// $Id$
//
-// Copyright (C) 2007
-// Fraunhofer Institut fuer offene Kommunikationssysteme (FOKUS)
-// Kompetenzzentrum fuer Satelitenkommunikation (SatCom)
+// Copyright (C) 2007
+// Fraunhofer Institute for Open Communication Systems (FOKUS)
+// Competence Center NETwork research (NET), St. Augustin, GERMANY
// Stefan Bund <g0dil@berlios.de>
//
// This program is free software; you can redistribute it and/or modify
// Custom includes
#include <iostream>
#include <string>
+#include <netinet/in.h>
#include <boost/cstdint.hpp>
-#include <boost/function.hpp>
#include <boost/array.hpp>
#include <boost/operators.hpp>
-#include "Utils/SafeBool.hh"
+#include "../../../Utils/safe_bool.hh"
+#include "../../../Utils/Tags.hh"
#include "INet4Address.hh"
+#include "../AddressExceptions.hh"
//#include "INet6Address.mpp"
#include "INet6Address.ih"
namespace senf {
- /** \brief IpV6 network address
+ /** \brief INet6 network address
- This implementation of an IpV6 address is based strictly on
+ This implementation of an INet6 address is based strictly on
<a href="http://tools.ietf.org/html/rfc4291">RFC 4291</a>: Internet Protocol
- Version 6 (IPv6) Addressing Architecture. This class provides accessors to all the
+ Version 6 (INet6) Addressing Architecture. This class provides accessors to all the
information fields defined in this document.
- The IpV6 addressing architecture however has several other components defined in other
+ The INet6 addressing architecture however has several other components defined in other
RFC's. These RFC's should be implemented in additional modules:
\li <a href="http://tools.ietf.org/html/rfc4193">RFC 4193</a>:
Unique Local Addresses (ULA). Defines the fc00::/7 prefix
\li <a href="http://tools.ietf.org/html/rfc3306">RFC 3306</a>:
- Unicast-Prefix-based IPv6 Multicast Addresses. Defines the ff30::/12 prefix
+ Unicast-Prefix-based INet6 Multicast Addresses. Defines the ff30::/12 prefix
\li <a href="http://tools.ietf.org/html/rfc3956">RFC 3956</a>:
- Embedding the Rendezvous Point (RP) Address in an IPv6 Multicast
+ Embedding the Rendezvous Point (RP) Address in an INet6 Multicast
Address. Defines the ff70::/12 prefix
\li <a href="http://tools.ietf.org/html/rfc3056">RFC 3056</a>:
- Connection of IPv6 Domains via IPv4 Clouds. Defines 6to4 tunneling and the
+ Connection of INet6 Domains via INet4 Clouds. Defines 6to4 tunneling and the
2002::/16 prefix
\li <a href="http://tools.ietf.org/html/rfc3849">RFC 3849</a>:
- IPv6 Address Prefix Reserved for Documentation. Defines the 2001:db8::/32 prefix
+ INet6 Address Prefix Reserved for Documentation. Defines the 2001:db8::/32 prefix
Here an overview of well-known prefixes:
+ \htmlonly
<table class="senf">
- <tr><th>Prefix</th> <th>Description</th> <th>Definition</th> <th>Note</th></tr>
- <tr><td><tt>::/96</tt></td> <td>IpV4 compatible IpV6 address</td> <td>RFC4291</td> <td>deprecated</td></tr>
- <tr><td><tt>::ffff:0:0/96</tt></td> <td>IpV6 mapped IpV4 address</td> <td>RFC4291</td> <td></td></tr>
- <tr><td><tt>2000::/3</tt></td> <td>Global unicast addresses</td> <td>RFC3587</td> <td>only noted, not defined</td></tr>
- <tr><td><tt>2001:db8::/32</tt></td> <td>Documentation-only prefix</td> <td>RFC3849</td> <td></td></tr>
- <tr><td><tt>2002::/16</tt></td> <td>6to4 addressing</td> <td>RFC3056</td> <td></td></tr>
- <tr><td><tt>fc00::/7</tt></td> <td>ULA</td> <td>RFC4193</td> <td></td></tr>
- <tr><td><tt>fe80::/64</tt></td> <td>Link-local addresses</td> <td>RFC4291</td> <td></td></tr>
- <tr><td><tt>fec0::/10</tt></td> <td>Site-local addresses </td> <td>RFC4291</td> <td>deprecated</td></tr>
- <tr><td><tt>ff00::/8</tt></td> <td>Multicast</td> <td>RFC4291</td> <td></td></tr>
- <tr><td><tt>ff00::/12</tt></td> <td>Globally allocated multicast</td> <td>RFC4291</td> <td></td></tr>
- <tr><td><tt>ff10::/12</tt></td> <td>Locally allocated multicast</td> <td>RFC4291</td> <td></td></tr>
- <tr><td><tt>ff30::/12</tt></td> <td>Unicast prefic based multicast</td> <td>RFC3306</td> <td></td></tr>
- <tr><td><tt>ff70::/12</tt></td> <td>Multicast address with embedded RP</td> <td>RFC3956</td> <td></td></tr>
+ <tr><th>Prefix</th> <th>Description</th> <th>Definition</th> <th>Note</th></tr>
+ <tr><td><tt>::/96</tt></td> <td>INet4 compatible INet6 address</td> <td>RFC4291</td> <td>deprecated</td></tr>
+ <tr><td><tt>::ffff:0:0/96</tt></td> <td>INet6 mapped INet4 address</td> <td>RFC4291</td> <td></td></tr>
+ <tr><td><tt>2000::/3</tt></td> <td>Global unicast addresses</td> <td>RFC3587</td> <td>only noted, not defined</td></tr>
+ <tr><td><tt>2001:db8::/32</tt></td> <td>Documentation-only prefix</td> <td>RFC3849</td> <td></td></tr>
+ <tr><td><tt>2002::/16</tt></td> <td>6to4 addressing</td> <td>RFC3056</td> <td></td></tr>
+ <tr><td><tt>fc00::/7</tt></td> <td>ULA</td> <td>RFC4193</td> <td></td></tr>
+ <tr><td><tt>fe80::/64</tt></td> <td>Link-local addresses</td> <td>RFC4291</td> <td></td></tr>
+ <tr><td><tt>fec0::/10</tt></td> <td>Site-local addresses </td> <td>RFC4291</td> <td>deprecated</td></tr>
+ <tr><td><tt>ff00::/8</tt></td> <td>Multicast</td> <td>RFC4291</td> <td></td></tr>
+ <tr><td><tt>ff00::/12</tt></td> <td>Globally allocated multicast</td> <td>RFC4291</td> <td></td></tr>
+ <tr><td><tt>ff10::/12</tt></td> <td>Locally allocated multicast</td> <td>RFC4291</td> <td></td></tr>
+ <tr><td><tt>ff30::/12</tt></td> <td>Unicast prefic based multicast</td> <td>RFC3306</td> <td></td></tr>
+ <tr><td><tt>ff70::/12</tt></td> <td>Multicast address with embedded RP</td> <td>RFC3956</td> <td></td></tr>
</table>
+ \endhtmlonly
- The INet6Address class is based on \c boost::array and is built as a fixed-size sequence of
- 16 bytes.
+ The following statements all create the same INet6 address
+ <code>2001:db8::a0b1:1a2b:3dff:fe4e:5f00</code>:
+ \code
+ // Used to construct constant INet6 addresses
+ INet6Address(0x2001u,0xDB8u,0x0u,0xA0B1u 0x1A2Bu,0x3DFFu,0xFE4Eu,0x5F00u)
+
+ // Construct INet6 address from it's string representation
+ INet6Address::from_string("2001:db8::a0b1:1a2b:3dff:fe4e:5f00")
+
+ // Construct an INet6 address from raw data. 'from_data' takes an arbitrary iterator (e.g. a
+ // pointer) as argument. Here we use a fixed array but normally you will need this to build
+ // an INet6 address in a packet parser
+ char rawBytes[] = { 0x20, 0x01, 0x0D, 0xB8, 0x00, 0x00, 0xA0, 0xB1,
+ 0x1a, 0x2b, 0x3d, 0xff, 0xfe, 0x4e, 0xff, 0x00 };
+ INet6Address::from_data(rawBytes)
+ \endcode
+
+ Since INet6Address class is based on \c boost::array and is built as a fixed-size sequence
+ of 16 bytes, you can access the raw data bytes of the address (in network byte order) using
+ \c begin(), \c end() or \c operator[]
+ \code
+ INet6Address ina = ...;
+ Packet::iterator i = ...;
+ std::copy(ina.begin(), ina.end(), i); // Copies 16 bytes
+ \endcode
\see CheckINet6Network \n INet6Network
\ingroup addr_group
*/
class INet6Address
: public boost::array<boost::uint8_t,16>,
- public ComparableSafeBool<INet6Address>
+ public comparable_safe_bool<INet6Address>
{
public:
///////////////////////////////////////////////////////////////////////////
// Types
- typedef boost::function<void (INet6Address const &)> Callback;
- ///< Callback for asynchronous from_string call
-
static INet6Address const None; ///< The empty (::0) address
static INet6Address const Loopback; ///< The loopback (::1) address
static INet6Address const AllNodes; ///< The 'all nodes' link-local multicast address
static INet6Address const AllRouters; ///< The 'all routers' link-local multicast address
- enum NoInit_t { noinit };
enum Resolve_t { ResolveINet6, ResolveINet4 };
/** \brief Possible scope values
///\name Structors and default members
///@{
- explicit INet6Address(NoInit_t); ///< Construct uninitialized (!) address
- INet6Address(boost::uint16_t a0=0u, boost::uint16_t a1=0u, boost::uint16_t a2=0u,
- boost::uint16_t a3=0u, boost::uint16_t a4=0u, boost::uint16_t a5=0u,
- boost::uint16_t a6=0u, boost::uint16_t a7=0u);
+ explicit INet6Address(senf::NoInit_t); ///< Construct uninitialized (!) address
+ explicit INet6Address(boost::uint16_t a0=0u, boost::uint16_t a1=0u, boost::uint16_t a2=0u,
+ boost::uint16_t a3=0u, boost::uint16_t a4=0u, boost::uint16_t a5=0u,
+ boost::uint16_t a6=0u, boost::uint16_t a7=0u);
///< Construct an address constant
+
+ static INet6Address from_in6addr(in6_addr const & in6addr); ///< Construct from std C struct
static INet6Address from_string(std::string const & s, Resolve_t resolve = ResolveINet6);
///< Convert string to address
\attention This call may block if \a s represents a
hostname which must be looked up via some network
protocol like DNS or NIS
- \throws SyntaxException if the address cannot be
+ \throws AddressSyntaxException if the address cannot be
converted for some reason
\param[in] s Address literal or hostname
\param[in] resolve If this is set to \c ResolveINet4,
the call will additionally try to interpret \a s as
- an IpV4 address if no valid IpV6 address is
- found. The address will be returned as mapped IpV6
+ an INet4 address if no valid INet6 address is
+ found. The address will be returned as mapped INet6
address. */
- static void from_string(std::string const & s, Callback const & cb,
- Resolve_t resolve = ResolveINet6);
- ///< Convert string to address (async/non-blocking)
- /**< This member works like
- from_string(std::string const &). However unlike
- from_string(std::string const &), this call will not
- block. Instead it will call \a cb passing the
- INet6Address instance as soon as the address has been
- resolved (which may be immediate if the address
- represents an IP literal). \par
- On error, the address passed to \a cb will be empty.
- \param[in] s Address literal or hostname
- \param[in] cb Callback to pass the address to
- \param[in] resolve If this is set to \c ResolveINet4,
- the call will additionally try to interpret \a s as
- an IpV4 address if no valid IpV6 address is
- found. The address will be returned as mapped IpV6
- address.
- \fixme Implement */
-
template <class InputIterator>
static INet6Address from_data(InputIterator i);
///< Construct address from 16 bytes of raw data
network byte order. */
static INet6Address from_inet4address(INet4Address addr);
- ///< Construct an IpV6-mapped IpV4 address
+ ///< Construct an INet6-mapped INet4 address
/**< This will construct an address of the form
<tt>::FFFF::w.x.y.z</tt> where <tt>w.x.y.z</tt> is
the INet4Address value. This kind of address is called
- an IpV6-mapped IpV4 address (see
+ an INet6-mapped INet4 address (see
<a href="http://tools.ietf.org/html/rfc4291">RFC 4291</a>).
\par
- IpV4 compatible IpV6 addresses are not directly
+ INet4 compatible INet6 addresses are not directly
supported, they are deprecated in the RFC. */
///@}
///////////////////////////////////////////////////////////////////////////
bool unicast() const; ///< \c true, if address is unicast
bool multicast() const; ///< \c true, if address is multicast
+ /**< To support a linux specific extension, INet4 multicast
+ addressed mapped to INet6 are also interpreted as
+ multicast addresses. This is NOT part of the standard,
+ however the standard officially only allows unicast v4
+ addresses to be mapped to v6 so this does not collide
+ with any standard conforming use. */
ScopeId scope() const; ///< Get address's scope
/**< The scope of an address is one of the \ref ScopeId
bool globalScope() const; ///< \c true, if address is global unicast or multicast
bool linkScope() const; ///< \c true, if address is link-local unicast or multicast
- INet4Address inet4address() const; ///< Return embedded IpV4 address
- /**< Returns the IpV4 address embedded within an IpV4
- compatible or IpV4 mapped unicast address. This address
- is given by the last 32 bits of the IpV6 address. \par
- The value returned is only a valid IpV4 address if
- either ipv4Compatible() or ipv4Mapped() return \c
+ INet4Address inet4address() const; ///< Return embedded INet4 address
+ /**< Returns the INet4 address embedded within an INet4
+ compatible or INet4 mapped unicast address. This address
+ is given by the last 32 bits of the INet6 address. \par
+ The value returned is only a valid INet4 address if
+ either inet4Compatible() or inet4Mapped() return \c
true. */
- bool ipv4Compatible() const; ///< \c true, if address is IpV4 compatible
- /**< IpV4 compatible IpV6 addresses are deprecated. */
- bool ipv4Mapped() const; ///< \c true, if address is IpV4 mapped
+ bool inet4Compatible() const; ///< \c true, if address is INet4 compatible
+ /**< INet4 compatible INet6 addresses are deprecated. */
+ bool inet4Mapped() const; ///< \c true, if address is INet4 mapped
bool globalMulticastAddr() const; ///< \c true, if T bit is \e not set
/**< Any multicast address with a cleared T bit must be
///@}
- /** \brief Invalid IpV6 address syntax */
- struct SyntaxException : public std::exception
- { virtual char const * what() const throw() { return "Invalid IpV6 address syntax"; } };
};
/** \brief Output INet6Address instance as it's string representation
: public detail::CheckINet6Network_impl<a0,a1,a2,a3,a4,a5,a6,a7,a8>
{};
- /** \brief IpV6 network prefix
+ /** \brief INet6 network prefix
- This class represents an IpV6 network prefix in CIDR notation.
+ This class represents an INet6 network prefix in CIDR notation.
*/
class INet6Network
: public boost::equality_comparable<INet6Network>,
- public ComparableSafeBool<INet6Network>
+ public comparable_safe_bool<INet6Network>
{
public:
///////////////////////////////////////////////////////////////////////////