8:["$","$L22",null,{"documentTextVersion":{"pageTexts":["-THE-HACKER'S-HANDBOOKCopyright (c) Hugo Cornwall\nAll rights reserved.\n\nFirst published in Great Britain in 1985 by Century Communications Ltd\nPortland House, 12-13 Greek Street, London W1V 5LE.\n\nReprinted 1985 (four times)\n\nISBN 0 7126 0650 5\n\nPrinted and bound in Great Britain by Billing & Sons Limited, Worcester.\n\n1","CONTENTS\n\nIntroduction\n\nvii\n\nFirst Principles\n2 Computer-to-computer communications\n\n7\n\n3 Hackers' Equipment\n\n15\n\n4 Targets: What you can find on mainframes\n\n30\n\n5 Hackers' Intelligence\n\n42\n\n6 Hackers' Techniques\n\n57\n\n7 Networks\n\n69\n\n8 Viewdata systems\n\n86\n\n9 Radio computer data\n\n99\n\n10 Hacking: the future\n\n108\nAppendices\n\nI troubleshooting\n\n112\n\nII Glossary\n\n117\n\nIII CCITT and related standards\n\n130\n\nIV Standard computer alphabets\n\n132\n\nV Modems\n\n141\n\nVI Radio Spectrum\n\n144\n\nVII Port-finder flow chart\n\n148\n\nINTRODUCTION\n\n2","$23","$24","$25","$26","$27","$28","$29","$2a","$2b","$2c","$2d","$2e","convenience, not in facilities. Chapter 3 describes the sort of kit\nmost hackers use.\n\nIt is even possible to hack with no equipment at all. All major\nbanks now have a network of 'hole in the wall' cash machines-- ATMs\nor Automatic Telling Machines, as they are officially\n\n** Page 3\n\nknown. Major building societies have their own network. These\nmachines have had faults in software design, and the hackers who\nplayed around with them used no more equipment than their fingers and\nbrains. More about this later.\n\n15","$2f","what happens over the next few weeks while the computer files\nthemselves are empty of sensitive data. Then, when the results have\nbeen noted, the phone numbers and passwords are changed, the security\nimproved etc etc....much easier on dp budgets than employing\nprogrammers at Ĺ 150/man/ day or more. Certainly the Pentagon has been\nknown to form 'Tiger Units' of US Army computer specialists to\npin-point weaknesses in systems security.\n\nTwo spectacular hacks of recent years have captured the public\nimagination: the first, the Great Prince Philip Prestel Hack, is\ndescribed in detail in chapter 8, which deals with viewdata. The\nsecond was spectacular because it was carried out on live national\ntelevision. It occurred on October 2nd 1983 during a follow-up to the\nBBC's successful Computer Literacy series. It's worth reporting here,\nbecause it neatly illustrates the essence of hacking as a sport...\nskill with systems, careful research, maximum impact\n\n17","** Page 4\n\nwith minimum real harm, and humour.\n\nThe tv presenter, John Coll, was trying to show off the Telecom\nGold electronic mail service. Coll had hitherto never liked long\npasswords and, in the context of the tight timing and pressures of\nlive tv, a two letter password seemed a good idea at the time. On\nTelecom Gold, it is only the password that is truly confidential;\nsystem and account numbers, as well as phone numbers to log on to the\nsystem, are easily obtainable. The BBC's account number, extensively\npublicised, was OWL001, the owl being the 'logo' for the tv series as\nwell as the BBC computer.\n\nThe hacker, who appeared on a subsequent programme as a 'former\nhacker' and who talked about his activities in general, but did not\nopenly acknowledge his responsibility for the BBC act, managed to\nseize control of Coll's mailbox and superimpose a message of his own:\n\nComputer Security Error. Illegal access. I hope your television\nPROGRAMME runs as smoothly as my PROGRAM worked out your passwords!\n\n18","Nothing is secure!\n\nHackers' Song\n\n\"Put another password in,\nBomb it out and try again\nTry to get past logging in,\nWe're hacking, hacking, hacking\n\nTry his first wife's maiden name,\nThis is more than just a game,\nIt's real fun, but just the same,\nIt's hacking, hacking, hacking\"\n\nThe Nutcracker (Hackers UK)\n\nHI THERE, OWLETS, FROM OZ AND YUG\n(OLIVER AND GUY)\n\nAfter the hack a number of stories about how it had been carried\nout, and by whom, circulated; it was suggested that the hackers had\ncrashed through to the operating system of the Prime computers upon\nwhich the Dialcom electronic mail software\n\n19","** Page 5\n\nresided--it was also suggested that the BBC had arranged the whole\nthing as a stunt, or alternatively, that some BBC employees had fixed\nit up without telling their colleagues. Getting to the truth of a\nlegend in such cases is almost always impossible. No one involved has\na stake in the truth. British Telecom, with a strong commitment to\nget Gold accepted in the business community, was anxious to suggest\nthat only the dirtiest of dirty tricks could remove the inherent\nconfidentiality of their electronic mail service. Naturally, the\nBritish Broadcasting Corporation rejected any possibility that it\n\n20","would connive in an irresponsible cheap stunt. But the hacker had no\ngreat stake in the truth either--he had sources and contacts to\nprotect, and his image in the hacker community to bolster. Never\nexpect any hacking anecdote to be completely truthful.\n\n21","** Page 6\n\n22","CHAPTER 2\n\nComputer-to-Computer\nCommunications\n\nServices intended for access by microcomputers are nowadays\nusually presented in a very user-friendly fashion: pop in your\nsoftware disc or firmware, check the connections, dial the telephone\nnumber, listen for the tone...and there you are. Hackers, interested\nin venturing where they are not invited, enjoy no such luxury. They\nmay want to access older services which preceded the modern 'human\ninterface'; they are very likely to travel along paths intended, not\nfor ordinary customers, but for engineers or salesmen; they could be\nutilising facilities that were part of a computer's commissioning\nprocess and have been hardly used since.\n\nSo the hacker needs a greater knowledge of datacomms technology than\ndoes a more passive computer user, and some feeling for the history\nof the technology is pretty essential, because of its growth pattern\nand because of the fact that many interesting installations still use\nyesterday's solutions.\n\n23","Getting one computer to talk to another some distance away means\naccepting a number of limiting factors:\n\n* Although computers can send out several bits of information at\nonce, the ribbon cable necessary to do this is not economical at any\ngreat length, particularly if the information is to be sent out over\na network--each wire in the ribbon would need switching separately,\nthus making exchanges prohibitively expensive. So bits must be\ntransmitted one at a time, or serially.\n\n24","** Page 7\n\n* Since you will be using, in the first instance, wires and networks\nalready installed--in the form of the telephone and telex\nnetworks--you must accept that the limited bandwidth of these\nfacilities will restrict the rate at which data can be sent. The data\nwill pass through long lengths of wire, frequently being\nre-amplified, and undergoing de- gradation as it passes through dirty\nswitches and relays in a multiplicity of exchanges.\n\n* Data must be easily capable of accurate recovery at the far end.\n\n* Sending and receiving computers must be synchronised in their\nworking.\n\n* The mode in which data is transmitted must be one understood by\n\n25","$30","electrical message sending, used the remote actuation of electrical\nrelays to leave marks on a strip of paper. The letters of the\nalphabet were defined by the patterns of 'mark' and 'space'.\n\n** Page 8\n\nThe terms have come through to the present, to signify binary\nconditions of '1' and '0' respectively. The first reliable machine\nfor sending letters and figures by this method dates from 1840; the\ndirect successor of that machine, using remarkably unchanged\n\n27","$31","$32","** Page 9\n\nWith these facilities grew the demand for remote access to\ncomputers, and modern data communications began.\n\nEven at the very end of the 1960s when I had my own very first\nencounter with a computer, the links with telegraphy were still\nobvious. As a result of happenstance, I was in a Government-run\nresearch facility to the south-west of London, and the program I was\nto use was located on a computer just to the north of Central London;\nI was sat down in front of a battered teletype--capitals and figures\nonly, and requiring not inconsiderable physical force from my\nsmallish fingers to actuate the keys of my choice. As it was a\nteletype outputting on to a paper roll, mistakes could not as readily\nbe erased as on a VDU, and since the sole form of error reporting\nconsisted of a solitary ?, the episode was more frustrating than\nthrilling. VDUs and good keyboards were then far too expensive for\n'ordinary' use.\n\nThe telephone network\n\n30","$33","of a further bit (the parity bit), which adds up all the bits in the\nmain character and then, depending on whether the result is odd or\neven, adds a binary 0 or binary 1.\n\nThe full modern transmission of a letter in this system, in this\ncase, K, therefore, looks like this:\n\n** Page 10\n\nSTART-STOP TRANSMISSION OF A DATA CHARACTER\n\nTIME\nINTERVAL_____________9___0___1___2___3___4___5___6___7___8___9___\nNUMBER\n1\n\n1\n\n1\n\nMark +---+ +---+\nLINE\nCONDITION\n\n1 1\n\n1\n\n+---+ +---+---+ +---+\n\n| |0| |0 0| |0|\n\n|0| |\n\nSpace-+ +---+ +---+---+ +---+\n\n+---+ +-\n\n32","^ ^\n| |\nBINARY\n\nSTOP-+ START 1 0 0 1 0 1 1 0\nDIGIT\n\nThe first 0 is the start bit; then follows 7 bits of the actual\nletter code (1001011); then the parity bit; then the final 1 is the\nstop code.\n\nThis system, asynchronous start-stop ASCII (the common name for\nthe alphabetic code), is the basis for nearly all micro-based\ncommunications. The key variations relate to:\n\nbit-length; you can have 7 or 8 databits (*)\n\nparity; (it can be even or odd, or entirely absent),\n\nTones - The tones used to signify binary 0 and binary 1, and which\ncomputer is in 'originate' and which in 'answer', can vary according\nto the speed of the transmission and also to whether the service is\nused in North America or the rest of the world. (Briefly, most of\nthe world uses tones and standards laid down by the Geneva-based\norganisation, CCITT, a specialised agency of the International\nTelecommunications Union; whereas in the United States and most parts\n\n33","of Canada, tones determined by the telephone utility, colloquially\nknown as Ma Bell, are adopted.) The following table gives the\nstandards and tones in common use.\n\n(*) There are no 'obvious explanations' for the variations commonly\nfound: most electronic mail services and viewdata transmit 7 data\nbits, even parity and I stop Bit; Telecom Gold and most hobbyist\nbulletin boards transmit 8 data bits, odd parity and 1 stop bit.\nTerminal emulator software--see chapter 3--allows users to adjust for\nthese differing requirements.\n\n** Page 11\n\n34","Service\n\nSpeed Duplex Transmit\nDesignator\n\nV21 orig\n\n0\n\n300(*) full\n\nV21 ans\n\n300(*) full\n\nV23 (1)\n\n600\n\nV23 (2)\n\nhalf\n\n1200\n\nV23 back\n\nReceive\n1\n\n0\n\nAnswer\n\n1\n\n1180 980 1850 1650 1850 1650 1180 980 2100\n\n1700 1300 1700 1300 2100\n\nf/h(**) 2100 1300 2100 1300 2100\n75\n\nf/h(**) 450 390\n\nBell 103 orig 300(*) full\n\n450 390 -\n\n1070 1270 2025 2225 -\n\nBell 103 ans 300(*) full\n\n2025 2225 1070 1270 2225\n\nBell 202\n\n2200 1200 2200 1200 2025\n\n1200\n\nhalf\n\n(*)any speed up to 300 baud, can also include 75 and 110 baud\nservices\n\n(**)service can either be half-duplex at 1200 baud or asymmetrical\nfull duplex, with 75 baud originate and 1200 baud receive (commonly\nused as viewdata user) or 1200 transmit and 75 receive (viewdata\nhost)\n\nHigher Speeds\n\n1200 baud is usually regarded as the fastest speed possible on an\n\n35","$34","** Page 12\n\nAlthough some people risk using 2400 baud on ordinary telephone\nlines--the jargon is the PTSN (Public Telephone Switched\nNetwork)--this means using expensive modems. Where higher speeds are\nessential, leased circuits, not available via dial-up. become\nessential. The leased circuit is paid for on a fixed charge, not a\ncharge based on time-connected. Such circuits can be conditioned',\nfor example by using special amplifiers, to support the higher data\nrate.\n\nFor really high speed transmissions, however, pairs of copper\ncable are inadequate. Medium speed is obtainable by the use of\ncoaxial cable (a little like that used for tv antenna hook-ups) which\nhave a very broad bandwidth. Imposing several different channels on\none cable-length is called multiplexing and, depending on the\n\n37","$35","protocols transmit so many 'extra' bits in order to avoid error,\nsavings in transmission time under synchronous systems often exceed\n20-30%. The disadvantage of synchronous protocols lie in increased\nhardware costs.\n\nOne other complication exists: most asynchronous protocols use the\nASCII code to define characters. IBM ('Big Blue'), the biggest\nenthusiast of synchronous comms, has its own binary code to define\ncharacters. In Appendix IV, you will find an explanation and a\ncomparison with ASCII.\n\n** Page 13\n\nThe hacker, wishing to come to terms with synchronous comms, has\ntwo choices: the more expensive is to purchase a protocol convertor\nboard. These are principally available for the IBM PC, which has been\nincreasingly marketed for the 'executive workstation' audience, where\n\n39","the ability to interface to a company's existing (IBM) mainframe is a\nkey feature. The alternative is to see whether the target mainframe\nhas a port on to a packet- switched service; in that event, the\nhacker can use ordinary asynchronous equipment and protocols--the\nlocal PAD (Packet Assembler/Disassembler) will carry out the\nnecessary transformations.\n\nNetworks\n\nWhich brings us neatly to the world of high-speed digital networks\nusing packet-switching. All the computer communications so far\ndescribed have taken place either on the phone (voice-grade) network\nor on the telex network.\n\nIn Chapter 7 we will look at packet-switching and the\nopportunities offered by international data networks. We must now\nspecify hackers' equipment in more detail.\n\n40","41","** Page 14\n\nCHAPTER 3\n\nHackers' Equipment\n\nYou can hack with almost any microcomputer capable of talking to\nthe outside world via a serial port and a modem. In fact, you don't\neven need a micro; my first hack was with a perfectly ordinary\nviewdata terminal.\n\nWhat follows in this chapter, therefore, is a description of the\nelements of a system I like to think of as optimum for\nstraight-forward asynchronous ASCII and Baudot communications. What\nis at issue is convenience as much as anything. With kit like this,\nyou will be able to get through most dial-up ports and into\npacket-switching through a PAD -- a packet assembler/ disassembler\nport. (It will not get you into IBM networks, because these use\n\n42","$36","will come to you in alphanumeric form, not graphics. The computer\nyou already have will almost certainly have the essential qualities.\nHowever the very cheapest micros, like the ZX81, whilst usable,\nrequire much more work on the part of the operator/hacker, and give\nhim far less in the way of instant facilities.\n\n** Page 15\n\n(In fact, as the ZX81 doesn't use ASCII internally, but a\nSinclair-developed variant; you will need a software or firmware fix\nfor that, before you even think of hooking it up to a modem.)\n\nMost professional data services assume the user is viewing on an\n80-column screen; ideally the hacker's computer should be capable of\ndoing that as well, otherwise the display will be full of awkward\nline breaks. Terminal emulator software (see below) can sometimes\nprovide a 'fix'.\n\n44","$37","RS232C (or its slight variant RS423), or V24, which is the official\ndesignator of RS232C used outside the USA, though not often seen on\nmicros.\n\nThe very cheapest micros, like the ZX81, Spectrum, VIC20, do not\nhave RS232C ports, though add-on boards are available. Some of the\nolder personal computers, like the Apple or the original Pet, were\nalso originally sold without serial ports, though standard boards are\navailable for all of these.\n\nYou are probably aware that the RS232C standard has a large number\nof variants, and that not all computers (or add-on boards) that claim\nto have a RS232C port can actually talk into a modem.\n\nHistorically, RS232C/V24 is supposed to cover all aspects of\nserial communication, including printers and dumb terminals as well\nas computers. The RS232C standard specifies electrical and physical\nrequirements.\n\n** Page 16\n\n46","Everything is pumped through a 25-pin D-shaped connector, each pin\nof which has some function in some implementation. But in most cases,\nnearly all the pins are not used. In practice, only three connections\nare essential for computer to modem communication:\n\nPin 7 signal ground\n\nPin 2 characters leaving the computer\n\nPin 3 characters arriving at the computer\n\nThe remaining connections are for such purposes as feeding power\nto an external device, switching the external advice on or off,\nexchanging status and timing signals, monitoring the state of the\nline, and so forth. Some computers and their associated firmware\nrequire one or other of these status signals to go 'high' or 'low' in\nparticular circumstances, or the program hangs. Check your\ndocumentation if you have trouble.\n\nSome RS232C implementations on microcomputers or add-on boards are\nthere simply to support printers with serial interfaces, but they can\noften be modified to talk into modems. The critical two lines are\nthose serving Pins 2 and 3.\n\n47","$38","** Page 17\n\nThere is no standardisation. Even if you see two physically\nsimilar connectors on two devices, regard them with suspicion. In\neach case, you must determine the equivalents of:\n\nCharacters leaving computer (Pin 2)\nCharacters arriving at computer (Pin 3)\nSignal ground (Pin 7)\n\nYou can usually set the speed of the port from the computer's\noperating system and/or from Basic. There is no standard way of doing\nthis; you must check your handbook and manuals. Most RS232C ports can\nhandle the following speeds:\n\n75, 110, 300, 600, 1200, 2400, 4800, 9600\n\n49","$39","means of a timing loop. An alternative method relies on a special\nmodem, which accepts data from the computer at 1200/1200 and then\nperforms the slowing-down to 75 baud in its own internal firmware.\n\nTerminal emulators\n\nWe all need a quest in life. Sometimes I think mine is to search\nfor the perfect software package to make micros talk to the outside\nworld.\n\n** Page 18\n\nAs in all such quests, the goal is occasionally approached but\nnever reached, if only because the process of the quest causes one to\nredefine what one is looking for.\n\n51","$3a","it out.\n\nTwo philosophies of presenting such software to the user exist:\nfirst, one which gives the naive user a simple menu which says, in\neffect, 'press a key to connect to database' and then performs\neverything smoothly, without distracting menus. Such programs need an\n'install' procedure, which requires some knowledge, but most\n'ordinary' users never see this. Normally, this is a philosophy of\nsoftware writing I very much admire: however, as a hacker you will\nwant the precise opposite. The second approach to terminal emulator\nsoftware allows you to re configure your computer as you go on--there\nis plenty of on-screen help in the form of menus allowing you to turn\non and off local echo, set parity bits, show non-visible control\ncodes and so on. In a typical hack, you may have only vague\ninformation about the target computer, and much of the fun is seeing\nhow quickly you can work out what the remote computer wants to 'see'\n- and how to make your machine respond.\n\n53","$3b","$3c","terminal emulators allow you to switch on and off the facility. If,\nfor example, you are talking into a half-duplex system (i.e. no\necho), your screen would appear totally blank. In these\ncircumstances, it is best if your software reproduces on the screen\nyour keystrokes.\n\n** Page 20\n\nHowever, if you have your computer set for half-duplex and the host\ncomputer is actually operating in full duplex. each letter will\nappear twice--once from the keyboard and once, echoing from the host,\nggiiwiinngg tthhiiss ssoorrtt ooff eeffffeecctt. Your terminal\nemulator needs to able to toggle between the two states.\n\nData Format/Parity Setting - In a typical asynchronous protocol, each\ncharacter is surrounded by bits to show when it starts, when it ends,\nand to signify whether a checksum performed on its binary equivalent\n\n56","comes out even or odd. The character itself is described, typically,\nin 7 bits and the other bits, start, stop and parity, bringing the\nnumber up to 10. (See chapter 2.) However, this is merely one very\ncommon form, and many systems use subtle variants -- the ideal\nterminal emulator software will let you try out these variants while\nyou are still on line. Typical variants should include:\n\nWord length\n\n7\n\nParity No stop bits\n\nEven\n\n2\n\n7\n\nOdd\n\n2\n\n7\n\nEven\n\n1\n\n7\n\nOdd\n\n1\n\n8\n\nNone\n\n2\n\n8\n\nNone\n\n1\n\n8\n\nEven\n\n1\n\n8\n\nOdd\n\n1\n\n(NB although the ASCII character set is 7 bit, 8 bits are sometimes\ntransmitted with a ~padding~ bit; machine code instructions for 8-bit\nand 16-bit machines obviously need 8-bit transmissions.)\n\nShow Control Characters - This is a software switch to display\ncharacters not normally part of the text that is meant to be read but\n\n57","which nevertheless are sent by the host computer to carry out display\nfunctions, operate protocols, etc. With the switch on, you will see\nline feeds displayed as ^J, a back-space as ^H and so on; see\nAppendix IV for the usual equivalents.\n\nUsing this device properly you will be able, if you are unable to\nget the text stream to display properly on your screen, to work out\nwhat exactly is being sent from the host, and modify your local\nsoftware accordingly.\n\n** Page 21\n\n58","$3d","$3e","$3f","$40","the requirement for a software facility to re-assign any little-used\nkey to send the desired 'missing' feature. Typical requirements are\nBREAK~ ESC, RETURN (when part of a string as opposed to being the end\nof a command) etc. When re-assigning a series of keys, you must make\nsure you don't interfere with the essential functioning of the\nterminal emulator.\n\n** Page 23\n\nFor example, if you designate the sequence ctrl-S to mean 'send a DC1\ncharacter to the host', the chances are you will stop the host from\nsending anything to you, because ctrl-S is a common command (sometimes called XOF) to call for a pause--incidentally, you can end the\n\n63","$41","$42","$43","(see Chapter 10).\n\nViewdata emulators must attend not only to the graphics\npresentation, but also to split-speed operation: the usual speeds are\n1200 receive from host, 75 transmit to host. USA users of such\nservices may get them via a packet-switched network, in which case\nthey will receive it either at 1200/1200 full duplex or at 300/300.\n\nIntegrated terminal emulators offering both 'ordinary'\nasynchronous emulation and viewdata emulation are rare: I have to use\ncompletely different and non-compatible bits of software on my own\nhome set-up.\n\nModems\n\nEvery account of what a modem is and does begins with the classic\nexplanation of the derivation of the term: let this be no exception.\nModem is a contraction of modulator-demodulator.\n\nA modem taking instructions from a computer (pin 2 on RS232C)\nconverts the binary 0's and 1's into specific single tones, according\nto which 'standard' is being used. In RS232C/V24, binary 0 (ON)\nappears as positive volts and binary 1 (OFF) appears as negative\nvolts.\n\n67","$44","$45","** Page 26\n\nAt higher speeds acoustic coupling is not recommended, though a\n75/1200 acoustic coupler produced in association with the Prestel\nMicronet service is not too bad, and is now exchanged on the\nsecond-hand market very cheaply indeed.\n\nI prefer modems that have proper status lights--power on, line\nseized, transmit and receive indicators. Hackers need to know what is\ngoing on more than most users.\n\nThe table below shows all but two of the types of service you are\nlikely to come across; V-designators are the world-wide 'official'\nnames given by the CCITT; Bell-designators are the US names:\n\nService\n\nSpeed Duplex Transmit\nDesignator\n\nV21 orig\n\n0\n\n300(*) full\n\nV21 ans\n\n300(*) full\n\nV23 (1)\n\n600\n\nV23 (2)\n\n1200\n\nV23 back\n\nhalf\n\nReceive\n1\n\n0\n\nAnswer\n\n1\n\n1180 980 1850 1650 1850 1650 1180 980 2100\n\n1700 1300 1700 1300 2100\n\nf/h(**) 2100 1300 2100 1300 2100\n75\n\nf/h(**) 450 390\n\nBell 103 orig 300(*) full\nBell 103 ans 300(*) full\n\n450 390 -\n\n1070 1270 2025 2225 2025 2225 1070 1270 2225\n\n70","Bell 202\n\n1200\n\nhalf\n\n2200 1200 2200 1200 2025\n\n(*)any speed up to 300 baud, can also include 75 and 110 baud\nservices\n\n(**)service can either be half-duplex at 1200 baud or asymmetrical\nfull duplex, with 75 baud originate and 1200 baud receive (commonly\nused as viewdata user) or 1200 transmit and 75 receive (viewdata\nhost)\n\nThe two exceptions are:\nV22 1200 baud full duplex, two wire\nBell 212A The US equivalent\nThese services use phase modulation as well as tone.\n\nBritish Telecom markets the UK services under the name of\nDatel--details are given in Appendix V.\n\nBT's methods of connecting modems to the line are either to\nhard-wire the junction box (the two outer-wires are the ones you\nusually need)--a 4-ring plug and associated socket (type 95A) for\nmost modems, a 5-ring plug and associated socket (type 96A) for\nPrestel applications (note that the fifth ring isn't used)--and, for\nall new equipment, a modular jack called type 600. The US also has a\nmodular jack, but of course it is not compatible.\n\n71","$46","$47","$48","VDU, full keyboard, and some very clever firmware which examines the\ntelephone line or RS232C port and carries out tests to see which of\nseveral popular datacomms protocols is in use. Hewlett Packard do a\nnice range. Protocol analysers will handle synchronous transmissions\nas well as synchronous. Cost: Ĺ 1500 and up...and up.\n\n** Page 29\n\nCHAPTER 4\n\nTargets\n\nWherever hackers gather, talk soon moves from past achievements\nand adventures to speculation about what new territory might be\nexplored. It says much about the compartmentalisation of computer\nspecialities in general and the isolation of micro- owners from\nmainstream activities in particular that a great deal of this\ndiscussion is like that of navigators in the days before Columbus:\nthe charts are unreliable, full of blank spaces and confounded with\nmyth.\n\nIn this chapter I am attempting to provide a series of notes on\n\n75","$49","$4a","$4b","$4c","$4d","$4e","$4f","$50","$51","$52","$53","$54","$55","$56","$57","$58","$59","$5a","$5b","$5c","$5d","$5e","$5f","$60","$61","$62","Confidential notes to individuals, not for general consumption,\ncan be sent using the E-Mail option on the bulletin board, but\nremember, nothing is hidden from the Sysop.\n\nA flavour of the type of material that can be seen on bulletin\nboards appears from this slightly doctored excerpt (I have removed\nsome of the menu sequences in which the system asks what you want to\ndo next and have deleted the identities of individuals):\n\nMsg#: 3538 *Modem Spot*\n01/30/84 12:34:54 (Read 39 Times)\nFrom: xxxxxxxxxx\nTo: ALL\nSubj: BBC/MAPLIN MODEMS\nRE THE CONNECTIONS ON THE BBC/MAPLIN MODEM SETUP. THE crs PIN IS\nUSED TO\nHANDSHAKE WITH THE RTS PIN E.G. ONE UNIT SENDS RTS (READY TO SEND)\nAND\nSECOND UNIT REPLIES CTS (CLEAR TO SEND). USUALLY DONE BY TAKING PIN\nHIGH. IF\nYOU STRAP IT HIGH I WOULD SUGGEST VIA A 4K7 RESISTOR TO THE VCC/+VE\nRAIL (5V).\nIN THE EVENT OF A BUFFER OVERFLOW THESE RTS/CTS PINS ARE TAKEN LOW\nAND THIS\nSTOPS THE DATA TRANSFER. ON A 25WAY D TYPE CONNECTOR TX DATA IS\nPIN 2\nRX DATA IS PIN 3\n\n102","RTS IS PIN 4\nCTS IS PIN 5\nGROUND IS PIN 7\n\nALL THE BEST -- ANY COMMTO XXXXXXXXX\n(DATA COMMS ENGINEER)\n\nMsg#: 3570 *Modem Spot*\n01/31/84 23:43:08 (Read 31 Times)\nFrom: XXXXXXXXXX\nTo: XXXXXXXXXXX\nSubj: REPLY TO MSG# 3538 (BBC/MAPLIN MODEMS)\nON THE BBC COMPUTER IT IS EASIER TO CONNECT THE RTS (READY TO SEND)\nPIN HE\nCTS (CLEAR TO SEND) PIN. THIS OVERCOMES THE PROBLEM OF\nHANDSHAKING.\nSINCE THE MAPLIN MODEM DOES NOT HAVE HANDSHAKING.I HAVE PUT MY\nRTS CTS JUMPER\nINSIDE THE MODEM. MY CABLES ARE THEN STANDARD AND CAN BE USED\nWITH HANDSHAKERS.\nREGARDS\n\nHsg#: 3662 *HACKER'S CLUB*\n02/04/84 23:37:11 (Read 41 Times)\nFrom: XXXXXXXXXX\nTo: ALL\nSubj: PUBLIC DATA NET\n\n103","Does anyone know what the Public Data Net is? I appear to have access to it, &\nI daren't ask what it is!\nAlso, can anyone tell me more about the Primenet systems... Again I seem to\nhave the means,but no info. For instance, I have a relative who logs on to\nanother Prime Both of our systems are on Primenet, is there any way we can\ncommunicate?\nMore info to those who want it...\n\next msg, eply, or top?\nMsg has replies, read now(Y/N)? y\n\nReply has been deleted\n\next msg, eply, or top?\n\nMsg#: 3739 *HACKER'S CLUB*\n02/06/84 22:39:06 (Read 15 Times)\nFrom: xxxxxxxxxx\nTo: xxxxxxxxxx\nSubj: REPLY TO MSG# 3716 (PRIMENET COMMS)\nAhh, but what is the significance of the Address-does it mean a PSS number. or\nsome thing like that? Meanwhile, I'II get on-line (via voice-link on the phone!)\nto my cousin, and see what he has on it....\n\n** Page 44\n\n104","Msg#: 3766 *HACKER'S CLUB*\n02/07/84 13:37:54 (Read 13 Times)\nFrom: xxxxxxxxxxx\nTo: xxxxxxxxxxx\nSubj: REPLY TO MSG# 3751 (PUBLIC DATA NET)\nPrimenet is a local network. I know of one in Poole, An BTGold use\none between their systems too. It Is only an internal network, I\nsuggest using PSS to communicate between different primes. Cheers.\n\next msg, eply, or top?\n\nMsg#: 3799 *BBC*\n02/07/84 22:09:05 (Read 4 Times)\nFrom: xxxxxxxxxxx\nTo: xxxxxxxxxxx\nSubj: REPLY TO MSG# 3751 (RGB VIDEO)\nThe normal video output BNC can be made to produce colour video by\nmaking a link near to the bnc socket on the pcb. details are in the\nadvanced user guide under the chapter on what the various links do.\nIf you require more I will try to help, as I have done this mod and\nit works fine\n\nMsg#: 935 *EREWHON*\n09/25/83 01:23:00 (Read 90 Times)\n\n105","From: xxxxxxxxxx\nTo: ALL\nSubj: US PHONE FREAKING\nUSA Phone Freaking is done with a 2 out of 5 Code. The tones must be\nwith 30Hz, and have less than 1% Distortion.\n\nMaster Tone Frequency = 2600 Hz.\n>1 = 700 & 900 Hz\n>2 = 700 & 1100 Hz\n>3 = 900 & 1100 HZ\n>4 = 700 & 1300 Hz\n>5 = 900 & 1300 Hz\n>6 = 1100 & 1300 Hz\n>7 = 700 & 1500 HZ\n>8 = 900 & 1500 Hz\n>9 = 1100 & 1500 Hz\n>0 = 1300 & 1500 Hz\n>Start Key Signal = 1100 & 1700 Hz\n>End Key Signal = 1300 & 1700 Hz\n> Military Priority Keys 11=700 & 1700 ; 12=900 & 1700 - I don't\nrecommend using these. ( The method of use will be explained in a\nseparate note. DO NOT DISCLOSE WHERE YOU GOT THESE FREQUENCIES TO\nANYONE!\n\nMsg#: 936 *EREWHON*\n\n106","09/20/83 01:34:43 (Read 89 Times)\nFrom: xxxxxxxxxxxx\nTo: ALL\nSubj: UK PHONE FREAKING\n\nThe UK System also uses a 2 out of 5 tone pattern.\n\nThe Master Frequency is 2280 Hz\n>I = 1380 & 1500 Hz\n>2 = 1380 & 1620 Hz\n>3 = 1500 & 1620 Hz\n>4 = 1380 & 1740 Hz\n>5 = 1500 & 1740 Hz\n>6 = 1620 & 1740 Hz\n>7 = 1380 & I860 Hz\n>8 = 1500 & 1860 Hz\n>9 = 1620 & 1860 Hz\n>0 = 1740 & 1860 Hz\n>Start Key = 1740 & 1980 ; End Keying = 1860 & 1980 Hz\n>Unused I think 11 = 1380 & 1980 ; 12 = 1500 & 1980 Hz\n\nThis is from the CCITT White Book Vol. 6 and is known as SSMF No. 3\nto some B.T. Personnel.\n\nThe 2280 Hz tone is being filtered out at many exchanges so you may\n\n107","$63","the \"Start key Pulse\" followed by the Routing Code and the Subscriber\nNo. Finish with the \"End keying Pulse\". The system sees you as being\na distant exchange requesting a route for a call.\n\nMeanwhile back at the home base. Your local exchange will be logging\nyou in as still ringing on the first call. There are further problems\nin this in both the USA and the UK as the techniques are understood\nand disapproved of by those in authority. You may need to have a\nfairly strong signal into the system to get past filters present on\nthe line. Warning newer exchanges may link these filters to alarms.\nTry from a phone box or a Public Place and see what happens or who\ncomes.\n\nExample:- To call from within USA to Uk:\n> Ring Toll Free 800 Number\n> Send 2600 Hz Key Pulse\n> When line goes dead you are in trunk level\n> Start Pulse 182 End Pulse = White Plains N.Y. Gateway continued in\nnext message\n\nHsg#: 952 *EREWHON*\n09/21/83 18:03:12 (Read 73 Times)\nFrom: xxxxxxxxxx\nTo: PHONE FREAKS\nSubj: HOW TO DO IT PT 2\n\n109","> Start Pulse 044 = United Kingdom\n> 1 = London ( Note no leading O please )\n> 730 1234 = Harrods Department Store.\n\nAny info on internal address codes would be appreciated from any\ncallers.\n\nMsg#: 1028 *EREWHON*\n09/25/83 23:02:35 (Read 94 Times)\nFrom: xxxxxxxxxxxx\nTo: ALL\nSubj: FREEFONE PART I\n\nThe following info comes from a leaflet entitled 'FREEFONE':\n\n\"British Telecom's recent record profits and continuing appalling\nservice have prompted the circulation of this information. It\ncomprises a method of making telephone calls free of charge.\"\n\nCircuit Diagram:\n\nO---o-------\n\n-------o----O\n\n: !\n\n! :\n\n: !\n\n! :\n\n110","L o-------- --------o\n\nP\n\nI !\n\n! H\n\nN !\n\n! O\n\nE o-- ------ ----o\n\nN\n\n: !\n\n! E\n\nI !\n\n! :\n\nN o-------\n\n-------o\n\n:\n\n:\n\n:\n\n:\n\n:\n\n:\n\n:\n\nO---------------------------O\n\n** Page 46\n\nS1 = XXX\nC1 = XXX\nD1 = XXX\nD2 = XXX\nR1 = XXX\n\nContinued...\n\nMSG#: 1029 *EREWHON*\n09/25/83 23:19:17 (Read 87 Times)\nFrom xxxxxxxxxxx\n\n111","$64","The switch should be cLosed if a call is received from an operator,\nfor example, or to make an outgoing call. It has proved extremely\nuseful, particularly for friends phoning from pay phones with jammed\ncoin slots.\n\n*Please DO NOT tell ANYONE where yoU found this information*\n\nMsg#: 1194 *EREWHON*\n10/07/83 04:50:34 (Read 81 Times)\nFrom: xxxxxxxxxxxx\nTo: ALL\nSubj: FREE TEST NUMBERS\n\nFree Test Numbers\n\nHere are some no's that have been found to work:\nDial 174 : this gives unobtainable then when\nyou replace handset the phone rings.\n\nDial 175 \nWhen logged on type: COMMAND HACKER \nUse: BYE to log out\n*********\nEUCLID\n\n388-2333\n\nTYPE A COUPLE OF THEN PAD \nONCE LOGGED ON TO PAD TYPE CALL 40 TRY DEMO AS A USERID WHY\nNOT\nTRY A FEW DIFFER DIFFERENT CALLS THIS WILL LET U LOG ON TO A WHOLE\nNETWORK SYSTEM ALL OVER EUROPE!\nYOU CAN ALSO USE 01-278-4355.\n********\nunknown 300 Baud\n\n01-854 2411\n\n01-854 2499\n******\nHoneywell:From London dial the 75, else 0753(SLOUGH)\n75 74199 75 76930\nType- TSS\nUser id: D01003\n\n118","password: Unknown (up to 10 chars long)\nType: EXPL GAMES LIST to list games\nTo run a game type: FRN GAMES(NAME) E for a fotran game.\nReplace FRN with BRN for BASIC games.\n******\nCentral London Poly 01 637 7732/3/4/5\n******\nPSS (300)\n\n0753 6141\n\n******\nComshare (300) 01 351 2311\n******\n'Money Box'\n\n01 828 9090\n\n******\nImperial College 01 581 1366\n01 581 1444\n*******\nThese are most of the interesting numbers that have come up over the\nlast bit. If I have omitted any, please leave them in a message.\n\nCheers, xxxxx.\n\nMsg#: 5156 *HACKER'S CLUB*\n04/15/84 08:01:11 (Read 221 Times)\nFrom: xxxxxxxxxx\nTo: ALL\n\n119","Subj: FINANCIAL DATABASES\nYou can get into Datastream on dial-up at 300/300 on 251 6180 - no I\ndon't have any passwords....you can get into Inter Company\nComparisons (ICC) company database of 60,000 companies via their\n1200/75 viewdata front-end processor on 253 8788. Type ***# when\nasked for your company code to see a demo...\n\nMsg#: 5195 *HACKER'S CLUB*\n04/17/84 02:28:10 (Read 229 Times)\nFrom: xxxxxxxxxx\nTo: ALL\nSubj: PSS TELEX\nTHIS IS PROBOBLY OLD HAT BY NOW BUT IF YOU USE PSS THEN A92348******\nWHERE **=UK TELEX NO. USE CTRL/P CLR TO BET OUT AFTER MESSAGE. YOU\nWILL BE CHARGED FOR USE I GUESS\n\n** Page 49\n\nMsg#: 7468 *EREWHON*\n06/29/84 23:30:24 (Read 27 Times)\nFrom: xxxxxxxxxx\nTo: PHREAKS\nSubj: NEW(OLD..) INFO\nTODAY I WAS LUCKY ENOUGH TO DISCOVER A PREVIOUSLY UNKNOWN\nCACHE OF\n\n120","$66","20/64 OWNERS.+NEWS ETC.\n\nMsg#:8154 *EREWHON*\n08/02/84 21:46:11 (Read 13 Times)\nFrom: ANON\nTo: ALL\nSubj: REPLY TO MSG# :1150 (PHREAK BOARDS)\n\nPHREAK BOARD NUMBERS\nACROSS THE U.S.\n\nIF YOU KNOW OF A BOARD THAT IS NOT LISTED HERE, PLEASE LET ME KNOW\nABOUT IT.\n\nJOLLY ROGER\n\n713-468-0174\n\nPIRATE'S CHEST\n\n617-981-1349\n\nPIRATE'S DATA CENTER\n\n213-341-3962\n\nPIRATE'S SPACE STATION\n\n617-244-8244\n\nPIRATE'S OUTHOUSE\n\n301-299-3953\n\nPIRATE'S HANDLE\n\n314-434-6187\n\nPIRATE'S DREAM\n\n713-997-5067\n\nPIRATE'S TRADE\n\n213-932-8294\n\nPIRATE'S TREK\n\n914-634-1268\n\nPIRATE'S TREK III\n\n914-835-3627\n\n122","PIRATE-80\nSANCTUARY\n\n305-225-8059\n201-891-9567\n\nSECRET SERVICE ][\n\n215-855-7913\n\nSKELETON ISLAND\n\n804-285-0041\n\nBOCA HARBOR\n\n305-392-5924\n\nPIRATES OF PUGET SOUND\n\n206-783-9798\n\nTHE INSANITARIUM\n\n609-234-6106\n\nHAUNTED MANSION\n\n516-367-8172\n\nWASTELANDS\n\n513-761-8250\n\nPIRATE'S HARBOR\n\n617-720-3600\n\nSKULL ISLAND\n\n203-972-1685\n\nTHE TEMPLE\n\n305-798-1615\n\nSIR LANCELOT'S CASTLE\nPIRATE'8 CITY\n\n914-381-2124\n\n703-780-0610\n\nPIRATE-S GALLEY\n\n213-796-6602\n\nTHE PAWN SHOPPE\n\n213-859-2735\n\nHISSION CONTROL\n\n301-983-8293\n\nBIG BLUE MONSTER\n\n305-781-1683\n\nTHE I.C.'S SOCKET\nTHE MAGIC REALM\nPIRATE'S BAY\n\n213-541-5607\n212-767-9046\n415-775-2384\n\nBEYOND BELIEF\n\n213-377-6568\n\nPIRATE's TROVE\n\n703-644-1665\n\nCHEYANNE MOUNTAIN\nALAHO CITY\n\n303-753 1554\n512-623-6123\n\n123","CROWS NEST\n\n617-862-7037\n\nPIRATE'S PUB ][\n\n617-891-5793\n\nPIRATE'S I/0\nSOUNDCHASER\n\n201-543-6139\n804-788-0774\n\nSPLIT INFINITY\n\n408-867-4455\n\nCAPTAIN'S LOG\n\n612-377-7747\n\nTHE SILHARILLION\n\n714-535-7527\n\nTWILIGHT PHONE\n\n313-775-1649\n\nTHE UNDERGROUND\n\n707-996-2427\n\nTHE INTERFACE\n\n213-477-4605\n\nTHE DOC BOARD\n\n713-471-4131\n\nSYSTEM SEVEN\n\n415-232-7200\n\nSHADOW WORLD\nOUTER LIMITS\n\n713-777-8608\n213-784-0204\n\nMETRO\n\n313-855-6321\n\nMAGUS\n\n703-471-0611\n\nGHOST SHIP 111 - PENTAGON 312-627-5138\nGHOST SHIP - TARDIS\nDATA THIEVES\nDANGER ISLAND\nCORRUPT COMPUTING\nTHE ORACLE\n\n312-528-1611\n312-392-2403\n409-846-2900\n313-453-9183\n305-475-9062\n\nPIRATE'S PLANET\n\n901-756-0026\n\nCAESER S PALACE\n\n305-253-9869\n\nCRASHER BBS\n\n415-461-8215\n\n124","PIRATE'S BEACH\n\n305-865-5432\n\nPIRATE'S COVE\n\n516-698-4008\n\nPIRATE'S WAREHOUSE\n\n415-924-8338\n\nPIRATE'S PORT\n\n512-345-3752\n\nPIRATE'S NEWSTAND ][\n\n213-373-3318\n\nPIRATE'S GOLDMINE\n\n617-443-7428\n\nPIRATE'S SHIP\n\n312-445-3883\n\nPIRATE'S MOUNTAIN\n\n213-472-4287\n\nPIRATE'S TREK ][\n\n914-967-2917\n\nPIRATE'S TREK IV\n\n714-932-1124\n\nPORT OR THIEVES\n\n305-798-1051\n\nSECRET SERVICE\n\n213-932-8294\n\nSHERWOOD FOREST\n\n212-896-6063\n\nGALAXY ONE\nR.A.G.T.I.H.E.\n\n215-224-0864\n217-429-6310\n\nKINGDOM OF SEVEN\n\n206-767-7777\n\nTHE STAR SYSTEM\nALPHANET\n\n516-698-7345\n203-227-2987\n\nHACKER HEAVEN\n\n516-796-6454\n\nPHANTOM ACCESS\n\n814-868-1884\n\nTHE CONNECTION\n\n516-487-1774\n\nTHE TAVERN\nPIRATE'S HIDEAWAY\nPIRATE'S PILLAGE\nTHE PARADISE ON-LINE\n\n516-623-9004\n617-449-2808\n317-743-5789\n512-477-2672\n\n125","MAD BOARD FROM MARS\nNERVOUS SYSTEM\nDEVO\n\n305-554-9332\n305-652-9422\n\nTORTURE CHAMBER\nHELL\n\n213-470-5912\n\n213-375-6137\n914-835-4919\n\nCRASHER BBS\n\n415-461-8215\n\nALCATRAZ\n\n301-881-0846\n\nTHE TRADING POST\n\n504-291-4970\n\nDEATH STAR\n\n312-627-5138\n\nTHE CPU\n\n313-547-7903\n\nTRADER'S INN\n\n618-856-3321\n\nPIRATE'S PUB\n\n617-894-7266\n\nBLUEBEARDS GALLEY\nMIDDLE EARTH\n\n213-842-0227\n213-334-4323\n\nEXIDY 2000\n\n713-442-7644\n\nSHERWOOD FOREST ][\n\n914-352-6543\n\nWARLOCK~S CASTLE\n\n618-345-6638\n\nTRON\n\n312-675-1819\n\nTHE SAFEHOUSE\n\n612-724-7066\n\nTHE GRAPE VINE\n\n612-454-6209\n\nTHE ARK\nSPACE VOYAGE\nOXGATE\n\n701-343-6426\n713-530-5249\n804-898-7493\n\nMINES OF MORIA ][\n\n408-688-9629\n\nMERLIN'S TOWER\n\n914-381-2374\n\n126","GREENTREE\n\n919-282-4205\n\nGHOST SHIP ][ - ARAGORNS 312-644-5165\nGENERAL HOSPITAL\n\n201-992-9893\n\nDARK REALM\n\n713-333-2309\n\nCOSMIC VOYAGE\n\n713-530-5249\n\nCAMELOT\n\n312-357-8075\n\nPIRATE'S GUILD\nHKGES\n\n312-279-4399\n305-676-5312\n\nMINES OF MORIA\nA.S.C.I.I.\n\n713-871-8577\n301-984-3772\n\n** Page 50\n\nIf Anybody is mad enough to actually dial up one (or more') of these\nBBs please log everything so thAt others may benefit from your\nefforts. IE- WE only have to register once, and we find out if this\nboard suits our interest. Good luck and have fun! Cheers,\n\nMsg#: 8163 *HACKER'S CLUB*\n08/30/84 18:55:27 (Read 78 Times)\nFrom: XXXXXXXXXX\nTo- ALL\nSubj: XXXXXX\nNBBS East is a relatively new bulletin board running from lOpm to\n1230am on 0692 630610. There are now special facilities for BBC users\n\n127","$67","interesting numbers, let me know on this board, or Pretsel mailbox\n012495225.\n\nMsg has replies, read now(Y/N)' Y\n\nMsg#: 9457 *HACKER'S CLUB*\n10/11/84 01:52:56 (Read 15 Times)\nFrom: xxxxxxxxxxx\nTo: xxxxxxxxxxx\nSubj: REPLY TO MSG# 8683 (DATA NODE)\nIF YOU WANT TO KNOW MORE ABOUT THIS xxxxx PHONE PHONE xxxx xxxxxx\nON 000 0000\n\nMsg#: 8785 *HACKER'S CLUB*\n09/21/B4 20-28-59 (Read 40 Times)\nFrom xxxxxxxxxxxxxx\nSubj: NEW Number\n\nNEW Computer ON LINE TRY RINGING 960 7868 SORRY THAT'S 01 (IN LONDON) IN\nFRONT.\ngood LUCK!\n\n** Page 51\n\nPlease note that none of these hints, rumours, phone numbers and\npasswords are likely to work by the time you are reading this...\n\n129","$68","$69","$6a","$6b","$6c","$6d","$6e","$6f","also a great deal of security at fundamental operating system level.\n\nResearching MI5 is an extreme example of what is possible; there\nare few computer installations of which it is in the least difficult\nto assemble an almost complete picture.\n\n** Page 56\n\nCHAPTER 6\n\nHackers' Techniques\n\nThe time has now come to sit at the keyboard, phone and modems at\nthe ready, relevant research materials convenient to hand and see\nwhat you can access. In keeping with the 'handbook' nature of this\npublication, I have put my most solid advice in the form of a\ntrouble-shooting appendix (I), so this chapter talks around the\ntechniques rather than spelling them out in great detail.\n\nHunting instincts Good hacking, like birdwatching and many other\npursuits, depends ultimately on raising your intellectual knowledge\nalmost to instinctive levels. The novice twitcher will, on being told\n'There's a kingfisher!', roam all over the skies looking for the\n\n138","$70","$71","$72","$73","$74","$75","$76","$77","$78","$79","$7a","$7b","$7c","$7d","$7e","nature of the prompts will change. Thus, on a well-known mini family\nOS, the usual user prompt is\n\nCOMMAND ?\n\nor simply\n\n>\n\n** Page 64\n\nOnce you have crashed out the prompt may change to a simple\n\n.\n\nor\n\n*\n\nor even\n\n:\n\nit all depends.\n\n154","$7f","$80","$81","$82","$83","$84","** Page 68\n\nCHAPTER 7\n\nNetworks\n\nUntil ten years ago, the telecommunications and computer\nindustries were almost entirely separate. Shortly they will be almost\ncompletely fused. Most of today's hackers operate largely in\nignorance of what goes on in the lines and switching centres between\nthe computer they own and the computer they wish to access.\nIncreasingly, dedicated hackers are having to acquire knowledge and\nexperience of data networks, a task made more interesting, but not\neasier, by the fact that the world's leading telecommunications\norganisations are pushing through an unprecedented rate of\ninnovation, both technical and commercial. Apart from purely local\nlowspeed working, computer communications are now almost\nexclusively found on separate high-speed data networks, separate that\nis from the two traditional telecommunications systems telegraphy and\ntelephone. Telex lines operate typically at 50 or 75 baud with an\nupper limit of 110 baud.\n\n161","$85","$86","translated into a binary code. The process of dividing an analogue\nsignal into digital form and then reassembling it in analogue form is\ncalled quantization. Most PCM systems use 128 quantizing levels, each\npulse being coded into 7 binary digits, with an eighth added for\nsupervisory purposes.\n\nOPERATION OF A CHARACTER TDM\n\n+-----+-----+-----+-----+-----+-----+-----+-<------| SYN | CH1 | CH2 | CH3 | CH4 | SYN | CH1 |\n+-----+-----+-----+-----+-----+-----+-----+--\n\n+-----------------+\n1|\n--+\n\n+-----------------+\n\n|\n| +---+\n\n2|\n\n| | |\n\n|\n+---+\n| |\n\n|1\n|\n\n|\n\n+-|2\n\n--+ MULTIPLEXER |==+ M +--\\/\\/--+ M +==--+ MULTIPLEXER +-3|\n--+\n\n| | |\n| +---+\n\n4|\n\n|\n\n--+-----------------+\n\n| |\n\n|\n\n+---+\n\n|3\n|\n\n|\n\n+-|4\n\n+-----------------+--\n\n--+-----+-----+-----+-----+-----+-----+----+\n| CH1 | SYN | CH4 | CH3 | CH2 | CH1 |SYN |------->\n--+-----+-----+-----+-----+-----+-----+----+\n\n164","$87","$88","Packet Switching\n\nThese ideas were synthesised into creating what has now become\npacket switching. The methods were first described in the mid-1960's\nbut it was not until a decade later that suitable cheap technology\nexisted to create a viable commercial service.\n\n** Page 71\n\nThe British Telecom product is called Packet SwitchStream (PSS) and\nnotable comparable US services are Compuserve, Telenet and Tymnet.\nMany other countries have their own services and international packet\nswitching is entirely possible--the UK service is called,\nunsurprisingly, IPSS.\n\nInternational Packet Switched Services and DNICs\n\nINTERNATIONAL NETWORKS\n\nDatacalls can be made to hosts on any listed International Networks.\nThe NIC (Data Network Identification Code) must precede the\ninternational host's NUA. Charges quoted are for duration (per hour)\nand volume (per Ksegment) and are raised in steps of 1 minute and 10\nsegments respectively.\n\n167","Country\n\nNetwork\n\nDNIC\n\nAustralia\n\nMidas\n\n5053\n\n8elgium\n\nEuronet\n\n2062\n\nBelgium\n\nEuronet\n\n2063\n\nCanada\n\nDatapac\n\n3020\n\nCanada\n\nGlobedat\n\n3025\n\nCanada\n\nInfoswitch\n\n3029\n\nDenmark\n\nEuronet\n\n2383\n\nFrance\n\nTranspac\n\n2080\n\nFrench Antilles\n\nEuronet\n\n3400\n\nGermany (FDR)\n\nDatex P\n\n2624\n\nGermany (FDR)\n\nEuronet\n\n2623\n\nHong Kong\n\nIDAS\n\n4542\n\nIrish Republic\n\nEuronet\n\n2723\n\nItaly\n\nEuronet\n\nJapan\n\nDDX-P\n\n4401\n\nJapan\n\nVenus-P\n\n4408\n\nLuxembourg\n\nEuronet\n\n2223\n\n2703\n\n** Page 72\n\nNetherlands\nCountry\n\nEuronet\nNetwork\n\n2043\nDNIC\n\n168","Norway\n\nNorpak\n\nPortugal\n\nN/A\n\n2422\n2682\n\nSingapore\n\nTelepac\n\n5252\n\nSouth Africa\n\nSaponet\n\n6550\n\nSpain\n\nTIDA\n\n2141\n\nSweden\n\nTelepak\n\n2405\n\nSwitzerland\n\nDatalink\n\n2289\n\nSwitzerland\n\nEuronet\n\n2283\n\nU.S.A.\n\nAutonet\n\n3126\n\nU.S.A.\n\nCompuserve 3132\n\nU.S.A.\n\nITT (UDTS) 3103\n\nU.S.A.\n\nRCA (LSDS) 3113\n\nU.S.A.\n\nTelenet\n\n3110\n\nU.S.A.\n\nTymnet\n\n3106\n\nU.S.A.\n\nUninet\n\n3125\n\nU.S.A.\n\nWUI (DBS)\n\n3104\n\nAdditionally, Datacalls to the U.K. may be initiated from:\n\nBahrain, Barbados, Bermuda, Israel, New Zealand and the United Arabs\nEmirates.\n\nUp to date Information can be obtained from IPSS Marketing on\n01-9362743\n\n169","$89","Terminal D================================-+ PAD +-==========\n CHARACTERS\n PACKETS\nCALL 40\nWelcome to SERCNET-PSS Gateway. Type HELP for help.\n\nGatew::~cInkging in\nuser HELP\nID last used Wednesday, 18 January 1984 16:53\nStarted - Wed 18 Jan 19a4 17:07:55\nPlease enter your name and establishment DEMO\nDue to a local FTP problem messages entered via the HELP system\n\n179","during the last month have been lost. Please resubmit if\nproblem/question is still outstanding 9/1/84\n\nNo authorisation is required for calls which do not incur charges at\nthe Gateway. There is now special support for TELEX. A TELEX service\nmay be announced shortlY.\n\nCopies of the PSS Guide issue 4 are available on request to Program\nAdvisory Office at RAL, telephone 0235 44 6111 (direct dial in) or\n0235 21900 Ext 6111. Requests for copies should no longer be placed\nin this help system.\n\nThe following options are available:\n\n** Page 79\n\nNOTES GUIDE TITLES ERRORS EXAMPLES HELP QUIT\nWhich option do you require? GUIDE\nThe program 'VIEW' is used to display the Gateway guide\nCommands available are:\n or N next page\np\n\nprevious page\nn\n\nlist page n\n\n+n or -n go forward or back n pages\n\n180","S\n\nfirst page\n\nE\n\nlast page\n\nL/string find line Containing string\nF/string find line beginning string\nQ\n\nexit from VIEW\n\nVIEW Vn 6> Q\nThe following options are available:\n\nNOTES GUIDE TITLES ERRORS EXAMPLES HELP OUIT\nWhich option do you require? HELP\nNOTES replies to user queries & other notes\nGUIDE Is the complete Gateway user guide (including the Appendices)\nTITLES 1- a list of SERCNET L PSS addresses & mnemonics (Guide\nAppendix 1)\nERRORS List of error codes you may receive EXAMPLES are ome examples\nof use of the Gateway (Guide Appendix 2)\nQUIT exits from this session\n\nThe following options are available:\n\nNOTES GUIDE TITLES ERRORS EXAMPLES HELP QUIT\nWhich option do you require? TITLES\n\nVIEW Vn o>\n\n181","If you have any comments, please type them now, terminate with E\non a line on its own. Otherwise just type \n\nCPU used: 2 ieu, Elapsed: 14 mins, IO: 2380 units, Break: 114\nBudgets: this period = 32.000 AUs, used = 0.015 AU, left - 29.161 AUs\nUser HELP terminal 2 logged out Wed 18 Jan 1984 17:21:59\n\n84/04/18. 18.47.00.\nI.C.C.C. NETWORK OPERATING SYSTEM.\n\nNOS 1.1-430.20A\n\nUSER NUMBER:\nPASSWORD:\nIMPROPER LOG IN, TRY AGAIN.\nUSER NUMBER:\nPASSWORD:\n\n>SCIENCE AND ENGINEERING RESEARCH COUNCIL\n\n>RUTHERFORD APPLETON LABORATORY\nCOMPUTING DIVISION\n>\n>\n\nThE SERCNET - PSS Gateway\n\n>\n\nUser's Guide\n\n182","A S Dunn\n\n>Issue 4\n\n16 February 1983\n\n>Introduction\n\n** Page 80\n\nFrm 1; Next>\nThe SERCNET-PSS Gateway provides access from SERCNET to PSS and PSS\nto SERCNET. It functions as a 'straight through' connection between\nthe networks, ie it is protocol transparant. It operates as a\nTransport Level gateway, in accordance with the 'Yellow book'\nTransport Service. However the present implementation does not have a\nfull Transport Service. and therefore there are some limitations in\nthe service provided. For X29 which is incompatible with the Yellow\nbook Transport Service. special facilities are provided for the input\nof user identification and addresses.\n\nNo protocol conversion facilities are provided by the Gateway protocol conversion facilities (eg X29 - TS29) can be provided by\ncalling through a third party machine (usually on SERCNET).\n\n183","$8f","terminal users) whereby either a minimal address can be included in\nthe Call User Data Field or an X25 subaddress can be used and the\nCall User Data Field left absent.\n\nThe authorisation and address can then be entered when prompted by\nthe Gateway.\n\nUnauthorised Use\nFrm 5: Next>\n\nNo unauthorised use of the Gateway is allowed regardless of whether\ncharges are Incurred at the Gateway or not.\n\nHowever, there is an account DEMO (password will be supplied on\nrequest) With a small allocation which is available for users to try\nout the Gateway but it should be noted that excessive use of this\naccount will soon exhaust the allocation thus depriving others of its\nuse.\n\nProspective users of the Gateway should first contact User Interface\nGroup In the Computing Division of the Rutherford Appleton\nLaboratory.\n\nAddressing\n\n185","To connect a call through the Gateway the following information is\nrequired in the Transport Service Called Address:\n\n1) The name of the called network\n2) Authorisation. consisting of a USERID, PASSWORD and ACCOUNT, and\noptionally, a reverse charging request\n3) The address of the target host on the called network\n\nThe format is as follows:\n\n().\n\n1) is one of the following:\n\n** Page 81\n\nSERCNET to connect to the SERC network\nPSS\nS\n69\n\n2)\n\nto connect to PSS\nan alias for SERCNET\n\nanother alias for SERCNET\n\n is a list of positional or keyword\nparameters or booleans as follows:\n\n186","keyword Meaning\n\nUS\nPW\nAC\n\nUser identifier\nUser's password\n\nthe account - not used at present - talen to be same as US\nRF\nR\n\n'reply paid' request (see below)\nreverse charging indicator (boolean)\n\nkeywords are separated from their values by '='.\nkeyword-value pairs positional parameters and booleans are separated\nfrom each other by ','. The whole string is enclosed in parentheses:\n().\n\nExamples:\n\n(FRED.XYZ R)\n(US=FRED,PW=XYZ,R)\n(R,PW=XYZ,US=FRED)\n\nAll the above have exactly the same meaning. The first form is the\nmost usual.\n\nWhen using positionals, the order is: US,PW,AC,RP,R\n\n187","3) is the address of the machine being called on the\ntarget network. It may be a compound address, giving the service\nwithin the target machine to be used. It may begin with a mnemonic\ninstead of a full DTE address. A list of current mnemonics for both\nSERCNET and PSS is given in Appendix 1.\n\nA restriction of using the Gateway is that where a Transport Service\naddress (service name) is required by the target machine to identify\nthe service to be used, then this must be included explicitly by the\nuser in the Transport Service Called Address, and not assumed from\nthe mnemonic, since the Gateway cannot Inow from the mnemonic. which\nprotocol is being used.\n\nExamples:\n\nRLGS.FTP\n4.FTP\n\nBoth the above would refer to the FTP service on the GEC 'B' machine\nat Rutherford.\n\nRLGB alone would in fact connect to the X29 server, since no service\nname is Frm 7; Next>\nrequired for X29.\n\n188","In order to enable subaddresses to be entered more easily with PSS\naddresses, the delimiter '-' can be used to delimit a mnemonic. When\nthe mnemonic is translated to an address the delimiting '-' is\ndeleted so that the following string is combined with the address.\nEg:\n\nSERC-99 is translated to 23422351919199\n\nPutting the abovementioned three components together, a full\nTransport Service Called Address might look like:\n\nS(FRED,XYZ,R).RLGS.FTF\n\n** Page 82\n\nOf course a request for reverse charging on SERCNET is meaningless,\nbut not illegal.\n\nReply Paid Facility\n\n(Omit at first reading)\n\nIn many circumstances it is necessary for temporary authorisation to\nbe passed to a third party. For example, the recipient of network\nMAIL may not himself be authorised to use the Gateway, and therefore\nthe sender may wish to grant him temporary authorisation in order to\nreply. With the Job Transfer and maniplulation protocol, there is a\n\n189","$90","$91","the reply paid count is reduced, except where the total number of\nsegments transferred on the call is zero (ie call setup was never\ncompleted).\n\nFrm 11; Next?\n\nX29 Terminal Protocol\n\nThere is a problem in that X29 is incompatible with the Transport\nService. For this reason, it is possible that some PAD\nimplementations will be unable to generate the Transport Service\nCalled Address. Also some PAD's, eg the British Telecom PAD, may be\nunable to generate Fast Select calls - this means that the Call User\nData Field is only 12 bytes long - insufficient to hold the Transport\nService Address.\n\nIf a PAD is able to insert a text string into the Call User Data Field\nbeginning at the fifth byte, but is restricted to 12 characters\nbecause of inability to generate Fast Select calls, then a partial\naddress can be included consisting of either the network name being\ncalled, or the network name plus authorisation.\n\n** Page 83\n\nThe first character is treated as a delimiter, and should be entered\n\n192","$92","$93","ITP Terminal Protocol\n\nThe terminal protocol ITP is used extensively on SERCNET and some\nhosts support only this terminal protocol. Thus it will not be\npossible to make calls directly between these hosts on SERCNET and\naddresses on PSS which support only X29 or TS29. In these cases it\nwill be necessary to go through an intermediate machine on SERCNET\nwhich supports both x29 and ITP or TS29 and ITP, such as a GEC ITP.\nThis is done by first making a call to the GEC MUM, and then making\nan outgoing call from there to the desired destination.\n\nPTS29 Terminal Protocol\n\nThis is the ideal protocol to use through the Gateway. since there\nshould be no problem about entering the Transport Service address.\nHowever, it is divisable first to ascertain that the machine to be\ncalled will support\n\nWhen using this protocol, the service name of the TS29 server should be\nentered explicitly, eg:\n\n** Page 84\n\nS(FRED,XYZ).RLGB.TS29\n\n195","Restrictions\n\nDue to the present lack of a full Transport Service in the Gateway,\nsome primitives are not fully supported.\n\nIn particular, the ADRESS, DISCONNECT and RESET primitives are not\nfully supported. Howerver this should not present serious problems,\nsince the ADDRESS and REASET primitives are not widely used, and the\nDISCONNECT primitive can be carried in a Clear Request packet.\n\nIPSS\nAccess to IPSS is through PSS. Just enter the IPSS address in place\nof the PSS address.\n\n................\n\nand on and on for 17 pages\n\n** Page 85\n\nCHAPTER 8\n\nViewdata Systems\n\n196","$94","$95","$96","Viewdata software structures\n\nAn understanding of how a viewdata database is set up is a great\naid in learning to discover what might be hidden away. Remember,\nthere are always two ways to each page--by following the internal\nindexes, or by direct keying using *nnn#. In typical viewdata\nsoftware, each electronic file card or 'page' exists on an overall\ntree-like structure:\n\n** Page 87\n\nPage\n0\n|\n---------------------+----------------------- ...\n1\n\n2\n\n3\n\n4\n\n5\n\n6\n\n7\n\n8\n\n|\n------------+-------------------------------- ...\n31\n\n32\n\n33\n\n34\n\n35\n\n36\n\n37\n\n38\n\n|\n------------------------+-------------------- ...\n351 352 353 354 355 356 357 358 3-digit\n|\n\nnode\n\n-------------+------------------------------- ...\n3531 3532 3533 3534 3535 3536 3537 3538\n\n200","$97","information on ABC is actually held on page 3537891. The routing\ntable on page 353880 will say: 8=3537891. In this example, you will\nsee that 3537891 i9 not a true filial of 353880--this does not\nmatter; however, in order for 3537891 to exist on the system, its\nparents must exist, i.e. there must be pages 353789, 35378, 3537\netc.\n\n** Page 88\n\nPRESTEL\nPRESTEL EDITING SYSTEM\nInput Details -\n\nUpdate option o\n\nPageno 4190100\n\nUser CUG\n\nFrame-Id\n\nUser access\n\nFrame type i\n\na\n\ny\n\nFrame price 2p\n\nChoice type s\n\nChoices\n\n202","0- *\n\n1-\n\n4196121\n\n2- 4196118\n\n3-\n\n4196120\n\n4- 4196112\n\n5-\n\n4196119\n\n6- 4196110\n8- 4190101\n\n79-\n\n*\n4199\n\nPrestel Editing. This is the 'choices' page which se s up the frame\nbefore the overt page - the one the user sees - is prepared.\n\nThese quirky features of viewdata software can help the hacker\nsearch out hidden databases:\n\n* Using a published directory, you can draw up a list of 'nodes' and\nwho occupies them. You can then list out apparently 'unoccupied'\nnodes and see if they contain anything interesting. It was when a\nhacker spotted that an 'obvious' Prestel node, 456, had been unused\nfor a while, that news first got out early in 1984 about the Prestel\nMicro computing service, several weeks ahead of the official\nannouncement.\n\n* If you look at the front page of a service, you can follow the\nroutings of the main index--are all the obvious immediate filials\nused? If not, can you get at them by direct keying?\n\n** Page 89\n\n203","$98","$99","$9a","$9b","$9c","$9d","$9e","$9f","$a0","$a1","$a2","$a3","$a4","$a5","$a6","$a7","them out....\n\nHowever, this is no longer a new trick, and one which should be\nused with caution: is the database used by an important organisation?\nAre you going to tell the system manager what you have done and\nurge more care in password selection in future?\n\n** Page 98\n\nCHAPTER 9\n\nRadio Computer Data\n\nVast quantities of data traffic are transmitted daily over the\nradio frequency spectrum; hacking is simply a matter of hooking up a\ngood quality radio receiver and a computer through a suitable\ninterface. On offer are news services from the world's great press\nagencies, commercial and maritime messages, meteorological data, and\nplenty of heavily-encrypted diplomatic and military traffic. A\nvariety of systems, protocols and transmission methods are in use and\nthe hacker jaded by land-line communication (and perhaps for the\nmoment put off by the cost of phone calls) will find plenty of fun on\n\n220","$a8","$a9","information so received is also an offence and, in the case of news\nagency material, breach of copyright may also present a problem.\n\nHowever, owning the equipment required is usually not illegal and,\nsince few countries require a special license to listen to amateur\nradio traffic (as opposed to transmitting, where a license is needed)\nand since amateurs transmit in a variety of data modes as well,\nhackers can set about acquiring the necessary capability without\nfear.\n\nEquipment\n\nThe equipment required consists of a communications receiver, an\nantenna, an interface unit/software and a computer.\n\nCommunications receiver - This is the name given to a good quality\nhigh frequency receiver. Suitable models can be obtained,\nsecond-hand, at around Ĺ 100; new receivers cost upwards of Ĺ 175.\nThere is no point is buying a radio simply designed to pick up\nshortwave broadcasts which will lack the sensitivity, selectivity and\nresolution necessary. A minimum specification would be:\n\nCoverage\n\n500 kHz--30 MHz\n\n223","$aa","$ab","$ac","$ad","$ae","great speed--ribbon cable, poor solder joints, an antenna taped\nquickly to a window in a metal frame less than two meters from the\ncommunications receiver--and all I could hear from 500 kHz to 30\nMHz, wherever I tuned, was a great howl-whine of protest...\n\nWhere to listen\n\nScanning through the bands on a good communications receiver, you\nrealise just how crowded the radio spectrum is. The table in Appendix\nVI gives you an outline of the sandwich-like fashion in which the\nbands are organised.\n\nThe 'fixed' bands are the ones of interest; more particularly, the\nfollowing ones are where you could expect to locate news agency\ntransmissions (in kHz):\n\n** Page 103\n\n3155\n\n-- 3400\n\n14350 -- 14990\n\n3500\n\n-- 3900\n\n15600 -- 16360\n\n3950\n\n-- 4063\n\n17410 -- 17550\n\n4438\n\n-- 4650\n\n18030 -- 18068\n\n4750\n\n-- 4995\n\n18168 -- 18780\n\n5005\n\n-- 5480\n\n18900 -- 19680\n\n229","5730\n\n-- 5950\n\n19800 -- 19990\n\n6765\n\n-- 7000\n\n20010 -- 21000\n\n7300\n\n-- 8195\n\n21850 -- 21870\n\n9040\n\n-- 9500\n\n22855 -- 23200\n\nggoo\n\n-- 9995\n\n23350 -- 24890\n\n10100\n\n-- 11175\n\n25010 -- 25070\n\n11400\n\n-- 11650\n\n25210 -- 25550\n\n12050\n\n-- 12330\n\n26175 -- 28000\n\n13360\n\n-- 13600\n\n29700 -- 30005\n\n13800\n\n-- 14000\n\nIn addition, amateurs tend to congregate around certain spots on the\nfrequency map: 3590, 14090, 21090, 28090, and at VHF/UHF: 144.600,\n145.300, MHz 432.600, 433.300.\n\nTuning In\n\nRadio Teletype signals have a characteristic two-tone warble sound\nwhich you will hear properly only if your receiver is operating in\nSSB (single-side-band) mode. There are other digital tone-based\nsignals to be heard: FAX (facsimile), Helschcrieber (which uses a\ntechnique similar to dot-matrix printers and is used for Chinese and\nrelated pictogram-style alphabets), SSTV (slow scan television, which\ncan take up to 8 seconds to send a low-definition picture), and\n\n230","$af","$b0","$b1","of interfering signals.\n\nREVUE DE LA PRESSE ITALIENNE DU VENDREDI 28 DECEMBRE 1984\n\nLE PROCES AUX ASSASSINS DE L~ POIELUSZKO, LA VISITE DE\nM. SPADOLINI A ISRAEL, LA SITUATION AU CAMBODGE ET LA GUERILLA AU MOZAMBIQUE FONT LES TITES DES PAGES POLITIQUES\n\nMOBILISATION TO WORK FOR THE ACCOUNT OF 1985\n\n- AT THE ENVER HOXHA AUTOMOBILE AND\nTRACTOR COMBINE IN TIRANA 2\n\nTIRANA, JANUARY XATA/. - THE WORKING PEOPLE OF THE ENVER HOXH~/\nAUTOMOBILE AND TRACTOR COMBINE BEGAN THEIR WORR WITH VIGOUR\nAND MOBILISATION FOR THE ACCOUNT OF 1985. THE WORK IN THIS\nIMPROVOWNT CENTER FOR MECHANICAL INDUSTRY WAS NOT INTERRUPTED\nFOR ONE MOMENT AND THE WORKING PEOPLE 8~S ONE ANOTHER FOR\nFRESHER GREATER VICTORIES UNDER THE LEADERSHIP OF THE PARTY\nWITH ENVER HOXHA AT THE HEAD, DURING THE SHIFTS, NEAR\nTHE FURNANCES~ PRESSES ETC.. JUST LIKE SCORES OF WORKING COLLECTIVES OF THE COUNTRY WHICH WERE NOT AT HOME DURING THE NEW\nYEAR B\n\nIN THE FRONTS OF WORK FOR THE BENEFITS OF THE SOCI-\n\n234","$b2","YRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYR\nYRY\nRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYRYR~ u UL ~v_.~v\n\nGJ4YAD GJ4YAD DE G4DF G4DF\nSOME QRM BUT MOST OK. THE SHIFT IS NORMAL...SHIFT IS NORMAL.\nFB ON YOUR RIG AND NICE TO MEET YOU IN RTTY. THE WEATHER HERE\nTODAY IS FINE AND BEEN SUNNY BUT C9LD. I HAVE BEEN IN THIS MODE\nBEFORE BUT NOT FOR A FEW YEARS HI HI.\n\nGJ4YAD GJ4YAD DE G4DF G4DF\nPSE KKK\n\nG4ElE G4EJE DE G3IMS G3IMS\nTNX FOR COMING BACk. RIG HERE IS ICOM 720A BUT I AM SENDING\nAFSk; NOT FSk'. I USED TO HAVE A CREED BUT CHUCKED IT OUT IT WAS\nTOO NOISY AND NOW HAVE VIC2D SYSTEM AND SOME US kIT MY SON\nBROUGHT ME HE TRAVELS A LOT.\nHAD LOTS OF TROUBLE WITH RFI AND HAVE NOT YET CURED IT. VERTY BAD\n\nQRM AT MOMENT. CAN GET NOTHING ABOVE 1CI MEGS AND NOT MUCH EX-G\nON\nS(:). HI HI. SUNSPOT COUNT IS REALLY LOW.\n\nG4EJE G4EJE DE G3IMS G3IMS\n~I.Of;KKKk'KKKK\n\n236","RYRYRYRYRYRYRYRYRYR\n~K~fk'KKKKKKK\n\nG3IMS G3IMS DE G4EJE G4EJE\nFB OM. URM IS GETTING WORSE. I HAVE ALWAYS LIk.ED ICOM RIGS BUT\nTHEY ARE EXEPENSIVE. CAN YOU RUN FULL 1QCI PER CENT DUTY CYCLE ON\nRTTY OR DO YOU HAVE TO RUN AROUND 50 PER CENT. I GET OVER-HEATING\nON THIS OLD YAESU lQl. WHAT SORT OF ANTENNA SYSTEM DO YOU USE.\nHERE IS A TRAPPED VERTICAL WITH 8CI METERS TUNED TO RTTY SPOT AT\n~;59(:1.\nI STILL USE CREED 7 THOUGH AM GETTING FED UP WITH MECHANICAL\nBREAK- W WN AND NOISE BUT I HAVE HEARD ABOUT RFI AND HOME\nCOMPUTER5. MY NEPHEW HAS A SPECTRUM, CAN YOU GET RTTY SOFTWARE\nFOR THAT/.\n\nG3IMs G3IMS DE G4EJE G4EJE\n\n** Page 107\n\nCHAPTER 10\n\nHacking: the Future\n\n237","$b3","$b4","$b5","$b6","$b7","$b8","forbidden and unregulated. There is the desire to be an outlaw, but\nclever and not too outrageous with it, in very many of us.\n\nSo I don't believe that hacking can be stopped by tougher\nsecurity, or by legislation, or even by the fear of punishment.\n\nDon't get me wrong: I regard computers as vastly beneficial. But\nthey can threaten our traditional concepts of freedom, individuality\nand human worth I like to believe hacking is a curious\nre-assertion of some of those ideas.\n\nThe challenge of hacking is deeply ingrained in many computer\nenthusiasts; where else can you find an activity the horizons of\nwhich are constantly expanding, where new challenges and dangers can\nbe found every day, where you are not playing a visibly artificial\n'game', where so much can be accessed with so little resource but a\nsmall keyboard, a glowing VDU, an inquisitive and acquisitive brain,\nand an impish mentality?\n\n** Page 111\n\nAPPENDIX I\n\n244","Trouble Shooting\n\nThe assumption is that you are operating in the default mode of\n300/300 baud asynchronous using CCITT tones, 7 bits, even parity, one\nstop bit, full-duplex/echo off, originate. You have dialled the\nremote number, seized the line and can hear a data tone. Something is\nnot working properly. This is a partial list of possibilities.\n\nThe screen remains blank.\n\n* A physical link has failed -- check the cables between computer,\nmodem and phone line.\n\n* The remote modem needs waking up--send a or failing that, a\nENQ (E), character.\n\n* The remote modem is operating at a different speed. Some modems\ncan be brought up to speed by hitting successive s; they usually\nbegin at 110 baud and then go to 300,so two successive s should\ndo the trick.\n\n* The remote modem is not working at V21 standards, either because\nit is a different CCITT standard, e.g. V22, V22 bis, V23 etc or\n\n245","operates on Bell (US) tones.\n\n* Since different standards tend to have different 'wake-up' tones\nwhich are easily recognised with practice, you may be able to spot\nwhat is happening. It shouldn't need to be said that if you are\ncalling a North American service you should assume Bell tones.\n\n* Both your modem and that of the remote service are in answer or in\noriginate and so cannot 'speak' to each other. Always assume you are\nin the originate mode.\n\n* The remote service is not using ASCII/International Alphabet No 5.\n\nThe screen fills with random characters\n\n* Data format different from your defaults--check 7 or 8 bit\ncharacters, even/odd parity, stop and start bits.\n\n* Mismatch of characters owing to misdefined protocol--check\nstart/stop, try alternately EOB/ACK and XON/XOF.\n\n* Remote computer operating at a different speed from you-- try, in\norder, 110, 300, 600, 1200, 75.\n\n246","** Page 112\n\n* Poor physical connection--if using an acoustic coupler check\nlocation of handset, if not, listen on line to see if it is noisy or\ncrossed.\n\n* The remote service is not using ASCII/International Alphabet No 5.\n\nEvery character appears twice\n\n* You are actually in half-duplex mode and the remote computer as\nwell as your own are both sending characters to your screen--switch\nto full-duplex/echo off.\n\nAll information appears on only one line, which is constantly\noverwritten.\n\n* The remote service is not sending line feeds--if your terminal\nsoftware has the facility, enable it to induce line feeds when each\ndisplay line is filled. Many on-line services and public dial-up\nports let you configure the remote port to send line feeds and vary\nline length. Your software may have a facility to show control\ncharacters, in which case you will see J if the remote service\n\n247","is sending line feeds.\n\nWide spaces appear between display lines.\n\n* The remote service is sending line feeds and your software is\ninducing another one simultaneously--turn off your induced carriage\nreturn facility. In 'show control character' mode, you will see\nJs.\n\nDisplay lines are broken awkwardly\n\n* The remote service is expecting your screen to support more\ncharacters than it is able. Professional services tend to expect 80\ncharacters across whilst many personal computers may have less than\n40, so that they can be read on a tv screen. Check if your software\ncan help, but you may have to live with it. Alternatively, the\nremote computer may let you reconfigure its character stream.\n\nMost of the display makes sense, but every so often it becomes\ngarbled\n\n* You have intermittent line noise--check if you can command the\n\n248","$b9","$ba","page comes up; however, advanced graphics features tend to work by\nsuppressing clear-screens.\n\n** Page 114\n\n* The service you have dialled is not using viewdata. PSS is\naccessible at 75/1200, as are one or two direct-dial services. In\nthis case you should be seeing a conventional display or trying one\nof the other suggestions in this appendix. It is usual to assume that\nany subscriber dialling into a 75/1200 port has only a 40 character\ndisplay.\n\nYou can't see what you are typing\n\n* The remote computer is not echoing back to you--switch to\nhalf-duplex. If the remote computer's messages now appear doubled;\nthat would be unusual but not unique; you will have to toggle back to\nfull-duplex for receive.\n\nData seems to come from the remote computer in jerky bursts rather\nthan as a smooth stream.\n\n* If you are using PSS or a similar packet-switched service and it\n\n251","is near peak business hours either in your time zone or in that of\nthe host you are accessing, the effect is due to heavy packet\ntraffic. There is nothing you can do--do not send extra commands to\n'speed things up' as those commands will arrive at the host\neventually and cause unexpected results.\n\n* The host is pausing for a EOB/ACK or XON/XOF message-- check your\nprotocol settings--try sending ctrl-Q or ctrl-F.\n\nYou have an apparently valid password but it is not accepted.\n\n* You don't have a valid password, or you don't have all of it.\n\n* The password has hidden control characters which don't display on\nthe screen. Watch out for H -- the back-space, which will\nover-write an existing displayed character.\n\n* The password contains characters which your computer doesn't\nnormally generate--check your terminal software and see if there is a\nway of sending them.\n\nMost of the time everything works smoothly, but you can't get past\ncertain prompts\n\n252","* The remote service is looking for characters your computer doesn't\nnormally generate. Check your terminal software and see if there is a\nway of sending them.\n\nA list or file called up turns out to be boring--can you stop it?\n\n* Try sending S; this may simply make the remote machine\npause, until a Q is sent--and you may find the list resumes\nwhere it left off. On the other hand it may take you on to a menu.\n\n* Send a BREAK signal (1). If one BREAK doesn't work, send\nanother in quick succession.\n\n** Page 115\n\nYou wish to get into the operating system from an applications\nprogram.\n\n* Don't we all? There is no standard way of doing this, and indeed\nit might be almost impossible, because the operating system can only\nbe addressed by a few privileged terminals, of which yours (and its\nassociated password) is not one. However, you could try the\nfollowing:\n\n253","$bb","* If you can hear the two-tones of rtty traffic but can't get\nletters resolved, check that your terminal unit is locking on to the\nsignal (often indicated by LEDs); you should then at least get some\nresponse on your screen, if it doesn't make immediate sense.\n\n* Once you have letters on screen, try altering the speed at which\nyou are receiving (see chapter 10); check also that you are reading\nin the right 'sense', ie that mark and space have not been reversed.\n\n* In addition to signals sent with the conventional International\nTelegraphic Code No 2 (Baudot), variants exist for foreign letter\nsets, like Cyrillic, which your software may not be able to resolve.\n\n* There are other data-type services which sound a little like RTTY,\nbut are not: they include FAX (facsimile) hellschreiber ( a form of\nremote dot-matrix printing), SITOR (see chapter 10) and special\nmilitary/diplomatic systems.\n\n** Page 116\n\nAPPENDIX II\n\n255","Glossary\n\nThis glossary collects together the sort of name, word, abbreviation\nphrase you could come across during your network adventures\nand for which you may not be able to find a precise definition\n\nACK\nNon--printing character used in some comms protocols to indicate that\na block has been received and that more can be sent; used in\nassociation with EOB.\n\nANSI\nAmerican National Standards Institute--one of a number of standards\norganizations.\n\nAnswer mode\nWhen a modem is set up to receive calls--the usual mode for a host.\nThe user's computer will be in originate.\n\nARQ\nAutomatic Repeat Request--method of error correction.\n\nASCII\nAmerican Standard Code for Information Interchange--alternate name\nfor International Telegraph Alphabet No 5: 7-bit code to symbolise\n\n256","common characters and comms instructions, usually transmitted as\n8-bit code to include a parity bit.\n\nASR\nAutomatic Send Receive--any keyboard terminal capable of generating a\nmessage into off-line storage for later transmission; includes\npaper-tape telex machines as well as microcomputers.\n\nAsynchronous\nDescription of communications which rely on 'start' and 'stop' bits\nto synchronise originator and receiver of data--hence asynchrnous\nprotocols, channels, modems, terminals etc.\n\n** Page 117\n\nBackward channel\nSupervisory channel, not used as main channel of communication; in\nviewdata the 75 baud back from the user to the host.\n\nBaud\nMeasure of the signalling rate on a data channel, number of\nsignalling elements per second.\n\nBaseband\nModulation is direct on the comms line rather than using audio or\n\n257","radio frequencies; used in some local area networks. A baseband or\n'short-haul' modem can be used to link computers in adjacent offices,\nbut not over telephone lines.\n\nBaudot\n5-bit data code used in telegraphy, telex and RTTY--also known as\nInternational Telegraph Alphabet No 2.\n\nBell\n(1) non-printing character which sounds a bell or bleep, usually\nenabled by G; (2) Common name for US phone company and, in\nthis context, specifiers for a number of data standards and services,\ne.g. Bell 103a, 202a, 212a, etc--see Appendix V\n\nBit Binary digit\nvalue 0 or 1.\n\nBroadband\nBroadband data channels have a wider bandwidth than ordinary\ntelephone circuits--12 times in fact, to give a bandwidth of 48kHz,\nover which may simultaneous high-speed data transfers can take place.\n\nBroadcast service\nData service in which all users receive the same information\nsimultaneously, without the opportunity to interrogate or query;\n\n258","e.g. news services like AP, Reuters News, UPI etc. See also on-line\nservice.\n\nBisynchronous\nIBM protocol involving synchronous transmission of binary coded data.\n\n** Page 118\n\nBLAISE\nBritish Library Automated Information Service-- substantial\nbibliographic on-line host.\n\nBREAK\nNon-printing character used in some data transmission protocols and\nfound on some terminals--can often be regenerated by using 1.\n\nBSC\nBinary Synchronous Communications--see bisynchronous.\n\nI Byte\nGroup of bits (8) representing one data character.\n\nCall accept\nIn packet-switching, the packet that confirms the party is willing to\nproceed with the call.\n\n259","Call redirection\nIn packet-switching, allows call to be automatically redirected from\noriginal address to another, nominated address.\n\nCall request\nIn packet-switching, packet sent to initiate a datacall.\n\nCCITT\nComite Consultatif International Telephonique et Telegraphique\n--committee of International Telecommunications Union which sets\ninternational comms standards. Only the US fails to follow its\nrecommendations in terms of modem tones, preferring 'Bell' tones. The\nCCITT also sets such standards as V21, 24, X25 etc.\n\nCharacter terminal\nIn packet-switching, a terminal which can only access via a PAD.\n\nCluster\nWhen two or more terminals are connected to a data channel at a\nsingle point.\n\nCommon Carrier\nA telecommunications resource providing facilities to the public.\n\n260","** Page 119\n\nConnect-time\nLength of time connected to a remote computer, often the measure of\npayment. Contrast with cpu time or cpu units, which measures how\nmuch 'effort' the host put into the communication.\n\nCPS\nCharacters Per Second.\n\nCpu Time\nIn an on-line session, the amount of time the central processor\nactually spends on the interaction process, as opposed to connecttime; either can be used as the basis of tariffing.\n\nCRC\nCyclic Redundancy Check--error detection method.\n\nCUG\nClosed User Group--group of users/terminals who enjoy privacy with\nrespect to a public service.\n\nDatacall\nIn packet-switching, an ordinary call, sometimes called a 'switched\nvirtual call'.\n\n261","Dataline\nIn packet-switching, dedicated line between customer's terminal and\npacket-switch exchange (PSE).\n\nDCE\nData Circuit-terminating Equipment--officialese for modems.\n\nDTE\nData Terminal Equipment--officialese for computers.\n\nEBCDIC\nExtended Binary Coded Decimal Interchange Code--IBM's alternative to\nASCII, based on an 8-bit code, usually transmitted synchronously. 256\ncharacters are available.\n\nEmulator\nSoftware/hardware set-up which makes one device mimic another, e.g. a\npersonal computer may emulate an industry-standard dumb terminal like\nthe VT100. Compare simulator, which gives a device the attributes of\nanother, but not necessarily in real time, e.g. when a large mini\ncarries a program making it simulate another computer to develop\nsoftware.\n\n** Page 120\n\n262","Euronet-Diane\nEuropean direct access information network.\n\nDatel\nBT's name for its data services, covering both the equipment and the\ntype of line, e.g. Datel 100 corresponds to telegraph circuits, Datel\n200 is the usual 300/300 asynchronous service, Datel 400 is for\none-way transmissions e.g. monitoring of remote sites, Datel 600 is\na two- or four-wire asynchronous service at up to 1200 baud, Datel\n2400 typically uses a 4-wire private circuit at 2400 baud\nsynchronous, etc. etc.\n\nDES\nData Encryption Standard--a US-approved method of encrypt- ing data\ntraffic, and somewhat controversial in its effectiveness.\n\nDialog\nWell-established on-line host available world-wide covering an\nextensive range of scientific, bibiographic and news services. Also\nknown as Lockheed Dialog.\n\nDial-up\nCall initiated via PTSN, no matter where it goes after that; as\nopposed to service available via permanent leased line.\n\n263","$bc","ENQ\nNon-printing character signifying 'who are you?' and often sent by\nhosts as they are dialled up. When the user's terminal receives ENQ\nit may be programmed to send out a password automatically.\nCorresponds to E.\n\nEOB\nEnd Of Block--non-printing character used in some protocols, usually\nin association with ACK.\n\nEqualisation\nMethod of compensation for distortion over long comms channels.\n\nFDM\nFrequency Division Multiplexing--a wide bandwidth transmission\nmedium, e.g. coaxial cable, supports several narrow bandwidth\nchannels by differentiating by frequency; compare time division\nmultiplexing.\n\nFSK\nFrequency Shift Keying--a simple signalling method in which\nfrequencies but not phase or amplitude are varied according to\nwhether '1' or '0' is sent--used in low-speed asynchronous comms both\nover land-line and by radio.\n\n265","Handshaking\nHardware and software rules for remote devices to communicate with\neach other, supervisory signals such as 'wait', 'acknowledge',\n'transmit', 'ready to receive' etc.\n\nHDLC\nIn packet-switching, High Level Data Link Control procedure, an\ninternational standard which detects and corrects errors in the\nstream of data between the terminal and the exchange--and to provide\nflow control. Host The 'big' computer holding the information the\nuser wishes to retrieve.\n\n** Page 122\n\nInfoline\nScientific on-line service from Pergamon.\n\nISB\nsee sideband.\n\nISO\nInternational Standards Organisation.\n\nLAN\n\n266","Local Area Network--normally using coaxial cable, this form of\nnetwork operates at high speed over an office or works site, but no\nfurther. May have inter-connect facility to PTSN or PSS.\n\nLF\nLine Feed--cursor moves active position down one line--usual code is\nJ; not the same as carriage return, which merely sends cursor\nto left-hand side of line it already occupies. However, in many\nprotocols/terminals/set-ups, hitting the or button\nmeans both and .\n\nLogical Channel\nApparently continuous path from one terminal to another.\n\nLSB\nsee sideband.\n\nKSR\nKeyboard Send Receive--terminal with keyboard on which anything that\nis typed is immediately sent. No off-line preparation facility, e.g.\nteletypewriter, 'dumb' terminals.\n\nMacro software\nFacility frequently found in comms programs which permits the\npreparation and sending of commonly-used strings of information,\n\n267","particularly passwords and routing instructions.\n\nMark\nOne of the two conditions on a data communications line, the other\nbeing 'space'; mark indicates 'idle' and is used as a stop bit.\n\n** Page 123\n\nMessage switching\nWhen a complete message is stored and then forwarded, as opposed to a\npacket of information. This technique is used in some electronic mail\nservices, but not for general data transmission.\n\nModem\nModulator-demodulator.\n\nMultiplexer\nDevice which divides a data channel into two or more independent\nchannels .\n\nMVS\nMultiple Virtual Storage--IBM operating system dating from mid-70s.\n\nNUA\nNetwork User Address, number by which each terminal on a\n\n268","packet-switch network is identified (character terminals don't have\nthem individually, because they use a PAD). In PSS, it's a 10-digit\nnumber.\n\nNUI\nNetwork User Identity, used in PSS for dial-up access by each user.\n\nOctet\nIn packet-switching, 8 consecutive bits of user data, e.g. 1\ncharacter.\n\nOn-line service\nInterrogative or query service available for dial-up. Examples\ninclude Lockheed Dialog, Blaise, Dow Jones News Retrieval, etc;\nleased-line examples include Reuters Monitor, Telerate.\n\nOriginate\nMode-setting for a modem operated by a user about to call another\ncomputer.\n\nOSI\nOpen Systems Interconnect--intended world standard for digital\nnetwork connections--c.f. SNA. Packet terminal Terminal capable of\ncreating and disassembling packets, interacting with a\npacket-network, c.f. character terminal.\n\n269","** Page 124\n\nPAD\nPacket Assembly/disassembly Device--permits 'ordinary' terminals to\nconnect to packet switch services by providing addressing, headers,\n(and removal), protocol conversion etc.\n\nParity checking\nTechnique of error correction in which one bit is added to each data\ncharacter so that the number of bits is always even (or always odd).\n\nPDP/8 & /11\nLarge family of minis, commercially very sucessful, made by DEC. the\nPDP 8 was 12-bit, the PDP 11 is 16-bit. The LSI 11 have strong family\nconnections to the PDP 11, as have some configurations of the\ndesk-top Rainbow.\n\nPolling\nMethod of controlling terminals on a clustered data network, where\neach is called in turn by the computer to see if it wishes to\ntransmit or receive.\n\nProtocol\nAgreed set of rules.\n\n270","PSE\nPacket Switch Exchange--enables packet switching in a network.\n\nPTSN\nPublic Switched Telephone Network--the voice-grade telephone network\ndialled from a phone. Contrast with leased lines, digital networks,\nconditioned lines etc.\n\nPTT\njargon for the publicly-owned telecommunications authority/ utility\n\nPVC\nPermanent Virtual Circuit--a connection in packet switching which is\nalways open, no set-up required.\n\n** Page 125\n\nRedundancy checking\nMethod of error correction.\n\nRS232C\nThe list of definitions for interchange circuit: the US term for\nCCITT V24--see Appendix III.\n\n271","RSX-ll\nPopular operating system for PDP/11 family.\n\nRTTY\nRadio Teletype -- method of sending telegraphy over radio waves.\n\nRUBOUT\nBack-space deleting character, using H.\n\nSecondary channel\nData channel, usually used for supervision, using same physical path\nas main channel; in V23 which is usually 600 or 1200 baud\nhalf-duplex, 75 baud traffic is supervisory but in viewdata is the\nchannel back from the user to the host, thus giving low-cost full\nduplex.\n\nSegment\nChargeable unit of volume on PSS.\n\nSerial transmission\nOne bit at a time, using a single pair of wires, as opposed to\nparallel transmission, in which several bits are sent simultaneously\nover a ribbon cable. A serial interface often uses many more than two\nwires between computer and modem or computer and printer, but only\ntwo wires carry the data traffic, the remainder being used for\n\n272","$bd","System Network Architecture-- IBM proprietary networking protocol,\nthe rival to OSI.\n\nSpace\nOne of two binary conditions in a data transmission channel, the\nother being 'mark'. Space is binary 0.\n\nSpooling\nSimultaneous Peripheral Operation On-Line--more usually, the ability,\nwhile accessing a database, to store all fetched information in a\nlocal memory buffer, from which it may be recalled for later\nexamination, or dumped to disc or printer.\n\nStart/Stop\nAsynchronous transmission; the 'start' and 'stop' bits bracket each\ndata character.\n\nStatistical Multiplexer\nA statmux is an advanced multiplexer which divides one physical link\nbetween several data channels, taking advantage of the fact that not\nall channels bear equal traffic loads.\n\nSTX\nStart Text--non-printing character used in some protocols.\n\n274","SVC\nSwitched Virtual Circuit--in packet switching, when connection\nbetween two computers or computer and terminal must be set up by a\nspecific call.\n\n** Page 127\n\nSYN\nNon-printing character often used in synchronous transmission to tell\na remote device to start its local timing mechanism.\n\nSynchronous\nData transmission in which timing information is super-imposed ~,n\npure data. Under this method 'start/stop' techniques are not used\nand data exchange is more efficient, hence synchronous channel,\nmodem, terminal, protocol etc.\n\nTDM\nTime Division Multiplex--technique for sharing several data channels\nalong one high-grade physical link. Not as efficient as statistical\ntechniques.\n\nTelenet\nUS packet-switch common carrier.\n\n275","Teletex\nHigh-speed replacement for telex, as yet to find much commercial\nsupport.\n\nTeletext\nUse of vertical blanking interval in broadcast television to transmit\nmagazines of text information, e.g. BBC's Ceefax and IBA's Oracle.\n\nTelex\nPublic switched low-speed telegraph network.\n\nTOPIC\nThe Stock Exchange's market price display service; it comes down a\nleased line and has some of the qualities of both viewdata and\nteletext.\n\nTymnet\nUS packet-switch common carrier.\n\nV-standards\nSet of recommendations by CCITT--see Appendix III.\n\nVAX\nSuper-mini family made by DEC; often uses Unix operating system.\n\n276","$be","programmed to accept a variety of asynchronous transmission\nprotocols--manufactured by DEC. The series has developed since the\nVT100\n\nX-standards\nSet of recommendations by CCITT--see Appendix III.\n\nXON/XOF\nPair of non-printing characters sometimes used in protocols to tell\ndevices when to start or stop sending. XON often corresponds to\nQ and XOF to S.\n\n80-80\nType of circuit used for telex and telegraphy--mark and space are\nindicated by conditions of--or + 80 volts. Also known in the UK as\nTariff J. Usual telex speed is 50 baud, private wire telegraphy (news\nagencies etc) 75 baud.\n\n** Page 129\n\nAPPENDIX III\n\nSelected CCITT Recommendations\n\n278","$bf","$c0","X29\n\nProcedures for exchange of control information and user\ndata between a packet mode DTE and a PAD\nX95\n\nNetwork parameters in public data networks\n\nX96\n\nCall progress signals in public data networks\n\nX121 International addressing scheme for PDNs\n\n** Page 131\n\nAPPENDIX IV\n\nComputer Alphabets\n\nFour alphabets are in common use for computer communications:\nASCII, also known as International Telegraphic Alphabet No 5; Baudot,\nused in telex and also known as International Telegraphic Alphabet No\n2; UK Standard videotex, a variant of ASCII; and EDCDIC, used by IBM.\n\nASCII\nThis is the standard, fully implemented character set. There are a\nnumber of national variants: # in the US variant is Ĺ in the UK\nvariant. Many micro keyboards cannot generate all the characters\ndirectly, particularly the non-printing characters used for control\n\n281","of transmission, effectors of format and information separators. The\n'keyboard' column gives the usual method of providing them, but you\nshould check the firmware/software manuals for your particular\nset-up. You should also know that many of the 'spare' control\ncharacters are often used to enable special features on printers.\n\nHEX\n\nDEC ASCII Name\n\n00\n01\n\nKeyboard Notes\n\n0 NUL Null\n\nctrl @\n\n1 SOH Start heading\n\nctrl A\n\n02\n\n2 STX Start text\n\nctrl B\n\n03\n\n3 ETX End text\n\nctrl C\n\n04\n\n4 EOT End transmission\n\n05\n06\n\nctrl D\n\n5 ENQ Enquire\n\nctrl E\n\n6 ACK Acknowledge\n07\n\n7 BEL Bell\n\n08\n\n8 BS Backspace\n\n09\n\n9 HT Horizontal tab\nOA\n\nctrl F\nctrl G\n\nctrl H\n\nor special key\n\nctrl I or special key\n\n10 LF Line feed\n\nctrl J\n\nOB\n\n11 VT Vertical tab\n\nctrl K\n\n0C\n\n12 FF Form feed\n\nctrl L\n\n** Page 132\n\nOD\n\n13 CR Carriage return\n\nctrl M\n\nor special key\n\n282","OE\n\n14 SO Shift out\n\nOF\n10\n11\n\nctrl O\n\n16 DLE Data link escape\n\n12\n\nctrl P\n\nctrl Q\n\n18 DC2 Device control 2\n\n19 DC3 Device control 3\n14\n15\n\nalso XON\nctrl R\n\nctrl S\n\n20 DC4 Device control 4\n\nalso XOF\nctrl T\n\n21 NAK Negative acknowledge ctrl U\n\n16\n\n22 SYN Synchronous Idle\n\n17\n\n23 ETB End trans. block\n\n18\n19\n1A\n1B\n\n15 Sl Shift in\n\n17 DC1 Device control 1\n\n13\n\nctrl N\n\n24 CAN Cancel\n\nctrl V\nctrl W\nctrl X\n\n25 EM End medium\n\n26 SS Special sequence\n\n27 ESC Escape\n\nctrl Y\nctrl Z spare\ncheck manuals to\n\ntransmit\n1C\n\n28 FS File separator\n\n1D\n\n29 GS Group separator\n\n1E\n\n30 RS Record separator\n\n1F\n\n31 US Unit separator\n20\n\n23\n\n32 SP Space\n21\n\n33 ~\n\n22\n\n34 \"\n\n35 #\n\nĹ \n24\n\n36 $\n\n25\n\n37 %\n\n283","26\n27\n\n38 &\n\n39 ' Apostrophe\n28\n\n40 (\n\n29\n\n41 )\n\n2A\n\n42 ~\n\n2B\n\n43 +\n\n2C\n\n44 , Comma\n2D\n\n45 -\n\n2E\n\n46 . Period\n\n2F\n\n47 / Slash\n30\n\n48 0\n\n31\n\n49 1\n\n32\n\n50 2\n\n33\n\n51 3\n\n34\n\n52 4\n\n35\n\n53 5\n\n36\n\n54 6\n\n37\n\n55 7\n\n** Page 133\n\n3A\n3B\n\n38\n\n56 8\n\n39\n\n57 9\n58 : Colon\n\n59 ; Semicolon\n\n284","3C\n3D\n\n60 <\n61\n\n3E\n\n62 >\n\n3F\n\n63 ?\n\n40\n\n64 @\n\n41\n\n65 A\n\n42\n\n66 B\n\n43\n\n67 C\n\n44\n\n68 D\n\n45\n\n69 E\n\n46\n\n70 F\n\n47\n\n71 G\n\n48\n\n72 H\n\n49\n\n73 1\n\n4A\n\n74 J\n\n4B\n\n75 K\n\n4C\n\n76 L\n\n4D\n\n77 M\n\n4E\n\n78 N\n\n4F\n\n79 O\n\n50\n\n80 P\n\n51\n\n81 Q\n\n52\n\n82 R\n\n53\n\n83 S\n\n54\n\n84 T\n\n285","5C\n\n55\n\n85 U\n\n56\n\n86 V\n\n57\n\n87 W\n\n58\n\n88 X\n\n59\n\n89 Y\n\n5A\n\n90 Z\n\n5B\n\n91 [\n\n92 \\ Backslash\n5D\n\n93 1\n\n5E\n\n94 ^ Circumflex\n\n5F\n\n95 _ Underscore\n\n60\n\n96\n\nGrave accent\n\n61\n\n97 a\n\n62\n\n98 b\n\n** Page 134\n\n63\n\n99 c\n\n64\n\n100 d\n\n65\n\n101 e\n\n66\n\n102 f\n\n67\n\n103 9\n\n68\n\n104 h\n\n69\n\n105 i\n\n6A\n\n106 j\n\n286","6B 107 k\n6C\n\n108 l\n\n6D\n\n109 m\n\n6E\n\n110 n\n\n6F 111 o\n70\n\n112 p\n\n71\n\n113 q\n\n72\n\n114 r\n\n73\n\n115 s\n\n74\n\n116 t\n\n75\n\n117 u\n\n76\n\n118 v\n\n77\n\n119 w\n\n78\n\n120 x\n\n79\n\n121 y\n\n7A\n\n122 z\n\n7B 123 {\n7C\n7D\n7E\n\n124\n125 }\n\n126 ~ Tilde\n\n7F 127 DEL Delete\n\nBaudot\nThis is the telex/telegraphy code known to the CCITT as International\nAlphabet No 2. It is essentially a 5-bit code, bracketed by a start\n\n287","$c1","$c2","$c3","are specially identified for application- specific purposes. In\ntransmission, it is usual to add a further digit for parity checking.\nNormally the transmission mode is synchronous, so there are no\n'start' and 'stop' bits. The table shows how EBCDIC compares with\nASCII of the same bit configuration.\n\n** Page 138\n\nIBM control characters:\n\nEBCDIC\n\nNUL\nSOH\n\nbits\n\nNotes\n\n0000 0000 Nul\n\n0000 0001 Start of Heading\n\nSTX\n\n0000 0010 Start of Text\n\nETX\n\n0000 0011 End of Text\n\nPF\n\n0000 0100 Punch Off\n\nHT\n\n0000 0101 Horizontal Tab\n\nLC\n\n0000 0110 Lower Case\n\nDEL\n\n0000 0111 Delete\n0000 1000\n\nRLF\nSMM\n\n0000 1001 Reverse Line Feed\n0000 1010 Start of Manual Message\n\nVT\nFF\n\n0000 1011 Vertical Tab\n0000 1100 Form Feed\n\n291","CR\n\n0000 1101 Carriage Return\nSO\n\n0000 1110 Shift Out\n\nSl\nDLE\n\n0000 1111 Shift In\n0001 0000 Data Link Exchange\n\nDC1\n\n0001 0001 Device Control 1\n\nDC2\n\n0001 0010 Device Control 2\n\nTM\n\n0001 0011 Tape Mark\n\nRES\n\n0001 0100 Restore\n\nNL\n\n0001 0101 New Line\n\nBS\n\n0001 0110 Back Space\nIL\n\n0001 0111 Idle\n\nCAN\n\n0001 1000 Cancel\n\nEM\n\n0001 1001 End of Medium\n\nCC\n\n0001 1010 Cursor Control\n\nCU1\n\n0001 1011 Customer Use 1\n\nIFS\n\n0001 1100 Interchange File Separator\n\nIGS\n\n0001 1101 Interchange Group Separator\n\nIRS\n\n0001 1110 Interchange Record Separator\n\nIUS\n\n0001 1111 Interchange Unit Separator\nDS\n\nSOS\n\n0010 0000 Digit Select\n0010 0001 Start of Significance\n\nFS\n\n0010 0010 Field Separator\n0010 0011\nBYP\n\nLF\n\n0010 0100 Bypass\n0010 0101 Line Feed\n\n292","ETB\n\n0010 0110 End of Transmission Block\n\n** Page 139\n\nEBCDIC\nESC\n\nbits\n\nNotes\n\n0010 0111 Escape\n0010 1000\n0010 1001\n\nSM\n\n0010 1010 Set Mode\n\nCU2\n\n0010 1011 Customer Use 1\n0010 1100\n\nENQ\n\n0010 1101 Enquiry\n\nACK\n\n0010 1110 Acknowledge\n\nBEL\n\n0010 1111 Bell\n0011 0000\n0011 0001\n\nSYN\n\n0011 0010 Synchronous Idle\n0011 0011\n\nPN\n\nEOT\n\n0011 0100 Punch On\n\nRS\n\n0011 0101 Reader Stop\n\nUC\n\n0011 0110 Upper Case\n0011 0111 End of Transmission\n0011 1000\n0011 1001\n0011 1010\n\n293","CU3\n\n0011 1011 Customer Use 3\n\nDC4\n\n0011 1100 Device Control 4\n\nNAK\n\n0011 1101 Negative Acknowledge\n0011 1110\nSUB\n\n0011 1111 Substitute\n\nSP\n\n0100 0000 Space\n\n** Page 140\n\nAPPENDIX V\n\nModems and Services\n\nThe table below shows all but two of the types of service you are likely to\ncome across; V-designators are the world-wide 'official names given by the\nCCITT; Bell-designators are the US names:\n\nService\n\nSpeed Duplex Transmit\nDesignator\n\nV21 orig\nV21 ans\n\n300(*) full\n300(*) full\n\n0\n\nReceive\n1\n\n0\n\nAnswer\n\n1\n\n1180 980 1850 1650 1850 1650 1180 980 2100\n\n294","V23 (1)\nV23 (2)\n\n600\n\nhalf\n\n1200\n\nV23 back\n\n1700 1300 1700 1300 2100\n\nf/h(**) 2100 1300 2100 1300 2100\n75\n\nf/h(**) 450 390\n\nBell 103 orig 300(*) full\n\n450 390 -\n\n1070 1270 2025 2225 -\n\nBell 103 ans 300(*) full\n\n2025 2225 1070 1270 2225\n\nBell 202\n\n2200 1200 2200 1200 2025\n\n1200\n\nhalf\n\n(*)any speed up to 300 baud, can also include 75 and 110 baud\nservices\n\n(**)service can either be half-duplex at 1200 baud or asymmetrical\nfull duplex, with 75 baud originate and 1200 baud receive (commonly\nused as viewdata user) or 1200 transmit and 75 receive (viewdata\nhost)\n\nThe two exceptions are:\nV22\n\n1200 baud full duplex, two wire\nBell 212A The US equivalent\n\nBoth these services operate by detecting phase as well as tone.\n\nBritish Telecom markets the UK services under the name of Datel as\nfollows--for simplicity The list covers only those services which use\nthe PTSN or are otherwise easily accessible--4-wire services, for\nexample are excluded.\n\n295","** Page 141\n\nDatel\n\nSpeed\n\n100(H) 50\n\nasync\n\n100(J) 75-110\n50\n\n400\n600\n\nasync\nasync\n\n200\n\nMode\n\n300\n\n600 Hz\n1200\n\nTeleprinters, Baudot code\nNews services etc, Baudot code\n\nTelex service, Baudot code\nasync\n\nasync\nasync\n\nRemarks\n\nfull duplex, ASCII\n\nout-station to in-station only\nseveral versions exist--for 1200\n\nhalf-duplex; 75/1200 for viewdata\nusers; 1200/75forviewdata hosts; and\na rare 600 variant. The 75 speed is\ntechnically only for supervision but\ngives asymetrical duplex\n\nBT has supplied the following modems for the various services-- the\nolder ones are now available on the 'second-user' market:\n\nModem No Remarks\n\n1200 half-duplex--massive\n2\n11\n\n300 full-duplex--massive\n4800 synchronous--older type\n\n12\n\n2400/1200 synchronous\n\n296","13\n\n300 full-duplex--plinth type\n\n20(1) 1200 half-duplex--'shoe-box' style\n(2) 1200/75 asymetrical duplex--'shoe-box' style\n(3) 75/1200 asymetrical duplex--'shoe-box' style\n21\n22\n24\n\n300 full-duplex--modern type\n1200 half-duplex--modern type\n\n4800 synchronous--modern type (made by Racal)\n\n27A\n\n1200 full duplex, sync or async (US made &\nmodified from Bell 212A to CCITT tones)\n\n27B\n\n1200 full duplex, sync or async (UK made)\n\nYou should note that some commercial 1200/1200 full duplex modems\nalso contain firmware providing ARQ error correction protocols;\nmodems on both ends of the line must have the facilities, of course.\n\n** Page 142\n\nBT Line Connectors\n\nModems can be connected directly to the BT network ('hard- wired')\nsimply by identifying the pair that comes into the building. Normally\nthe pair you want are the two outer wires in a standard 4 x 2 BT\njunction box. (The other wires are the 'return' or to support a\n'ringing' circuit.)\n\n297","A variety of plugs and sockets have been used by BT. Until\nrecently, the standard connector for a modem was a 4-ring jack, type\n505, to go into a socket 95A. Prestel equipment was terminated into a\nsimilar jack, this time with 5 rings, which went into a socket type\n96A. However, now all phones, modems, viewdata sets etc, are\nterminated in the identical modular jack, type 600. The corresponding\nsockets need special tools to insert the line cable into the\nappropriate receptacles.\n\nWhatever other inter-connections you see behind a socket, the two\nwires of the twisted pair are the ones found in the centres of the\ntwo banks of receptacles. North America also now uses a modular jack\nand socket system, but not one which is physically compatible with UK\ndesigns...did you expect otherwise?\n\n** Page 143\n\nAPPENDIX VI\n\nThe Radio Spectrum\n\n298","The table gives the allocation of the radio frequency spectrum up\n30 MHz. The bands in which radio-teletype and radio-data traffic are\nmost common are those allocated to 'fixed' services, but data traffic\nis also found in the amateur and maritime bands.\n\nLF,MF,HF, RADIO FREQUENCY SPECTRUM TABLE\n\n9\n14\n\n--\n\n14\n\n--\n\n19.95 Fixed/Maritime mobile\n\n20\n\nStandard Frequency & Time\n\n20.05\n70\n\n--\n\n110\n\n--\n\n--\n\n70\n\nFixed/Maritime mobile/Radionavigation\n\n90\n\n--\n\n130\n\nFixed/Maritime mobile/Radionavigation\n\n--\n\n--\n\n315\n\n110\n\nRadionavigation\n\n148.5 Maritime mobile/Fixed\n\n148.5\n\n283.5\n\nFixed & Maritime mobile\n\n90\n\n130\n\n255\n\nRadionavigation\n\n--\n\n255\n\nBroadcasting\n\n283.5 Broadcasting/Radionavigation(aero)\n--\n\n--\n\n315\n\n325\n\nMaritime/Aeronautical navigation\n\nAeronautical radionavigation/Maritime\nradiobeacons\n\n415\n\n325\n\n--\n\n405\n\nAeronautical radionavigation\n\n405\n\n--\n\n415\n\nRadionavigation (410 = DF)\n\n--\n\n495\n\nAeronautical radionavigation/Maritime mobile\n\n299","495\n\n--\n\n505\n\nMobile (distress & calling) > 500:cw&rtty\n\n505\n\n--\n\n526.5 Maritime mobile/Aeronautical navigation\n526.5\n\n1606.5\n\n-- 1606.5 Broadcasting\n\n-- 1625\n\nMaritime mobile/Fixed/Land mobile\n\n1625\n1635\n\n-- 1635\n\n-- 1800\n\nRadiolocation\n\nMaritime mobile/Fixed/Land mobile\n\n1800\n\n-- 1810\n\n1810\n1850\n\nRadiolocation\n\n-- 1850\n-- 2000\n\nAmateur\nFixed/Mobile\n\n** Page 144\n\n2000\n2045\n\n-- 2160\n2160\n2170\n\n2173.5\n\nFixed/Mobile\n\nMaritime mobile/Fixed/Land mobile\n-- 2170\n\nRadiolocation\n\n-- 2173.5 Maritime mobile\n\n-- 2190.5 Mobile (distress & calling) >2182--voice\n2190.5\n2194\n\n2502\n\n-- 2045\n\n-- 2194\n\nMaritime & Mobile\n\n-- 2300\n\nFixed & Mobile\n\n2300\n\n-- 2498\n\nFixed/Mobile/Broadcasting\n\n2498\n\n-- 2502\n\nStandard Frequency & Time\n\n-- 2650\n\nMaritime mobile/Maritime radionavigation\n\n2650\n2850\n\n-- 2850\n\n-- 3025\n\nFixed/Mobile\n\nAeronautical mobile (R)\n\n300","3025\n3155\n\n-- 3155\n\n-- 3200\n\nAeronautical mobile (OR)\n\nFixed/Mobile/Low power hearing aids\n\n3200\n\n-- 3230\n\nFixed/Mobile/Broadcasting\n\n3230\n\n-- 3400\n\nFixed/Mobile/Broadcasting\n\n3400\n\n-- 3500\n\nAeronautical mobile (R)\n\n3500\n\n-- 3800\n\nAmateur/Fixed/Mobile\n\n3800\n\n-- 3900\n\n3900\n\n-- 3930\n\n3930\n\nAeronautical mobile (OR)\n\n-- 4000\n\n4000\n\n-- 4063\n\n4063\n\n4650\n\nFixed/Maritime mobile\n\n-- 4650\n\n-- 4700\n\n4700\n\nFixed/Broadcasting\n\n-- 4438\n\n4438\n\n4750\n\nFixed/Aeronautical mobile (OR)\n\n-- 4750\n\n-- 4850\n\nMaritime mobile\nFixed/Mobile\n\nAeronautical mobile (R)\nAeronautical mobile (OR)\n\nFixed/Aeronautical mobile (OR)/\n\nLand mobile/Broadcasting\n4850\n\n-- 4995\n\n4995\n\n-- 5005\n\n5005\n\n-- 5480\n5480\n\nStandard Frequency & Time\n\n-- 5060\n\n5060\n5450\n\nFixed/Land mobile/Broadcasting\n\nFixed/Broadcasting\n\n-- 5450\n\nFixed/Mobile\n\nFixed/Aeronautical mobile (OR)/Land mobile\n-- 5680\n\nAeronautical mobile (R)\n\n301","5680\n\n-- 5730\n\n5730\n\n-- 5950\n\n5950\n6200\n6525\n6685\n\nAeronautical mobile (OR)\nFixed/Land mobile\n\n-- 6200\n-- 6525\n\n-- 6685\n\nAeronautical mobile ~OR)\n\n-- 6795\n\n7000\n7100\n7300\n\nMaritime mobile\n\nAeronautical mobile (R)\n\n-- 6765\n6765\n\nBroadcasting\n\nFixed/lSM\n\n-- 7100\n-- 7300\n\n-- 8100\n\nAmateur\nBroadcasting\n\nMaritime mobile\n\n** Page 145\n\n8100\n\n-- 8195\n\n8195\n\n8815\n8965\n\n-- 8815\n\n-- 8965\n-- 9040\n9040\n9500\n\nMaritime mobile\n\nAeronautical mobile (R)\nAeronautical mobile ~OR)\n-- 9500\n\n-- 9900\n\nggoo\n\n9995\n\nFixed/Maritime mobile\n\n-- 10005\n\nFixed\n\nBroadcasting\n\n-- 9995\n\nFixed\n\nStandard Frequency & Time\n\n302","10005\n\n-- 10100\n\n10100\n\n-- 10150\n10150\n\n11175\n\n11400\n\n12230\n\n13200\n\nAeronautical mobile (R)\n\n-- 11650\n\n-- 12050\n\n2050\n\nFixed\n\nAeronautical mobile (OR)\n\n-- 11400\n\n11650\n\nFixed/Amateur(sec)\n\n-- 11175\n\n-- 11275\n\n11275\n\nAeronautical mobile (R)\n\nBroadcasting\n\n-- 12230\n\n-- 13200\n\n-- 13260\n\nFixed\n\nFixed\n\nMaritime mobile\n\nAeronautical mobile (OR)\n\n13260\n\n-- 13360\n\nAeronautical mobile (R)\n\n13360\n\n-- 13410\n\nFixed/Radio Astronomy\n\n13410\n13600\n\n-- 13600\n\n-- 13800\n\n13800\n\n14000\n\n14990\n15010\n\n-- 14350\n\n-- 15010\n-- 15100\n15100\n\nBroadcasting\n\n-- 14000\n\n14350\n\nFixed\n\nAmateur\n\n-- 14990\n\nFixed\n\nStandard Frequency & Time\nAeronautical mobile (OR)\n\n-- 15600\n\n15600\n\nFixed\n\nBroadcasting\n\n-- 16360\n\nFixed\n\n303","16360\n\n-- 17410\n\n17410\n17550\n17900\n\n-- 17550\n\n-- 17900\n\n-- 17970\n\n17970\n\n18030\n\n-- 18052\n\nAmateur\n\n-- 18780\n\n-- 18900\n\n18900\n\nFixed\n\nFixed/Space Research\n\n-- 18168\n\n18168\n18780\n\nBroadcasting\n\nAeronautical mobile (OR)\n\n-- 18068\n18068\n\nFixed\n\nAeronautical mobile (R)\n\n-- 18030\n\n18052\n\nMaritime mobile\n\nFixed\n\nMaritime mobile\n\n-- 19680\n\nFixed\n\n** Page 146\n\n19680\n\n-- 19800\n\n19800\n19990\n\n-- 20010\n20010\n21000\n21450\n\n21924\n\n-- 19990\n\nFixed\n\nStandard Frequency & Time\n-- 21000\n-- 21450\n\n-- 21850\n\n21850\n21870\n\nMaritime mobile\n\nAmateur\nBroadcasting\n\n-- 21870\n\n-- 21924\n-- 22000\n\nFixed\n\nFixed\n\nAeronautical fixed\nAeronautical (R)\n\n304","22000\n\n-- 22855\n\n22855\n23200\n\n-- 23350\n23350\n24000\n\n-- 24000\n-- 24890\n\n25070\n\n25550\n\n27500\n\n-- 27500\n\nFixed/Mobile\nMaritime mobile\n\n-- 25550\n-- 25670\n\nFixed/Mobile\nRadio Astronomy\n\n-- 26100\n-- 26175\n\nBroadcasting\nMaritime mobile\n\nFixed/Mobile (CB) (26.975-27.2835 ISM)\n\n-- 28000\n\nMeteorological aids/Fixed/Mobile (CB)\n\n28000\n29700\n\nAmateur\n\nStandard Frequency & Time\n\n-- 25210\n\n25670\n26100\n\nFixed/Land mobile\n\n-- 25070\n\n25210\n\nFixed\n\nFixed/Mobile\n\n-- 24990\n\n-- 25010\n25010\n\n26175\n\n-- 23200\n\nAeronautical fixed & mobile (R)\n\n24890\n24990\n\nMaritime mobile\n\n-- 29700\n-- 30005\n\nAmateur\nFixed/Mobile\n\nNote: These allocations are as they apply in Europe, slight variations occur\nin other regions of the globe.\n\n** Page 147\n\nAPPENDIX VII\n\nPort-finder Flowchart\n\n305","$c4"]},"initialDocumentData":{"document":{"access":"PUBLIC","contentRating":{"isAdsafe":true,"isExplicit":false,"isReviewed":true},"description":"The Hacker's 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