96 lines
6.7 KiB
HTML
96 lines
6.7 KiB
HTML
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<meta name="DC.Title" content="TFTP Subnet Broadcast option" />
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<meta name="abstract" content="Broadcast storms are a performance problem that might occur when there are large numbers of systems that boot from the network." />
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<meta name="description" content="Broadcast storms are a performance problem that might occur when there are large numbers of systems that boot from the network." />
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<title>TFTP Subnet Broadcast option</title>
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</head>
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<body id="rzal5tftpsub"><a name="rzal5tftpsub"><!-- --></a>
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<!-- Java sync-link --><script language="Javascript" src="../rzahg/synch.js" type="text/javascript"></script>
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<h1 class="topictitle1">TFTP Subnet Broadcast option</h1>
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<div><p>Broadcast storms are a performance problem that might occur when
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there are large numbers of systems that boot from the network.</p>
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<p>These storms occur when large numbers of clients request their boot code
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at the same time. When hundreds of systems are involved in booting, the same
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data must be routed through each hop in the network between each system and
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the server.</p>
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<p>The TFTP Subnet Broadcast option provides a solution to this problem. It
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allows the server to broadcast the boot code to systems on a subnet basis.
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Using subnet-directed broadcast, Subnet Broadcast data packets are unicast
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between routers until they reach the subnet on which the systems reside. At
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this point, the router at the destination subnet broadcasts the data packets
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to the systems on the subnet. Disinterested hosts on the subnet throw the
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data packets away. The packets are usually thrown away by the host's IP layer
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after it determines that no applications are interested in receiving data
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on the port to which the broadcast was directed. See <a href="#rzal5tftpsub__bcsub">Figure 1</a> for
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an illustration of a subnet-directed broadcast. This solution can drastically
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reduce the network traffic as well as the time that it takes many systems
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to boot (when booting simultaneously).</p>
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<p>The TFTP Subnet Broadcast option enables clients to join a broadcasting
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filegroup. It also allows clients to receive all subsequent blocks for a file
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until the client becomes the master client. A client becomes the master client
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when it receives an Option Acknowledge (OACK) packet from the TFTP server
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that indicates that it is the master client. A client must keep track of blocks
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that it receives. After a client becomes the master client, it can request
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the blocks that it has not received. The master client requests blocks by
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sending ACK packets that include the block number of the block prior to the
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block that the master client requires. For example, if the client wants block
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5, it sends an ACK with a block number of 4.</p>
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<p>When a client receives an OACK packet that indicates that
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it is the master client, the client must send an ACK that requests the first
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block it requires. From then on, the client must request blocks in ascending
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but not necessarily consecutive order. A master client continues to send ACK
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packets to the server to indicate the next block that it requires. When the
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master client receives all of the blocks it requires, it sends an ACK with
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the number of the last block on the file being transferred. Once the server
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receives an ACK with the last block number of the file being transferred,
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the transfer to the client sending the ACK is considered complete. A client
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can stop its transfer at any time by sending an ACK for the last block or
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by sending an Error (ERR) packet. A client can end this transfer regardless
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of whether it is the master client or not. </p>
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<div class="note"><span class="notetitle">Note:</span> This TFTP Subnet Broadcast option is designed to improve simultaneous
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transfer of large files to multiple clients on a common subnet. This option
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does not help with files that require only a few blocks to transfer or single
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client transfers.</div>
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<div class="fignone" id="rzal5tftpsub__bcsub"><a name="rzal5tftpsub__bcsub"><!-- --></a><span class="figcap">Figure 1. Example of Broadcasting
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over Subnets</span><br /><div class="imagecenter"><img src="rv4e002.gif" alt="A sample diagram of broadcasting over subnets" /></div><br /></div>
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</div>
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<div>
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<ul class="ullinks">
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<li class="ulchildlink"><strong><a href="rzal5rrqoptions.htm">Client-to-server TFTP Read Request options</a></strong><br />
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This information includes the additional TFTP options that are supported and a description of their use.</li>
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<li class="ulchildlink"><strong><a href="rzal5oack.htm">Server-to-client TFTP Option Acknowledgment</a></strong><br />
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The TFTP server sends an Option Acknowledgment (OACK) to a client in response to either a read request or a write request that includes additional TFTP options as described in Client to server TFTP Read Request (RRQ) options.</li>
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<li class="ulchildlink"><strong><a href="rzal5bdata.htm">Server-to-client Broadcast Data Packets</a></strong><br />
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This information explains the fields in a Broadcast Data (BDATA) Packet in detail.</li>
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</ul>
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<div class="familylinks">
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<div class="parentlink"><strong>Parent topic:</strong> <a href="rzal5overview.htm" title="Trivial File Transfer Protocol (TFTP) is a simple protocol that provides basic file transfer function with no user authentication.">Trivial File Transfer Protocol</a></div>
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</div>
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</div>
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</body>
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