Brocade Communications Systems 6910 manual Software Image

Page 37

Software Image

Name, Identifier, and Syntax

Access

Description

 

 

 

snAgImgFname

Read-write

Shows the name of the image file, including the path, that is

brcdIp.1.1.2.1.6

 

currently associated with the system. When the object is not used,

Syntax: DisplayString

 

the value is a zero length string. It can have up to 127 characters.

 

 

 

snAgImgLoad

Read-write

Downloads or uploads a new software image to the agent.

brcdIp.1.1.2.1.7

 

The following values can be read:

Syntax: Integer

 

Error values: from normal(1) to operationError(17) and

 

 

tftpWrongFileType(23).

 

 

loading(18) – Operation is in process.

 

 

The following values can be set:

 

 

uploadMPPrimary(19) – Upload the Startup image from MP

 

 

flash to TFTP server.

 

 

downloadMPPrimary(20) – Swaps the roles of the startup

 

 

and non-startup images in flash.

 

 

uploadMPSecondary(21) – Upload the Non-Startup image

 

 

from MP flash to TFTP server.

 

 

downloadMPSecondary(22) – Download the Non-Startup

 

 

 

image from TFTP server to MP flash.

 

 

MP is the management processor.

 

 

The image filename is defined in snAgImgFname. The TFTP server

 

 

address is defined in snAgTftpServerAddrType and

 

 

snAgTftpServerAddr. The write request will be rejected during

 

 

loading until error or normal.

 

 

 

snAgCfgFname

Read-write

Name of the config file including path currently associated with

brcdIp.1.1.2.1.8

 

the system. When the object is not used, the value is a zero length

Syntax: DisplayString

 

string. This object can have up to 127 characters.

 

 

 

snAgCfgLoad

Read-write

Downloads or uploads a configuration file to the agent.

brcdIp.1.1.2.1.9

 

Error values: from normal(1) to operationError(17) and

Syntax: Integer

 

tftpWrongFileType(29).

 

 

loading(18) – Operation is in process.

 

 

The following values can be set for operations with the TFTP

 

 

server:

 

 

uploadFromFlashToServer(20) – Upload the config from

 

 

flash to TFTP server.

 

 

downloadToFlashFromServer(21) – Download the config to

 

 

flash from TFTP server.

 

 

uploadFromDramToServer(22) – Upload the config from

 

 

DRAM to TFTP server.

 

 

downloadToDramFromServer(23) – Download the config to

DRAM from TFTP server.

The config filename is defined in snAgCfgFname.

The TFTP server address is defined in snAgTftpServerAddr.

The write request will be rejected during loading until error or normal.

Brocade 6910 Ethernet Access Switch MIB Reference

25

53-1002582-01

 

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Contents Brocade 6910 Ethernet Access Switch Brocade Communications Systems, Incorporated Document History Brocade 6910 Ethernet Access Switch MIB Reference Contents Chapter Registration Physical Properties of a Device Chapter MAC-Based Vlan MIB Variable Index This chapter About This DocumentSupported hardware and software Related publications Document conventionsText formatting Getting technical help Document feedback Page Overview of the Brocade 6910 MIB Obtaining and installing the Brocade 6910 MIBsIntroduction Downloading the MIB from Technical Support web siteProprietary objects Standard objectsReloading MIBs into a third-party NMS Object Group Name Object Identifier Sections to Refer To SNMPv3 support Structure of this guideStructure of this guide Supported Standard MIBs Supported on Brocade 6910 switchesRFC compliance management Partially supported standards Lldp MIB supportIeee standards RFC 1213 Management Information Base MIB-II Following groups are supported on Brocade 6910 switchesRFC 1493 Definitions of managed objects for bridges RFC 1611 DNS Server MIB extensionsRFC 1612 DNS Resolver MIB Extensions Following groups are supported on Brocade 6910 switches RFC 2576 Snmp Community MIB RFC 2096 IP forwarding table MIBRFC 2737 Entity MIB, Version RFC 2737 Entity MIB, VersionRFC 2925 Ping MIB RFC 2863 Interfaces Group MIBRFC 2925 Remote Trace MIB RFC 3635 Ethernet-like interface types RFC 3413 Snmp Notification MIBRFC 3636 Ieee 802.3 Medium Attachment Units MAU MIB Ieee 802.1ag Connectivity Fault Management CFM MIB RFC 4878 OAM Functions on Ethernet-Like Interfaces MIB Dot3OamDyingGaspEnable Dot3OamEventLogTable RFC 4878 OAM Functions on Ethernet-Like Interfaces MIB Object Name and Identifier Description RegistrationRegistration Physical Properties of a Device Power supplyCommon objects BoardsTemperature Power supply tableGeneral chassis Common objectsSoftware Image Basic Configuration and ManagementReload Following object allows you to reload the agentSoftware Image File download and uploadSoftware Image Software image details Syntax DisplayString It can display up to 32 characters Switch IP configurations Software configurationSoftware configuration Sntp server tableMedia table Media table Agent user access group User AccessGeneral security objects Authorization and accounting Authorization and accountingRadius general group Radius server table Radius server tableFollowing objects provide information on the Radius server Tacacs general objects Tacacs general objectsTacacs server table Tacacs server tableFollowing objects provide information on the Tacacs server Tacacs server table Multi-device port authentication Multi-Device Port AuthenticationGlobal multi-device port authentication objects Clear interface multi-device port authentication objectsMulti-device port authentication clear sessions Multi-device port authentication objectsMulti-device port authentication Multi-device port authentication Multi-device port authentication DAI Vlan configuration table Dynamic ARP Inspection Vlan configuration tableTraffic Security Dynamic ARP Inspection Interface configuration table Dynamic Host Configuration ProtocolDynamic Host Configuration Protocol Dhcp Snooping Interface configuration table Dhcp Snooping Vlan configuration tableDhcp Snooping global scalar object IP Source Guard IP Source Guard Interface configuration tableIP Source Guard MAC-based Vlan global objects MAC-Based VlanMAC-based Vlan global objects Switch port information group Switch port informationInterfaces Switch port information FdryLinkAggregationGroupTable Link Aggregation Group LAG tableLink Aggregation Group LAG table Link Aggregation Group LAG table CPU utilization Monitoring and LoggingSystem Dram information group Support for optical monitoring Global ARP statisticsGlobal ARP statistics Following are the MIB objects display statistics for ARPSystem log server table System loggingSystem logging System logging Object for Stacking Agent temperature table for stackingAgent temperature table for stacking Objects for Brocade 6910 switch traps Traps and Objects to Enable TrapsTrap information Trap receiver tableSystem status traps Standard trapsStandard traps Brocade supports the following traps from RFCTraps for Rmon events Traps for spanning tree protocolBrocade supports for the following traps for Rmon from RFC General traps IronWare trapsIronWare traps Traps for stacking Port security trapsBrocade supports for the following traps for stacking Rmon event traps ExamplesExamples Page Examples MIB Variable Index Brocade 6910 Ethernet Access Switch MIB Reference Page Brocade 6910 Ethernet Access Switch MIB Reference

6910 specifications

Brocade Communications Systems, a leader in networking solutions, has established a strong presence in the data center and enterprise networking space with its various product offerings. One of its noteworthy products is the Brocade 6910 Switch, designed specifically for high-performance network environments.

The Brocade 6910 is a high-density, compact Ethernet switch that operates at speeds up to 10 Gigabits per second. It is engineered to support the increasing data demands of modern enterprises while providing reliability and flexibility. With its compact form factor, the 6910 is suitable for space-constrained environments, making it an ideal choice for data centers and edge deployments.

One of the standout features of the Brocade 6910 is its support for both Layer 2 and Layer 3 networking, allowing for dynamic routing and switching capabilities that enhance overall network performance. This dual functionality enables organizations to optimize their network architecture, ensuring seamless data transfer and management.

Power over Ethernet (PoE) functionality is another significant characteristic of the Brocade 6910. This feature allows the switch to deliver power to connected devices, such as IP phones and wireless access points, eliminating the need for separate power sources and reducing cable clutter. This capability not only streamlines installations but also lowers operational costs.

In terms of scalability, the Brocade 6910 supports an extensive number of physical and virtual interfaces, which makes it versatile enough to grow with the needs of an organization. It can efficiently handle increasing traffic loads, enabling businesses to scale their network infrastructure without extensive upgrades.

The switch also incorporates advanced features like Virtual Chassis technology, allowing multiple switches to operate as a single logical entity. This simplifies management and improves redundancy, enhancing overall network reliability. Additionally, the Brocade 6910 includes comprehensive security features that protect network data through robust monitoring and access controls.

Furthermore, the Brocade 6910 is equipped with intelligent network management tools that provide visibility into network performance and health. This functionality helps IT teams to manage resources effectively, troubleshoot issues, and streamline maintenance tasks.

In conclusion, the Brocade 6910 Switch exemplifies modern networking solutions with its high performance, versatility, and advanced management capabilities. Organizations looking for reliable, scalable, and efficient networking solutions will find the Brocade 6910 to be an outstanding choice that meets the demands of today’s dynamic environments.
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