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1996-04-22
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TEXT FILE VERSION OF
T E L E C O M P U T I S T
~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
Newsletter PART I OF II
Typed in September 1, 1986
This is a typed up sample of the Telecomputist newsletter. Telecomputist
is a monthly 4 page newsletter that deals with information pertaining to the
phreak/hack/anarchy world. If, after reading this sample, you would like to
subscribe to this newsletter, refer to the info at the end of file II.
SECRET SERVICE FREQUENCIES By DATA LINE
The Secret Service, a branch of the Treasure, is responsible for enforce-
ment of laws realting to US currency and negotiable instruments (e.g. bonds
and postage stamps) in addition to providing security for the Executive
Branch. They have offices in most cities with a population of over 30
thousand or so.
Most communications is "in the clear," although digital voice encryption
has shown up in the larger cities and will continue to spread. Agents use
their last name in initiating contact; for example "flahrety, Flahrety, St.
Louis Base." Or, when a dignitary is in town, "Flahrety, Flahrety, Command
Post." Few code words are used. "Rawhide" is the President, "Rainbow" is the
First Lady, "Snowstorm" is the Vice President. These will change from time to
time, but are easy to figure out. Following is an alphabetical list of the
frequencies in use around the nation. for daily use, stick with Charlie (165.
375). When the President comes to town, plug in all you have room for.
Channel Freq. Use
Alpha 165.235 Repeats 166.435
Baker 165.7875 Escort channel
Charlie 165.375 Primary
Delta 169.925
Echo 407.85
Fox 415.7 Repeats Echo
Golf 166.4 Input to Charlie
Hotel 166.2125 Repeater
India 407.925 Treasury guards
Juliet ???
Kilo 167.825 Mobile
Lima 168.79 "
Mike 165.2125 Visiting dignitaries
November 167.025 Radio technicians
Oscar 164.8875 Presidential staff
Papa 164.4 Input to Mike
Quebec 166.7
Romeo ???
Sierra 166.5125 Executive Secretary
Tango 164.65 Repeater
Uniform 414.95
Victor 164.1
Whiskey ???
X-ray 166.4625
Yankee 162.69 Repeater
Zulu 171.29
The following are unnamed SECSERV channels and may be useless.
163.81 165.685
164.75 165.9
165.675 166.615
168.45 168.4
168.575
Try some of them next time Ronnie pays a visit. Remember, the motorcades
are the responsibilities of local departments and the Highway Patrol/State
Police. If Secret Service comes up with stuff like "Passing point 4", listen
to the locals and they'll spell it out in plain words.
CONFIDENTIAL AND CLASSIFIED RADIO FREQUENCIES By CHRIS JONES
We all know that the government listens in on just about everything we do.
So why shouldn't you listen in on the government?
The following is a list of CIA and foreign classified radio frequencies
including call sign, and times of best access. A short wave receiver is
almost always necessary especially with the CIA.
CIA (CENTRAL INTELLIGENCE AGENCY)
Due to the sensitive nature of this super-secret branch of the US government,
information regarding radio communication facilities is very scarce.
The listing below is a combination of ITU data and off-the-air monitoring.
According to the ITU, a power of 15 kilowatts is used for both CW and RSR/RTTY
kHz Call kHz Call
6924.5 KKN50 15,540 KKN36,KKN51
7470 KKN33,KKN50 17,390 KKN50
10,470 KKN50 17,662 KGA60,KKN50
11,095 KKN42,KKN50,KGA61 18,525 KGA60,KGA675,KKN50
12,022.5 KGA62,KKN43 20,365 KGA67,KKN48
12,112.5 KGA59,KKN50 23,442.5 KGA61
13,646 KKN50 23,862.5 KKN51
13,715 KKN51 23,975 KKN49,KGA68
15,492.5 KKN35 23,982.5 KKN52
15,540 KKN36,KKN51 26,760 KKN50,KGA71
(other possible callsign in use: KGB22, KCT78, KCA30, KUO20, KQD86, KLM49)
SPY AND NUMBERS STATIONS
Nothing you can hear on short wave quite equals the cloak and dagger
intrigue of the so-called "Spy and Numbers" stations. As incredible as it may
sound, the ordinary listener with modest equipment can hear signals intended
to convey vital information to spies, guerilla fighters, and every consider-
able type of underground clandestine political organziation.
The majority of radio stations broadcasting such signals do so using
regular AM. The trick is the spacial numeral code groups -- apparently
changed with every transmission. Sophisticated techniques are becoming more
common including compressed CW send at speeds of 200 words per minute for tape
recording (it's reliably reported that Radio Berlin International transmits
compressed CW at various times during regular programming). Obviously no ID
is given by the broadcaster and the "spy" is usually the only one who knows
what to listen to in terms of positive ID.
The list below contains some of the more frequently heard stations at the
time of the publication of this file (1-20-86). Frequencies and schedules are
subject to erratic and sudden changes.
kHz Language Broadcastingg Schedule
3060 Spanish 5 digits per group Tues, Thur, & Fri at 2215
3249.3 German 5 digits per group 0435-0510 (daily?)
(frequent "Achtung!")
4700.5 unknown music and phrases 1200-1500 (daily?)
5140.6 unknown gypsy music and single 0500 to 0540 (daily?)
word repeated 3 times
5660V Chinese music & number groups no fixed schedule
6670 unknown unknown Saturdays at 0000
6725 English 4 digits per group Wed, Thurs, & Fri at 0300; Sat
at 0100 & Sun at 0000
I hope you get as much information from these stations as I have, and remember
that certain people tend to frown on eavesdroppers so exercise some caution.
Technical assistance by James Meeker (The Pyro)
INTEGRATED SERVICES DIGITAL NETWORK - ISDN By AX MURDERER
Until recently, talk and information about ISDN has been limited to docu-
ments such as "What the Future Holds." Over the past few years, discussion
about ISDN has moved into the present tense. In fact, Siemens AG predicts
that narrowband ISDN services should be available in most major US cities.
Rather than a specific technology, ISDN is a set of evolving standards whose
formulation began in the late 1970s by telecommunications industry's interna-
tional standard-setting body, the Comite Consultatif Internation Telepho-
niqueet Telegraphique (CCITT).
For political reasons, the standards are not expected to be set until at
least 1989. The purpose of these standards is to provide a framework for the
acquisition of new technology by the world's phone networks. Leading to the
adoption of ISDN was an industry-wide realization which would demand on phone
networks increasing their potential between now and the enxt century. Tele-
phone companies were going to make large scale investments in new technology
to keep up with the growing demands of digitized data, and if something wasn't
done soon, the world's phone systems were in danger of becoming an obsolete
hodgepodge of incompatibility.
Currently, ISDN standards span many layers in the technical tangle of
phone transmission from the protocols used for routing messages within the
network to types of switches used by telephone exchanges.
The first step on the path to ISDN is to replace all the central office
analog switches in the telephone network to digital switches. Delivering ISDN
services to the telephone user requires only the lowest level switches, rather
than using the upper ones which constitute the long-distance switching bureau-
cracy. Providing ISDN is the job of the Bell Operating companies (BOC's), the
regional castaways from the breakup of AT&T.
Every time you dial a number, you call is routed through the local sub-
scriber loop to the local central office switch. The switch acts as an envoy,
routing your call either straight to its destination, if the destination is
local, or through a hierarchy of numerous other switches.
The United States has approximately 12,000 local central office switches.
The switches in operation today range from the primitive step-by-step, to the
dominant switching technology - high-speed electronic analog, controlled by
software built and integrated circuits and semiconductors. But the first step
in ISDN relies on the installation of a new generation of switches now making
their appearance - state-of-the-art digital switches such as Northern Tele-
com's DMS, AT&T's 5ESS, and Siemens' EWSD.
The current digital switches vary greatly in design, but all include a
central communications processor that handles serializing, error management,
synchronization, and code conversion. The processors' memory banks contain
information such as the numbers dialed by a particular caller and the services
subscribed to by each customer. The communications processor is hooked up to
a variety of peripheral units that may include processors for message priori-
tization, secondary routing, internal failure detection, diagnostic routines,
and multi-plexing functions. The switching system may have a capacity of 100,
000 or more trunks that connect to other switching centers, and be able to
switch over a half a million calls per hour.
About one quarter of all phone switches in the US already have some digi-
tal capabilities, with about 10 percent of the local subscriber loops that
originate with them being digital lines. The price of replacing an analog
central office switch varies with the of subscriber lines the switch can sup-
port. A switch may support anywhere from 2500 to 50,000 customer lines, with
digital upgrade costs ranging from $1500 to $2000 per line. All this comes to
about $6 million a switch.
Once a digital central office switch is in place in your area, what next?
To get from there to the narrowband ISDN, the system is upgraded through soft-
ware and sometimes hardware add-ons. AT&T's 5ESS switch and Siemens' EWSD are
upgraded solely through software enhancements and upgrades, while Northern
Telecom's DMS requires both hardware and software add-ons and upgrades. In a
typical upgrade, the software handles message protocol conversion, encodes the
data-packeting and depacketing it, and converts it into a format accepted by
the central office's switch interface. Since the standards for so many
aspects of ISDN are still not set, such as the interface between an ISDN
equipped local subscriber loop and an in-house PBX system, many obstacles
still await.
It is known, though, what the telephone user will get: high-speed, inte-
grated voice and data digital communications over an ordinary phone line
broken into three distinct channels- a service know as basic access. The ISDN
standards define it as two 64K-bps digital circuit-switched bearer channels
carrying data and voice, and one 16K-bps channel primarily devoted to carrier
signaling but also capable of transmitting voice and packet-switched data.
The 64K-bps channels carry data more than twice as fast as data can
theoretically travel over analog channels of ordinary twisted-pair copper
cable, and almost seven times as fast as 9600-bps asynchronous modem communi-
cations. The digital signaling also enables voices to be transmitted more
clearly, and data can reach its destination with far greater accuracy than in
the traditional analog scheme.
ISDN's ability to turn existing single phone lines connected to conven-
tional wall jacks into triple-lane thoroughfares comes from its wide trans-
mission bandwidth as well as its tripartit channeling arrangement. The wide
bandwidth ensures that voices and data do not cross paths and pick up from a
neighboring channel that signal pollution known as talk.
To take advantage of ISDN, computer users will need a terminal adapter
and a network terminator. Similar to a modem but not much bigger than a pack
of cigareetes, the network terminator is equipped with modulation and multi-
plexing functions, provides for fault partitioning, and handles other network
maintenance jobs. The network terminator is plugged into a standard wall jack
and contains eight plugs, which can accomodate PC's, phones, and other equip-
ment.
Since data can be exchanged between various devices attached to the term-
inator as well as with the outside world, the terminator can almost be consid-
ered a local area network (LAN) in miniature. Even better than a LAN, the
terminator requires no rewiring of the premises for installation, and term-
inals and equipment can be moved with contacting the vendor or phone company.
As to whether the terminator will ever challenge the popularity of its distant
cousins, the LAN and the PBX, there are still too many unknowns.
GOVERNMENT SYSTEM EXCHANGES By MAD MOLESTER (Edited by The Smuggler)
PART 2 I - M
Introduction:
This file contains NPA's, exchanges, and AutoVon prefixes for most of the
government systems in the US. Have fun war dialing...
IDAHO-
Boise
AV:941-xxxx
(208) 385-xxxx Idaho Army National Guard
ILLINOIS-
Chicago
AV:459-xxxx
(312) 735-xxxx Army Aviation Support Facility -2/Illinois Army National Guard
Decatur
AV:555-xxxx
(217) 422-xxxx Army Aviation Support Facility -1/Illinois Army National Guard
Fort Sheridan
AV:459-xxxx
(312) 926-xxxx Fourth US Army/Aviation Office
Glenview NAS
AV:932-xxxx
(312) 657-xxxx 86th Army Reserve Command/Aviation Flight Facility -26
Scott AFB
AV:638-xxxx
(618) 256-xxxx 102d Army Reserve Command/Aviation Support Facility -44
Springfield
AV:555-xxxx
(217) 785-xxxx Illinois Army National Guard
INIDIANA-
Fort Benjamin Harrison
(317) 240-xxxx TRADOC Flight Detachment
Shelybville
AV:699-xxxx
(317) 835-xxxx Indiana Army National Guard/Army Aviation Support Facility
IOWA-
Boone
AV:946-xxxx
(515) 432-xxxx Iowa Army National Guard/Army Aviation Support Facility -1
Cedar Rapids
(319) 395-xxxx
Davenport
AV:793-xxxx
(319) 391-xxxx Iowa Army National Guard/Army Aviation Support Facility -3
Des Moines
(515) 284-xxxx 88th Army Reserve Command/Aviation Flight Facility -60
Johnstown
AV:946-xxxx
(515) 278-xxxx Iowa Army National Guard
Waterloo
AV:946-xxxx
(319) 233-xxxx Iowa Army National Guard/Army Aviation Support Facility -2
KANSAS-
Fort Levanworth
AV:552-xxxx
(913) 684-xxxx US Army Combined Arms Center
Fort Riley
AV:856-xxxx
(913) 239-xxxx 1st Aviation Battalion (Combat)/1st Infantry Divison (mech)
Olathe
AV:552-xxxx
(913) 782-xxxx 89th Army Reserve Command/Aviation Support Facility -37
Topeka
AV:720-xxxx
(913) 862-xxxx Kansas Army National Guard
KENTUCKY-
Fort Campbell
AV:635-xxxx
(502) 798-xxxx Division Support Command/101st Air Assault Airborne Division
(615) 798-xxxx Task Force 160/1st Special Operations Command/101st Aviation
Battalion/158th Helicopter Assault Aviation Battalion/159th
Aviation Battalion/229th Aviation Battalion
Fort Knox
AV:464-xxxx
(502) 624-xxxx US Army Armor Center/Aviation Division/Directorate of Plans
Frankfort
AV:366-xxxx
(502) 564-xxxx Kentucky Army National Guard/Army Aviation Support Facility
LOUISIANA-
New Iberia
(318) 365-xxxx 122nd Army Reserve Command/Aviation Flight Facility -75
New Orleans
AV:485-xxxx
(502) 278-xxxx Louisiana Army National Guard/Lakefront Airport
MAINE-
Bangor
AV:476-xxxx
(207) 947-xxxx Maine Army National Guard/Bangor International Airport
MARYLAND-
Aberdeen Proving Ground
AV:584-xxxx
(301) 671-xxxx Army Aviation Division/National Guard Bureau/Avn Logistical
Bureau/Aviation Operations Bureau/Safety Branch/Multi Media
Bureau/Maryland Army National Guard/Army Aviaton Support
Facility
Fort George G. Meade
AV:923-xxxx
(301) 677-xxxx First US Army
Fort Meade
AV:923-xxxx
(301) 679-xxxx 97th Army Reserve Command/Aviation Support Facility -85
Fort Ritchie
AV:277-xxxx
(301) 878-xxxx US Army Air Traffic Control Combat Support Activity/7th
Signal Command
Hagerstown
AV:988-xxxx
(301) 797-xxxx 79th Army Reserve Command/Aviation Support Facility -111
MASSACHUSETTS-
Boston
AV:557-xxxx
(617) 782-xxxx Massachusetts Army National Guard
Fort Devens
AV:256-xxxx
(617) 796-xxxx 94th Army Reserve Command/Aviation Support Facility -64
Otis Air National Guard Base
AV:557-xxxx
(617) 968-xxxx Massachusetts Army National Guard/Army Aviation Support
Facility
Westover AFB
AV:589-xxxx
(413) 557-xxxx Massachusetts Army National Guard/Aviation Support Facility
/State Army Aviation Flight Activity
MICHIGAN-
Grand Ledge
AV:623-xxxx
(517) 483-xxxx Michigan Army National Guard/State Army Aviation Office/
Army Aviation Support Facility
Selfridge Field
AV:273-xxxx
(313) 466-xxxx 123rd Army Reserve Command/Aviation Flight Facility -61/
Hangar 10
MINNESOTA-
St. Paul
AV:825-xxxx
(612) 296-xxxx Minnesota Army National Guard/Army Aviation Support Facility
MISSISSIPPI-
Gulfport
AV:363-xxxx
(601) 693-xxxx Mississippi Army National Guard/Aviation Classification Repair
Jackson
AV:637-xxxx
(601) 949-xxxx Mississippi Army National Guard/State Army Aviation Office/
Aviation Support Facility -1
Meridian
AV:694-xxxx
(601) 693-xxxx Mississippi Army National Guard/Army Aviation Support
Facility -3
Tupelo
AV:731-xxxx
(601) 842-xxxx Mississippi Army National Guad/Army Aviation Support Facility-
2
Vicksburg
(601) 638-xxxx Mississippi Army National Guard
MISSOURI-
Jefferson City
AV:940-xxxx
(314) 751-xxxx Missouri Army National Guard/State Army Aviation Office/
Army Aviation support facility -2/Memorial Airport
St. Louis
AV:693-xxxx
(314) 263-xxxx US Army Aviation Systems Command
Aricraft Survivability Equipment Project Manager's Office
Advanced Scout Helicopter Project Manoer's Office
Weapon System Management Office for Scout Observation
Directorate for Advanced Systems
Balck Hawk Engineering
Directorate for International Logistics
Directorate of Maintenance
Directorate for Material Management
Directorate for procurement and Producstion
Weapon Systems Management Office for Aviation Ground Support
Weapon System Management Office for Multi-application items
Synthetic Flight Training Systems Offices
Weapon System Management Office for Utility Helicopters
Directorate for Systems and Cost Analysis
LHX Project Managers Office
Public Management
Tactical Airborne Remotely Piloted Vehicle
Drone Systems product Management
Aviation Life Support Equipment Management
APACHE Helicopter Program Manager's Office
Target Acquisition Designation System
Pilot Night Vision Project Manager's Office
Springfield
AV:581-xxxx
(417) 862-xxxx Missouri Army National Guard/Army Aviation Flight Facility/
Aviation Classification Repair Activity
USPS FUN
Most anarchists know next to nothing about how the USPS works and how to
exploit the organization to its fullest. As an ex-clerk and present letter
carrier I have a bit of an advantage. Now you do too.
The most widely known trick is to file a change of address for the victim.
If you do this a couple of times in a series (e.g. from home to a PO Box in
Los
Angeles to an APO in New York), it will be at least a month before the PO
straightens out the mess. Each carrier will have to fill out a form negating
the previous forwarding order originated on. Two sequential orders will mean
three carriers have to get in on the act; each is likely to screw up simply
be-
cause of the pressure put on them to get out and start the delivery FAST. The
first cut a carrier will take is to skip the changes of address and simply
take
out all of the mail destined for an address, regardless of the person it's
addressed to.
If your victim lives in an apartment or townhouse, this scheme will work
perfectly. People disappear constantly out of these places and a change of
address isn't questioned. If the carrier screws up and delivers some, so much
the better. The victim will think he's just not getting much mail. On the
other hand if the person has lived at the same residence for over five years
or
so the regular carrier may question a sudden change of address. The solution
is to file the cahnge for only the individual you want to bug. Children leave
home and spouses divorce all the time and an individual change is not
suspicious.
Getting Rid of Mail
Let's say YOU want to disappear from a bill collector or any particular
asshole. Get some standard size YELLOW sticky lavels about 15/16'ths by 3
inches and put them in your dot matrix printer. Print up as follows:
NAM ## 12345678 mm/dd/yy
RETURN TO SENDER
UNDELIVERABLE AS ADDRESSED
UNABLE TO FORWARD
Center the text. NAM refers to the first three letters of your last name, ##
is the LAST 2 digits of your street address. 1234567 is any 7 digit number.
Put the date you got the notice as the date on the label. Cross out your old
address with one diagonal slash and place the label so it doesn't cover your
name or street. Drop in a heavily used collection box.
The use of mail covered by postal authorities is increasing. Basically, a
mail cover consists of a form given to your carrier to fill out each day the
cover is in effect. He/She copies down the return address, postmark, class of
mail (bulk, first class) and anything else on the outside of the envelope.
The
mail is NOT opened or delayed. In short, if you think someone is reading your
mail, think again. When a letter is sent to you it gets collected, cancelled
and sorted by ZIP code to its destination. The volume of mail is so heavy
that
even if they wanted to, NO ONE could separate out your letter from the others.
St. Louis alone cancels about 1/2 million pieces of first class mail nightly.
The clerks and mail handlers could care less about an individual letter. At
the receiving end, the letter is sorted by street and block number to your
route. The clerks here sit at a machine that feeds fifty letters a minute to
them. They have to know up to 600 different streets, block numbers and indi-
vidual businesses that get a lot of mail (e.g. some big stores, cable TV com-
panies, and trash haulers). They simply don't have the time to look for YOUR
name.
The only place where a person looks at your name is when your carrier get
the letter. Mail cover or not, your carrier knows more about you than all but
your best friends. Your interests, occupation, if you are behind in your
bills, and to an extent, who your correspondents are. Carriers aren't nosy,
but they see your mail at least twice a day (once as they case it and once as
they deliver it) for years, and they naturally pick up a lot of information
out
of sheer repetition.
The moral: Be kind to whoever delivers your mail, they have a rough job and
any small favor (a cold drink in the summer or a small Christmas gift) just
may
lead to the carrier going out of his or her way to help you out of a bad spot.
This is not the end of TeleComputist sample text file version.
This is file I of II files...
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