/** \brief INet6 network address
- This implementation of an INet6 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 (INet6) Addressing Architecture. This class provides accessors to all the
information fields defined in this document.
2002::/16 prefix
\li <a href="http://tools.ietf.org/html/rfc3849">RFC 3849</a>:
INet6 Address Prefix Reserved for Documentation. Defines the 2001:db8::/32 prefix
-
+
Here an overview of well-known prefixes:
\htmlonly
/** \brief Possible scope values
List of all possible scope values. This list includes all scope values defined for
- multicast addresses in <a href="http://tools.ietf.org/html/rfc4291">RFC 4291</a>.
- The values \ref LinkScope, \ref SiteScope and \ref GlobalScope are also used with
+ multicast addresses in <a href="http://tools.ietf.org/html/rfc4291">RFC 4291</a>.
+ The values \ref LinkScope, \ref SiteScope and \ref GlobalScope are also used with
unicast addresses.
*/
enum ScopeId {
, ReservedScope = 0 /**< Reserved scope value */
, UnassignedScope = 6 /**< Unassigned scope, may be defined locally */
- };
+ };
///////////////////////////////////////////////////////////////////////////
///\name Structors and default members
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);
protocol like DNS or NIS
\throws AddressSyntaxException if the address cannot be
converted for some reason
- \param[in] s Address literal or hostname
+ \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 INet4 address if no valid INet6 address is
found. The address will be returned as mapped INet6
address. */
- template <class InputIterator>
+ template <class InputIterator>
static INet6Address from_data(InputIterator i);
///< Construct address from 16 bytes of raw data
/**< from_data will build an address from 16 bytes of raw
data as accessed by the iterator. The data must be in
network byte order. */
- static INet6Address from_inet4address(INet4Address addr);
+ static INet6Address from_inet4address(INet4Address const & addr);
///< 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 INet6-mapped INet4 address (see
+ an INet6-mapped INet4 address (see
<a href="http://tools.ietf.org/html/rfc4291">RFC 4291</a>).
- \par
+ \par
INet4 compatible INet6 addresses are not directly
supported, they are deprecated in the RFC. */
- std::string toString() const;
- ///< get the string representation of this INet6Address
- in6_addr toin6_addr() const;
- ///< get the linux in6_addr struct (convinience only)
-
-
+ in6_addr toin6_addr() const; ///< get the linux in6_addr struct (convinience only)
+
///@}
///////////////////////////////////////////////////////////////////////////
///\name Accessors
site or global scope (where site scope is deprecated),
multicast address can have a number of scope values of
which local, site and global are a few. See the \ref
- ScopeId enumerators. */
+ ScopeId enumerators. */
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
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. */
+ true. */
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
- globally assigned. See
+ globally assigned. See
<a href="http://tools.ietf.org/html/rfc4291">RFC 4291</a>. */
bool prefixMulticastAddr() const; ///< \c true, if P bit is set
/**< In <a href="http://tools.ietf.org/html/rfc4291">RFC 4291</a>,
the P bit is specified as defining a
- unicast prefix based multicast address. See
- <a href="http://tools.ietf.org/html/rfc3306">RFC 3306</a>. */
+ unicast prefix based multicast address. See
+ <a href="http://tools.ietf.org/html/rfc3306">RFC 3306</a>. */
bool embeddedRpAddr() const; ///< \c true, if R bit is set
/**< In <a href="http://tools.ietf.org/html/rfc4291">RFC 4291</a>,
- the R bit is specified as defining a multicast address
+ the R bit is specified as defining a multicast address
with embedded rendezvous point. See
<a href="http://tools.ietf.org/html/rfc3956">RFC 3956</a>. */
///@}
///\name Mutators
///@{
-
+
void network(boost::uint64_t net); ///< Set network part of address
void id(boost::uint64_t id); ///< Set interface id part of address
\related INet6Address
*/
std::ostream & operator<<(std::ostream & os, INet6Address const & addr);
+ /** \brief Try to initialize INet6Address instance from a string representation
+ sets std::ios::failbit on the stream if an error occurred
+ \see INet6Address from_string()
+ \related INet6Address
+ */
+ std::istream & operator>>(std::istream & is, INet6Address & addr);
/** \brief Check INet6Address against a fixed network prefix
-
+
This helper allows to easily and efficiently check an INet6Address against an arbitrary but
constant network prefix. It takes from 1 to 8 arguments for the network address and an
additional last argument providing the prefix length. So
... <tt>,</tt> <i>prefix_len</i> <tt>></tt>
represents the network
-
+
\par ""
<i>addr_1</i> <tt>:</tt> <i>addr_2</i> <tt>:</tt> ... <tt>::/</tt> <i>prefix_len</i> .
The class exposes a single static member <tt>match(</tt> <i>addr</i> <tt>)</tt> which
matches the INet6Address \a addr against the prefix:
-
+
\code
if (senf::CheckINet6Network<0x2000u,0xDB8u,32u>::match(addr)) {
// 'addr' is within in the 2001:db8::/32 documentation-only network
template <unsigned a0, unsigned a1, unsigned a2=0u, unsigned a3=0u, unsigned a4=0u,
unsigned a5=0u, unsigned a6=0u, unsigned a7=0u, unsigned a8=0u>
struct CheckINet6Network
+#ifndef DOXYGEN
: public detail::CheckINet6Network_impl<a0,a1,a2,a3,a4,a5,a6,a7,a8>
+#endif
{};
/** \brief INet6 network prefix
- This class represents an INet6 network prefix in CIDR notation.
+ This class represents an INet6 network prefix in CIDR notation.
*/
class INet6Network
- : public boost::equality_comparable<INet6Network>,
+ : public boost::equality_comparable<INet6Network>,
public comparable_safe_bool<INet6Network>
{
public:
///@{
INet6Network(); ///< Construct empty (::/0) network
- INet6Network(INet6Address address, unsigned prefix_len);
+ INet6Network(INet6Address const & address, unsigned prefix_len);
///< Construct network from given address and prefix length
- explicit INet6Network(std::string s); ///< Construct network from CIDR notation
+ explicit INet6Network(std::string const & s); ///< Construct network from CIDR notation
///@}
///////////////////////////////////////////////////////////////////////////
bool boolean_test() const; ///< \c true, if INet6Network is non-empty
bool operator==(INet6Network const & other) const;
///< Compare two networks for equality
-
- bool match(INet6Address addr) const; ///< \c true, if the network includes \a addr
- bool match(INet6Network net) const; ///< \c true, if the network includes \a net
+
+ bool match(INet6Address const & addr) const; ///< \c true, if the network includes \a addr
+ bool match(INet6Network const & net) const; ///< \c true, if the network includes \a net
/**< The is true, if \a net is sub-network (or the same as)
\c this. */
INet6Address host(boost::uint64_t id); ///< Return the host with the given id
\code
INet6Network("2001:db8::/32").subnet(0x12u,40u) == INet6Network("2001:db8:1200::/40")
INet6Network("2001:db8:1200::/40").subnet(0x2345,64u) == INet6Network("2001:db8:1200:2345::/64")
- \endcode
+ \endcode
\param[in] net network number
\param[in] prefix_len length of subnet prefix */
#include "INet6Address.cti"
#endif
-\f
+
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