15. Address Class
Object Modeling Technique
(OMT) view of the SNMP++ Address Class
15.1. What is the Network Address Class?
The network address class is a set of C++
classes which provide for simple, safe, portable and efficient use of network addresses.
Most network management applications require use of network addresses for
accessing and managing devices. This includes address validation, modification
and user interface control. Rather than manage all the internal details of
particular network addresses, the Address class encapsulates and hides the
internal mechanisms freeing the application programmer to focus on the problem
at hand. The motivation for the development of the Address class emerged from
input and discussion at the ‘95 Interop SNMP++
Birds-of-A-Feather (BOF) and from dialog with Hewlett-Packard OpenView programmers.
15.2. Why use the Network Address Class?
The address class provides a number of
benefits including: automatic memory management, address validation,
portability to any C++ environment, ease of use and extensibility. Currently,
the Address class consists of four classes, the IpAddress
Class, the IpxAddress Class, the MacAddress
class and the GenAddress class. In the future other
subclasses will be added including IP Next Generation (IPng).
15.3. Address Classes
The address classes are based around one
abstract class, the Address class. This is an abstract class. That is, there
may be no instances of this class. The Address class provides a consistent
interface through the use of virtual member functions. This allows passing
addresses to other functions using the generic interface. This minimizes code
changes to modules using addresses.
15.4. Address Classes and Interfaces
The base class, the Address class is an
abstract class. The class contains the commonality of all derived address
classes. This includes an identical interface for constructing, accessing and
mutating Addresses.
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Description |
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IpAddress Class Constructors
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IpAddress::IpAddress( void); |
Construct an empty IpAddress object. |
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IpAddress::IpAddress( const char *string); |
Construct an IpAddress
from a string, do DNS if needed. |
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IpAddress::IpAddress( const IpAddress
&ipa); |
Copy constructor. |
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IPAddress Member Functions |
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char * friendly_name( int &
status); |
Invokes DNS lookup for friendly
name. |
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UdpAddress Constructors
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UdpAddress::UdpAddress(
void); |
Construct an invalid UdpAddress Object. |
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UdpAddress::UdpAddress(
const char *string); |
Construct a
UdpAddress using a char string. |
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UdpAddress::UdpAddress(
const UdpAddress &udpa); |
Construct a
UdpAddress using another UdpAddress. |
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UdpAddress Member Functions |
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void UdpAddress:set_port( const unsigned int
p); |
Set the port number for a UdpAddress object. |
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unsigned int UdpAddress::get_port(); |
Get the port number from a UdpAddress object. |
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IpxAddress Class Constructors |
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IpxAddress::IpxAddress( void); |
Construct an empty IPX address. |
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IpxAddress::IpxAddress( const char *string); |
Construct an IPX address using a
char string. |
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IpxAddress::IpxAddress( const IpxAddress
&ipxa); |
Copy constructor. |
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IpxSockAddress Constuctors |
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IpxSockAddress::IpxSockAddress(
void); |
Construct an empty IpxSockAddress object. |
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IpxSockAddress::IpxSockAddress(
const char *string); |
Construct a
IpxSockAddress using a char string. |
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IpxSockAddress::IpxSockAddress(
const IpxSockAddress &ipxs);
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Construct a
IpxSockAddress using another IpxSockAddress. |
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IpxSockAddress Member Functions |
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IpxSockAddress::set_socket(
const unsigned int s); |
Get the socket number from a IpxSockAddress. |
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unsigned int IpxSocketAddress::get_socket(); |
Set the socket number into a IpxSockAddress. |
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MacAddress Constructors
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MacAddress::MacAddress( void); |
Construct an empty MacAddress object. |
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MacAddress::MacAddress( const char * string); |
Construct a MacAddress
from a string. |
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MacAddress::MacAddress( const MacAddress
&mac); |
Copy constructor. |
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GenAddress Constructors |
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GenAddress::GenAddress(
void); |
Construct a
invalid GenAddress object. |
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GenAddress::GenAddress(
const char * addr); |
Construct a GenAddress
using a string. |
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GenAddress::GenAddress(
const GenAddress &addr); |
Copy constructor. |
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Common
Member Functions, applicable to all Address classes |
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int operator == ( const Address &lhs, const Address rhs); |
Determine if two Addresses are
equal. |
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int operator != ( const Address &lhs, const Address
&rhs); |
Determine if two Addresses are
not equal. |
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int operator > ( const Address &lhs, const Address
&rhs); |
Determine if one Address is
greater than another. |
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int operator >= (const Address &lhs, const Address
&rhs); |
Determine if one Address is
greater than or equal. |
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int operator < ( const Address &lhs, const Address
&rhs); |
Determine if one Address is less
than another. |
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int operator<=( const Address &lhs, const Address
&rhs); |
Determine if one Address is less
than or equal to another. |
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int
operator == ( const Address &lhs, cosnt char *inaddr); |
Determine if two Addresses are
equal. |
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int operator > ( const Address &lhs, const char *inaddr); |
Determine if an Address if
greater than a string. |
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int operator < ( const Address &lhs, const char *inaddr); |
Determine if an Address is less
than a string. |
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virtual int valid( ); |
Determine if an Address is
valid. |
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unsigned
char& operator[]( int position); |
Allow access to an Address
object using array like access. |
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char * get_printable ( ); |
Returns Address formatted for
output. |
15.5. IpAddress Class Special Features
The IpAddress
class will do automatic Domain Name Services (DNS) lookup when calling the Address::get_printable() member function. If the DNS is not active or if the
address cannot be resolved, the dotted format will be returned. Alternatively,
an IpAddress can be constructed with a friendly name.
In this case the constructor will invoke the DNS lookup. If the friendly name
cannot be found, the address is invalid. This powerful feature allows you to
utilize friendly names in your IpAddress user
presentation.
15.6. GenAddress
The
GenAddress class allows creation and usage of generic
addresses where a GenAddress may take on the behavior
and attributes of any of the other Address classes ( IpAddress, IpxAddress and MacAddress). When working with arbitrary addresses, you may
use a GenAddress. The constructor for the GenAddress class allows creating an Address with any
character string. The constructor determines the specific type of Address which
matches the string and thereafter gives the GenAddress
the attributes and behavior of that Address. This saves the programmer from
having to write code which explicitly deals with the differences across
Addresses.
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GenAddress Examples GenAddress address1(“10.4.8.5”);
// make an IP GenAddress GenAddress address2(“01020304-10111213141516”); // make an IPX GenAddress GenAddress address3(“ cout
<< address3.get_printable();
// print out the GenAddress if ( !address1.valid()) // check validity cout << “address1 ! valid”; |
15.7. Address Class Validation
All address classes support the ::valid() member function. The ::valid()
member function returns the validity of the particular address object.
Validation is determined when constructing or assigning address objects. After assignment, the
::valid() member function may be used to determine validity.
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Address Class Validation Examples MacAddress
mac; mac
= “01.010a0d”; // invalid MAC address printf(“%s”, (mac.valid() ? “Valid” :”Invalid”)); |
15.8. UdpAddresses and IpxSockAddresses
For
most usage, users of SNMP++ will utilize the well know port and socket numbers
for SNMP operations. For the Internet Protocol (IP) this includes using port
161 for an agent’s destination port and port 162 for the trap / notification
reception port. There are time when alternate port /
socket specification is required. For these instances, the UdpAddress
class and IpxSockAddress class allow definition of
port or socket information.
15.8.1.Using UdpAddresses for Making Requests
When
requesting information from an agent which does not listen on the standard well
know port, the UdpAddress
class should be used. The UdpAddress class supports
two member functions for setting and getting custom port information. Attaching
a UdpAddress to a Target and
using it for requests will cause SNMP++ to utilize the custom port number.
15.8.2.Using IpxSockAddresses for Making Requests
When
requesting information from an agent which does not listen on the standard well
know IPX socket number, the IpxSockAddress
class should be used. The IpxSockAddress class
supports two member functions for setting and getting custom socket number
information. Attaching a IpxSockAddress
to a Target and using it for requests will cause SNMP++ to utilize the custom
socket number.
15.8.3.Using UdpAddress and IpxSockAddress
for Notification Reception
UdpAddresses
and IpxSockAddresses may also be used to specify
alternate ports and sockets for notification reception. This allows
applications to receive traps and informs on non standard ports and socket
numbers.
15.9.
Valid
Address Formats
Valid Address formats for addresses are currently
defined as:
Valid IP format BNF
Grammar XXX.XXX.XXX.XXX
ip-address : ip-token DOT ip-token DOT ip-token DOT ip-token
DOT : ‘.’
ip-token : [0-255]
Valid IPX format BNF GrammarXXXXXXXX:XXXXXXXXXXXX
ipx-address: net-id SEPARATOR mac-id
SEPARATOR : ‘ ‘ | ‘:’ | ‘-’ | ‘.’
net_id : 1{byte-token}4
mac-id: 1{byte-token}6
byte-token: 1{byte}2
byte: [0-9|a-f|A-F]
Valid MAC format BNF
Grammar XX:XX:XX:XX:XX:XX
mac-id: byte_token
colon byte_token colon byte_token
colon byte_token colon byte_token
byte-token: 1{byte}2
byte: [0-9|a-f|A-F]
colon: ‘:’
15.10.
Address Class Examples
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// address class examples #include “address.h” void address_examples() { //--------------[ IPAddress
construction ]------------------------------------------------------ IpAddress ip1();
// makes an invalid IpAddress
object IpAddress ip2(“10.4.8.5”);
// makes a IpAddress verifies dotted format IpAddress ip3(ip2);
// makes an IpAddress
using another IpAddress
IpAddress ip4(“trout.rose.hp.com”); // makes an IpAddress
does DNS on string //-------------[ IPX Address construction
]----------------------------------------------------- IpxAddress ipx1();
// makes an invalid IPX address IpxAddress ipx2(”); // makes and verifies an IPX address IpxAddress ipx3( ipx2);
// makes an IPX from another IPX //--------------[ MAC Address construction
]----------------------------------------------------- MacAddress mac1(); //
makes an invalid MAC address MacAddress mac2(“
MacAddress mac3( mac2);
// makes a MAC from another MAC //---------------[
Gen Address Construction
]-----------------------------------------------------
GenAddress addr1(“10.4.8.5”); GenAddress addr2(“01020304:050607080900”); //--------------[ printing addresses
]---------------------------------------------------------------- cout << (char *) ip2; cout << (char *) ipx2; cout << (char *) mac2; //---------------[
assigning Addresses
]------------------------------------------------------------ ip1 = “15.29.33.10”; ipx1 = “00000001-080912345212”; mac1 = “ //--------------[
comparing Addresses
]---------------------------------------------------------- if (
ip1 == ip2) cout << “ip1 == ip2”; if
(ipx1 != ipx2) cout << “ipx1 != ipx2”; if (
mac1 <= mac2) cout << “mac1 < mac2”; //---------------[ modifying an address
]----------------------------------------------------------- mac1[4] = 15; cout << mac2[2]; }; // end address examples |