Atlantis Land A02-RA(Atmos)_ME01 manual Device add, Device Remarks Source

Page 20

3.Bridge Console commands

3.1device add

3.1.1Syntax

device add <device>

3.1.2 Description

This command adds a device to the bridge configuration. Attempts to add the bridge itself or an existing device to the bridge are rejected.

Attempts to add devices which don’t support the Cyan interface are rejected. There is a limit on the number of devices that can be attached to the bridge. If the device being added is from a process which supports multiple devices, the /DEVICE attribute must be specified as part of the device name. The table below shows devices which may be attached to the bridge, although not all systems may support all devices.

Device

Remarks

Source

 

 

 

Edd

Ethernet driver

bun_ethernet

 

 

 

r1483

RFC1483 protocol (PVC)

rfc1483

 

 

 

Ppp

Point-to-Point protocol

pp

 

 

 

Configuration saving saves this information. See the section entitled Implementation Constraints in the ATMOS Transparent Bridge Specification, DO-007087-PS, for details of which devices are added by default.

3.1.3 Example

Simple examples

device add edd

device add ppp/DEVICE=2

Using the BUN RFC1483 driver

This example shows how to add the BUN RFC1483 driver, dynamically from the console. You need to define and configure a device and a port.

Normally, the RFC1483 BUN device will pass all data straight through, untouched. This means that even though you have changed your port definition to include the RFC1483 driver, you can still use other protocols on the same port. In order to enable RFC1483 encapsulation, the RFC1483 attribute on the channel must be set to true.

The channel attribute mode dictates the functional behaviour of the driver, in terms of encapsulation method to use and traffic nature (bridged/routed). The channel

Image 20
Contents Console Commands Reference Contents DHCP-client Console commands NAT Console commands Pptp Console commands Page Tftp Console commands Introduction ScopeTypographical conventions Text conventionsEquipment, including safety information General notes Event …Restart UptimeProcess, process command VersionExample Mymachine isfs versionHistory mechanism Syntax Description@ commands Special-purpose commandsIp device Ip @consoleList Echo …Tell process … Mymachine echo hello worldExit, exit DebugCrlf, nocrlf Mymachine tell hswctrl portinfo a1Commands for the chips process 18 cpu Bind process, unbindExit Ip @ unbindHelp Info23 mem 24 rb, rh, rw, wb, wh, wwSteal TellConsole tell command Device add Device Remarks SourceSee also Device deleteDevice list Option Permitted Ethertype values EthertypeFilter Filterage FlushInterface PortfilterSpanning StatusVersion Compile Time Configuration Command argumentsScope Build InclusionPortname Build ExamplesConfig List configList devices Show deviceList ports List classesShow class List channels Show portSet port Set channel List all open channelsShow channel Reset port Bd3000 dhcpclient config Bd3000 dhcpclient helpPool Bd3000 dhcpclient poolIp device DHCP-related IP process commandsTrace Bd3000 ip device add ethernet ether //edd dhcp Bd3000 ip deviceDHCP-server Console commands Bd3000 dhcpserver config Bd3000 dhcpserver pool ResetBd3000 dhcpserver help Bd3000 dhcpserver reset Bd3000 dhcpserver status Dhcp Server Lease StatusBd3000 dhcpserver trace Bd3000 dhcpserver versionNAT Console commands Event Interfaces Event level OutputBd3000 nat event Bd3000 nat interfacesInbound Protocol Bd3000 nat inbound deleteSessions StatsBd3000 nat protocols Bd3000 nat sessions pppDump FragmentsBd3000 nat version Bd3000 nat dump onBd3000 nat hashtable ethernet HashtableBd3000 nat fragments ether Console object types Console examplesIP dial-in server setup IP dial-out over PPPChannel disable Channel clearChannel discard Remote BridgingChannel echo Channel echo everyChannel enable Channel eventChannel hdlc Level DescriptionChannel lcpmaxconfigure Channel infoChannel interface Channel lcpmaxfailureChannel lcpmaxterminate Channel llcChannel pvc Channel svc Channel qosChannel remoteip Channel theylogin 24 bcp Channel weloginChannel tunnel n tunnel protocol dial direction Interface n localip Interface n statsPptp Console commands UserConsole examples Dial-OutBind Tunnel connectTunnel disconnect Tunnel createTunnel delete Tunnel event Tunnel info10.TCP/IP Console commands SummaryCommand Shown by Help Saved in configuration DeviceAbort Symbol Description YesCommand Description 10.3 arp Mymachine ip arp add ether 192.168.50.1 8020199AD9Arprouting AutoloopIp ping Mymachine ip pingDevice Mymachine ip config saveClass Type Default file Config.h Ethernetdevicename s//edd Disable Mymachine ip disable flaneMymachine ip device add loop loop Mymachine ip device delete flaneEtherfiles EnableErrors Files 10.11.3Example10.12.1Syntax 10.12.2Description10.14 get Ipatm arpserver Ipatm abortIpatm arp Ipatm files Ipatm help Ipatm lifetimeIpatm pvc 10.22.1Syntax10.22.2Description 10.22.3ExampleIphostname 10.24 natPing NoerrorsNorelay Portname 10.27.2Description10.27.3Example 10.28.1SyntaxProtocols 10.28.3Example10.29.1Syntax 10.29.2DescriptionRelay 10.30.1Syntax10.30.2Description 10.30.3ExampleRip accept Rip allowedRip boot Rip helpRip poison Rip hostroutesRip killrelay Rip relay Rip relaysRip rxstatus Rip sendRip trigger Route10.44.3Example Snmp RouteflushRoutes 10.47.1Syntax 10.47.2Description10.48.1Syntax 10.48.2DescriptionSubnet 10.49.1Syntax10.49.2Description 10.49.3ExampleUntrace 10.50.1Syntax10.50.2Description 10.50.3Example10.54 ? 10.54.2Description Connect 11.2 getInit 11.6 putPut localfile remotefile Index Page Page Page Page Page Wh 31 ww

A02-RA(Atmos)_ME01 specifications

Atlantis Land A02-RA(Atmos)_ME01 represents a remarkable breakthrough in sustainable living and eco-friendly technology. Situated in a progressive ecological zone, this innovative habitat is designed to harmonize with its natural surroundings while providing modern amenities for its inhabitants.

One of the standout features of Atlantis Land A02-RA(Atmos)_ME01 is its integration of renewable energy sources. The habitat utilizes solar panels that are seamlessly incorporated into its structure, harnessing sunlight to power essential systems. Additionally, small wind turbines are strategically placed to capture wind energy, making the habitat largely self-sufficient and reducing reliance on non-renewable energy sources.

Another significant characteristic of this habitat is its advanced water management system. The A02-RA(Atmos)_ME01 employs rainwater harvesting technology, collecting and purifying rainwater for domestic use. This system not only conserves water but also helps reduce the overall ecological footprint of the habitat. Furthermore, graywater recycling ensures that water from sinks and showers is treated and repurposed for irrigation and other non-potable uses.

The architecture of Atlantis Land A02-RA(Atmos)_ME01 reflects its commitment to sustainability. Built with eco-friendly materials, the structure features large windows to optimize natural light and promote passive solar heating. The design also incorporates green roofs, which provide insulation, reduce stormwater runoff, and support local biodiversity by creating habitats for wildlife and plants.

For the comfort and convenience of its residents, the habitat is equipped with smart home technology. This system allows occupants to control lighting, heating, and water usage through a central device or mobile application, promoting energy efficiency and enhancing daily living. Additionally, the interior spaces are designed with versatility in mind, allowing for easy reconfiguration to accommodate various lifestyles and needs.

Lastly, community engagement is a central theme in the A02-RA(Atmos)_ME01 design. Shared spaces, such as gardens and recreation areas, encourage social interaction and foster a sense of belonging among residents. The emphasis on community promotes collaboration in sustainability initiatives, empowering individuals to take an active role in preserving their environment.

In summary, Atlantis Land A02-RA(Atmos)_ME01 stands as a model for future living, showcasing how innovative technology and thoughtful design can create a sustainable, comfortable, and community-oriented habitat. Its commitment to harnessing renewable resources, efficient water management, and smart home integration makes it an exemplary blueprint for eco-friendly living.