Allied Telesis AR400の取扱説明書

デバイスAllied Telesis AR400の取扱説明書

デバイス: Allied Telesis AR400
カテゴリ: ネットワークルーター
メーカー: Allied Telesis
サイズ: 0.83 MB
追加した日付: 12/16/2013
ページ数: 110
説明書を印刷

ダウンロード

使い方は?

私たちの目的は、皆様方にデバイスAllied Telesis AR400の取扱説明書に含まれたコンテンツを可能な限り早く提供することです。オンラインプレビューを使用すると、Allied Telesis AR400に関してあなたが抱えている問題に対する解決策の内容が素早く表示されます。

便宜上

説明書Allied Telesis AR400をこちらのサイトで閲覧するのに不都合がある場合は、2つの解決策があります:

  • フルスクリーン表示 – 説明書を(お使いのコンピュータにダウンロードすることなく)便利に表示させるには、フルスクリーン表示モードをご使用ください。説明書Allied Telesis AR400のフルスクリーン表示を起動するには、全画面表示ボタンを押してください。
  • コンピュータにダウンロード - Allied Telesis AR400の説明書をお使いのコンピュータにダウンロードし、ご自身のコレクションに加えることもできます。デバイス上のスペースを無駄にしたくない場合は、いつでもManualsBaseサイトでダウンロードすることもできます。
Allied Telesis AR400 取扱説明書 - Online PDF
Advertisement
« Page 1 of 110 »
Advertisement
印刷版

多くの人々は画面表示ではなく印刷された説明書を読むほうを好みます。説明書を印刷するオプションも提供されており、上記のリンクをクリックすることによりそれを利用できます - 説明書を印刷。説明書Allied Telesis AR400を全部印刷する必要はなく、選択したページだけを印刷できます。紙を節約しましょう。

要旨

次のページにある説明書Allied Telesis AR400の内容のプレビューは、以下にあります。次のページにある説明書の内容をすぐに表示したい場合は、こちらをご利用ください。

内容要旨
ページ1に含まれる内容の要旨

AlliedWare™ OS
How To | Configure IGMP for Multicasting on Routers and
Managed Layer 3 Switches
Introduction
Allied Telesis routers and managed layer 3 switches use IGMP—Internet Group Management
Protocol—to track which multicast groups their clients belong to. This enables them to send
the correct multimedia streams to the correct destination.
This How To Note describes basic and advanced IGMP configuration, in the following major
sections:
an overview of IGMP and definitions of some of th

ページ2に含まれる内容の要旨

Introduction > Contents Multiple potential IGMP queriers ...................................................................................................... 15 Example ............................................................................................................................................ 15 Explanation of multiple potential IGMP queriers .................................................................... 17 IGMP proxy ..................................................

ページ3に含まれる内容の要旨

Introduction > Products and software versions this note applies to Stopping snoopers from snooping non-IGMP messages .............................................................. 86 Example ............................................................................................................................................ 86 Preventing an All Groups entry for a port ............................................................................... 90 Controlling which addresses create A

ページ4に含まれる内容の要旨

Introduction > Products and software versions this note applies to The following table shows the software versions and products each feature is available on. IGMP feature Software versions Products Snooping All All except AR410, AR410S, AR725 and AR745 Multiple potential queriers All All Proxy AT-8948, x900-48: 2.8.1 and later All except AT-9800 and SwitchBlade Other products: all versions Filtering 2.7.5 and later All that support this version Filtering different message types 2.8.1 and l

ページ5に含まれる内容の要旨

IGMP overview > Queriers and Snoopers IGMP overview IGMP terms: Clients in an IP subnetwork use IGMP to indicate that they are interested in receiving a multicast. Multicast or Multicast stream IGMP then ensures that routers and switches A flow of information—usually video or forward multicast packets out the appropriate audio—that can go from one source to ports to the interested clients. many destination clients. Group IGMP is very flexible, as the examples in this A multicast strea

ページ6に含まれる内容の要旨

IGMP overview > Messages The key differences between a network’s Querier and its Snoopers are: The Querier generates Query messages to find out which ports need to transmit each multicast stream. The Snoopers also use Query messages to find this out, but they use the Querier’s messages—Snoopers cannot create Query messages themselves. The Querier has IGMP enabled as part of its IP configuration. Snoopers do not require any configuration because snooping is enabled by default on Allied T

ページ7に含まれる内容の要旨

IGMP overview > Choosing group addresses Choosing group addresses This section describes things you need to be aware of when choosing addresses for your multicast groups. Reserved IP IP addresses in the range 224.0.0.0-239.255.255.255 are multicast addresses, but many addresses addresses in this range are reserved. Therefore, before choosing a multicast address, you should check its status in the “Internet Multicast Addresses” document at the IANA website at www.iana.org/assignments/mult

ページ8に含まれる内容の要旨

IGMP overview > Choosing group addresses Avoid x.0.0.y, x.0.1.y, x.128.0.y, and x.128.1.y It is particularly important to avoid using any address in the ranges x.0.0.y, x.128.0.y, x.0.1.y, or x.128.1.y (where x is 224-239 and y is 1-254). This is because x.0.0.y and x.128.0.y will map to the same multicast MAC address as 224.0.0.y. Similarly, x.0.1.y and x.128.1.y will map to the same multicast MAC address as 224.0.1.y. Most addresses in the ranges 224.0.0.y and 224.0.1.y are reserved for

ページ9に含まれる内容の要旨

IGMP snooping > Example IGMP snooping In this example, we discuss IGMP snooping, the key to efficient multicast traffic flow in a layer 2 network. IGMP snooping is enabled by default on switch ports in Allied Telesis managed layer 3 switches and routers—it does not require any configuration. In a single-switch network, IGMP snooping makes multicasting happen with no configuration at all. All you need to do is connect your server and clients to the switch. In a multi-switch network, at lea

ページ10に含まれる内容の要旨

IGMP snooping > Example Configure switch 1 Switch 1 is configured with IGMP, which makes it the IGMP Querier in this network. It is best practice to make the Querier the closest switch to the multicast source, and in this example switch 1 is closest. For more information about queriers see "Multiple potential IGMP queriers" on page 15. set system name="Switch 1" # VLAN general configuration create vlan=vlan100 vid=100 add vlan=100 port=1-52 # IP configuration enable ip add ip int=vlan10

ページ11に含まれる内容の要旨

IGMP snooping > Explanation of IGMP snooping Explanation of IGMP snooping This section steps through the events that occur in a typical use of multicasting in this network: to stream multicast packets for a group. IGMP The following figure shows the process by which IGMP tracks multicast clients and ensures learning that the correct clients receive the stream. process What happens before a multicast client exists: 49 26 1. Querier starts receiving multicast stream Multicast from serv

ページ12に含まれる内容の要旨

IGMP snooping > Explanation of IGMP snooping Using Show command output to investigate IGMP state No group In the first stage of the figure above, the multicast server is turned on and is streaming group members 224.12.13.14 to the Querier, switch 1. Switch 1 knows about the group, but has nobody interested in receiving it. You can see this by using the command show igmpsnooping on switch 1. The output of this command shows that switch 1 has an entry for the group, but no associated ports

ページ13に含まれる内容の要旨

IGMP snooping > Explanation of IGMP snooping This output now shows two entries, one for each of the following: group 224.12.13.14 and port 3, which shows that the client is attached to the Snooper through port 3 and is listening to group 224.12.13.14. The Snooper created this entry at stage 5 in the process ("IGMP learning process" on page 11). This entry means that the Snooper forwards packets from 224.12.13.14 out port 3. All Groups and port 26, which shows that the Snooper is connect

ページ14に含まれる内容の要旨

IGMP snooping > Explanation of IGMP snooping Finally, look at the output of the command show igmpsnooping on the Querier. Even though switch 1 is the Querier for this network instead of a Snooper, this command shows that a client for group 224.12.13.14 is reached out port 49. Manager Switch 1> show igmpsnooping IGMP Snooping ------------------------------------------------------------------------ Status ........................... Enabled Disabled All-groups ports ........ None Vlan Name (

ページ15に含まれる内容の要旨

Multiple potential IGMP queriers > Example Multiple potential IGMP queriers To find out more about IGMP, we next investigate what happens when more than one router or switch has an IGMP configuration. RFC 2236, Internet Group Management Protocol, Version 2, says that each Layer 2 network should have only one IGMP Querier. You may configure IGMP on more than router or switch, perhaps for redundancy, but the routers and switches have a pseudo election and the device with the lower IP beco

ページ16に含まれる内容の要旨

Multiple potential IGMP queriers > Example Configure switch 1 Switch 1 is a potential IGMP Querier. It acts as a Snooper if it is not elected as the Querier. set system name="Switch 1" # VLAN general configuration create vlan=vlan100 vid=100 add vlan=100 port=1-52 # IP configuration enable ip add ip int=vlan100 ip=172.31.0.254 mask=255.255.255.0 enable ip igmp enable ip igmp int=vlan100 # STP general configuration enable stp=default set stp=default mode=rapid set stp=default port=1 edgeport

ページ17に含まれる内容の要旨

Multiple potential IGMP queriers > Explanation of Multiple potential IGMP queriers Explanation of Multiple potential IGMP queriers When there are no group members Switch 1 and switch 2 are both possible Queriers, and an election determines which switch becomes the actual Querier. We can see the results of the election by using the command show ip igmp on each switch. Manager Switch 1> show ip igmp IGMP Protocol ------------------------------------------------------------------------ Status

ページ18に含まれる内容の要旨

Multiple potential IGMP queriers > Explanation of Multiple potential IGMP queriers When a client joins a group Now imagine that Client 1 sends a Membership Report to switch 2 for the group 224.12.13.14. If we check the group membership for switch 2 by using the command show igmpsnooping, we see a group entry for 224.12.13.14. Manager Switch 2> show igmpsnooping IGMP Snooping ------------------------------------------------------------------------ Status ........................... Enabled

ページ19に含まれる内容の要旨

Multiple potential IGMP queriers > Explanation of Multiple potential IGMP queriers To see the difference between a switch acting as a Snooper and a switch acting as a Querier, compare the IGMP snooping table for switch 1 (above) with its IGMP table (below). They seem to contradict each other. The IGMP snooping table tells us that switch 1 is aware that it is receiving the group 224.12.13.14 and will send all groups (including this one) out port 49 towards the IGMP Querier, switch 2. Howe

ページ20に含まれる内容の要旨

Multiple potential IGMP queriers > Explanation of Multiple potential IGMP queriers Manager Switch 2> show igmpsnooping IGMP Snooping ------------------------------------------------------------------------ Status ........................... Enabled Disabled All-groups ports ........ None Vlan Name (vlan id) ..... default (1) Fast Leave .............. Off Group List .............. No group memberships. Vlan Name (vlan id) ..... vlan100 (100) Fast Leave .............. Off Group List ........


類似の説明書
# 取扱説明書 カテゴリ ダウンロード
1 Allied Telesis 86241-02 取扱説明書 ネットワークルーター 2
2 Allied Telesis AR450S 取扱説明書 ネットワークルーター 7
3 Allied Telesis AR440S 取扱説明書 ネットワークルーター 10
4 Allied Telesis 86222-21 取扱説明書 ネットワークルーター 1
5 Allied Telesis AR415S 取扱説明書 ネットワークルーター 124
6 Allied Telesis 86222-10 取扱説明書 ネットワークルーター 1
7 Allied Telesis AR442S 取扱説明書 ネットワークルーター 4
8 Allied Telesis 86241-01 取扱説明書 ネットワークルーター 1
9 Allied Telesis AR750S 取扱説明書 ネットワークルーター 20
10 Allied Telesis AT-TQ2450 取扱説明書 ネットワークルーター 32
11 Allied Telesis AlliedWare NetScreen Routers 取扱説明書 ネットワークルーター 2
12 Allied Telesis AR400 series 取扱説明書 ネットワークルーター 2
13 Allied Telesis AT-WR4662N 取扱説明書 ネットワークルーター 2
14 Allied Telesis AT-PWR03 取扱説明書 ネットワークルーター 1
15 Allied Telesis AR441S 取扱説明書 ネットワークルーター 1
16 Sony BKS-R3202/R3210/R3220 取扱説明書 ネットワークルーター 77
17 Sony DVS-V3232B/V3232M 取扱説明書 ネットワークルーター 3
18 Sony BVS-V3232 取扱説明書 ネットワークルーター 8
19 Sony DMX-WL1 取扱説明書 ネットワークルーター 6
20 Sony BVS-A3232 取扱説明書 ネットワークルーター 6