src/util/face-uri.cpp - ndn-cxx - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
 /**
  * Copyright (c) 2014,  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 ndn-cxx library (NDN C++ library with eXperimental eXtensions).
  *
  * ndn-cxx library is free software: you can redistribute it and/or modify it under the
  * terms of the GNU Lesser General Public License as published by the Free Software
  * Foundation, either version 3 of the License, or (at your option) any later version.
  *
  * ndn-cxx library 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 Lesser General Public License for more details.
  *
  * You should have received copies of the GNU General Public License and GNU Lesser
  * General Public License along with ndn-cxx, e.g., in COPYING.md file.  If not, see
  * <http://www.gnu.org/licenses/>.
  *
  * See AUTHORS.md for complete list of ndn-cxx authors and contributors.
  */

 #include "face-uri.hpp"
 #include "dns.hpp"

 #include <set>
 #include <boost/concept_check.hpp>
 #include <boost/regex.hpp>
 #include <boost/lexical_cast.hpp>
 #include <boost/mpl/vector.hpp>
 #include <boost/mpl/for_each.hpp>

 namespace ndn {
 namespace util {

 BOOST_CONCEPT_ASSERT((boost::EqualityComparable<FaceUri>));

 FaceUri::FaceUri()
   : m_isV6(false)
 {
 }

 FaceUri::FaceUri(const std::string& uri)
 {
   if (!parse(uri)) {
     throw Error("Malformed URI: " + uri);
   }
 }

 FaceUri::FaceUri(const char* uri)
 {
   if (!parse(uri)) {
     throw Error("Malformed URI: " + std::string(uri));
   }
 }

 bool
 FaceUri::parse(const std::string& uri)
 {
   m_scheme.clear();
   m_host.clear();
   m_isV6 = false;
   m_port.clear();
   m_path.clear();

   static const boost::regex protocolExp("(\\w+\\d?)://([^/]*)(\\/[^?]*)?");
   boost::smatch protocolMatch;
   if (!boost::regex_match(uri, protocolMatch, protocolExp)) {
     return false;
   }
   m_scheme = protocolMatch[1];
   const std::string& authority = protocolMatch[2];
   m_path = protocolMatch[3];

   // pattern for IPv6 address enclosed in [ ], with optional port number
   static const boost::regex v6Exp("^\\[([a-fA-F0-9:]+)\\](?:\\:(\\d+))?$");
   // pattern for Ethernet address in standard hex-digits-and-colons notation
   static const boost::regex etherExp("^\\[((?:[a-fA-F0-9]{1,2}\\:){5}(?:[a-fA-F0-9]{1,2}))\\]$");
   // pattern for IPv4-mapped IPv6 address, with optional port number
   static const boost::regex v4MappedV6Exp("^\\[::ffff:(\\d+(?:\\.\\d+){3})\\](?:\\:(\\d+))?$");
   // pattern for IPv4/hostname/fd/ifname, with optional port number
   static const boost::regex v4HostExp("^([^:]+)(?:\\:(\\d+))?$");

   if (authority.empty()) {
     // UNIX, internal
   }
   else {
     boost::smatch match;
     m_isV6 = boost::regex_match(authority, match, v6Exp);
     if (m_isV6 ||
         boost::regex_match(authority, match, etherExp) ||
         boost::regex_match(authority, match, v4MappedV6Exp) ||
         boost::regex_match(authority, match, v4HostExp)) {
       m_host = match[1];
       m_port = match[2];
     }
     else {
       return false;
     }
   }

   return true;
 }

 FaceUri::FaceUri(const boost::asio::ip::udp::endpoint& endpoint)
 {
   m_isV6 = endpoint.address().is_v6();
   m_scheme = m_isV6 ? "udp6" : "udp4";
   m_host = endpoint.address().to_string();
   m_port = boost::lexical_cast<std::string>(endpoint.port());
 }

 FaceUri::FaceUri(const boost::asio::ip::tcp::endpoint& endpoint)
 {
   m_isV6 = endpoint.address().is_v6();
   m_scheme = m_isV6 ? "tcp6" : "tcp4";
   m_host = endpoint.address().to_string();
   m_port = boost::lexical_cast<std::string>(endpoint.port());
 }

 FaceUri::FaceUri(const boost::asio::ip::tcp::endpoint& endpoint, const std::string& scheme)
   : m_scheme(scheme)
 {
   m_isV6 = endpoint.address().is_v6();
   m_host = endpoint.address().to_string();
   m_port = boost::lexical_cast<std::string>(endpoint.port());
 }

 #ifdef BOOST_ASIO_HAS_LOCAL_SOCKETS
 FaceUri::FaceUri(const boost::asio::local::stream_protocol::endpoint& endpoint)
   : m_isV6(false)
 {
   m_scheme = "unix";
   m_path = endpoint.path();
 }
 #endif // BOOST_ASIO_HAS_LOCAL_SOCKETS

 FaceUri
 FaceUri::fromFd(int fd)
 {
   FaceUri uri;
   uri.m_scheme = "fd";
   uri.m_host = boost::lexical_cast<std::string>(fd);
   return uri;
 }

 FaceUri::FaceUri(const ethernet::Address& address)
   : m_isV6(true)
 {
   m_scheme = "ether";
   m_host = address.toString();
 }

 FaceUri
 FaceUri::fromDev(const std::string& ifname)
 {
   FaceUri uri;
   uri.m_scheme = "dev";
   uri.m_host = ifname;
   return uri;
 }

 bool
 FaceUri::operator==(const FaceUri& rhs) const
 {
   return (m_scheme == rhs.m_scheme &&
           m_host == rhs.m_host &&
           m_isV6 == rhs.m_isV6 &&
           m_port == rhs.m_port &&
           m_path == rhs.m_path);
 }

 bool
 FaceUri::operator!=(const FaceUri& rhs) const
 {
   return !(*this == rhs);
 }

 std::string
 FaceUri::toString() const
 {
   std::ostringstream os;
   os << *this;
   return os.str();
 }

 std::ostream&
 operator<<(std::ostream& os, const FaceUri& uri)
 {
   os << uri.m_scheme << "://";
   if (uri.m_isV6) {
     os << "[" << uri.m_host << "]";
   }
   else {
     os << uri.m_host;
   }
   if (!uri.m_port.empty()) {
     os << ":" << uri.m_port;
   }
   os << uri.m_path;
   return os;
 }

 /** \brief a CanonizeProvider provides FaceUri canonization functionality for a group of schemes
  */
 class CanonizeProvider : noncopyable
 {
 public:
   virtual
   ~CanonizeProvider()
   {
   }

   virtual std::set<std::string>
   getSchemes() const = 0;

   virtual bool
   isCanonical(const FaceUri& faceUri) const = 0;

   virtual void
   canonize(const FaceUri& faceUri,
            const FaceUri::CanonizeSuccessCallback& onSuccess,
            const FaceUri::CanonizeFailureCallback& onFailure,
            boost::asio::io_service& io, const time::nanoseconds& timeout) const = 0;
 };

 template<typename Protocol>
 class IpHostCanonizeProvider : public CanonizeProvider
 {
 public:
   virtual std::set<std::string>
   getSchemes() const
   {
     std::set<std::string> schemes;
     schemes.insert(m_baseScheme);
     schemes.insert(m_v4Scheme);
     schemes.insert(m_v6Scheme);
     return schemes;
   }

   virtual bool
   isCanonical(const FaceUri& faceUri) const
   {
     if (faceUri.getPort().empty()) {
       return false;
     }
     if (!faceUri.getPath().empty()) {
       return false;
     }

     boost::system::error_code ec;
     boost::asio::ip::address addr;
     if (faceUri.getScheme() == m_v4Scheme) {
       addr = boost::asio::ip::address_v4::from_string(faceUri.getHost(), ec);
     }
     else if (faceUri.getScheme() == m_v6Scheme) {
       addr = boost::asio::ip::address_v6::from_string(faceUri.getHost(), ec);
     }
     else {
       return false;
     }
     return !static_cast<bool>(ec) && addr.to_string() == faceUri.getHost() &&
            this->checkAddress(addr).first;
   }

   virtual void
   canonize(const FaceUri& faceUri,
            const FaceUri::CanonizeSuccessCallback& onSuccess,
            const FaceUri::CanonizeFailureCallback& onFailure,
            boost::asio::io_service& io, const time::nanoseconds& timeout) const
   {
     if (this->isCanonical(faceUri)) {
       onSuccess(faceUri);
       return;
     }

     dns::AddressSelector addressSelector;
     if (faceUri.getScheme() == m_v4Scheme) {
       addressSelector = dns::Ipv4Only();
     }
     else if (faceUri.getScheme() == m_v6Scheme) {
       addressSelector = dns::Ipv6Only();
     }
     else {
       BOOST_ASSERT(faceUri.getScheme() == m_baseScheme);
       addressSelector = dns::AnyAddress();
     }

     // make a copy because caller may modify faceUri
     shared_ptr<FaceUri> uri = make_shared<FaceUri>(faceUri);
     dns::asyncResolve(faceUri.getHost(),
       bind(&IpHostCanonizeProvider<Protocol>::onDnsSuccess, this, uri, onSuccess, onFailure, _1),
       bind(&IpHostCanonizeProvider<Protocol>::onDnsFailure, this, uri, onFailure, _1),
       io, addressSelector, timeout);
   }

 protected:
   IpHostCanonizeProvider(const std::string& baseScheme,
                          uint32_t defaultUnicastPort = 6363,
                          uint32_t defaultMulticastPort = 56363)
     : m_baseScheme(baseScheme)
     , m_v4Scheme(baseScheme + "4")
     , m_v6Scheme(baseScheme + "6")
     , m_defaultUnicastPort(defaultUnicastPort)
     , m_defaultMulticastPort(defaultMulticastPort)
   {
   }

 private:
   // faceUri is a shared_ptr passed by value because this function can take ownership
   void
   onDnsSuccess(shared_ptr<FaceUri> faceUri,
                const FaceUri::CanonizeSuccessCallback& onSuccess,
                const FaceUri::CanonizeFailureCallback& onFailure,
                const dns::IpAddress& ipAddress) const
   {
     std::pair<bool, std::string> checkAddressRes = this->checkAddress(ipAddress);
     if (!checkAddressRes.first) {
       onFailure(checkAddressRes.second);
       return;
     }

     uint32_t port = 0;
     if (faceUri->getPort().empty()) {
       port = ipAddress.is_multicast() ? m_defaultMulticastPort : m_defaultUnicastPort;
     }
     else {
       try {
         port = boost::lexical_cast<uint32_t>(faceUri->getPort());
       }
       catch (boost::bad_lexical_cast&) {
         onFailure("invalid port number");
         return;
       }
     }

     FaceUri canonicalUri(typename Protocol::endpoint(ipAddress, port));
     BOOST_ASSERT(canonicalUri.isCanonical());
     onSuccess(canonicalUri);
   }

   // faceUri is a shared_ptr passed by value because this function can take ownership
   void
   onDnsFailure(shared_ptr<FaceUri> faceUri, const FaceUri::CanonizeFailureCallback& onFailure,
                const std::string& reason) const
   {
     onFailure(reason);
   }

   /** \brief when overriden in a subclass, check the IP address is allowable
    *  \return (true,ignored) if the address is allowable;
    *          (false,reason) if the address is not allowable.
    */
   virtual std::pair<bool, std::string>
   checkAddress(const dns::IpAddress& ipAddress) const
   {
     return std::make_pair(true, "");
   }

 private:
   std::string m_baseScheme;
   std::string m_v4Scheme;
   std::string m_v6Scheme;
   uint32_t m_defaultUnicastPort;
   uint32_t m_defaultMulticastPort;
 };

 class UdpCanonizeProvider : public IpHostCanonizeProvider<boost::asio::ip::udp>
 {
 public:
   UdpCanonizeProvider()
     : IpHostCanonizeProvider("udp")
   {
   }

 protected:
   // checkAddress is not overriden:
   // Although NFD doesn't support IPv6 multicast, it's an implementation limitation.
   // FaceMgmt protocol allows IPv6 multicast address in UDP.
 };

 class TcpCanonizeProvider : public IpHostCanonizeProvider<boost::asio::ip::tcp>
 {
 public:
 public:
   TcpCanonizeProvider()
     : IpHostCanonizeProvider("tcp")
   {
   }

 protected:
   virtual std::pair<bool, std::string>
   checkAddress(const dns::IpAddress& ipAddress) const
   {
     if (ipAddress.is_multicast()) {
       return std::make_pair(false, "cannot use multicast address");
     }
     return std::make_pair(true, "");
   }
 };

 class EtherCanonizeProvider : public CanonizeProvider
 {
 public:
   virtual std::set<std::string>
   getSchemes() const
   {
     std::set<std::string> schemes;
     schemes.insert("ether");
     return schemes;
   }

   virtual bool
   isCanonical(const FaceUri& faceUri) const
   {
     if (!faceUri.getPort().empty()) {
       return false;
     }
     if (!faceUri.getPath().empty()) {
       return false;
     }

     ethernet::Address addr = ethernet::Address::fromString(faceUri.getHost());
     return addr.toString() == faceUri.getHost();
   }

   virtual void
   canonize(const FaceUri& faceUri,
            const FaceUri::CanonizeSuccessCallback& onSuccess,
            const FaceUri::CanonizeFailureCallback& onFailure,
            boost::asio::io_service& io, const time::nanoseconds& timeout) const
   {
     ethernet::Address addr = ethernet::Address::fromString(faceUri.getHost());
     if (addr.isNull()) {
       onFailure("cannot parse address");
       return;
     }

     FaceUri canonicalUri(addr);
     BOOST_ASSERT(canonicalUri.isCanonical());
     onSuccess(canonicalUri);
   }
 };

 typedef boost::mpl::vector<
     UdpCanonizeProvider*,
     TcpCanonizeProvider*,
     EtherCanonizeProvider*
   > CanonizeProviders;
 typedef std::map<std::string, shared_ptr<CanonizeProvider> > CanonizeProviderTable;

 class CanonizeProviderTableInitializer
 {
 public:
   explicit
   CanonizeProviderTableInitializer(CanonizeProviderTable& providerTable)
     : m_providerTable(providerTable)
   {
   }

   template<typename CP> void
   operator()(CP*)
   {
     shared_ptr<CanonizeProvider> cp = make_shared<CP>();

     std::set<std::string> schemes = cp->getSchemes();
     BOOST_ASSERT(!schemes.empty());
     for (std::set<std::string>::iterator it = schemes.begin();
          it != schemes.end(); ++it) {
       BOOST_ASSERT(m_providerTable.count(*it) == 0);
       m_providerTable[*it] = cp;
     }
   }

 private:
   CanonizeProviderTable& m_providerTable;
 };

 static const CanonizeProvider*
 getCanonizeProvider(const std::string& scheme)
 {
   static CanonizeProviderTable providerTable;
   if (providerTable.empty()) {
     boost::mpl::for_each<CanonizeProviders>(CanonizeProviderTableInitializer(providerTable));
     BOOST_ASSERT(!providerTable.empty());
   }

   CanonizeProviderTable::const_iterator it = providerTable.find(scheme);
   if (it == providerTable.end()) {
     return 0;
   }
   return it->second.get();
 }

 bool
 FaceUri::canCanonize(const std::string& scheme)
 {
   return getCanonizeProvider(scheme) != 0;
 }

 bool
 FaceUri::isCanonical() const
 {
   const CanonizeProvider* cp = getCanonizeProvider(this->getScheme());
   if (cp == 0) {
     return false;
   }

   return cp->isCanonical(*this);
 }

 static inline void
 nop()
 {
 }

 void
 FaceUri::canonize(const CanonizeSuccessCallback& onSuccess,
                   const CanonizeFailureCallback& onFailure,
                   boost::asio::io_service& io, const time::nanoseconds& timeout) const
 {
   const CanonizeProvider* cp = getCanonizeProvider(this->getScheme());
   if (cp == 0) {
     if (static_cast<bool>(onFailure)) {
       onFailure("scheme not supported");
     }
     return;
   }

   static CanonizeSuccessCallback successNop = bind(&nop);
   static CanonizeFailureCallback failureNop = bind(&nop);

   cp->canonize(*this,
                static_cast<bool>(onSuccess) ? onSuccess : successNop,
                static_cast<bool>(onFailure) ? onFailure : failureNop,
                io, timeout);
 }

 } // namespace util
 } // namespace ndn
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -- */
	/**
	* Copyright (c) 2014, 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 ndn-cxx library (NDN C++ library with eXperimental eXtensions).
	*
	* ndn-cxx library is free software: you can redistribute it and/or modify it under the
	* terms of the GNU Lesser General Public License as published by the Free Software
	* Foundation, either version 3 of the License, or (at your option) any later version.
	*
	* ndn-cxx library 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 Lesser General Public License for more details.
	*
	* You should have received copies of the GNU General Public License and GNU Lesser
	* General Public License along with ndn-cxx, e.g., in COPYING.md file. If not, see
	* <http://www.gnu.org/licenses/>.
	*
	* See AUTHORS.md for complete list of ndn-cxx authors and contributors.
	*/

	#include "face-uri.hpp"
	#include "dns.hpp"

	#include <set>
	#include <boost/concept_check.hpp>
	#include <boost/regex.hpp>
	#include <boost/lexical_cast.hpp>
	#include <boost/mpl/vector.hpp>
	#include <boost/mpl/for_each.hpp>

	namespace ndn {
	namespace util {

	BOOST_CONCEPT_ASSERT((boost::EqualityComparable<FaceUri>));

	FaceUri::FaceUri()
	: m_isV6(false)
	{
	}

	FaceUri::FaceUri(const std::string& uri)
	{
	if (!parse(uri)) {
	throw Error("Malformed URI: " + uri);
	}
	}

	FaceUri::FaceUri(const char* uri)
	{
	if (!parse(uri)) {
	throw Error("Malformed URI: " + std::string(uri));
	}
	}

	bool
	FaceUri::parse(const std::string& uri)
	{
	m_scheme.clear();
	m_host.clear();
	m_isV6 = false;
	m_port.clear();
	m_path.clear();

	static const boost::regex protocolExp("(\\w+\\d?)://([^/])(\\/[^?])?");
	boost::smatch protocolMatch;
	if (!boost::regex_match(uri, protocolMatch, protocolExp)) {
	return false;
	}
	m_scheme = protocolMatch[1];
	const std::string& authority = protocolMatch[2];
	m_path = protocolMatch[3];

	// pattern for IPv6 address enclosed in [ ], with optional port number
	static const boost::regex v6Exp("^\\[([a-fA-F0-9:]+)\\](?:\\:(\\d+))?$");
	// pattern for Ethernet address in standard hex-digits-and-colons notation
	static const boost::regex etherExp("^\\[((?:[a-fA-F0-9]{1,2}\\:){5}(?:[a-fA-F0-9]{1,2}))\\]$");
	// pattern for IPv4-mapped IPv6 address, with optional port number
	static const boost::regex v4MappedV6Exp("^\\[::ffff:(\\d+(?:\\.\\d+){3})\\](?:\\:(\\d+))?$");
	// pattern for IPv4/hostname/fd/ifname, with optional port number
	static const boost::regex v4HostExp("^([^:]+)(?:\\:(\\d+))?$");

	if (authority.empty()) {
	// UNIX, internal
	}
	else {
	boost::smatch match;
	m_isV6 = boost::regex_match(authority, match, v6Exp);
	if (m_isV6 \|\|
	boost::regex_match(authority, match, etherExp) \|\|
	boost::regex_match(authority, match, v4MappedV6Exp) \|\|
	boost::regex_match(authority, match, v4HostExp)) {
	m_host = match[1];
	m_port = match[2];
	}
	else {
	return false;
	}
	}

	return true;
	}

	FaceUri::FaceUri(const boost::asio::ip::udp::endpoint& endpoint)
	{
	m_isV6 = endpoint.address().is_v6();
	m_scheme = m_isV6 ? "udp6" : "udp4";
	m_host = endpoint.address().to_string();
	m_port = boost::lexical_cast<std::string>(endpoint.port());
	}

	FaceUri::FaceUri(const boost::asio::ip::tcp::endpoint& endpoint)
	{
	m_isV6 = endpoint.address().is_v6();
	m_scheme = m_isV6 ? "tcp6" : "tcp4";
	m_host = endpoint.address().to_string();
	m_port = boost::lexical_cast<std::string>(endpoint.port());
	}

	FaceUri::FaceUri(const boost::asio::ip::tcp::endpoint& endpoint, const std::string& scheme)
	: m_scheme(scheme)
	{
	m_isV6 = endpoint.address().is_v6();
	m_host = endpoint.address().to_string();
	m_port = boost::lexical_cast<std::string>(endpoint.port());
	}

	#ifdef BOOST_ASIO_HAS_LOCAL_SOCKETS
	FaceUri::FaceUri(const boost::asio::local::stream_protocol::endpoint& endpoint)
	: m_isV6(false)
	{
	m_scheme = "unix";
	m_path = endpoint.path();
	}
	#endif // BOOST_ASIO_HAS_LOCAL_SOCKETS

	FaceUri
	FaceUri::fromFd(int fd)
	{
	FaceUri uri;
	uri.m_scheme = "fd";
	uri.m_host = boost::lexical_cast<std::string>(fd);
	return uri;
	}

	FaceUri::FaceUri(const ethernet::Address& address)
	: m_isV6(true)
	{
	m_scheme = "ether";
	m_host = address.toString();
	}

	FaceUri
	FaceUri::fromDev(const std::string& ifname)
	{
	FaceUri uri;
	uri.m_scheme = "dev";
	uri.m_host = ifname;
	return uri;
	}

	bool
	FaceUri::operator==(const FaceUri& rhs) const
	{
	return (m_scheme == rhs.m_scheme &&
	m_host == rhs.m_host &&
	m_isV6 == rhs.m_isV6 &&
	m_port == rhs.m_port &&
	m_path == rhs.m_path);
	}

	bool
	FaceUri::operator!=(const FaceUri& rhs) const
	{
	return !(*this == rhs);
	}

	std::string
	FaceUri::toString() const
	{
	std::ostringstream os;
	os << *this;
	return os.str();
	}

	std::ostream&
	operator<<(std::ostream& os, const FaceUri& uri)
	{
	os << uri.m_scheme << "://";
	if (uri.m_isV6) {
	os << "[" << uri.m_host << "]";
	}
	else {
	os << uri.m_host;
	}
	if (!uri.m_port.empty()) {
	os << ":" << uri.m_port;
	}
	os << uri.m_path;
	return os;
	}

	/** \brief a CanonizeProvider provides FaceUri canonization functionality for a group of schemes
	*/
	class CanonizeProvider : noncopyable
	{
	public:
	virtual
	~CanonizeProvider()
	{
	}

	virtual std::set<std::string>
	getSchemes() const = 0;

	virtual bool
	isCanonical(const FaceUri& faceUri) const = 0;

	virtual void
	canonize(const FaceUri& faceUri,
	const FaceUri::CanonizeSuccessCallback& onSuccess,
	const FaceUri::CanonizeFailureCallback& onFailure,
	boost::asio::io_service& io, const time::nanoseconds& timeout) const = 0;
	};

	template<typename Protocol>
	class IpHostCanonizeProvider : public CanonizeProvider
	{
	public:
	virtual std::set<std::string>
	getSchemes() const
	{
	std::set<std::string> schemes;
	schemes.insert(m_baseScheme);
	schemes.insert(m_v4Scheme);
	schemes.insert(m_v6Scheme);
	return schemes;
	}

	virtual bool
	isCanonical(const FaceUri& faceUri) const
	{
	if (faceUri.getPort().empty()) {
	return false;
	}
	if (!faceUri.getPath().empty()) {
	return false;
	}

	boost::system::error_code ec;
	boost::asio::ip::address addr;
	if (faceUri.getScheme() == m_v4Scheme) {
	addr = boost::asio::ip::address_v4::from_string(faceUri.getHost(), ec);
	}
	else if (faceUri.getScheme() == m_v6Scheme) {
	addr = boost::asio::ip::address_v6::from_string(faceUri.getHost(), ec);
	}
	else {
	return false;
	}
	return !static_cast<bool>(ec) && addr.to_string() == faceUri.getHost() &&
	this->checkAddress(addr).first;
	}

	virtual void
	canonize(const FaceUri& faceUri,
	const FaceUri::CanonizeSuccessCallback& onSuccess,
	const FaceUri::CanonizeFailureCallback& onFailure,
	boost::asio::io_service& io, const time::nanoseconds& timeout) const
	{
	if (this->isCanonical(faceUri)) {
	onSuccess(faceUri);
	return;
	}

	dns::AddressSelector addressSelector;
	if (faceUri.getScheme() == m_v4Scheme) {
	addressSelector = dns::Ipv4Only();
	}
	else if (faceUri.getScheme() == m_v6Scheme) {
	addressSelector = dns::Ipv6Only();
	}
	else {
	BOOST_ASSERT(faceUri.getScheme() == m_baseScheme);
	addressSelector = dns::AnyAddress();
	}

	// make a copy because caller may modify faceUri
	shared_ptr<FaceUri> uri = make_shared<FaceUri>(faceUri);
	dns::asyncResolve(faceUri.getHost(),
	bind(&IpHostCanonizeProvider<Protocol>::onDnsSuccess, this, uri, onSuccess, onFailure, _1),
	bind(&IpHostCanonizeProvider<Protocol>::onDnsFailure, this, uri, onFailure, _1),
	io, addressSelector, timeout);
	}

	protected:
	IpHostCanonizeProvider(const std::string& baseScheme,
	uint32_t defaultUnicastPort = 6363,
	uint32_t defaultMulticastPort = 56363)
	: m_baseScheme(baseScheme)
	, m_v4Scheme(baseScheme + "4")
	, m_v6Scheme(baseScheme + "6")
	, m_defaultUnicastPort(defaultUnicastPort)
	, m_defaultMulticastPort(defaultMulticastPort)
	{
	}

	private:
	// faceUri is a shared_ptr passed by value because this function can take ownership
	void
	onDnsSuccess(shared_ptr<FaceUri> faceUri,
	const FaceUri::CanonizeSuccessCallback& onSuccess,
	const FaceUri::CanonizeFailureCallback& onFailure,
	const dns::IpAddress& ipAddress) const
	{
	std::pair<bool, std::string> checkAddressRes = this->checkAddress(ipAddress);
	if (!checkAddressRes.first) {
	onFailure(checkAddressRes.second);
	return;
	}

	uint32_t port = 0;
	if (faceUri->getPort().empty()) {
	port = ipAddress.is_multicast() ? m_defaultMulticastPort : m_defaultUnicastPort;
	}
	else {
	try {
	port = boost::lexical_cast<uint32_t>(faceUri->getPort());
	}
	catch (boost::bad_lexical_cast&) {
	onFailure("invalid port number");
	return;
	}
	}

	FaceUri canonicalUri(typename Protocol::endpoint(ipAddress, port));
	BOOST_ASSERT(canonicalUri.isCanonical());
	onSuccess(canonicalUri);
	}

	// faceUri is a shared_ptr passed by value because this function can take ownership
	void
	onDnsFailure(shared_ptr<FaceUri> faceUri, const FaceUri::CanonizeFailureCallback& onFailure,
	const std::string& reason) const
	{
	onFailure(reason);
	}

	/** \brief when overriden in a subclass, check the IP address is allowable
	* \return (true,ignored) if the address is allowable;
	* (false,reason) if the address is not allowable.
	*/
	virtual std::pair<bool, std::string>
	checkAddress(const dns::IpAddress& ipAddress) const
	{
	return std::make_pair(true, "");
	}

	private:
	std::string m_baseScheme;
	std::string m_v4Scheme;
	std::string m_v6Scheme;
	uint32_t m_defaultUnicastPort;
	uint32_t m_defaultMulticastPort;
	};

	class UdpCanonizeProvider : public IpHostCanonizeProvider<boost::asio::ip::udp>
	{
	public:
	UdpCanonizeProvider()
	: IpHostCanonizeProvider("udp")
	{
	}

	protected:
	// checkAddress is not overriden:
	// Although NFD doesn't support IPv6 multicast, it's an implementation limitation.
	// FaceMgmt protocol allows IPv6 multicast address in UDP.
	};

	class TcpCanonizeProvider : public IpHostCanonizeProvider<boost::asio::ip::tcp>
	{
	public:
	public:
	TcpCanonizeProvider()
	: IpHostCanonizeProvider("tcp")
	{
	}

	protected:
	virtual std::pair<bool, std::string>
	checkAddress(const dns::IpAddress& ipAddress) const
	{
	if (ipAddress.is_multicast()) {
	return std::make_pair(false, "cannot use multicast address");
	}
	return std::make_pair(true, "");
	}
	};

	class EtherCanonizeProvider : public CanonizeProvider
	{
	public:
	virtual std::set<std::string>
	getSchemes() const
	{
	std::set<std::string> schemes;
	schemes.insert("ether");
	return schemes;
	}

	virtual bool
	isCanonical(const FaceUri& faceUri) const
	{
	if (!faceUri.getPort().empty()) {
	return false;
	}
	if (!faceUri.getPath().empty()) {
	return false;
	}

	ethernet::Address addr = ethernet::Address::fromString(faceUri.getHost());
	return addr.toString() == faceUri.getHost();
	}

	virtual void
	canonize(const FaceUri& faceUri,
	const FaceUri::CanonizeSuccessCallback& onSuccess,
	const FaceUri::CanonizeFailureCallback& onFailure,
	boost::asio::io_service& io, const time::nanoseconds& timeout) const
	{
	ethernet::Address addr = ethernet::Address::fromString(faceUri.getHost());
	if (addr.isNull()) {
	onFailure("cannot parse address");
	return;
	}

	FaceUri canonicalUri(addr);
	BOOST_ASSERT(canonicalUri.isCanonical());
	onSuccess(canonicalUri);
	}
	};

	typedef boost::mpl::vector<
	UdpCanonizeProvider*,
	TcpCanonizeProvider*,
	EtherCanonizeProvider*
	> CanonizeProviders;
	typedef std::map<std::string, shared_ptr<CanonizeProvider> > CanonizeProviderTable;

	class CanonizeProviderTableInitializer
	{
	public:
	explicit
	CanonizeProviderTableInitializer(CanonizeProviderTable& providerTable)
	: m_providerTable(providerTable)
	{
	}

	template<typename CP> void
	operator()(CP*)
	{
	shared_ptr<CanonizeProvider> cp = make_shared<CP>();

	std::set<std::string> schemes = cp->getSchemes();
	BOOST_ASSERT(!schemes.empty());
	for (std::set<std::string>::iterator it = schemes.begin();
	it != schemes.end(); ++it) {
	BOOST_ASSERT(m_providerTable.count(*it) == 0);
	m_providerTable[*it] = cp;
	}
	}

	private:
	CanonizeProviderTable& m_providerTable;
	};

	static const CanonizeProvider*
	getCanonizeProvider(const std::string& scheme)
	{
	static CanonizeProviderTable providerTable;
	if (providerTable.empty()) {
	boost::mpl::for_each<CanonizeProviders>(CanonizeProviderTableInitializer(providerTable));
	BOOST_ASSERT(!providerTable.empty());
	}

	CanonizeProviderTable::const_iterator it = providerTable.find(scheme);
	if (it == providerTable.end()) {
	return 0;
	}
	return it->second.get();
	}

	bool
	FaceUri::canCanonize(const std::string& scheme)
	{
	return getCanonizeProvider(scheme) != 0;
	}

	bool
	FaceUri::isCanonical() const
	{
	const CanonizeProvider* cp = getCanonizeProvider(this->getScheme());
	if (cp == 0) {
	return false;
	}

	return cp->isCanonical(*this);
	}

	static inline void
	nop()
	{
	}

	void
	FaceUri::canonize(const CanonizeSuccessCallback& onSuccess,
	const CanonizeFailureCallback& onFailure,
	boost::asio::io_service& io, const time::nanoseconds& timeout) const
	{
	const CanonizeProvider* cp = getCanonizeProvider(this->getScheme());
	if (cp == 0) {
	if (static_cast<bool>(onFailure)) {
	onFailure("scheme not supported");
	}
	return;
	}

	static CanonizeSuccessCallback successNop = bind(&nop);
	static CanonizeFailureCallback failureNop = bind(&nop);

	cp->canonize(*this,
	static_cast<bool>(onSuccess) ? onSuccess : successNop,
	static_cast<bool>(onFailure) ? onFailure : failureNop,
	io, timeout);
	}

	} // namespace util
	} // namespace ndn