Cisco Systems 78-11424-03 manual Changing the CLI Prompt, Modifying the History Buffer

Page 7

Chapter 2 Configuring User Profiles and CSS Parameters

Configuring User Profiles

Changing the CLI Prompt

The CLI default prompt displays as the product model number followed by the

#symbol. The CSS adds a # sign to the prompt automatically to indicate SuperUser mode. To change the default prompt, enter the prompt command as shown in the following example (maximum of 15 alphanumeric characters):

CSS11800# prompt CSS1-lab

CSS1-lab#

To save the new prompt, add it to user or default profiles. To restore the prompt to its default, use the no prompt command.

Modifying the History Buffer

Use the history command to modify the history buffer length. The command line history buffer stores the most recent CLI commands that you enter. Enter the number of lines you want in the history buffer as an integer from 0 to 256. The default is 20. This command is available in SuperUser mode.

To set the history buffer to 80 lines, enter:

#history length 80

To disable the history function (setting of 0), enter:

#history length 0

To restore the history buffer to the default of 20 lines, enter:

#no history length

Displaying the History Buffer

Use the show history command to display the history buffer. The history buffer is cleared automatically upon reboot.

 

 

Cisco Content Services Switch Basic Configuration Guide

 

 

 

 

 

 

78-11424-03

 

 

2-7

 

 

 

Image 7
Contents Configuring User Profiles and CSS Parameters Configuring User Profiles # show profile Configuring User Terminal ParametersConfiguring Terminal Length Configuring Terminal IdleConfiguring Terminal Netmask-Format Configuring Terminal MoreConfiguring Terminal Timeout Using Expert Mode Modifying the History Buffer Changing the CLI PromptDisplaying the History Buffer Copying and Saving User Profiles Copying the Running Profile to the Default-Profile# show history Copying the Running Profile to an FTP Server Copying the Running Profile to a User ProfileCopying the Running Profile to a Tftp Server # copy profile tftp 192.168.3.6 \home\bobo\bobo-profile Boot Configuration Mode CommandsUnpacking an ArrowPoint Distribution Image ADI Specifying the Primary Boot ConfigurationConfig-boot#unpack ap0500002.adi Config-boot#remove ap0410008Configuring the Primary Boot-Type Configuring the Primary Boot-FileConfig-boot#no primary config-path Configuring the Primary Config-PathConfig-boot#no primary boot-type Config-boot#primary config-path f/bootdirConfig-boot#secondary boot-file ? Specifying the Secondary Boot ConfigurationSpecifying the Secondary Boot-File Config-boot#secondary boot-file ap0410008Config-boot#no secondary boot-type Specifying the Secondary Boot-TypeSpecifying the Secondary Config-Path Config-boot#secondary boot-type boot-via-diskConfig-boot#no secondary config-path Config-boot#secondary config-path f/bootdirConfig-boot#passive ip address Configuring the Passive SCM IP AddressConfiguring the Passive SCM Primary Boot Type Configuring the Passive SCM Primary Boot FileConfiguring the Passive SCM Secondary Boot File Configuring the Passive SCM Primary Configuration PathConfig-boot#no passive secondary boot-type Configuring the Passive SCM Secondary Boot TypeConfiguring the Passive SCM Secondary Configuration Path Config-boot#passive secondary boot-type boot-via-diskConfig-boot#passive subnet mask Configuring the Passive SCM Subnet MaskConfig-boot#passive secondary config-path c/bootdir Config-boot#no passive secondary config-pathBooting the CSS from a Network Drive Showing the Boot ConfigurationConfig-boot#show boot-config Config-boot#primary boot-type boot-via-network bootrecord Configuring Network Boot for a Primary SCMConfig-boot#primary config-path e/adidirectory Configuring Network Boot for a Passive SCM Config# show boot-config Showing Network Boot ConfigurationsConfig# no host CSS11150-LML Configuring Host NameConfiguring Idle Timeout Config# host CSS11150-LMLConfig# no idle timeout Config# idle timeoutConfiguring the CSS as a Radius Client Specifying a Primary Radius Server Specifying a Secondary Radius Server Config# no radius-server primaryConfig# radius-server timeout Configuring the Radius Server TimeoutsConfiguring the Radius Server Retransmits Config# no radius-server secondaryConfiguring the Radius Server Dead-Time Showing Radius Server Configuration InformationConfig# show radius stats secondary Config# show radius config primaryDescribes the fields in the show radius stat output Controlling Remote Access to the CSS Config# admin-shutdown Config# virtual authentication disallowedConfig# restrict telnet Finding an IP Address Config# find ip addressConfiguring Permanent Connections for TCP Ports Configuring Flow ParametersReclaiming Reserved Telnet and FTP Control Ports Resetting Fast Ethernet and Gigabit Ethernet PortsShowing Flow Statistics Config# flow reserve-cleanConfig# no flow reserve-clean Config# flow statisticsCreating XML Code Configuring Content APIActionip address 10.10.104.1/16/action Actioninterface ethernet-6/actionXML Document Example Parsing the XML Code Controlling Access to the CSS Http ServerPublishing the XML Code to the CSS Testing the Output of the XML Code Configuring the Command Scheduler Config# no cmd-sched periodicshows Config# no cmd-schedConfig# show cmd-sched Showing Configured Command Scheduler RecordsWhere to Go Next

78-11424-03 specifications

Cisco Systems 78-11424-03 is a highly regarded networking component designed to enhance and streamline network connectivity in enterprise environments. As part of Cisco's extensive suite of networking products, this component is tailored to meet the growing demands of modern businesses for reliable and efficient data transmission solutions.

One of the standout features of the Cisco 78-11424-03 is its scalability. It is designed to accommodate the ever-evolving needs of organizations, allowing for seamless integration into large and dynamic networks. This is particularly advantageous for businesses that anticipate growth and require robust networking infrastructure that can expand without significant modifications.

Another key characteristic of this product is its enhanced security features. In an age where data breaches and cyber threats are prevalent, Cisco has prioritized security within its product offerings. The 78-11424-03 incorporates advanced security protocols and encryption methods, ensuring that data transmitted across the network remains secure. This is vital for organizations that handle sensitive information and must comply with stringent regulatory standards.

The technology behind the Cisco 78-11424-03 includes support for various networking protocols, enhancing its versatility. For instance, it adheres to both IPv4 and IPv6 standards, ensuring compatibility with legacy systems while also future-proofing the network for emerging technologies. This adaptability is crucial as companies transition to newer internet protocol versions to accommodate the increasing number of connected devices.

Performance is another hallmark of the Cisco 78-11424-03. It offers impressive throughput and low latency, enabling the rapid transfer of data even within congested networks. This high-performance capability is particularly beneficial for applications that demand real-time data processing, such as video conferencing and cloud computing.

Furthermore, Cisco's commitment to energy efficiency is evident in the design of the 78-11424-03. By minimizing power consumption without compromising performance, it supports organizations' sustainability initiatives while reducing operational costs.

In summary, Cisco Systems 78-11424-03 represents a fusion of scalability, security, advanced technology, impressive performance, and energy efficiency. It serves as a cornerstone for modern networking solutions, enabling businesses to thrive in an increasingly connected and digital world. As organizations continue to navigate the complexities of network management, products like the 78-11424-03 will remain integral to their success and operational efficiency.