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build.xml | ||
README | ||
runT2proxy.sh | ||
t2hproxy.pl | ||
t2hproxy.xinetd | ||
T2hproxy.java |
T2hproxy This is a TFTP to HTTP proxy. To the TFTP client it looks like a TFTP server. To the HTTP server it looks like a HTTP client. So you can store your boot files on the HTTP server. Or even create them with a CGI program. E.g. if you can get dhcpd to send a filename which has strings representing attributes of the client, as determined from the DHCP request, then you can get the CGI program to parse this and send the appropriate image, which might even be synthesised. There are two versions of the proxy, in Perl and in Java. 1. The Perl version. This is the original quick Perl hack conceived in a moment of madness. :-) Perl is great for prototyping. To run it, you need Perl 5.8.0 or later and all the Perl modules listed at the top of the program installed. Edit and install the xinetd config file as /etc/xinetd.d/t2hproxy and restart xinetd. The prefix is the string that is prepended to all filenames to form the URL requested from the HTTP server. Remember you need the trailing / if the filenames don't start with /. This is only a proof-of concept. It has these drawbacks at the moment: + (I don't consider this a draback, but some may.) It's started from xinetd because xinetd handles all the socket listening, IP address checking, rate limiting, etc. + It has no cache. Use a proxy to do the caching (there's a --proxy option). This also takes care of fetching from outside a firewall. + It reads the entire HTTP content into memory before serving. Ideally it should stream it from the HTTP server to minimise memory usage. This is a serious drawback for booting lots of clients. Each instance of the server will consume an amount of memory equal to the size of image loaded. + If the HTTP server is at the end of a slow link there is a delay before the first data block is sent. The client may timeout before then. Another reason for streaming, as this allows the first block to be sent sooner. A local cache primed with the images in advance may help. Using the blocksize option helps here because this causes the server to send the OACK to the client immediately before the data is fetched and this prevents it from starting up another connection. + The transfer size may not be obtainable from the HTTP headers in all cases, e.g. a CGI constructed image. This matters for clients that need the tsize extension, which is not supported at the moment. If I'm feeling masochistic I may write a Java version, which should take care of the multi-threading and streaming. 2. The Java version The main problem with the Perl version is that it does not stream the HTTP input but sucks it all in at once. As mentioned, this causes a delay as well as requiring memory to hold the image. I could fix this by doing the polling on the HTTP socket myself instead of letting LWP do it, but that's for later. Java has streaming facilities as well as threading and is also somewhat portable. So I decided to be masochistic and give it a go. But boy is Java bureaucratic. You will need a Java 1.4 JRE, because I use the java.nio classes; and the commons-httpclient and commons-logging jars from the jakarta.apache.org project. As I understand it, there are several ways to get those jars on your classpath. One is to put it in the directory where your java extensions jars are kept, normally $JAVA_HOME/jre/lib/ext. But it may not be writable to you. Another is to set your $CLASSPATH variable to have those jars in the path. A third is to use the -cp option of the java interpreter, see the shell script runT2hproxy for details. All the source is in one Java file. build.xml is a "Makefile" for ant to compile and jar it. You should then edit runT2proxy.sh as required, then start it. As with the Perl version, the prefix is what's prepended to the filenames requested by the TFTP client, and the proxy is the host:port string for the proxy if you are using one. On *ix you will need root permission to listen on ports below 1024 (TFTP is at 69 UDP by default). Currently it logs to stderr, but you can change this by downloading and installing the log4j jar from jakarta.apache.org and instructing commons-logging to use that, with a command line property setting and a property file. Destinations could be syslog, or a file, or an event logger, or...; it's supposedly very flexible. 3. Licensing All this code is GPLed. For details read the file COPYING found in the Etherboot top directory since it currently bundled with Etherboot. I don't see the point of including COPYING in every directory. Ken Yap, October 2003