Cisco IOS Software Configuration Guide for Cisco Aironet 1300 Series Outdoor Access Point/Bridge 12.3(7)JA
Configuring SNMP
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Table Of Contents

Configuring SNMP

Understanding SNMP

SNMP Versions

SNMP Manager Functions

SNMP Agent Functions

SNMP Community Strings

Using SNMP to Access MIB Variables

Configuring SNMP

Default SNMP Configuration

Enabling the SNMP Agent

Configuring Community Strings

Configuring Trap Managers and Enabling Traps

Setting the Agent Contact and Location Information

Using the snmp-server view Command

SNMP Examples

Displaying SNMP Status


Configuring SNMP

This chapter describes how to configure the Simple Network Management Protocol (SNMP) on your access point.

Note For complete syntax and usage information for the commands used in this chapter, refer to the Cisco IOS Command Reference for Cisco Aironet Access Points and Bridges for this release and to the Cisco IOS Configuration Fundamentals Command Reference for Release 12.3.

This chapter consists of these sections:

Understanding SNMP

Configuring SNMP

Configuring SNMP

Understanding SNMP

SNMP is an application-layer protocol that provides a message format for communication between SNMP managers and agents. The SNMP manager can be part of a network management system (NMS) such as CiscoWorks. The agent and management information base (MIB) reside on the access point. To configure SNMP on the access point, you define the relationship between the manager and the agent.

The SNMP agent contains MIB variables whose values the SNMP manager can request or change. A manager can get a value from an agent or store a value into the agent. The agent gathers data from the MIB, the repository for information about device parameters and network data. The agent can also respond to a manager's requests to get or set data.

An agent can send unsolicited traps to the manager. Traps are messages alerting the SNMP manager to a condition on the network. Traps can mean improper user authentication, restarts, link status (up or down), MAC address tracking, closing of a TCP connection, loss of connection to a neighbor, or other significant events.

This section includes these concepts:

SNMP Versions

SNMP Manager Functions

SNMP Agent Functions

SNMP Community Strings

Using SNMP to Access MIB Variables

SNMP Versions

This software release supports these SNMP versions:

SNMPv1—The Simple Network Management Protocol, a full Internet standard, defined in RFC 1157.

SNMPv2C, which has these features:

SNMPv2—Version 2 of the Simple Network Management Protocol, a draft Internet standard, defined in RFCs 1902 through 1907.

SNMPv2C—The Community-based Administrative Framework for SNMPv2, an experimental Internet protocol defined in RFC 1901.

SNMPv3, which has these features:

Support for SHA and MD5 authentication protocols and DES56 encryption.

Three security levels: no authentication and no privacy (NoAuthNoPriv), authentication and no privacy (AuthNoPriv), and authentication and privacy (AuthPriv).

SNMPv3 supports the highest available levels of security for SNMP communication. Community strings for SNMPv1 and SNMPv2 are stored and transferred as plain text without encryption. In the SNMPv3 security model, SNMP users authenticate and join a user group. Access to system data is restricted based on the group.

You must configure the SNMP agent to use the version of SNMP supported by the management station. An agent can communicate with multiple managers; therefore, you can configure the software to support communications with one management station using the SNMPv3 protocol and another using the SNMPv2 or SNMPv1 protocol.

Table 17-1 lists the SNMP versions and security levels supported on access points:

Table 17-1 SNMP Versions and Security Levels

SNMP Version
Security Level
Authentication
Encryption

v1

NoAuthNoPriv

Community string match

None

v2C

NoAuthNoPriv

Community string match

None

v3

NoAuthNoPriv

Username match

None

v3

AuthNoPriv

HMAC-MD5 or HMAC-SHA algorithms

None

v3

AuthPriv

HMAC-MD5 or HMAC-SHA algorithms

DES 56-bit encryption


SNMP Manager Functions

The SNMP manager uses information in the MIB to perform the operations described in Table 17-2.

Table 17-2 SNMP Operations 

Operation
Description

get-request

Retrieves a value from a specific variable.

get-next-request

Retrieves a value from a variable within a table.1

get-bulk-request2

Retrieves large blocks of data that would otherwise require the transmission of many small blocks of data, such as multiple rows in a table.

get-response

Replies to a get-request, get-next-request, and set-request sent by an NMS.

set-request

Stores a value in a specific variable.

trap

An unsolicited message sent by an SNMP agent to an SNMP manager when some event has occurred.

1 With this operation, an SNMP manager does not need to know the exact variable name. A sequential search is performed to find the needed variable from within a table.

2 The get-bulk command works only with SNMPv2.


SNMP Agent Functions

The SNMP agent responds to SNMP manager requests as follows:

Get a MIB variable—The SNMP agent begins this function in response to a request from the NMS. The agent retrieves the value of the requested MIB variable and responds to the NMS with that value.

Set a MIB variable—The SNMP agent begins this function in response to a message from the NMS. The SNMP agent changes the value of the MIB variable to the value requested by the NMS.

The SNMP agent also sends unsolicited trap messages to notify an NMS that a significant event has occurred on the agent. Examples of trap conditions include, but are not limited to, when a port or module goes up or down, when spanning-tree topology changes occur, and when authentication failures occur.

SNMP Community Strings

SNMP community strings authenticate access to MIB objects and function as embedded passwords. In order for the NMS to access the access point, the community string definitions on the NMS must match at least one of the three community string definitions on the access point.

A community string can have one of these attributes:

Read-only—Gives read access to authorized management stations to all objects in the MIB except the community strings, but does not allow write access

Read-write—Gives read and write access to authorized management stations to all objects in the MIB, but does not allow access to the community strings

Using SNMP to Access MIB Variables

An example of an NMS is the CiscoWorks network management software. CiscoWorks 2000 software uses the access point MIB variables to set device variables and to poll devices on the network for specific information. The results of a poll can be displayed as a graph and analyzed to troubleshoot internetworking problems, increase network performance, verify the configuration of devices, monitor traffic loads, and more.

As shown in Figure 17-1, the SNMP agent gathers data from the MIB. The agent can send traps (notification of certain events) to the SNMP manager, which receives and processes the traps. Traps are messages alerting the SNMP manager to a condition on the network such as improper user authentication, restarts, link status (up or down), MAC address tracking, and so forth. The SNMP agent also responds to MIB-related queries sent by the SNMP manager in get-request, get-next-request, and set-request format.

Figure 17-1 SNMP Network

For information on supported MIBs and how to access them, see "Supported MIBs."

Configuring SNMP

This section describes how to configure SNMP on your access point. It contains this configuration information:

Default SNMP Configuration

Enabling the SNMP Agent

Configuring Community Strings

Configuring Trap Managers and Enabling Traps

Setting the Agent Contact and Location Information

Using the snmp-server view Command

SNMP Examples

Default SNMP Configuration

Table 17-3 shows the default SNMP configuration.

Table 17-3 Default SNMP Configuration 

Feature
Default Setting

SNMP agent

Disabled

SNMP community strings

No strings are configured by default. However, when you enable SNMP using the web-browser interface, the access point automatically creates the public community with read-only access to the IEEE802dot11 MIB.

SNMP trap receiver

None configured

SNMP traps

None enabled


Enabling the SNMP Agent

No specific CLI command exists to enable SNMP. The first snmp-server global configuration command that you enter enables SNMPv1 and SNMPv2.

You can also enable SNMP on the SNMP Properties page on the web-browser interface. When you enable SNMP on the web-browser interface, the access point automatically creates a community string called public with read-only access to the IEEE802dot11 MIB.

Configuring Community Strings

You use the SNMP community string to define the relationship between the SNMP manager and the agent. The community string acts like a password to permit access to the agent on the access point.

Optionally, you can specify one or more of these characteristics associated with the string:

An access list of IP addresses of the SNMP managers that are permitted to use the community string to gain access to the agent

A MIB view, which defines the subset of all MIB objects accessible to the given community

Read and write or read-only permission for the MIB objects accessible to the community

Note In the current Cisco IOS MIB agent implementation, the default community string is for the Internet MIB object sub-tree. Because IEEE802dot11 is under another branch of the MIB object tree, you must enable either a separate community string and view on the IEEE802dot11 MIB or a common view and community string on the ISO object in the MIB object tree. ISO is the common parent node of IEEE (IEEE802dot11) and Internet. This MIB agent behavior is different from the MIB agent behavior on access points not running Cisco IOS software.

Beginning in privileged EXEC mode, follow these steps to configure a community string on the access point:

 
Command
Purpose

Step 1 

configure terminal

Enter global configuration mode.

Step 2 

snmp-server community string
[ access-list-number ]
[ view mib-view ]
[ro | rw]

Configure the community string.

For string, specify a string that acts like a password and permits access to the SNMP protocol. You can configure one or more community strings of any length.

(Optional) For access-list-number, enter an IP standard access list numbered from 1 to 99 and 1300 to 1999.

(Optional) For view mib-view, specify a MIB view to which this community has access, such as ieee802dot11. See the "Using the snmp-server view Command" section for instructions on using the snmp-server view command to access Standard IEEE 802.11 MIB objects through IEEE view.

(Optional) Specify either read-only (ro) if you want authorized management stations to retrieve MIB objects, or specify read/write (rw) if you want authorized management stations to retrieve and modify MIB objects. By default, the community string permits read-only access to all objects.

Note To access the IEEE802dot11 MIB, you must enable either a separate community string and view on the IEEE802dot11 MIB or a common view and community string on the ISO object in the MIB object tree.

Step 3 

access-list access-list-number {deny | permit} source [source-wildcard]

(Optional) If you specified an IP standard access list number in Step 2, then create the list, repeating the command as many times as necessary.

For access-list-number, enter the access list number specified in Step 2.

The deny keyword denies access if the conditions are matched. The permit keyword permits access if the conditions are matched.

For source, enter the IP address of the SNMP managers that are permitted to use the community string to gain access to the agent.

(Optional) For source-wildcard, enter the wildcard bits in dotted decimal notation to be applied to the source. Place ones in the bit positions that you want to ignore.

Recall that the access list is always terminated by an implicit deny statement for everything.

Step 4 

end

Return to privileged EXEC mode.

Step 5 

show running-config

Verify your entries.

Step 6 

copy running-config startup-config

(Optional) Save your entries in the configuration file.

To disable access for an SNMP community, set the community string for that community to the null string (do not enter a value for the community string). To remove a specific community string, use the no snmp-server community string global configuration command.

This example shows how to assign the strings open and ieee to SNMP, to allow read-write access for both, and to specify that open is the community string for queries on non-IEEE802dot11-MIB objects and ieee is the community string for queries on IEEE802dot11-mib objects: 

ap(config)# snmp-server view dot11view ieee802dot11 included

ap(config)# snmp-server community open rw

ap(config)# snmp-server community ieee view ieee802dot11 rw

Configuring Trap Managers and Enabling Traps

A trap manager is a management station that receives and processes traps. Traps are system alerts that the access point generates when certain events occur. By default, no trap manager is defined, and no traps are issued.

Access points running this Cisco IOS release can have an unlimited number of trap managers. Community strings can be any length.

Table 17-4 describes the supported access point traps (notification types). You can enable any or all of these traps and configure a trap manager to receive them.

Table 17-4 Notification Types 

Notification Type
Description

authenticate-fail

Enable traps for authentication failures.

config

Enable traps for SNMP configuration changes.

deauthenticate

Enable traps for client device deauthentications.

disassociate

Enable traps for client device disassociations.

dot11-qos

Enable traps for QoS changes.

entity

Enable traps for SNMP entity changes.

rogue-ap

Enable traps for rogue access point detections.

snmp

Enable traps for SNMP events.

switch-over

Enable traps for switch-overs.

syslog

Enable syslog traps.

wlan-wep

Enable WEP traps.


Some notification types cannot be controlled with the snmp-server enable global configuration command, such as tty and udp-port. These notification types are always enabled. You can use the snmp-server host global configuration command to a specific host to receive the notification types listed in Table 17-4.

Beginning in privileged EXEC mode, follow these steps to configure the access point to send traps to a host:

 
Command
Purpose

Step 1 

configure terminal

Enter global configuration mode.

Step 2 

snmp-server host host-addr {traps | informs}
{version {1 | 2c | 3 {auth | noauth | priv}}} community-string [udp-port port]
notification-type

Specify the recipient of the trap message.

For host-addr, specify the name or address of the host (the targeted recipient).

Specify traps (the default) to send SNMP traps to the host. Specify informs to send SNMP informs to the host.

Specify the SNMP version to support. Version 1, the default, is not available with informs. Version 3 has three security levels:

auth—Specifies authentication of packets without encryption

noauth—Specifies no authentication and no encryption for packets

priv—Specifies authentication and encryption for packets

For community-string, specify the string to send with the notification operation. Though you can set this string using the snmp-server host command, Cisco recommends that you define this string by using the snmp-server community command before using the snmp-server host command.

For notification-type, use the keywords listed in Table 17-4.

Step 3 

snmp-server enable traps notification-types

Enable the access point to send specific traps. For a list of traps, see Table 17-4.

To enable multiple types of traps, you must issue a separate snmp-server enable traps command for each trap type.

Step 4 

end

Return to privileged EXEC mode.

Step 5 

show running-config

Verify your entries.

Step 6 

copy running-config startup-config

(Optional) Save your entries in the configuration file.

To remove the specified host from receiving traps, use the no snmp-server host host global configuration command. To disable a specific trap type, use the no snmp-server enable traps notification-types global configuration command.

Setting the Agent Contact and Location Information

Beginning in privileged EXEC mode, follow these steps to set the system contact and location of the SNMP agent so that these descriptions can be accessed through the configuration file:

 
Command
Purpose

Step 1 

configure terminal

Enter global configuration mode.

Step 2 

snmp-server contact text

Set the system contact string.

For example: 

snmp-server contact Dial System Operator at beeper 21555.

Step 3 

snmp-server location text

Set the system location string.

For example: 

snmp-server location Building 3/Room 222

Step 4 

end

Return to privileged EXEC mode.

Step 5 

show running-config

Verify your entries.

Step 6 

copy running-config startup-config

(Optional) Save your entries in the configuration file.

Using the snmp-server view Command

In global configuration mode, use the snmp-server view command to access Standard IEEE 802.11 MIB objects through IEEE view and the dot11 read-write community string.

This example shows how to enable IEEE view and dot11 read-write community string: 

ap(config)# snmp-server view ieee ieee802dot11 included

ap(config)# snmp-server community dot11 view ieee RW

SNMP Examples

This example shows how to enable SNMPv1 and SNMPv2C. The configuration permits any SNMP manager to access all objects with read-only permissions using the community string public. This configuration does not cause the access point to send any traps. 

AP(config)# snmp-server community public

This example shows how to assign the strings open and ieee to SNMP, to allow read-write access for both, and to specify that open is the community string for queries on non-IEEE802dot11-MIB objects and ieee is the community string for queries on IEEE802dot11-mib objects: 

ap(config)# snmp-server view dot11view ieee802dot11 included

ap(config)# snmp-server community open rw

ap(config)# snmp-server community ieee view ieee802dot11 rw

This example shows how to permit any SNMP manager to access all objects with read-only permission using the community string public. The access point also sends config traps to the hosts 192.180.1.111 and 192.180.1.33 using SNMPv1 and to the host 192.180.1.27 using SNMPv2C. The community string public is sent with the traps. 

ap(config)# snmp-server community public

ap(config)# snmp-server enable traps config

ap(config)# snmp-server host 192.180.1.27 version 2c public

ap(config)# snmp-server host 192.180.1.111 version 1 public

ap(config)# snmp-server host 192.180.1.33 public

This example shows how to allow read-only access for all objects to members of access list 4 that use the comaccess community string. No other SNMP managers have access to any objects. SNMP Authentication Failure traps are sent by SNMPv2C to the host cisco.com using the community string public. 

ap(config)# snmp-server community comaccess ro 4

ap(config)# snmp-server enable traps snmp authentication

ap(config)# snmp-server host cisco.com version 2c public

This example shows how to send Entity MIB traps to the host cisco.com. The community string is restricted. The first line enables the access point to send Entity MIB traps in addition to any traps previously enabled. The second line specifies the destination of these traps and overwrites any previous snmp-server host commands for the host cisco.com. 

ap(config)# snmp-server enable traps entity 

ap(config)# snmp-server host cisco.com restricted entity

This example shows how to enable the access point to send all traps to the host myhost.cisco.com using the community string public: 

ap(config)# snmp-server enable traps

ap(config)# snmp-server host myhost.cisco.com public

Displaying SNMP Status

To display SNMP input and output statistics, including the number of illegal community string entries, errors, and requested variables, use the show snmp privileged EXEC command. For information about the fields in this display, refer to the Cisco IOS Configuration Fundamentals Command Reference for Release 12.3.