"ether\" section");
#endif // HAVE_PCAP
}
void
FaceManager::onFaceRequest(const Interest& request)
{
const Name& command = request.getName();
const size_t commandNComps = command.size();
if (COMMAND_UNSIGNED_NCOMPS <= commandNComps &&
commandNComps < COMMAND_SIGNED_NCOMPS)
{
NFD_LOG_INFO("command result: unsigned verb: " << command);
sendResponse(command, 401, "Signature required");
return;
}
else if (commandNComps < COMMAND_SIGNED_NCOMPS ||
!COMMAND_PREFIX.isPrefixOf(command))
{
NFD_LOG_INFO("command result: malformed");
sendResponse(command, 400, "Malformed command");
return;
}
validate(request,
bind(&FaceManager::onValidatedFaceRequest, this, _1),
bind(&ManagerBase::onCommandValidationFailed, this, _1, _2));
}
void
FaceManager::onValidatedFaceRequest(const shared_ptr<const Interest>& request)
{
const Name& command = request->getName();
const Name::Component& verb = command.get(COMMAND_PREFIX.size());
VerbDispatchTable::const_iterator verbProcessor = m_verbDispatch.find (verb);
if (verbProcessor != m_verbDispatch.end())
{
ndn::nfd::FaceManagementOptions options;
if (!extractOptions(*request, options))
{
sendResponse(command, 400, "Malformed command");
return;
}
NFD_LOG_INFO("command result: processing verb: " << verb);
(verbProcessor->second)(this, command, options);
}
else
{
NFD_LOG_INFO("command result: unsupported verb: " << verb);
sendResponse(command, 501, "Unsupported command");
}
}
bool
FaceManager::extractOptions(const Interest& request,
ndn::nfd::FaceManagementOptions& extractedOptions)
{
const Name& command = request.getName();
const size_t optionCompIndex =
COMMAND_PREFIX.size() + 1;
try
{
Block rawOptions = request.getName()[optionCompIndex].blockFromValue();
extractedOptions.wireDecode(rawOptions);
}
catch (const ndn::Tlv::Error& e)
{
NFD_LOG_INFO("Bad command option parse: " << command);
return false;
}
NFD_LOG_DEBUG("Options parsed OK");
return true;
}
void
FaceManager::onCreated(const Name& requestName,
ndn::nfd::FaceManagementOptions& options,
const shared_ptr<Face>& newFace)
{
m_faceTable.add(newFace);
options.setFaceId(newFace->getId());
NFD_LOG_INFO("Created Face ID " << newFace->getId());
ndn::nfd::ControlResponse response;
setResponse(response, 200, "Success", options.wireEncode());
sendResponse(requestName, response);
}
void
FaceManager::onConnectFailed(const Name& requestName, const std::string& reason)
{
NFD_LOG_INFO("Failed to create face: " << reason);
sendResponse(requestName, 400, "Failed to create face");
}
void
FaceManager::createFace(const Name& requestName,
ndn::nfd::FaceManagementOptions& options)
{
FaceUri uri;
if (!uri.parse(options.getUri()))
{
sendResponse(requestName, 400, "Malformed command");
return;
}
FactoryMap::iterator factory = m_factories.find(uri.getScheme());
if (factory == m_factories.end())
{
sendResponse(requestName, 501, "Unsupported protocol");
return;
}
factory->second->createFace(uri,
bind(&FaceManager::onCreated, this, requestName, options, _1),
bind(&FaceManager::onConnectFailed, this, requestName, _1));
}
void
FaceManager::destroyFace(const Name& requestName,
ndn::nfd::FaceManagementOptions& options)
{
shared_ptr<Face> target = m_faceTable.get(options.getFaceId());
if (target)
{
m_faceTable.remove(target);
target->close();
}
sendResponse(requestName, 200, "Success");
}
} // namespace nfd