This extension brings to TeemIp objects from the cabling world that will allow you to document the physical connections between CIs.
Version | Release Date | Status | iTop Min | IPAM for iTop Min | Comments |
---|---|---|---|---|---|
1.3.1 | 2024-10-29 | Supported | 3.1.2 | 3.2.0 | - PR #6 - Can't create second direct cable connection between two devices - Breakout cable: edit the n:n relations with PatchPanels while on display and not on edition anymore - Breakout cable: improve automation functions |
1.3.0 | 2024-06-26 | Supported | 3.1.1 | 3.1.4 | - A Patch Panel can be mounted in an enclosure - Network Sockets can be automatically created for a given Patch Panel - Back End Cables can be automatically created between the sockets of 2 Patch Panels - Number of free & ready Network Sockets in Patch Panels are displayed - Cross Connects and Breakout Cables are now modelized - Wiring paths can be proposed to connect the 2 Patch Panels of a Cross Connect - Documents can be attached to Network Cables |
1.2.0 | 2023-12-07 | Obsolete | 3.1.1 | 3.1.4 | - A new Direct Cable class enables the connection between 2 physical interfaces together - The direct connection of 2 CIs is visible in the wiring diagram - Audit rules have been enhanced - Data samples have been added - Objects brought by the extension have their summary card - Add Chinese (simplified) translation |
1.1.0 | 2023-07-24 | Obsolete | 3.1.0 | 3.1.0 | - Interfaces with no connections have been removed from the wiring diagram - Network cable class has been split into Backend, Frontend and Device network cable classes - An audit rule identifies the cables connected to one end only - Modelization of cables, sockets and interfaces have been enhanced - A socket can be attached to a location or a patch panel - A tab displays the list of patch panels mounted in a rack - Patch panels can be handled by Molkobain DC view extended |
1.0.0 | 2022-12-04 | Obsolete | 3.1.0 | 3.1.0 | - Initial revision |
TeemIp cable management allows you to document the cable layouts of your organization. Connect physical interfaces to wall mounted network sockets, to patch panels hosted in racks or to other physical interfaces, document your patch cables and your underlying cabling layout, manage your cross connects: the extension enables a large scope of connection scenarios as the following drawing highlights:
Furthermore, the extension displays the wiring that links devices, physical interfaces and network sockets together, like:
Note that the drawing has been manually rearranged.
The TeemIp Cable Management extension is licensed under the terms of the GNU Affero General Public License Version 3 as published by the Free Software Foundation. This gives you legal permission to copy, distribute and/or modify TeemIp Cable Management under certain conditions. Read the ’license.txt’ file in the TeemIp distribution. TeemIp Cable Management is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE WARRANTY OF DESIGN, MERCHANTABILITY, AND FITNESS FOR A PARTICULAR PURPOSE.
There is no specific limitations with that extension.
TeemIp standalone: The extension is embedded in TeemIp standalone, starting with TeemIp 3.1.
iTop: When installed on an iTop application, you need IPAM for iTop to be installed as well.
In both case, make sure that Datacenter Management has been selected at installation time.
TeemIp standalone: Installation is done with the application itself, through the setup.
iTop: To add the extension on an iTop application, follow the Standard installation process.
No specific configuration is required in TeemIp's configuration file or in IP configs for that extension to work. However, some default settings may be changed:
Under the Modules specific settings section, default parameters used by the Find wiring action on Cross Connects may be overwritten by the following configuration lines.
'teemip-cable-mgmt' => array ( 'find_wiring_paths' => array ( 'max_rack_levels_to_cross' => 5, 'max_offers_to_display' => 32, ), ),
Under the Other Settings fieldset, the Allow cabling toward another organizations parameter enables patch panels from a given organization to be connected to patch panels of other organizations.
As everyone knows, a patch panel is a piece of hardware with multiple ports that helps organize a group of cables. Each of these ports contains a wire that goes to a different location and can be set for fiber optic cables, cat5 cables, RJ45 cables, and many others. That class allows you to register them in TeemIp's CMDB.
Name | Type | Mandatory? |
---|---|---|
General Information | ||
Name | Alphanumeric string | Yes |
Organization | Foreign key to a(n) Organization | Yes |
Status | Possible values: Implementation, Production | Automatically computed |
Location | Foreign key to a(n) Location | Yes |
Capacity | Number of network sockets that the panel can host | No |
Free sockets | Number of network sockets still available on the panel | Automatically computed |
Ready sockets | Number of network sockets with status 'ready' | Automatically computed |
Connector | Foreign key to a(n) Interface Connector Brought by the Network Management Extended extension | No |
External reference | Alphanumeric string | No |
Description | Multiline character string | No |
Rack Information | ||
Rack | Foreign key to a(n) Rack | Yes |
Enclosure | Foreign key to a(n) Enclosure | no |
Should the extension Datacenter View Extended be installed on TeemIp, the following additional attributes will appear.
Name | Type | Mandatory? |
---|---|---|
More Information | ||
Panel | Possible values: Front, Rear | Yes |
Zero-U | Possible values: Yes, No | Yes |
Vert. position | Integer | No |
Height | Integer | No |
Weight (kg) | Decimal | No |
Tab | Description |
---|---|
Network sockets | All the network sockets attached to the patch panel |
Cables | All cables connected to a network socket hosted by the patch panel |
Peer front end panels | List of other patch panels connected to the current one through the network socket port of its hosted sockets |
Peer back end panels | List of other patch panels connected to the current one through the back end network socket port of its hosted sockets |
In the Network dashboard that is accessible from a submenu of the standard CMDB overview menu, find the Patch Panel dashlet, click on it and select the item you are interested in:
With the extension Datacenter View Extended, Patch Panel display will look like:
If the capacity is set, to value c for instance, TeemIP will offer to automatically create c network sockets and to attach them to the patch panel. If n network sockets do already exist, with n < c, then the menu will still be displayed but only (c - n) network sockets will be created. When created, network socket will be set to inactive mode and will inherit of attributes location, rack, patch panel (obviously) and interface connector (if exists) from the patch panel.
If some network sockets are already attached to the patch panel, TeemIP will offer to automatically connect the back end interface of these network sockets to remote sockets located in another patch panel of another Rack. This action removes to TeemIP administrator the burden of creating back end network cables for each of the network sockets attached to a patch panel.
When action is launched, TeemIP offers first to select the remote patch panel…
.. before creting the links in accordance with the number of available sockets in the remote rack.
A network socket is the passive physical piece of hardware where you plug a network cable to establish a link between different network devices.
Name | Type | Mandatory? |
---|---|---|
General Information | ||
Code | Alphanumeric string | Yes |
Status | Possible values: Inactive, Ready, Active | Automatically computed |
Location | Foreign key to a(n) Location | Yes |
Rack | Foreign key to a(n) Rack | No |
Patch panel | Foreign key to a(n) Patch Panel | No |
Organization | Organization that the patch panel belongs to | N/A |
External reference | Alphanumeric string | No |
Comment | Multiline character string | No |
Front End Information | ||
Connector | Foreign key to a(n) Interface Connector | No |
Device | Foreign key to a(n) Connectable CI | No |
Physical interface | Foreign key to a(n) Physical Interface | No |
Network socket | Foreign key to a(n) Network Socket | No |
Cross Connect | Foreign key to a(n) Cross Connect | Automatically computed |
Back End Information | ||
Back end network socket | Foreign key to a(n) Network Socket | No |
Friendly name of a network socket is automatically computed as the concatenation of the location name, rack name (if exists), patch panel name (if exists) and code of the socket.
Tab | Description |
---|---|
Cables | All cables connected to the network socket |
In the Network dashboard that is accessible from a submenu of the standard CMDB overview menu, find the Network Socket dashlet, click on it and select the item you are interested in or select it directly from the Patch panel detailed display :
Network Sockets have 2 sides:
Attribute Status is read only and automatically computed:
In other words:
Front End Information | Back End Information | Status | ||
---|---|---|---|---|
Physical interface | Network socket | Cross connect | Back end network socket | |
* | * | * | unset | Inactive |
unset | * | set and active | set | Active |
unset | set | * | set | Active |
set | unset | unset | set | Active |
All other cases | set | Ready |
Attribute Cross Connect, is set or unset from the Cross Connect objet, at the time where the Network Socket is attached to the Cross Connect, as part of the local or peer unit information. See below
Network sockets implements three 1:1 relations. As the datamodel doesn't provide such attributes by default, these 1:1 relations are automatically computed when objects are created, modified or deleted: when one side of the relation is changed, the other sides (new and old when appropriate) are changed. These relations are:
A cross connect represents the cabling necessary to establish a direct link between two separate organizations in a data center, thus allowing the establishment of a private network link and eliminating the need to connect them using the internet.
Name | Type | Mandatory? |
---|---|---|
General Information | ||
Name | Alphanumeric string | Yes |
Organization | Foreign key to a(n) Organization | Yes |
Reference | Alphanumeric string | No |
Peer Organization | Foreign key to a(n) Organization | Yes |
Peer Reference | Alphanumeric string | No |
Status | Possible values: Construction, Production, Cancellation, Obsolete | Yes |
Cable category & type | Foreign key to a(n) Cable type | No |
Business criticality | Possible values: low, medium, high | No |
Move to production date | Date (year-month-day) | No |
Description | Multiline character string | No |
Local Unit Information | ||
Location | Foreign key to a(n) Location of Organization | Yes |
Rack | Foreign key to a(n) Rack | Yes |
Patch panel | Foreign key to a(n) Patch Panel | Yes |
Primary Network socket | Foreign key to a(n) Network Socket | No |
Secondary Network socket | Foreign key to a(n) Network Socket | No |
Peer Unit Information | ||
Location | Foreign key to a(n) Location of Peer Organization | Yes |
Rack | Foreign key to a(n) Rack | Yes |
Patch panel | Foreign key to a(n) Patch Panel | Yes |
Primary Network socket | Foreign key to a(n) Network Socket | No |
Secondary Network socket | Foreign key to a(n) Network Socket | No |
Back End Information | ||
Back end network socket | Foreign key to a(n) Network Socket | No |
Tab | Description |
---|---|
Contacts | All the contacts for the Cross Connect |
Documents | All the documents linked to the Cross Connect |
Wiring | Wiring diagram |
In the Network dashboard that is accessible from a submenu of the standard CMDB overview menu, find the Cross Connect dashlet, click on it and select the item you are interested in :
A cross connect documents a link between one or two network socket hosted in a patch panel sitting in a rack of a given organization and one or two peer network socket hosted in a peer patch panel sitting in a peer rak of a peer organization. The Find wiring paths action will display all the available cabling paths that may be establish to connect 2 network sockets that answer to the previous conditions.
Network admin may select one of the offered path and manually create it within TeemIP.
These value can be overwritten through the configuration file, as described here.
TeemIp Cable management extension alters Physical interfaces with new attributes that allow connections to a network socket or to the interface of another connectable CI.
Name | Type | Mandatory? |
---|---|---|
Wiring Information | ||
Network socket | Foreign key to a(n) Network socket | No |
Remote device | Foreign key to a(n) ConnectableCI | No |
Remote physical interface | Foreign key to a(n) PhysicalInterface | No |
These 2 relations brought by the extension implement 1:1 relations. As the datamodel doesn't provide such attributes by default, these 1:1 relations are automatically computed when objects are created, modified or deleted: when one side of the relation is changed, the other sides (new and old when appropriate) are changed. These relations are:
A connection between a physical interface and a network socket will look as follows.
A connection between two physical interfaces will look as follows.
A front end network cable (known as well as patch cable, patch cord or patch lead) represents the piece of hardware that connects 2 network sockets through their front end.
Name | Type | Mandatory? |
---|---|---|
General Information | ||
Cable type | Foreign key to a(n) Cable Type | No |
Cable category | Foreign key to a(n) Cable Category | No |
Length (m) | Length of the cable, in meter | No |
Label | Alphanumeric string | No |
Comment | Multiline character string | No |
Connecting Points | ||
Network socket #1 - Front end | Foreign key to a(n) Network Socket | Yes |
Network socket #2 - Front end | Foreign key to a(n) Network Socket | Yes |
Friendly name of a front end network cable is automatically computed as the concatenation of the two network sockets' name.
Tab | Description |
---|---|
Documents | All documents linked to the front end network cable |
In the Network dashboard that is accessible from a submenu of the standard CMDB overview menu, find the Front End Network Cable dashlet, click on it and select the item you are interested in or select it directly from the Patch Panel or Network Socket detailed displays :
A back end network cable represents the piece of hardware that connects 2 network sockets through their back end.
Name | Type | Mandatory? |
---|---|---|
General Information | ||
Cable type | Foreign key to a(n) Cable Type | No |
Cable category | Foreign key to a(n) Cable Category | No |
Length (m) | Length of the cable, in meter | No |
Label | Alphanumeric string | No |
Comment | Multiline character string | No |
Connecting Points | ||
Network socket #1 - Back end | Foreign key to a(n) Network Socket | Yes |
Network socket #2 - Back end | Foreign key to a(n) Network Socket | Yes |
Friendly name of a back end network cable is automatically computed as the concatenation of the two network sockets' name.
Tab | Description |
---|---|
Documents | All documents linked to the back end network cable |
In the Network dashboard that is accessible from a submenu of the standard CMDB overview menu, find the Back End Network Cable dashlet, click on it and select the item you are interested in or select it directly from the Patch Panel or Network Socket detailed displays :
A device network cable represents the piece of hardware that connects the front end of a network socket and the interface of a connectable CI.
Name | Type | Mandatory? |
---|---|---|
General Information | ||
Cable type | Foreign key to a(n) Cable Type | No |
Cable category | Foreign key to a(n) Cable Category | No |
Length (m) | Length of the cable, in meter | No |
Label | Alphanumeric string | No |
Comment | Multiline character string | No |
Connecting Points | ||
Network socket - Front end | Foreign key to a(n) Network Socket | Yes |
Device | Foreign key to a(n) ConnectableCI | No |
Physical interface | Foreign key to a(n) PhysicalInterface | No |
Friendly name of a device network cable is automatically computed as the concatenation of the network socket's name and the interface's name.
Tab | Description |
---|---|
Documents | All documents linked to the device network cable |
In the Network dashboard that is accessible from a submenu of the standard CMDB overview menu, find the Device Network Cable dashlet, click on it and select the item you are interested in or select it directly from the Patch Panel or Network Socket detailed displays :
A direct network cable represents the piece of hardware that connects directly the interface of a connectable CI to the interface of another connectable CI.
Name | Type | Mandatory? |
---|---|---|
General Information | ||
Cable type | Foreign key to a(n) Cable Type | No |
Cable category | Foreign key to a(n) Cable Category | No |
Length (m) | Length of the cable, in meter | No |
Label | Alphanumeric string | No |
Comment | Multiline character string | No |
Connecting Points | ||
Device #1 | Foreign key to a(n) ConnectableCI | Yes |
Physical interface #1 | Foreign key to a(n) PhysicalInterface | Yes |
Device #2 | Foreign key to a(n) ConnectableCI | Yes |
Physical interface #2 | Foreign key to a(n) PhysicalInterface | Yes |
Friendly name of a device network cable is automatically computed as the concatenation of the two interface's name.
Tab | Description |
---|---|
Documents | All documents linked to the direct network cable |
In the Network dashboard that is accessible from a submenu of the standard CMDB overview menu, find the Direct Network Cable dashlet, click on it and select the item you are interested in or select it directly from the interace's display :
Breakout cables are designed to split or combine optical fibers or copper wires into multiple individual connectors. They eliminate the need for separate cables by consolidating multiple fibers or wires into a single cable bundle which simplifies installation, reduces cable congestion, and improves cable management.
Name | Type | Mandatory? |
---|---|---|
General Information | ||
Cable type | Foreign key to a(n) Cable Type | No |
Cable category | Foreign key to a(n) Cable Category | No |
Length (m) | Length of the cable, in meter | No |
Label | Alphanumeric string | No |
Comment | Multiline character string | No |
Capacities | ||
Capacity | Number of links carried by the cable | No |
Free Links | Number of links still available in the cable | Automatically computed |
Connecting Points | ||
Rack #1 | Foreign key to a(n) Rack | Yes |
Rack #2 | Foreign key to a(n) Rack | Yes |
Friendly name of a breakout cable is automatically computed as the concatenation of the two rack's name and the cable's label.
Tab | Description |
---|---|
Documents | All documents linked to the breakout cable |
Patch Panels * | All the patch panels that the cable is connected to |
(*) The relation holds a “UsedLinks” attribute which documents the number of wires consummed by the link.
In the Network dashboard that is accessible from a submenu of the standard CMDB overview menu, find the Breakout Cable dashlet, click on it and select the item you are interested in or select it directly from the interace's display :
Once connections between Devices, Physical interfaces and Network Sockets are documented, the physical path that connects them all can be visualized through the menu “Wiring…” displayed under the “Other Actions” menu of Connectable CIs, Physical Interfaces and Network Sockets.
That action displays the wiring layout that connects the device it has been launch from, and all the elements that are part of the cabling path. For instance, from a backend server application :
Two new typological elements are brought by the extension:
Name | Description | Attributes | Example |
---|---|---|---|
Cable Type | Type of a Network Cable | Name, Description, List of Cable Categories using it | Single mode |
Cable Category | Category of a Network Cable | Name, Cable Type, Description, | OS1, OS2 |
The extension groups network specific typological elements in the dashlet “Network typology configuration”.