1-2
z
Inform operation: The NMS sends traps to other NMSs through this operation.
SNMP Protocol Version
Currently, SNMP agents support SNMPv3 and are compatible with SNMPv1 and SNMPv2c.
z
SNMPv1 uses community names for authentication, which defines the relationship between an
SNMP NMS and an SNMP agent. SNMP packets with community names that did not pass the
authentication on the device will simply be discarded. A community name performs a similar role as
a password to regulate access from the NMS to the agent.
z
SNMPv2c uses community names for authentication. Compatible with SNMPv1, it extends the
functions of SNMPv1. SNMPv2c provides more operation modes such as GetBulk and
InformRequest; it supports more data types such as Counter64 and provides various error codes,
thus being able to distinguish errors in more detail.
z
SNMPv3 offers an authentication mechanism that is implemented based on the User-based
Security Model (USM). You can set the authentication and privacy functions. The former is used to
authenticate the validity of the sending end of the authentication packets, preventing access of
unauthorized users; the latter is used to encrypt packets between the NMS and agents, preventing
the packets from being intercepted. USM ensures a more secure communication between SNMP
NMS and SNMP agent by authentication with privacy, authentication without privacy, or no
authentication no privacy.
Successful interaction between an NMS and the agents requires consistency of SNMP versions
configured on them. You can configure multiple SNMP versions for an agent to interact with different
NMSs.
MIB Overview
Any managed resource can be identified as an object, which is known as the managed object.
Management Information Base (MIB) is a collection of all the managed objects. It defines the hierarchy
of the objects and a set of characteristics associated with the managed objects, such as the object
identifier (OID), access right and data type. Each agent has its own MIB. An NMS can read or write the
managed objects in the MIB. The relationship between an NMS, agent and MIB is shown in
Figure 1-1
.
Figure 1-1
Relationship between an NMS, agent and MIB
MIB stores data using a tree structure. Each node of the tree represents a managed object that can be
uniquely identified by a path starting from the root node. As illustrated in the following figure, the
managed object B can be uniquely identified by a string of numbers {1.2.1.1}. This string is the OID of
the managed object B.
Содержание S7902E
Страница 82: ...1 4 DeviceA interface tunnel 1 DeviceA Tunnel1 service loopback group 1 ...
Страница 200: ...1 11 DeviceB display vlan dynamic No dynamic vlans exist ...
Страница 494: ...ii Displaying and Maintaining Tunneling Configuration 1 45 Troubleshooting Tunneling Configuration 1 45 ...
Страница 598: ...ii ...
Страница 1757: ...4 9 ...
Страница 1770: ...6 4 ...
Страница 2017: ...2 11 Figure 2 3 SFTP client interface ...
Страница 2062: ...i Table of Contents 1 URPF Configuration 1 1 URPF Overview 1 1 What is URPF 1 1 How URPF Works 1 1 Configuring URPF 1 2 ...
Страница 2238: ...1 16 DeviceA cfd linktrace service instance 1 mep 1001 target mep 4002 ...
Страница 2442: ...2 4 Set the interval for sending Syslog or trap messages to 20 seconds Device mac address information interval 20 ...