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==Phrack Inc.==
Volume Three, Issue 30, File #5 of 12
()()()()()()()()()()()()()()()()()()()
() ()
() The DECWRL Mail Gateway ()
() ()
() by Dedicated Link ()
() ()
() September 20, 1989 ()
() ()
()()()()()()()()()()()()()()()()()()()
INTRODUCTION
DECWRL is a mail gateway computer operated by Digital's Western Research
Laboratory in Palo Alto, California. Its purpose is to support the interchange
of electronic mail between Digital and the "outside world."
DECWRL is connected to Digital's Easynet, and also to a number of different
outside electronic mail networks. Digital users can send outside mail by
sending to DECWRL::"outside-address", and digital users can also receive mail
by having your correspondents route it through DECWRL. The details of incoming
mail are more complex, and are discussed below.
It is vitally important that Digital employees be good citizens of the networks
to which we are connected. They depend on the integrity of our user community
to ensure that tighter controls over the use of the gateway are not required.
The most important rule is "no chain letters," but there are other rules
depending on whether the connected network that you are using is commercial or
non-commercial.
The current traffic volume (September 1989) is about 10,000 mail messages per
day and about 3,000 USENET messages per day. Gatewayed mail traffic has
doubled every year since 1983. DECWRL is currently a Vax 8530 computer with 48
megabytes of main memory, 2500 megabytes of disk space, 8 9600-baud (Telebit)
modem ports, and various network connections. They will shortly be upgrading
to a Vax 8650 system. They run Ultrix 3.0 as the base operating system.
ADMINISTRATION
The gateway has engineering staff, but no administrative or clerical staff.
They work hard to keep it running, but they do not have the resources to answer
telephone queries or provide tutorials in its use.
They post periodic status reports to the USENET newsgroup dec.general. Various
helpful people usually copy these reports to the VAXNOTES "gateways" conference
within a day or two.
HOW TO SEND MAIL
DECWRL is connected to quite a number of different mail networks. If you were
logged on directly to it, you could type addresses directly, e.g.
To: strange!foreign!address.
But since you are not logged on directly to the gateway, you must send mail so
that when it arrives at the gateway, it will be sent as if that address had
been typed locally.
If you are a VMS user, you should use NMAIL, because VMS mail does not know how
to requeue and retry mail when the network is congested or disconnected. From
VMS, address your mail like this:
To: nm%DECWRL::"strange!foreign!address"
The quote characters (") are important, to make sure that VMS doesn't try to
interpret strange!foreign!address itself. If you are typing such an address
inside a mail program, it will work as advertised. If you are using DCL and
typing directly to the command line, you should beware that DCL likes to remove
quotes, so you will have to enclose the entire address in quotes, and then put
two quotes in every place that one quote should appear in the address:
$ mail test.msg "nm%DECWRL::""foreign!addr""" /subj="hello"
Note the three quotes in a row after foreign!addr. The first two of them are
doubled to produce a single quote in the address, and the third ends the
address itself (balancing the quote in front of the nm%).
Here are some typical outgoing mail addresses as used from a VMS system:
To: nm%DECWRL::"lll-winkin!netsys!phrack"
To: nm%DECWRL::"postmaster@msp.pnet.sc.edu"
To: nm%DECWRL::"netsys!phrack@uunet.uu.net"
To: nm%DECWRL::"phrackserv@CUNYVM.bitnet"
To: nm%DECWRL::"Chris.Jones@f654.n987.z1.fidonet.org"
If your Ultrix system has been configured for it, then you can, from your
Ultrix system, just send directly to the foreign address, and the mail software
will take care of all of the gateway routing for you. Most Ultrix systems in
Corporate Research and in the Palo Alto cluster are configured this way.
To find out whether your Ultrix system has been so configured, just try it and
see what happens. If it doesn't work, you will receive notification almost
instantly.
NOTE: The Ultrix mail system is extremely flexible; it is almost
completely configurable by the customer. While this is valuable to
customers, it makes it very difficult to write global instructions for
the use of Ultrix mailers, because it is possible that the local changes
have produced something quite unlike the vendor-delivered mailer. One of
the popular changes is to tinker with the meaning of quote characters (")
in Ultrix addresses. Some systems consider that these two addresses are
the same:
site1!site2!user@host.dec.com
and
"site1!site2!user"@host.dec.com
while others are configured so that one form will work and the other
will not. All of these examples use the quotes. If you have trouble
getting the examples to work, please try them again without the quotes.
Perhaps your Ultrix system is interpreting the quotes differently.
If your Ultrix system has an IP link to Palo Alto (type "/etc/ping
decwrl.dec.com" to find out if it does), then you can route your mail to the
gateway via IP. This has the advantage that your Ultrix mail headers will
reach the gateway directly, instead of being translated into DECNET mail
headers and then back into Ultrix at the other end. Do this as follows:
To: "alien!address"@decwrl.dec.com
The quotes are necessary only if the alien address contains a ! character, but
they don't hurt if you use them unnecessarily. If the alien address contains
an "@" character, you will need to change it into a "%" character. For
example, to send via IP to joe@widget.org, you should address the mail
To: "joe%widget.org"@decwrl.dec.com
If your Ultrix system has only a DECNET link to Palo Alto, then you should
address mail in much the same way that VMS users do, save that you should not
put the nm% in front of the address:
To: DECWRL::"strange!foreign!address"
Here are some typical outgoing mail addresses as used from an Ultrix system
that has IP access. Ultrix systems without IP access should use the same
syntax as VMS users, except that the nm% at the front of the address should not
be used.
To: "lll-winken!netsys!phrack"@decwrl.dec.com
To: "postmaster%msp.pnet.sc.edu"@decwrl.dec.com
To: "phrackserv%CUNYVM.bitnet"@decwrl.dec.com
To: "netsys!phrack%uunet.uu.net"@decwrl.dec.com
To: "Chris.Jones@f654.n987.z1.fidonet.org"@decwrl.dec.com
DETAILS OF USING OTHER NETWORKS
All of the world's computer networks are connected together, more or less, so
it is hard to draw exact boundaries between them. Precisely where the Internet
ends and UUCP begins is a matter of interpretation.
For purposes of sending mail, though, it is convenient to divide the network
universe into these categories:
Easynet Digital's internal DECNET network. Characterized by addresses
of the form NODE::USER. Easynet can be used for commercial
purposes.
Internet A collection of networks including the old ARPAnet, the NSFnet,
the CSnet, and others. Most international research,
development, and educational organizations are connected in
some fashion to the Internet. Characterized by addresses of
the form user@site.subdomain.domain. The Internet itself
cannot be used for commercial purposes.
UUCP A very primitive network with no management, built with
auto-dialers phoning one computer from another. Characterized
by addresses of the form place1!place2!user. The UUCP network
can be used for commercial purposes provided that none of the
sites through which the message is routed objects to that.
USENET Not a network at all, but a layer of software built on top of
UUCP and Internet.
BITNET An IBM-based network linking primarily educational sites.
Digital users can send to BITNET as if it were part of
Internet, but BITNET users need special instructions for
reversing the process. BITNET cannot be used for commercial
purposes.
Fidonet A network of personal computers. I am unsure of the status of
using Fidonet for commercial purposes, nor am I sure of its
efficacy.
DOMAINS AND DOMAIN ADDRESSING
There is a particular network called "the Internet;" it is somewhat related to
what used to be "the ARPAnet." The Internet style of addressing is flexible
enough that people use it for addressing other networks as well, with the
result that it is quite difficult to look at an address and tell just what
network it is likely to traverse. But the phrase "Internet address" does not
mean "mail address of some computer on the Internet" but rather "mail address
in the style used by the Internet." Terminology is even further confused
because the word "address" means one thing to people who build networks and
something entirely different to people who use them. In this file an "address"
is something like "mike@decwrl.dec.com" and not "192.1.24.177" (which is what
network engineers would call an "internet address").
The Internet naming scheme uses hierarchical domains, which despite their title
are just a bookkeeping trick. It doesn't really matter whether you say
NODE::USER or USER@NODE, but what happens when you connect two companies'
networks together and they both have a node ANCHOR?? You must, somehow,
specify which ANCHOR you mean. You could say ANCHOR.DEC::USER or
DEC.ANCHOR::USER or USER@ANCHOR.DEC or USER@DEC.ANCHOR. The Internet
convention is to say USER@ANCHOR.DEC, with the owner (DEC) after the name
(ANCHOR).
But there could be several different organizations named DEC. You could have
Digital Equipment Corporation or Down East College or Disabled Education
Committee. The technique that the Internet scheme uses to resolve conflicts
like this is to have hierarchical domains. A normal domain isn't DEC or
STANFORD, but DEC.COM (commercial) and STANFORD.EDU (educational). These
domains can be further divided into ZK3.DEC.COM or CS.STANFORD.EDU. This
doesn't resolve conflicts completely, though: both Central Michigan University
and Carnegie-Mellon University could claim to be CMU.EDU. The rule is that the
owner of the EDU domain gets to decide, just as the owner of the CMU.EDU gets
to decide whether the Electrical Engineering department or the Elementary
Education department gets subdomain EE.CMU.EDU.
The domain scheme, while not perfect, is completely extensible. If you have
two addresses that can potentially conflict, you can suffix some domain to the
end of them, thereby making, say, decwrl.UUCP be somehow different from
DECWRL.ENET.
DECWRL's entire mail system is organized according to Internet domains, and in
fact we handle all mail internally as if it were Internet mail. Incoming mail
is converted into Internet mail, and then routed to the appropriate domain; if
that domain requires some conversion, then the mail is converted to the
requirements of the outbound domain as it passes through the gateway. For
example, they put Easynet mail into the domain ENET.DEC.COM, and they put
BITNET mail into the domain BITNET.
The "top-level" domains supported by the DECWRL gateway are these:
.EDU Educational institutions
.COM Commercial institutions
.GOV Government institutions
.MIL Military institutions
.ORG Various organizations
.NET Network operations
.BITNET The BITNET
.MAILNET The MAILNET
.?? 2-character country code for routing to other countries
.OZ Part of the Australian (.AU) name space.
2-character country codes include UK (United Kingdom), FR (France), IT (Italy),
CA (Canada), AU (Australia), etc. These are the standard ISO 2-character
country codes.
MAILING TO EASYNET
To mail to user SPRINTER at node WASH (which is DECNET address WASH::SPRINTER),
Internet mail should be addressed to sprinter@wash.enet.dec.com. Easynet
addresses are not case-dependent; WASH and wash are the same node name and
SPRINTER and sprinter are the same user name.
Sites that are not directly connected to the Internet may have difficulty with
Internet addresses like wash.enet.dec.com. They can send into the Easynet by
explicitly routing the mail through DECWRL. From domain-based Internet
mailers, the address would be sprinter%wash.enet@decwrl.dec.com. From UUCP
mailers, the address would be decwrl!wash.enet!sprinter. Some Internet mailers
require the form <@decwrl.dec.com:sprinter@wash.enet>. (This last form is the
only technically correct form of explicit route, but very few Internet sites
support it.)
The DECWRL gateway also supports various obsolete forms of addressing that are
left over from the past. In general they support obsolete address forms for
two years after the change, and then remove it.
MAILING TO DIGITAL ALL-IN-1 USERS
Some Easynet users do not have a direct DECNET node address, but instead read
their mail with All-in-1, which uses addresses of the form "Nate State @UCA".
Here "UCA" is a Digital location code name. To route mail to such people, send
to Nate.State@UCA.MTS.DEC.COM. Mail received from the All-in-1 mailer is
unreplyable, and in fact unless the respondent tells you his return address in
the body of the message, it is not normally possible even to puzzle out the
return address by studying the message header. Mail from All-in-1 to Easynet
passes through a gateway program that does not produce valid return addresses.
MAILING TO THE INTERNET
DECWRL's mailer is an Internet mailer, so to mail to an Internet site, just use
its address. If you are having trouble determining the Internet address, you
might find that the Ultrix host table /etc/hosts.txt is useful. If you can't
find one anywhere else, there's one on DECWRL. See the comments above under
"how to send mail" for details about making sure that the mail program you are
using has correctly interpreted an address.
MAILING TO UUCP
UUCP mail is manually routed by the sender, using ! as the separator character.
Thus, the address xxx!yyy!zzz!user means to dial machine xxx and relay to it
the mail, with the destination address set to yyy!zzz!user. That machine in
turn dials yyy, and the process repeats itself.
To correctly address UUCP mail, you must know a working path through the UUCP
network. The database is sufficiently chaotic that automatic routing does not
work reliably (though many sites perform automatic routing anyhow). The
information about UUCP connectivity is distributed in the USENET newsgroup
comp.mail.maps; many sites collect this data and permit local queries of it.
At the end of this file is a list of the UUCP nodes to which DECWRL currently
has a working connection.
MAILING TO USENET
Usenet is not a network. It's a software layer, and it spans several networks.
Many people say "Usenet" when they really mean UUCP. You can post a message to
a Usenet newsgroup by mailing it to "name@usenet" at DECWRL. For example,
mailing from VMS to this address:
nm%DECWRL::"alt.cyberpunk@usenet"
causes the mail message to be posted as an article to the Usenet newsgroup
alt.cyberpunk. It is better to use Usenet software for posting articles, as
more features are available that way, such as restricted distributions,
crossposting, and cancellation of "wish I hadn't sent that" articles.
MAILING TO BITNET
Legend has it that the "BIT" in BITNET stands for "Because It's There" or
"Because It's Time." It is a network consisting primarily of IBM computers. A
native BITNET address is something like "OMAR at STANFORD", but when translated
into our Internet format it becomes omar@stanford.bitnet. Once translated into
Internet form, a BITNET address is used just like any other Internet address.
MAILING TO FIDONET
By comparison with the other linked networks, Fidonet has an addressing
complexity bordering on the bizarre. The Fidonet people have provided me with
this description:
Each Fidonet node is a member of a "network," and may have subsidiary nodes
called "point nodes." A typical Fido address is "1:987/654" or "987/654"; a
typical Fido "point node" address is "1:987/654.32" or "987/654.32". This is
zone 1, network 987, Fido (node) 654, "point node" 32. If the zone number is
missing, assume it is zone 1. The zone number must be supplied in the outgoing
message.
To send a message to Chris Jones on Fidonet address 1:987/654, use the address
Chris.Jones@f654.n987.z1.fidonet.org. To send a message to Mark Smith at
Fidonet node 987/654.32, use address Mark.Smith@p32.f654.n987.z1.fidonet.org.
Use them just like any other Internet address.
Sometimes the return addresses on messages from Fidonet will look different.
You may or may not be able to reply to them.
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Appendix: List of UUCP Neighbor Sites
This table shows most of the sites that DECWRL dials directly via UUCP. You
may find it useful to help you construct a UUCP route to a particular
destination. Those sites marked with "*" are major UUCP routing nodes. You
should prefer UUCP routes that use these sites as the first hop from DECWRL.
Case is significant in UUCP host names.
3comvax 3Com Corporation, Santa Clara, CA
abvax Allen-Bradley Company, Highland Heights, OH
acad Autodesk, Inc, Sausalito, CA
adobe Adobe Systems Inc., Mountain View, CA
alberta University of Alberta, Edmonton, Alberta, Canada
allegra AT&T Bell Laboratories, Murray Hill, NJ
*amdahl Amdahl Corp., Sunnyvale, CA
amdcad Advanced Micro Devices, Sunnyvale, CA
ames NASA Ames Research Center, Mountain View, CA
*apple Apple Computers, Cupertino, CA
ardent Ardent Computer Corp., Sunnyvale, CA
argosy MassPar Computer Corp., Sunnyvale, CA
atha Athabasca University, Athabasca, Alberta, Canada
athertn Atherton Technology, Sunnyvale, CA
*att AT&T Bell Laboratories, Columbus, Ohio
avsd Ampex Corporation, Redwood City, CA
cae780 Tektronix Inc. (Santa Clara Field Office) Santa Clara, CA
chip M/A-COM Government Systems, San Diego, CA
claris Claris Corporation, Mountain View, CA
daisy Daisy Systems, Mountain View, CA
decuac DEC/Ultrix Applications Ctr, Landover, MD
*decvax DEC/Ultrix Engineering, Nashua, NH
dsinc Datacomp Systems, Inc, Huntington Valley, PA
eda EDA Systems Inc., Santa Clara, CA
emerald Emerald Systems Corp., San Diego, CA
escd Evans and Sutherland Computer Division, Mountain View, CA
esunix Evans and Sutherland Corp., Salt Lake City, UT
fluke John Fluke Manufacturing, Everett, WA
gryphon Trailing Edge Technology, Redondo Beach, CA
handel Colorodo State Univ., CS Dept., Ft. Collins, CO
hoptoad Nebula Consultants, San Francisco, CA
*hplabs Hewlett Packard Research Labs, Palo Alto, CA
ide Interactive Development Environments, San Francisco, CA
idi Intelligent Decisions, Inc., San Jose, CA
imagen Imagen Corp., Santa Clara, CA
intelca Intel Corp., Santa Clara, CA
limbo Intuitive Systems, Los Altos, CA
logitech Logitech, Inc., Palo Alto, CA
megatest Megatest Corp., San Jose, CA
metaphor Metaphor Corp., Mountain View, CA
microsoft Microsoft, Bellevue, WA
mindcrf Mindcraft Corp., Palo Alto, CA
mips MIPS Computer Systems, Mountain View, CA
mntgfx Mentor Graphics Corp., Beaverton, OR
mordor Lawrence Livermore National Lab, Livermore, CA
mtu Michigan Tech Univ., Houghton, MI
mtxinu Mt. Xinu, Berkeley, CA
nsc National Semiconductor Corp., Sunnyvale, CA
oli-stl Olivetti Software Techn. Lab, Menlo Park, CA
oracle Oracle Corp., Belmont, CA
*pacbell Pacific Bell, San Ramon, CA
parcplace Parc Place Systems, Palo Alto, CA
purdue Purdue University, West Lafayette, IN
*pyramid Pyramid Technology Corporation, Mountain View, CA
qubix Qubix Graphic Systems, San Jose, CA
quintus Quintus Computer Systems, Mountain View, CA
research AT&T Bell Laboratories, Murray Hill, NJ
riacs Res.Inst. for Adv. Compu. Sci., Mountain View, CA
rtech Relational Technology Inc., Alameda, CA
sci Silicon Compilers, San Jose, CA
sco Santa Cruz Operation, Santa Cruz, CA
sequent Sequent Computer System, Inc., Beaverton, OR
sgi Silicon Graphics, Inc., Mountain View, CA
shell Shell Development Corp., Houston, TX
simpact Simpact Assoc., San Diego, CA
sjsca4 Schlumberger Technologies, San Jose, CA
sun Sun Microsystems, Mountain View, CA
td2cad Intel Corp., Santa Clara, CA
teraida Teradyne EDA Inc., Santa Clara, CA
theta Process Software Inc., Wellesley, MA
turtlevax CIMLINC, Inc, Palo Alto, CA
*ucbvax University of California, Berkeley, CA
utcsri Univ. of Toronto, Computer Science, Toronto, CA
vlsisj VLSI Technology Inc., San Jose, CA
wyse Wyse Technology, San Jose, CA
zehntel Zehntel, Inc., Walnut Creek, CA
_______________________________________________________________________________