hacking

	==Phrack Magazine==

	Volume Five, Issue Forty-Five, File 23 of 28

	****************************************************************************

	AN INTRODUCTION TO OCTELS
	AUTOMATIC SPEECH EXCHANGE NETWORK
	BY OPTIK NERVE
	(nerve@netaxs.com)


	The Automatic SPeech Exchange Network, or ASPEN for short, is a high
	performance voice processing system which interfaces and integrates with a
	variety of PBX and Central Office (CO) equipment. Interfaced systems require
	the caller to enter an extension, while integration provides a personal
	greeting automatically. Both of these provide the ability to return to the
	operator if necessary. ASPEN systems offer voice mail, Information Center
	Mail-Boxes (ICMB), Enhanced Call Processing (ECP), networking, and
	transaction processing. The Aspen, Branch, Branch XP, and VPC 100 hardware
	is only significantly different in their port and drive capacities. The
	following information is presented to introduce an overview of the hardware
	in an ASPEN system, and its function for it as a whole. This is not a
	"how-to" file and you will not find anything related to fraud in this
	article.


	SYSTEM COMPONENTS LIST
	-=-=-=-=-=-=-=-=-=-=-=-

	Each ASPEN system contains the main cardcage, the I/O cardcage, the drives,
	power supplies, and the system manager terminal. The system manager printer
	is optional. ASPEN hardware consists of:

	o CPU Board
	o File card
	o Line board
	o Telephone Interface Card (TIC)
	o Scanner board
	o Winchester drives
	o Power supplies
	o System manager terminal
	o System manager printer (optional)

	The cardcages of the system contain the following boards, each identifiable
	by a unique color coded tab indicating the slot into which the board fits.

	MAIN CARDCAGE

	o CPU (yellow)
	o File card (dark green)
	o Line boards (light green)

	INPUT/OUTPUT CARDCAGE

	o Scanner board (pink)
	o TICs (purple)


	SYSTEM COMPONENTS OVERVIEW
	-=-=-=-=-=-=-=-=-=-=-=-=-=-

	The following subsections present a functional description of the
	characteristics considered standard on ASPEN system hardware.


	CENTRAL PROCESSING UNIT
	~~~~~~~~~~~~~~~~~~~~~~~
	The CPU board contains a microprocessor with access to one megabyte of
	RAM. It is identical, in function, to a personal computers' CPU,
	executing instructions, and controlling serial I/O to the scanner board
	and system manager terminal.

	SYSTEM DATA BUSES
	~~~~~~~~~~~~~~~~~
	System communication between the boards uses three main buses: the control
	bus, the data bus, and the polling/status bus. The eight megahertz control bus
	works on a request/response procotol; for each 16 byte message sent by the
	CPU to a board, a 16 byte response must be sent back to the CPU. The data bus
	moves large amounts of data (20KB transfers) between the CPU, file card, and
	line boards at eight megahertz. All digitized speech to and from the line
	boards and file card travel on this bus. The polling/status control bus is
	used only between the scanner board and TICs. The scanner board polls each TIC
	port for an on-hook/off-hook status every ten milliseconds.

	FILE CARD
	~~~~~~~~~
	The file card controls the drives and is the primary system file manager.
	The file card controls the Winchester ST-506 interface. The file card also
	stores frequently used prompts of less than three seconds in a speech cache
	memory.

	LINE BOARD
	~~~~~~~~~~
	The line board contains microprocessors with access to 128KB of RAM. The
	line board has four channels, each matching a channel on a TIC. The Aspen may
	contain as many as six line boards, but this is limited to four, and even
	two on lower end Aspen models. Line boards perform several important
	functions including: encoding and decoding of digitized speech, tone
	detection, DTMF detection, silence detection, speed control, and DTMF tone
	generation. Speech is encoded at a rate of 25K samples per second using Delta
	modulation. Each of the four channels on the line board has a tone detection
	circuit, which detects dial, busy, reorder, and ringback tones generated by
	most PBXs and COs. The proprietary design limits talk-off during message
	playback. Talk-off may occur when the voice generates tones similar to DTMF
	tones. Silence detection recognizes spaces between words so that the voice
	message can be compressed for disk storage, optimizing disk space. The
	system also recognizes silence during message recording and prompts the user
	to continue. The line board controls message playback speed without
	affecting voice frequency pitch by controlling the amount of silence
	between words. Playback can be normal, slow, or fast. The line board is
	equipped with a tone generator used for dialing when ASPEN places an
	outcall or transfers a call.

	TELEPHONE INTERFACE CARDS
	~~~~~~~~~~~~~~~~~~~~~~~~~
	The Telephone Interface Cards (TICs) provide interfaces to either the
	Public Switched Telephone Network (PSTN) including CO, or to a PBX. In
	most installations, the TIC emulates a regular telephone to the PBX or the
	CO. Octel Communications has special TICs that emulate electronic digital
	sets in a Mitel PBX and ROLM PBX. The four channels on a TIC connect
	directly to the four channels on a line board. The TICs use transformers to
	provide electrical isolation to protect the line board and the network or PBX.
	The TICs communicate with the scanner board through the polling/status
	control bus located on the I/O backplane.

	SCANNER BOARD
	~~~~~~~~~~~~~
	The scanner board, as mentioned above, communicates with all TICs through
	the polling/status control bus. By continually polling all TIC channels, the
	scanner board detects new incoming calls and reports this change in status
	information to the CPU board though one of the four serial I/O ports. It also
	provides RS-232 data connection to the PBX when required, and the serial I/O
	port which interfaces the system managers terminal with the CPU. The scanner
	board includes a built in modem used to remotely access the system
	administration functions. The local system manager terminal and the modem
	circuit share the same serial I/O port, and the first connection has priority
	over the second. (ie: If the modem is connected, the local system manager
	terminal cannot access the system)

	SYSTEM MANAGER TERMINAL/PRINTER
	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
	The system manager terminal is used to enter and change information within
	the system database. The system manager terminal is a Wyse 50 terminal
	used by ASPEN to report administrative information. The printer is an
	optional device used to produce a hard copy of output produced.

	DISK COMMUNICATOR
	~~~~~~~~~~~~~~~~~
	The Disk Communicator provides connections between the file card and the
	drives. If more than four drives are installed, a multiplexer (MUX)
	communicator board selects the four drives in the first cabinet and the
	four drives in the second cabinet.

	WINCHESTER DRIVES
	~~~~~~~~~~~~~~~~~
	These drives store system software, mailboxes, voice prompts, messages, and
	greetings. Octel Communications uses its own formatting technique and disk
	controllers. Standard drives are formatted for a capacity of 60, 90, or 190
	megabytes. The drives (0-1) contains all software and voice prompts needed to
	operate the system.

	POWER SUPPLY
	~~~~~~~~~~~~
	The ASPEN power supply is located in the center of the system housed in a
	single case, which actually contains two supplies. One supplies +5/-5 and
	+12/-12 volts to the boards, while the other provides +12 volts for the
	drive motors. There are no replaceable fuses in an ASPEN system. If the
	current draw or input voltage reaches a defined level, the power supply
	turns itself off automatically, necessitating a reset of a single circuit
	breaker.

	SPECIAL INTEGRATION DEVICES
	~~~~~~~~~~~~~~~~~~~~~~~~~~~
	The Woobox and the PBX Integration Device (PID) provide integration to
	different PBXs. These devices stand alone and are peripheral to the ASPEN
	chassis. ASPEN integrates with the AT&T Systems 75 and 85 using an A/PID.


	THE CALL PROCESS
	-=-=-=-=-=-=-=-=-

	The following is a general description of a typical call through ASPEN and
	the boards involved in the process:

	o Subscriber dials the ASPEN pilot number, either directly or is
	forwarded to APSEN by the PBX.
	o A TIC senses ring voltage and raises a flag to indicate an
	incoming call.
	o The scanner board polls all TICs for change of status using the
	polling/status control bus and detects the raised flag.
	o The scanner board commands the TIC to answer the call (go off-hook)
	by sending a command on the polling/status control bus
	o The scanner board alerts the CPU board of an incoming call
	by sending port identification information over the serial
	I/O port.
	o The CPU commands the corresponding port on the line board to
	begin listening for DTMF tones, silence, or dial tone. The line
	board informs the CPU of call process through the control bus.
	o The CPU commands the file card to send digitized voice prompts,
	"Hello, this is ASPEN...", over the data bus to the proper
	port on the line board. The line board converts these prompts
	to analog and passes them to the TIC
	o The caller dials the desired destination number through DTMF.
	The line board interprets these and passes the information
	to the CPU.
	o The CPU instructs the file card to find the user record of the called
	party, check for the location of the personal greeting, retrieve the
	greeting, and pass it to the line board. The line board converts the
	greeting to analog and passes it to the TIC
	o After the greeting plays, the caller records a message. The line board
	digitizes speech and stores it in buffers of six seconds each (20KB)
	o Using the control bus, the CPU sets a data bus transfer between the line
	board and file card. The file card decides which drive has the most free
	space and where to wire this message. The six seconds of digitized speech
	is transferred from the line board to the file card. The file card then
	writes the six second segment to the disk. This process continues until
	the caller finishes the message.
	o The file card updates the user record of the called party by placing 11
	bytes in the mailbox. The 11 bytes define the message location on the
	disk, sender, time, priority, and length.
	o The caller terminates the call by pressing the one key
	o The line board informs the CPU through the control bus that the call has
	been terminated
	o The CPU commands the file card to send the good-bye prompt to the line
	board which converts it to analog and passes it to the TIC
	o The CPU commands the scanner board to disconnect that port
	o The scanner board commands the TIC to hang-up (go on-hook) through the
	polling/status control bus
	o The scanner board continues polling all TIC ports for change of status


	CONCLUSION
	-=-=-=-=-=-

	I hope this information provides you with a more solid background of
	how the ASPEN system functions. The basic aspects of this system can also
	apply to other similar PBX interfaces. Although the above information
	cannot really be used for anything illegal, I have provided it, for
	informational purposes, to those who "feed" on telco-bits as I do.

	Greets go out to: Ludichrist, Squarewave, the ID-Crew,
	#hack, and #phreak

	You can reach me at nerve@netaxs.com, but please use my following
	public key to encrypt all mail before sending it. Thank you...


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