hacking

	==Phrack Inc.==

	Volume Two, Issue 23, File 4 of 12

	<><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><>
	<> <>
	<> Utopia <>
	<> ~~~~~~ <>
	<> Chapter One of The Future Transcendent Saga <>
	<> <>
	<> An Introduction To The World Of Bitnet <>
	<> <>
	<> Presented by Knight Lightning <>
	<> January 1, 1989 <>
	<> <>
	<> Special Thanks To Jester Sluggo <>
	<> <>
	<><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><>


	Welcome To The Next MILLENNIUM Of The Communications Realm
	The Future is NOW!

	As most people will agree, college and university computers are the easiest to
	gain access to, both legally and illegally. Bitnet is only one of the many
	interconnected wide area networks, but I felt that it was the most important to
	discuss because all major colleges and universities are connected by it and as
	such creating an almost utopian society for the technologically inclined. It's
	free, legal, and world encompassing -- anything that incorporates "free" with
	"legal" and is useful has to hold some sort of perfection and thus the name of
	this file.

	For the people already on Bitnet, this file may seem somewhat basic and most
	likely contains information that you are thoroughly aware of, but you never w
	know what a little extra reading might lead you to discover. Once again
	welcome to the future... a future where limits are unknown.

	:Knight Lightning

	- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

	The Origin Of BITNET
	~~~~~~~~~~~~~~~~~~~~
	by Jester Sluggo

	In 1981, the City University of New York (CUNY) surveyed universities on the
	east coast of the United States and Canada, inquiring whether there was
	interest in creating and easy-to-use, economical network for interuniversity
	communication between scholars. The response was positive. Many shared the
	CUNY belief in the importance of computer-assisted communication between
	scholars. The first link of the new network, called Bitnet, was established
	between CUNY and Yale University in May 1981. The term BITNET is an acronym
	that stands for "Because It's Time NETwork."

	The network technology chosen for Bitnet was determined by the availability
	of the RSCS software on the IBM computers at the initial sites. The RSCS is
	simple and effective, and most IBM VM/CMS computer systems have it installed
	for local communications, supporting file transfer and remote job entry
	services. The standard Bitnet links are leased telephone lines running 9600
	bps. Although the initial nodes were IBM machines in university computers
	centers, the network is in no way restricted to such systems. Any computer
	with an RSCS emulator can be connected to Bitnet. Emulators are available for
	Digital Equipment Corporation VAX/VMS systems, VAX-UNIX systems, and for
	Control Data Corporation Cyber systems and others. Today, more than one-third
	of the computers on Bitnet are non-IBM systems.

	There is also some talk in the Bitnet scientific community of a merger between
	Bitnet and CSnet (Computer Science Network). It is unknown when or if such a
	merger will take place, but it is only a step in the right direction.

	Note: NetNorth is the Canadian division of Bitnet and EARN is the European
	division of Bitnet. They are all directly connected and together serve
	as one network and not three. It is often referred to as
	BITNET/NetNorth/EARN.
	_______________________________________________________________________________

	The Basics Of Bitnet
	~~~~~~~~~~~~~~~~~~~~
	In order to make any sense out of this file, you should first have a basic
	understanding of mainframes and userids, etc. Since most readers of Phrack are
	computer enthusiasts, there is a pretty good chance that you understand these
	things already. If not, you may want to find documentation on the topic. The
	Mentor's Beginning Hackers Guide, which was published in Phrack Inc. XXII
	contains some information that might help you. The concepts presented in this
	file are not terrible difficult to understand, but you should not jump into
	this totally unprepared either.

	You should also be a little familiar with the type of hardware and operating
	system you will be using. Most IBM systems in Bitnet run VM/CMS. The Digital
	Equipment Corporation (DEC) VAX systems usually run an operating system called
	VMS along with a software package called JNET which allows them to communicate
	via Bitnet. I will be referring to VM/CMS and VMS/JNET throughout this file.
	I myself currently use an IBM 4381 that runs VM/CMS and thus I am much more
	familiar with that type of system.

	Try to think of the mainframe as the telephone and Bitnet as the telephone
	lines. You see, the mainframe you log onto is connected to mainframes at other
	universities and institutions. The connection is usually a high-speed leased
	line, a special sort of telephone connection. In a way, these computers are
	always on the phone with each other (except when links go down, discussed in
	the section on MESSAGES). This particular network is what is known as a "store
	and forward" network. This means that if I send something to someone in Los
	Angeles, the computers in the network between New York and California will
	store and forward it from computer to computer until it reaches it's
	destination.

	In Bitnet, there is only one way from "Point A" to "Point B." A small piece of
	the network might look like this:

	--- --- ---
	\| A \|--\| B \|--\| C \|
	--- --- ---
	\|
	--- --- --- --- ---
	\| D \|--\| E \|--\| F \|--\| G \|--\| H \|
	--- --- --- --- ---
	\| \|
	--- --- --- ---
	\| I \|--\| J \| \| K \|--\| L \|
	--- --- --- ---
	\|
	--- --- --- ---
	\| M \|--\| N \|--\| O \|--\| P \|
	--- --- --- ---

	Those boxes represent computers in the network, and the dashes between them are
	the leased lines. If I am at computer "A" and I send a file to someone at
	computer "N" it would travel the following path:

	A-B-D-E-F-G-K-N

	Actual topology maps are available for download from LISTSERV@BITNIC, but we
	will be discussing servers later in this file. Like I mentioned before, there
	is only one route between any two nodes and there is simply no way to bypass a
	disconnected link.

	Each of the computers in BITNET is called a "node" and has a unique name that
	identifies it to the other nodes. For example, one of the mainframe computers
	at the University Of Missouri-Columbia has the nodename UMCVMB. So what does
	that mean exactly? Well in this case, UMC comes from the name of the school,
	VM comes from the Virtual Memory operating system, and B is just an
	alpha-numerical identifier. At one time there was a UMCVMA, but that system
	was taken down a couple of years ago. One thing to note here is that although
	this particular node can be broken down into its parts, many nodes do not
	follow this pattern and some nodes have "aliases." An alias is just another
	name for the node and both names are recognized by all Bitnet facilities. An
	example of this is STANFORD. The nodes STANFORD and FORSYTHE are the same
	place so...

	CYPHER@STANFORD = CYPHER@FORSYTHE

	Your userid in combination with the name of your node is your "network
	address." It is usually written in the format userid@node (read "userid at
	node"). For example, the name of my node is UMCVMB, and my userid is C483307.
	Therefore, my network address is C483307@UMCVMB. If I know the userid@node of
	someone in the network, I can communicate with that person, and he/she can
	communicate with me. I have found many interesting people on the networks.
	Making use of the direct chatting capabilities of Bitnet I am able to talk to
	them in "real-time." You can do this too, all you need to know are a few
	commands. This is explained in part two.


	Messages
	~~~~~~~~
	There are three basic methods of communicating via Bitnet: MAIL, MESSAGE, and
	FILE. The reason you would choose one over the other for a particular
	application will become clear after a little explanation.

	The MESSAGE is the fastest and most convenient method of communication
	available through Bitnet. It is the network's equivalent of a telephone
	conversation. The difference of course is that the words are typed instead of
	spoken. The message you type is transmitted immediately (well, quickly) to its
	destination. In BITNET this destination is the network address (userid@node)
	of the person you want to contact. If the person you are contacting is logged
	on, the message will be displayed on their screen. If not, their computer
	will tell you so by sending you a message. In this case, your message is lost
	forever. In other words, no one is there to answer the phone. However, many
	people run a program called GONE (and there are other similar programs) which
	acts like an answering machine and holds your message until they log on. Some
	universities do not allow this program because it uses a lot of CPU time. If
	your school or mainframe does not allow it, do not try to sneak its use,
	because it is very easy to detect.

	One important thing to mention is that not all nodes allow interactive chat.
	Some nodes are simply not advanced enough for it and you will a receive a
	message telling you this whenever you try to chat with them. However, this
	situation is less common.

	The command to send messages depends on your computer and system software.
	People on VM/CMS systems would type something like this:

	TELL userid AT node message OR TELL userid@node message

	For example:

	TELL MENTOR AT PHOENIX Hey, whats new on The Phoenix Project?
	+----- +------ +-------------------------------------
	\| \| \|
	\| \| +----------- the message you are sending
	\| \|
	\| +------------------- the node of the recipient
	\|
	+----------------------------- the userid of the recipient


	People on VAX/VMS systems using the JNET networking software would use this
	syntax:

	SEND userid@node "message"

	For example:

	SEND MENTOR@PHOENIX "Hey, whats new on The Phoenix Project?"
	+----- +------ +---------------------------------------
	\| \| \|
	\| \| +-------------- the message you are sending
	\| \|
	\| +---------------------- the node of the recipient
	\|
	+----------------------------- the userid of the recipient


	The quotes around the message are optional. However, the JNET networking for
	VAX/VMS will translate your entire message into upper-case characters if you
	DO NOT use them. Many people find receiving messages in all upper case to be
	extremely annoying.

	For more information on the TELL and SEND commands, you should consult your
	local system documentation.

	When a message arrives on your screen, it will look something like this:

	FROM PHOENIX(MENTOR): Hello! Things are great here, you?

	Unfortunately there is a downside to everything and Bitnet Messages are no
	exception. Text sent by message must be short. In general, your message
	length can be one line, about the width of your screen. In other words, you
	won't be sending someone a copy of Phrack World News via the TELL command.

	Also, you can only communicate with someone in this way when they are logged
	on. Considering time zone differences (you may find yourself talking to
	people in Europe, Israel, or Australia) this is often quite inconvenient.

	Lastly, there is the problem of links that I call LinkDeath. If the connection
	to the node you want to contact is broken (by for example, a disconnected phone
	line), you'll receive an error message and whatever you sent is gone. This can
	be very annoying if it should occur during a conversation. The LinkDeath may
	last a few minutes or several hours. Often times, a link will go down for the
	weekend and you are simply out of luck. Even worse is when it is the link that
	connects your mainframe to rest of Bitnet... you are cut off.

	However, messages are very far from useless. As I will demonstrate in chapter
	two, TELL and SEND are extremely helpful in accessing the many servers on
	Bitnet.


	Files
	~~~~~
	FILES are another way to communicate over Bitnet. The text files and programs
	that you store on your computer can be transmitted to users at other nodes.
	This is one of the methods that I use to distribute Phrack issues across not
	only the country, but the world. People on VM/CMS systems would use a syntax
	like this:

	SENDFILE filename filetype filemode userid AT node

	For example:

	SENDFILE PHRACK TEXTFILE A PROPHET AT PHRACKVM
	+---------------- +------------------
	\| \|
	\| +------- the address of the recipient
	\|
	+------------------------- the file you are sending


	However, at my particular node the command would read:

	SENDFILE PHRACK TEXTFILE A TO (nickname)

	For some reason at my node, you cannot use SENDFILE to send a file to anyone
	unless they are in your NAMES file. The NAMES file is a database type of list
	that translates userid@node into nicknames to make it easier to chat with
	people. This way you can use their nickname instead of the tiresome
	userid@node. The filemode, in this example "A", is the disk that the file
	"PHRACK TEXTFILE" is on. In case you were wondering, with the exception of my
	address, most of the addresses in this file like PROPHET@PHRACKVM or
	MENTOR@PHOENIX are bogus and just examples for this presentation.

	The syntax for VMS/JNET systems is quite similar:

	SEND/FILE filename.extension userid@node

	For example:

	SEND/FILE PHRACK.TEXTFILE PROPHET@PHRACKVM
	+--------------- +---------------
	\| \|
	\| +-------- the address of the recipient
	\|
	+------------------------- the file you are sending


	The file sent is stored in the "electronic mailbox" of the recipient until
	he/she logs on. People on VM/CMS systems would use the RECEIVE or RDRLIST
	(shortened to "RL") commands to process files sent to them in this way. People
	on VAX/VMS systems would use the RECEIVE command. You should check your local
	documentation for more information on these commands.

	SEND/FILE and SENDFILE are useful for sending programs or large volumes of data
	like Phrack issues over the network. However, they should not be used for
	everyday communication because there is a much easier way -- the MAIL.


	Mail
	~~~~
	The other form of Bitnet communication has been given a very apt name: MAIL
	(often called "electronic mail" or "e-mail"). Just like regular postal service
	mail, you provide an address, return address, and text. Software for sending
	mail software differs from site to site, so you will have to look in your local
	documentation for information. On my particular node, the return address (your
	address) is automatically placed in the letter. This presentation should be
	able to shed some light on what most mail looks like and how it works.

	Mail files are really just specially formatted text files. The feature that
	makes them different is the "mail header." This tells a Bitnet system and your
	mail software that it is not a regular text file. It looks something like
	this:

	The address of the recipient
	\|
	The subject \|
	\| \|
	Your address \| \|
	\| \| \|
	Todays date \| \| \|
	\| \| \| \|
	Date: Fri, 29 Dec 88 23:52:00 EDT <--+ \| \| \|
	From: Forest Ranger <RANGER@STLVAX1> <-----+ \| \|
	Subject: Cable Pair Busted For Child Molestation<--------+ \|
	To: Phrack World News <KNIGHT@MSPVMA> <-----------+


	An entire mail message would look like this:


	+---------------- Mail header
	\|
	\| Date: Fri, 29 Dec 88 23:52:00 EDT
	\| From: Forest Ranger <RANGER@STLVAX1>
	\| Subject: Cable Pair Busted For Child Molestation
	\| To: Phrack World News <KNIGHT@MSPVMA>
	+ ========================================================================

	+ Have you seen the newspapers? Is this good news, or what? I think that
	\| the ramifications are startling. This is one more step on the road to a
	\| higher civilization. I hope he gets what he deserves. Keep in touch, I
	\| will send more information later.
	\|
	+---------------- Mail text


	Mail has a number of advantages. The size of a mail file is limited only by
	you and is the only way to send files to networks other than Bitnet (However, I
	do not recommend that you transmit anything longer than 3000 lines). When your
	mail reaches the destination address, it will be stored in the user's mailbox
	until they read it. If the links to that particular node are disconnected,
	your mail will be held until the path is clear for the mail to continue on its
	route to the recipient's mailbox.

	The disadvantage of mail is that it is, indeed, slower than messages. The
	longer your mail file, the longer it will take to get from Point A to Point B.
	_______________________________________________________________________________

	Conclusion
	~~~~~~~~~~
	Don't despair, this is only the conclusion to this file. The best functions of
	Bitnet are yet to be described. Join me in the second chapter of The Future
	Transcendent Saga -- Foundations Upon The Horizon.

	Also included in this issue of Phrack are sitelists for Bitnet. Actual node
	directories are available from LISTSERV@BITNIC, but they are much too large to
	be printed here. However, the files that are included list the names of the
	universities and institutions that are connected to Bitnet without their node
	addresses (some institutions have over 30+ nodes). If you attend a college or
	university that is hooked into Bitnet, then join me in the realm of infinite
	discovery. When you do, drop me a line...

	:Knight Lightning (C483307@UMCVMB)


	For related reading please see;

	An Insight On Wide-Area Networks Part 2 by Jester Sluggo
	(Phrack Inc. Issue 6, file 8)

	Communications Of The ACM
	_______________________________________________________________________________