class IPv6

IPv6 address class. More...

 
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Detailed Description

The IPv6 address class is a trivial class for handling IPv6 addresses and for performing operations on them such as printing and masking.

typedef struct in6_addr InAddrType

InAddrType

typedef struct sockaddr_in6 SockAddrType

SockAddrType

 IPv6 ()

IPv6

Default constructor

The address value is initialized to IN6ADDR_ANY.

explicit  IPv6 (const uint8_t *from_uint8)

IPv6

Constructor from a (uint8_t *) memory pointer.

Parameters:

from_uint8the pointer to the memory to copy the address value from.
explicit  IPv6 (const uint32_t *from_uint32)

IPv6

Constructor from a (uint32_t *) memory pointer.

Parameters:

from_uint32the pointer to the memory to copy the address value from.
 IPv6 (const in6_addr& from_in6_addr)

IPv6

Constructor from in6_addr structure.

Parameters:

from_in6_addrthe storage to copy the address value from.
 IPv6 (const sockaddr& sa)
throw (InvalidFamily)

IPv6

Constructor from sockaddr structure.

Parameters:

sasockaddr to construct IPv6 addr from.
 IPv6 (const sockaddr_in6& sin)
throw (InvalidFamily)

IPv6

Constructor from sockaddr_in6 structure.

Parameters:

sinsockaddr_in6 to construct IPv6 addr from.
 IPv6 (const char *from_cstring)
throw (InvalidString)

IPv6

Constructor from a string.

Parameters:

from_cstringC-style string in the IPv6 canonical human-readable. format used for initialization.
size_t  copy_out (uint8_t *to_uint8)

copy_out

[const]

Copy the IPv6 raw address to specified memory location.

@param: to_uint8 the pointer to the memory to copy the address to.

Returns: the number of copied octets.

size_t  copy_out (in6_addr& to_in6_addr)

copy_out

[const]

Copy the IPv6 raw address to an in6_addr structure.

Parameters:

to_in6_addrthe storage to copy the address to.

Returns: the number of copied octets.

size_t  copy_out (sockaddr& to_sockaddr)

copy_out

[const]

Copy the IPv6 raw address to a sockaddr structure.

Copy the raw address held within an IPv6 instance to an sockaddr structure and assign appropriately and set fields within sockaddr appropriately.

Parameters:

to_sockaddrthe storage to copy the address to.

Returns: the number of copied octets.

size_t  copy_out (sockaddr_in6& to_sockaddr_in6)

copy_out

[const]

Copy the IPv6 raw address to a sockaddr_in6 structure.

Copy the raw address held within an IPv6 instance to a sockaddr_in6 structure and assign appropriately and set fields within sockaddr_in appropriately.

Parameters:

to_sockaddr_in6the storage to copy the address to.

Returns: the number of copied octets.

size_t  copy_in (const uint8_t *from_uint8)

copy_in

Copy a raw IPv6 address from specificed memory location into IPv6 structure.

Parameters:

from_uint8the memory address to copy the address from.

Returns: the number of copied octets.

size_t  copy_in (const in6_addr& from_in6_addr)

copy_in

Copy a raw IPv6 address from a in6_addr structure into IPv6 structure.

Parameters:

from_in6_addrthe storage to copy the address from.

Returns: the number of copied octets.

size_t  copy_in (const sockaddr& from_sockaddr)
throw (InvalidFamily)

copy_in

Copy a raw IPv6 address from a sockaddr structure into IPv6 structure.

Note that the address in the sockaddr structure must be of IPv6 address family.

Parameters:

from_sockaddrthe storage to copy the address from.

Returns: the number of copied octets.

size_t  copy_in (const sockaddr_in6& from_sockaddr_in6)
throw (InvalidFamily)

copy_in

Copy a raw address from sockaddr_in6 structure into IPv6 structure.

Note that the address in the sockaddr structure must be of IPv6 address family.

Parameters:

from_sockaddr_in6the storage to copy the address from.

Returns: the number of copied octets.

inline IPv6  operator~ ()

operator~

[const]

Bitwise-Negation Operator

Returns: address complement (i.e., all 0s become 1s, and vice-versa).

inline IPv6  operator| (const IPv6& other)

operator|

[const]

OR Operator

Parameters:

otherthe right-hand operand to OR with.

Returns: bitwise OR of two addresses.

inline IPv6  operator& (const IPv6& other)

operator&

[const]

AND Operator

Parameters:

otherthe right-hand operand to AND with.

Returns: bitwise AND of two addresses.

inline IPv6  operator^ (const IPv6& other)

operator^

[const]

XOR Operator

Parameters:

otherthe right-hand operand to XOR with.

Returns: bitwize eXclusive-OR of two addresses.

IPv6  operator<< (uint32_t left_shift)

operator<<

[const]

Operator <<

Parameters:

left_shiftthe number of bits to shift to the left.

Returns: IPv6 address that is shift bitwise to the left.

IPv6  operator>> (uint32_t right_shift)

operator>>

[const]

Operator >>

Parameters:

right_shiftthe number of bits to shift to the right.

Returns: IPv6 address that is shift bitwise to the right.

bool  operator< (const IPv6& other)

operator<

[const]

Less-Than Operator

Parameters:

otherthe right-hand operand to compare against.

Returns: true if the left-hand operand is numerically smaller than the right-hand operand.

bool  operator== (const IPv6& other)

operator==

[const]

Equality Operator

Parameters:

otherthe right-hand operand to compare against.

Returns: true if the left-hand operand is numerically same as the right-hand operand.

bool  operator!= (const IPv6& other)

operator!=

[const]

Not-Equal Operator

Parameters:

otherthe right-hand operand to compare against.

Returns: true if the left-hand operand is numerically not same as the right-hand operand.

bool  operator== (const IPv6Range& rhs)

operator==

[const]

Equality Operator for IPv6 against IPv6Range operand.

Parameters:

rhsthe right-hand IPv6Range operand.

Returns: true if the value of the left-hand operand falls inside the range defined by the right-hand operand.

bool  operator!= (const IPv6Range& rhs)

operator!=

[const]

Non-equality Operator for IPv6 against IPv6Range operand.

Parameters:

rhsthe right-hand IPv6Range operand.

Returns: true if the value of the left-hand operand falls outside the range defined by the right-hand operand.

bool  operator< (const IPv6Range& rhs)

operator<

[const]

Less-than comparison for IPv6 against IPv6Range operand.

Parameters:

rhsthe right-hand IPv6Range operand.

Returns: true if the value of the left-hand operand is bellow the range defined by the right-hand operand.

bool  operator<= (const IPv6Range& rhs)

operator<=

[const]

Less-than or equal comparison for IPv6 against IPv6Range

Parameters:

rhsthe right-hand IPv6Range operand.

Returns: true if the value of the left-hand operand is bellow or within the range defined by the right-hand operand.

bool  operator> (const IPv6Range& rhs)

operator>

[const]

Greater-than comparison for IPv6 against IPv6Range operand.

Parameters:

rhsthe right-hand IPv6Range operand.

Returns: true if the value of the left-hand operand is above the range defined by the right-hand operand.

bool  operator>= (const IPv6Range& rhs)

operator>=

[const]

Greater-than or equal comparison for IPv6 against IPv6Range

Parameters:

rhsthe right-hand IPv6Range operand.

Returns: true if the value of the left-hand operand is above or within the range defined by the right-hand operand.

IPv6&  operator-- ()

operator--

Decrement Operator

The numerical value of this address is decremented by one. However, if the address value before the decrement was all-0s, after the decrement its value would be all-1s (i.e., it will wrap-around).

Returns: a reference to this address after it was decremented by one.

IPv6&  operator++ ()

operator++

Increment Operator

The numerical value of this address is incremented by one. However, if the address value before the increment was all-1s, after the increment its value would be all-0s (i.e., it will wrap-around).

Returns: a reference to this address after it was incremented by one.

string  str ()

str

[const]

Convert this address from binary form to presentation format.

Returns: C++ string with the human-readable ASCII representation of the address.

inline bool  is_zero ()

is_zero

[const]

Test if this address is numerically zero.

Returns: true if the address is numerically zero.

bool  is_unicast ()

is_unicast

[const]

Test if this address is a valid unicast address.

Returns: true if the address is a valid unicast address.

bool  is_multicast ()

is_multicast

[const]

Test if this address is a valid multicast address.

Returns: true if the address is a valid multicast address.

bool  is_linklocal_unicast ()

is_linklocal_unicast

[const]

Test if this address is a valid link-local unicast address.

Returns: true if the address is a valid unicast address, and the scope of the address is link-local.

bool  is_nodelocal_multicast ()

is_nodelocal_multicast

[const]

Test if this address is a valid node-local multicast address.

Returns: true if the address is a valid multicast address, and the scope of the address is node-local.

bool  is_linklocal_multicast ()

is_linklocal_multicast

[const]

Test if this address is a valid link-local multicast address.

Returns: true if the address is a valid multicast address, and the scope of the address is link-local.

bool  is_loopback ()

is_loopback

[const]

Test if this address is the loopback address.

Returns: true if the address is the loopback address.

inline size_t  addr_size ()

addr_size

[static]

Get the address octet-size.

Note that this is a static function and can be used without a particular object. Example: size_t my_size = IPv6::addr_size(); OK size_t my_size = ipv6.addr_size(); OK

Returns: address size in number of octets.

inline uint32_t  addr_bitlen ()

addr_bitlen

[static]

Get the address bit-length.

Note that this is a static function and can be used without a particular object. Example: uint32_t my_bitlen = IPv6::addr_bitlen(); OK uint32_t my_bitlen = ipv6.addr_bitlen(); OK

Returns: address size in number of bits.

uint32_t  ip_multicast_base_address_mask_len ()

ip_multicast_base_address_mask_len

[static]

Get the mask length for the multicast base address.

Note that this is a static function and can be used without a particular object. Example: size_t my_len = IPv6::ip_multicast_base_address_mask_len(); OK size_t my_len = ipv6.ip_multicast_base_address_mask_len(); OK

Returns: the multicast base address mask_len for family AF_INET6.

const IPv6&  make_prefix (uint32_t mask_len)
throw (InvalidNetmaskLength)

make_prefix

[static]

Make an IPv6 mask prefix.

Parameters:

mask_lenthe length of the mask to create.

Returns: a new IPv6 address that contains a mask of length mask_len.

inline IPv6  mask_by_prefix_len (uint32_t prefix_len)
throw (InvalidNetmaskLength)

mask_by_prefix_len

[const]

Make an IPv6 address prefix.

Parameters:

prefix_lenthe length of the mask of the prefix to create.

Returns: a new IPv6 address created by masking this address with a mask of length prefix_len.

uint32_t  mask_len ()

mask_len

[const]

Get the mask length.

Returns: the prefix length of the contiguous mask presumably stored as an IPv6 address.

const uint32_t * addr ()

addr

[const]

Get the uint32_t raw value of this address.

Returns: the value of this IPv6 address as a pointer to an array of 4 unsigned 32-bit integers.

void  set_addr (const uint8_t *from_uint8)

set_addr

Set the address value.

Parameters:

fromthe pointer to an array of 16 8-bit unsigned integers with the value to set this address to.
enum { AF = AF_INET6 }

Constant for address family

enum { IPV = 6 }

Constant for IP protocol version

inline const int  af ()

af

[static]

Get the address family.

Returns: the address family of this address.

inline const uint32_t  ip_version ()

ip_version

[static]

Get the IP protocol version.

Returns: the IP protocol version of this address.

const string&  ip_version_str ()

ip_version_str

[static]

Get the human-readable string with the IP protocol version.

Returns: the human-readable string with the IP protocol version of this address.

inline uint32_t  bits (uint32_t lsb, uint32_t len)

bits

[const]

Extract bits from an address.

Parameters:

lsbstarting bit position (from the right) to extract.
lennumber of bits to extract. The maximum value is 32.

Returns: the first len bits starting from the rightmost position lsb. The returned bits are in host order.

inline uint32_t  bit_count ()

bit_count

[const]

Count the number of bits that are set in this address.

Returns: the number of bits that are set in this address.

inline uint32_t  leading_zero_count ()

leading_zero_count

[const]

Count the number of leading zeroes in this address.

Returns: the number of leading zeroes in this address.

inline const IPv6&  ZERO (int af = AF_INET6)

ZERO

[static]

Pre-defined IPv6 address constants.

inline const IPv6&  ANY (int af = AF_INET6)

ANY

[static]

inline const IPv6&  ALL_ONES (int af = AF_INET6)

ALL_ONES

[static]

inline const IPv6&  LOOPBACK (int af = AF_INET6)

LOOPBACK

[static]

inline const IPv6&  MULTICAST_BASE (int af = AF_INET6)

MULTICAST_BASE

[static]

inline const IPv6&  MULTICAST_ALL_SYSTEMS (int af = AF_INET6)

MULTICAST_ALL_SYSTEMS

[static]

inline const IPv6&  MULTICAST_ALL_ROUTERS (int af = AF_INET6)

MULTICAST_ALL_ROUTERS

[static]

inline const IPv6&  DVMRP_ROUTERS (int af = AF_INET6)

DVMRP_ROUTERS

[static]

inline const IPv6&  OSPFIGP_ROUTERS (int af = AF_INET6)

OSPFIGP_ROUTERS

[static]

inline const IPv6&  OSPFIGP_DESIGNATED_ROUTERS (int af = AF_INET6)

OSPFIGP_DESIGNATED_ROUTERS

[static]

inline const IPv6&  RIP2_ROUTERS (int af = AF_INET6)

RIP2_ROUTERS

[static]

inline const IPv6&  PIM_ROUTERS (int af = AF_INET6)

PIM_ROUTERS

[static]

inline const IPv6&  SSM_ROUTERS (int af = AF_INET6)

SSM_ROUTERS

[static]

static const uint32_t ADDR_BITLEN

ADDR_BITLEN


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