Reference Guide
26 Introduction
SNMP is a systems management standard originally designed for network management. SNMP manages
much more than networks. Information Technology (IT) professionals use SNMP for monitoring and
managing computer systems and the various components and peripherals supported by their systems.
SNMP standards are defined by the Internet Engineering Task Force (IETF). SNMP version 1 was
published in August 1988 and is the most commonly supported version of SNMP. SNMP version 2 was
first published in May 1993, but has not gained widespread market acceptance. SNMP version 3 was
recently completed and has addressed security issues that exist in version 1.
All SNMP systems consist of one or more managed systems that provide data through an SNMP agent to
a management system. The management system provides a user interface to view data from the
managed systems. The management system and managed systems communicate over a network
(typically through User Datagram Protocol/Internet Protocol [UDP/IP]).
The management system and a managed system communicate by means of a common data schema.
SNMP MIB files define the structure, type, and values of the SNMP data. While MIBs can be
standardized or enterprise specific, most operating systems supply SNMP agents for the standard MIB-I
and MIB-II schemas. MIB-I defines a base set of standard management information for systems
implementing the Internet Protocol (IP) suite. MIB-II defines characteristics of the system,
characteristics of network interfaces, and characteristics of components of the IP on the system.
In addition to the standard MIBs, many hardware vendors have defined MIBs that provide management
data specific to their systems and peripheral devices.
Monitored data can be retrieved through SNMP using the Get command. Typically, this command
requires the host name or IP address of the target machine as well as the OID of the data to retrieve.
Exact details are dependent on the operating system and the development tools being used to create the
management application. The Get command has a variant known as GetNext.
SNMP MIB OIDs
Each data class within an MIB is defined by an OID. OIDs are unique across all MIBs. An OID consists
of a series of digits separated by periods. The OID functions in a similar fashion to a phone number.
The phone number 011-512-471-0000 uniquely identifies a single phone. The phone number can be broken
down into a number of components to uniquely identify a phone. The first component, 011, is the
country code for the United States. The second component, 512, identifies the area code for central Texas.
The third component, 471, is the phone exchange for a large state university in the city of Austin.
The final component, 0000, is the main switchboard.
There are two main differences between the phone number example and an actual OID. The first
difference is that there are many more components in an OID, up to 128. The combination of these
components is called an OID prefix. The second difference is that OIDs support the concept of indexes
or keys. The OID prefix specifies the data class but does not specify an instance of the data within the class.
Indexes can be used to identify the instances of a data class. These indexes are referred to as the OID suffix.