Difference between revisions of "Networking Glossary"

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=Introduction=
 
=Introduction=
This page explains some of the fundamental concepts, components and terminology associated with standard computer networks. These networks are often referred to as '''local area networks''' (LAN). This type of network is technically known as an [http://en.wikipedia.org/wiki/Ethernet '''Ethernet'''] network.
+
This page explains some of the fundamental concepts, components and terminology associated with standard computer networks. These networks are often referred to as '''local area networks''' (LAN).<br>
 +
This type of network is technically known as an [http://en.wikipedia.org/wiki/Ethernet '''Ethernet'''] network.
  
= Cable =
+
EXAKT - LINK cables must be set-up in a seperate Exakt network, they cannot be mixed with LAN networks.
 +
 
 +
<!-- = Cable = -->
  
 
=Network=
 
=Network=
 
An Ethernet network consists of two or more devices effectively connected together as shown in the diagram.
 
An Ethernet network consists of two or more devices effectively connected together as shown in the diagram.
 
[[Image:Network.png|centre|200px]]
 
[[Image:Network.png|centre|200px]]
Since most devices only have one physical network connection socket, connecting more than two devices is not possible without the use of an additional device known as a network switch.
 
  
=Network Switch=
+
=Addressing=
A network switch, often just referred to as a switch, allows multiple network devices to be connected together in a star formation. Switches come in different '''types''' and '''sizes'''. The most common type of switch is known as a "dumb" switch because it is '''not''' user configurable. A switch's '''size''' is defined by the number of network sockets, or ports, it has. The diagram below shows a four port switch.
+
==MAC Address==
[[Image:Switch.png|centre|200px]]
+
A MAC ([http://en.wikipedia.org/wiki/MAC_address  Media Access Control]) address is a unique series of identifying numbers assigned to network devices. They are generally assigned to a product as part of the manufacturing process. It is guaranteed that no two devices in the world will share the same MAC address.
A switch functions as a multipoint connector where any device, attached to any of the switch ports, is effectively connected to all other devices connected to any of the other ports.
+
 
 +
==IP Address==
 +
An IP address is a series of 4 numbers, each in the range 0 to 255, assigned to each device on the network. Each device needs a unique IP address to communicate with other devices on a network. Problems will occur if two devices on the same network have the same IP address. IP addresses are '''not''' unique in the world, only in a specific network. In the diagram below, devices 3 and 4 cannot communicate on the network because they have the same IP address. This is known as an IP address conflict.
 +
 
 +
[[Image:IpAdrConflict.png|centre|375px]]
 +
 
 +
==Subnet Mask==
 +
A subnet mask is a series of 4 numbers, each in the range 0 to 255, assigned to each device on the network. It is used by a device as a '''filter''', in conjunction with the '''IP address''', to decide which other devices it should communicate with. Masks typically consist of a combination of the numbers 0 and 255. More advanced configurations may use other numbers but this is uncommon and will not be discussed here.
 +
 
 +
Each of the 4 numbers in the subnet mask is associated with one of the 4 number positions in the IP address. In any of the 4 number positions in the subnet mask, a '''255 means an exact match is required''' in the corresponding positions in the IP addresses of '''both''' devices. A value of '''0 means no match is required''' between the numbers in the corresponding positions in their IP addresses.
 +
 
 +
===Example 1===
 +
In the diagram below, device 4 cannot communicate with any of the other devices. This is because their subnet masks ('''255.255.255.0''') dictate that the first 3 numbers of their '''IP addresses''' must match exactly with the device they are communicating with. This condition is only true when devices 1, 2 or 3 are communicating with each other. It is not true when any of devices 1, 2 or 3 are trying to communicate with device 4 because the third number in its IP address does not match that of the other devices.  
 +
 
 +
[[Image:SubnetMask1.png|centre|400px]]
 +
 
 +
===Example 2===
 +
In the diagram below, blue devices (1 &amp; 2) cannot communicate with green devices (3 &amp; 4). This is because their subnet masks (255.255.255.0) dictate that the first 3 numbers of their '''IP addresses''' must match. This condition is only true when devices 1 and 2 are communicating with each other, or devices 3 and 4 are communicating with each other.  
  
=IP Address=
+
[[Image:SubnetMask2.png|centre|400px]]
An IP address is a series of 4 numbers, in the range 0 to 255, assigned to each device on the network. Each device on the network needs a unique IP address to communicate with other devices. Problems will occur if two devices on the network have the same IP address.
 
  
 
==Assignment==  
 
==Assignment==  
There are two ways to assign IP addresses to a device on the network, '''static''' assignmant and '''dynamic''' assignment.
+
There are two ways to assign IP addresses and subnet masks to a device on the network, '''static''' assignment and '''dynamic''' assignment.
  
 
===Static Assignment (Manual) ===
 
===Static Assignment (Manual) ===
Static (fixed) assignment is where a fixed IP address is manually programmed into the device. This is normally done using a settings menu on the device. Some devices do not support static IP assignment.
+
Static (fixed) assignment is when the IP address and subnet mask are '''both''' programmed '''manually''' into the device. This is normally done using a setup menu on the device. Some devices do not support static assignment.
  
 
===Dynamic Assignment (Automatic) ===
 
===Dynamic Assignment (Automatic) ===
Dynamic assignment is where the IP address is assigned automatically, by the network. Each device sends a request for an IP address onto the network. It then waits for a response containing the address it should use. This is done using a mechanism called DHCP.
+
Dynamic assignment is when the IP address and subnet mask are '''both''' assigned '''automatically''', over the network. This is done using a mechanism called DHCP ([http://en.wikipedia.org/wiki/Dynamic_Host_Configuration_Protocol Dynamic Host Configuration Protocol]). When setup for dynamic assignment, '''a device sends a DHCP request onto the network''' and then waits for a response specifying the IP address and subnet mask it should use. Devices normally send their request when first connected to the network or immediately after they are powered up.
  
====DHCP====  
+
====DHCP Server ====
DHCP ([http://en.wikipedia.org/wiki/Dynamic_Host_Configuration_Protocol Dynamic Host Configuration Protocol]) is a standard protocol used for automatic assignment of IP addresses to devices on a network. Devices, that are configured for DHCP, send a request then wait to receive a response containing the IP address that they have been allocated. A major advantage of this approach is a device can be moved to a different network without the need for reconfiguration. Some devices send a DHCP request every time they are disconnected and reconnected to a network. Other devices only send a request at power up, meaning they have to be power cycled whenever they are moved to a new network.  
+
A DHCP server is a small configurable software component that responds to DHCP requests on the network. It keeps a record of the devices who sent requests. It ensures that every device is assigned a '''unique''' IP address and a '''common''' subnet mask. It is important that only one DHCP server exists on the network. Problems will occur if more than one is present since devices would then receive multiple responses to their DHCP requests. Typically, DHCP server functionality is integrated into the [[#Router | router]] device on the network.
  
=====DHCP Server =====
+
====Address Reservation====
A DHCP server is a small software component that processes DHCP requests from devices on the network. It replies to each request with a response containing a valid IP address for that device. It keeps a record of the devices who sent requests, and the IP addresses that it assigned to them, ensuring that no two devices are supplied with the same address. It is important that only one DHCP server exists on the network. Problems will occur if more than one is present since devices would then receive multiple responses to their requests. Typically, DHCP server functionality is integrated into the [[#Router | router]] device on the network.
+
Address Reservation (dynamic fixed assignment) is a feature, supported by some DHCP servers.  
 +
This use of this feature guarantees that a specific device will always be automatically assigned the '''same''' IP address. The advantage of this approach is that it harnesses the advantages of both '''static''' and '''dynamic''' assignment techniques.
  
=====Dynamic Fixed Assignment =====
+
=Subnet=
Dynamic fixed assignment (also known as '''Address Reservation''') is a feature, supported by some DHCP servers, that allows devices to be '''dynamically''' assigned the '''same''' IP address every time. The advantage of this approach is that it harnesses the advantages of both '''static''' and '''dynamic''' assignment techniques.
+
A subnet (subnetwork) is a subdivision of a larger network. Most networks are classed as subnets since they are typically connected to the '''internet''' and are thus a subdivision of that network. A subnet is defined by the range of IP addresses that are deemed valid on it's network.
  
=====MAC Address=====
+
=Network Switch=
 +
A network switch, often just referred to as a switch, allows multiple network devices to be connected together in a star formation. Any device, attached to any of the switch ports, is effectively connected to all other devices connected to any of the other ports.
  
=Subnet=
+
Switches come in different '''types''', '''sizes''' and '''speeds'''. The most common type of switch is known as a "dumb" switch because it is '''not''' user configurable. A switch's '''size''' is defined by the number of network sockets, or ports, it has. The diagram below shows a four port switch.
A subnet (subnetwork) is a subdivision of a larger network. Most networks are classed as subnets since they are typically connected to the '''internet''' and are thus a subdivision of that network. A subnet is defined by the range of IP addresses that are deemed valid on it's network.
+
[[Image:Switch.png|centre|200px]]
  
=Subnet Mask=
+
A switch's '''speed''' defines the '''maximum''' rate that data can be transferred through each port simultaneously. This rate is specified in megabits per second (Mb/s). The '''actual''' speed of data transfer, through each port, is determined by the '''maximum''' speed of the '''slowest''' component in the data transmission path. This could be a device or the switch itself.
  
 
=Router=
 
=Router=
 
A router is a device that manages the boundary  between two networks or subnets.
 
A router is a device that manages the boundary  between two networks or subnets.
 
[[Image:Router.png|centre|200px]]
 
[[Image:Router.png|centre|200px]]
 +
 +
==DNS==
 +
To make the Internet more friendly, you can use names rather than numbers (e.g. www.Linn.co.uk) but those names still need to be converted back into their real numeric address for the data to be sent. For example, www.Linn.co.uk might 'resolve' to IP address 195.59.102.230. The name to IP address convertor is called a '''D'''omain '''N'''ame '''S'''erver
  
 
=Wireless Access Point (WAP)=
 
=Wireless Access Point (WAP)=
A WAP is device that provides wireless access to the network.
+
A WAP is a device that provides wireless access to a network.
  
 
[[Image:Wap.png|centre|150px]]
 
[[Image:Wap.png|centre|150px]]
  
=Modem=
+
 
 +
The WAP can broadcast without any restrictions, or can be encrypted to only allow connections with a "key" to access. This will stop unauthorised access to your ethernet network.
 +
 
 +
=Modem ('''Mo'''dulator '''Dem'''ulator)=
 +
This is use to convert your ethernet to travel on different Transport system, such as telephone lines. Ethernet on its own cannot be tranmitted on a telephone line as it is, it has to be converted (MOdulated) to allow transport on this line. When any modulated data is received on the telephone line it has to be converted to work on a Ethernet system (DEModulated). Your typical one-box solutions ADSL modem/Router does this for you.
 +
 
 
=Power Over Ethernet (PoE) =
 
=Power Over Ethernet (PoE) =
 +
Ethernet cable has some spare cables that can used send low voltage DC power over the CAT-5 cable. This can allow a WAP or other devices to only require the ethernet CAT-5 cable, and NO power cable, to operate.
 +
 
=Ethernet Over Power (Homeplugs) =
 
=Ethernet Over Power (Homeplugs) =
 +
These adaptors allow you to broadcast Ethernet traffic over mains electricity wiring. If there is any RF interference on the mains cable, this will affect the amount of traffic (bandwidth) that can be send over your Mains cables.<br>
 +
They are not advised for use with the Linn DS as the bandwidth/performance is entirely dependant on the quality of the Mains supply. Some electrical devices such as Refrigerators, lighting dimmers etc can generate electrical noise that reduce the bandwidth. If the Linn DS is getting Music from a UPnP Media server, internet, Songcast from a PC or another DS, that are using the Ethernet over Power adaptors, then this reduction in bandwidth can cause the Linn DS to mute or not be found on the network.
  
 
=Combination Boxes=
 
=Combination Boxes=
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==Router-Switch-WAP==
 
==Router-Switch-WAP==
  
[[Image:RouterSwitchWap.png|centre|150px]]
+
[[Image:RouterSwitchWap.png|centre|210px]]
 +
 
 +
 
 +
=MESH networks=
 +
A mesh network is a mulitple [[Wireless_Access_Point|Wireless Access Points]] connect directly, dynamically and non-hierarchically together and cooperate with one another to efficiently route data.<br>
 +
As the Linn DS/DSM/HUB uses [https://en.wikipedia.org/wiki/Multicast multicast] broadcast for UPnP, some MESH networks do not support this broadcast very well and may not allow you to discover the Linn DS/DSM/HUB. If you are changing to a MESH network please contact your Retailer to check if this Mesh network can support UPnP.
  
 
=Appendix=
 
=Appendix=
Line 76: Line 113:
 
*If the device is moved to another network it will probably need a new address
 
*If the device is moved to another network it will probably need a new address
 
*Need to keep a record of all addresses on the network
 
*Need to keep a record of all addresses on the network
 +
 +
==Linn DS/DSM Network requirements==
 +
{{:Linn_DS/DSM_Network_requirements|Linn DS/DSM Network requirements}}
 +
 +
==Network cable definition==
 +
<u>[[Network_cable_definition|Network cable variants]]</u>
 +
 +
==Network Components==
 +
<u>[[Network_Components]]</u>
 +
 +
==Networking Applications==
 +
<u>[[Networking_Applications|Networking Applications]]</u>

Latest revision as of 09:14, 19 August 2020

Introduction

This page explains some of the fundamental concepts, components and terminology associated with standard computer networks. These networks are often referred to as local area networks (LAN).
This type of network is technically known as an Ethernet network.

EXAKT - LINK cables must be set-up in a seperate Exakt network, they cannot be mixed with LAN networks.


Network

An Ethernet network consists of two or more devices effectively connected together as shown in the diagram.

Network.png

Addressing

MAC Address

A MAC (Media Access Control) address is a unique series of identifying numbers assigned to network devices. They are generally assigned to a product as part of the manufacturing process. It is guaranteed that no two devices in the world will share the same MAC address.

IP Address

An IP address is a series of 4 numbers, each in the range 0 to 255, assigned to each device on the network. Each device needs a unique IP address to communicate with other devices on a network. Problems will occur if two devices on the same network have the same IP address. IP addresses are not unique in the world, only in a specific network. In the diagram below, devices 3 and 4 cannot communicate on the network because they have the same IP address. This is known as an IP address conflict.

IpAdrConflict.png

Subnet Mask

A subnet mask is a series of 4 numbers, each in the range 0 to 255, assigned to each device on the network. It is used by a device as a filter, in conjunction with the IP address, to decide which other devices it should communicate with. Masks typically consist of a combination of the numbers 0 and 255. More advanced configurations may use other numbers but this is uncommon and will not be discussed here.

Each of the 4 numbers in the subnet mask is associated with one of the 4 number positions in the IP address. In any of the 4 number positions in the subnet mask, a 255 means an exact match is required in the corresponding positions in the IP addresses of both devices. A value of 0 means no match is required between the numbers in the corresponding positions in their IP addresses.

Example 1

In the diagram below, device 4 cannot communicate with any of the other devices. This is because their subnet masks (255.255.255.0) dictate that the first 3 numbers of their IP addresses must match exactly with the device they are communicating with. This condition is only true when devices 1, 2 or 3 are communicating with each other. It is not true when any of devices 1, 2 or 3 are trying to communicate with device 4 because the third number in its IP address does not match that of the other devices.

SubnetMask1.png

Example 2

In the diagram below, blue devices (1 & 2) cannot communicate with green devices (3 & 4). This is because their subnet masks (255.255.255.0) dictate that the first 3 numbers of their IP addresses must match. This condition is only true when devices 1 and 2 are communicating with each other, or devices 3 and 4 are communicating with each other.

SubnetMask2.png

Assignment

There are two ways to assign IP addresses and subnet masks to a device on the network, static assignment and dynamic assignment.

Static Assignment (Manual)

Static (fixed) assignment is when the IP address and subnet mask are both programmed manually into the device. This is normally done using a setup menu on the device. Some devices do not support static assignment.

Dynamic Assignment (Automatic)

Dynamic assignment is when the IP address and subnet mask are both assigned automatically, over the network. This is done using a mechanism called DHCP (Dynamic Host Configuration Protocol). When setup for dynamic assignment, a device sends a DHCP request onto the network and then waits for a response specifying the IP address and subnet mask it should use. Devices normally send their request when first connected to the network or immediately after they are powered up.

DHCP Server

A DHCP server is a small configurable software component that responds to DHCP requests on the network. It keeps a record of the devices who sent requests. It ensures that every device is assigned a unique IP address and a common subnet mask. It is important that only one DHCP server exists on the network. Problems will occur if more than one is present since devices would then receive multiple responses to their DHCP requests. Typically, DHCP server functionality is integrated into the router device on the network.

Address Reservation

Address Reservation (dynamic fixed assignment) is a feature, supported by some DHCP servers. This use of this feature guarantees that a specific device will always be automatically assigned the same IP address. The advantage of this approach is that it harnesses the advantages of both static and dynamic assignment techniques.

Subnet

A subnet (subnetwork) is a subdivision of a larger network. Most networks are classed as subnets since they are typically connected to the internet and are thus a subdivision of that network. A subnet is defined by the range of IP addresses that are deemed valid on it's network.

Network Switch

A network switch, often just referred to as a switch, allows multiple network devices to be connected together in a star formation. Any device, attached to any of the switch ports, is effectively connected to all other devices connected to any of the other ports.

Switches come in different types, sizes and speeds. The most common type of switch is known as a "dumb" switch because it is not user configurable. A switch's size is defined by the number of network sockets, or ports, it has. The diagram below shows a four port switch.

Switch.png

A switch's speed defines the maximum rate that data can be transferred through each port simultaneously. This rate is specified in megabits per second (Mb/s). The actual speed of data transfer, through each port, is determined by the maximum speed of the slowest component in the data transmission path. This could be a device or the switch itself.

Router

A router is a device that manages the boundary between two networks or subnets.

Router.png

DNS

To make the Internet more friendly, you can use names rather than numbers (e.g. www.Linn.co.uk) but those names still need to be converted back into their real numeric address for the data to be sent. For example, www.Linn.co.uk might 'resolve' to IP address 195.59.102.230. The name to IP address convertor is called a Domain Name Server

Wireless Access Point (WAP)

A WAP is a device that provides wireless access to a network.

Wap.png


The WAP can broadcast without any restrictions, or can be encrypted to only allow connections with a "key" to access. This will stop unauthorised access to your ethernet network.

Modem (Modulator Demulator)

This is use to convert your ethernet to travel on different Transport system, such as telephone lines. Ethernet on its own cannot be tranmitted on a telephone line as it is, it has to be converted (MOdulated) to allow transport on this line. When any modulated data is received on the telephone line it has to be converted to work on a Ethernet system (DEModulated). Your typical one-box solutions ADSL modem/Router does this for you.

Power Over Ethernet (PoE)

Ethernet cable has some spare cables that can used send low voltage DC power over the CAT-5 cable. This can allow a WAP or other devices to only require the ethernet CAT-5 cable, and NO power cable, to operate.

Ethernet Over Power (Homeplugs)

These adaptors allow you to broadcast Ethernet traffic over mains electricity wiring. If there is any RF interference on the mains cable, this will affect the amount of traffic (bandwidth) that can be send over your Mains cables.
They are not advised for use with the Linn DS as the bandwidth/performance is entirely dependant on the quality of the Mains supply. Some electrical devices such as Refrigerators, lighting dimmers etc can generate electrical noise that reduce the bandwidth. If the Linn DS is getting Music from a UPnP Media server, internet, Songcast from a PC or another DS, that are using the Ethernet over Power adaptors, then this reduction in bandwidth can cause the Linn DS to mute or not be found on the network.

Combination Boxes

Router-Switch

RouterSwitch.png

Router-Switch-WAP

RouterSwitchWap.png


MESH networks

A mesh network is a mulitple Wireless Access Points connect directly, dynamically and non-hierarchically together and cooperate with one another to efficiently route data.
As the Linn DS/DSM/HUB uses multicast broadcast for UPnP, some MESH networks do not support this broadcast very well and may not allow you to discover the Linn DS/DSM/HUB. If you are changing to a MESH network please contact your Retailer to check if this Mesh network can support UPnP.

Appendix

Advantages/Disadvantages Of IP Assignment Methods

Static IP Advantages

  • The IP address is reliable as it always remains the same.

Static IP Disadvantages

  • There is a small time/labour overhead in manual configuration
  • There is a potential for error such as address conflicts
  • If the device is moved to another network it will probably need a new address
  • Need to keep a record of all addresses on the network

Linn DS/DSM Network requirements

ALL Linn DS/DSM products support 100Base-T excluding the Klimax DSM/3 that supports 1GBase-T connections and used on standard Networks

Supported networks
Private - standard non-public IPs (192.168 / 10/0, 172.xxx) NATd to internet if required
Domestic - single household setup (no VLANs etc)
Ethernet - IEEE802.3 compliant (No jumbo frames.)
Services, ports, protocols
The Services, ports and protocols are used by the Linn app and players in the network
Services
UPnP & SSDP (Linn DS/DSM discovery and control)
Port 1900 (UDP)
Port 2869 (TCP),
Ports 49152-65535 (both TCP & UDP)
LPEC (Linn Products Event Control)
Port 23 (TCP)
mDNS (Bonjour)
IPV4 224.0.0.251 port 5353 (UDP)
DHCP
Ports 67, 68 (UDP)
ODP (OpenHome Device Protocol)
TCP on an ephemeral port



Managed Switches
Make sure they are programmed to work in Layer-2 mode


Routers/DHCP Servers
Recommend a weekly scheduled reboot of these devices.


Jumbo packet/frames networking
This is not an official standard and is not supported by the Linn DS/DSM.


Multicast or Unicast

If you are using more than six Linn DS/DSM products on the same network and want to share/Songcast the music to other rooms, then make sure the LAN can support multicasting.

If you have issues with your Routers, check:

  • QoS is turned OFF (some Routers do not implement this consistently and this may block Linn DS discovery).
  • "IGMP Snooping" is turned OFF
  • On BTHomeHubs turn "Extended UPnP security" - OFF
  • On DLINK, within "Advanced", Multicast Streams - ENABLE
  • "Privacy Separator" is turned OFF
  • "WMM" is turned OFF
  • "Spanning Tree" is turned OFF
  • "Flow Control" is turned OFF
  • Block multicast / broadcast MAC address is turned OFF


  • Speak to a networking specialist who understands the necessary equipment and setup to ensure proper handling of multicast traffic and enable multicast Songcasting
IGMP/IGMP Snooping

If your devices support this service, then make sure this is DISABLED. (This should only be enabled and setup by a “suitably qualified network expert”)

Network cable definition

Network cable variants

Network Components

Network_Components

Networking Applications

Networking Applications