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Personal Communications Library For BASIC (PCL4B) USERS MANUAL Version 4.2 Sept 1, 1994 This software is provided as-is. There are no warranties, expressed or implied. Copyright (C) 1994 All rights reserved MarshallSoft Computing, Inc. Post Office Box 4543 Huntsville AL 35815 Voice 205-881-4630 FAX 205|881|4630 BBS 205-880-9748 _______ ____|__ | (R) --+ | +------------------- | ____|__ | Association of | | |_| Shareware |__| o | Professionals --+--+ | +--------------------- |___|___| MEMBER PCL4B Users Manual Page 1 C O N T E N T S Chapter Page 1.0 Introduction................................................3 1.1 User Support............................................4 1.2 ASP Ombudsman...........................................4 1.3 A Typical Application...................................5 1.4 Installation............................................6 2.0 Library Organization........................................7 2.1 Configuration...........................................7 2.2 Initialization & Termination............................7 2.3 Modem Control & Status..................................8 2.4 Serial I/O..............................................8 2.5 Error Detection.........................................9 2.6 General Support.........................................9 3.0 Library Overview...........................................10 3.1 Using the Library......................................10 3.2 Example Programs.......................................10 3.3 Door Programs..........................................11 3.4 BBS Programs...........................................11 3.5 Compiling & Linking....................................11 4.0 Talking to Your Modem......................................12 4.1 Modem Standards........................................12 4.2 Flow Control...........................................13 4.3 MODEM_IO functions.....................................14 4.3.1 ModemEcho........................................14 4.3.2 ModemSendTo......................................14 4.3.3 ModemWaitFor.....................................14 4.3.4 ModemQuiet.......................................14 4.3.5 ModemCmdState....................................14 4.3.6 ModemHangup......................................14 4.4 Modem Initialization...................................15 5.0 Problems...................................................16 6.0 Serial Communications......................................17 6.1 Communications Basics..................................17 6.2 Standard Port Addresses................................18 6.3 Running 3 or 4 Ports Concurrently......................19 6.4 Using Multiport Cards..................................20 6.4.1 The DigiBoard....................................20 6.4.2 The BOCA Board...................................20 6.5 Transmitter Interrupts.................................21 6.6 RS232 Signals..........................................22 6.7 National INS8250, INS16450, and INS16550 UARTs.........23 6.8 Register Summary.......................................24 7.0 Terminal Emulator Program (TERM)...........................26 8.0 Legal Issues...............................................27 8.1 Registration...........................................27 8.2 License................................................28 8.3 Warranty...............................................29 9.0 Summary....................................................30 9.1 Revision History.......................................30 9.2 Function Summary.......................................30 9.3 Further Reading........................................30 10.0 Other MarshallSoft Computing Products .....................30 PCL4B Users Manual Page 2 1.0 Introduction The Personal Communications Library for the C Language (PCL4B) is an asynchronous communications library designed for experienced software developers programming in C. Visual BASIC for DOS (VBDOS) is supported. The PCL features: o 38 communications and support functions. o Supports the high performance 16550 UART. o Supports the PC/4 and PC/8 DigiBoard. o Supports the BOCA BB1004, BB1008, and BB2016 boards. o Supports hardware (RTS/CTS) flow control. o Interrupt driven receiver & (optionally) transmitter. o Supports 300 baud to 115,200 baud. o Supports COM1 through COM8 (through COM16 with multiport boards) o Adjustable receive queues from 8 bytes to 32 KB. o Control-BREAK error exit. o 18 communications error conditions trapped. o Allows 4 ports to run concurrently (more with multiport boards). o Complete modem control & status. o Written in assembly language for small size & high speed. o Terminal program featuring ASCII (with XON/XOFF), XMODEM, YMODEM, & YMODEM-G. Why should you buy PCL4B ? Several good reasons are: COMPLETE - PCL4B is complete since it provides absolute control of the serial ports (including the high performance INS16550). COMPACT - PCL4B is very compact at less than 8 KB. Your application doesn't carry a lot of excess code. FAST - PCL4B is fast since it will run at 38400 baud on even slow 8088 PCs (4.77 MHZ) and at 115200 baud on most everything else. SUPPORT - If you get stuck, you talk to the programmer that wrote the code, not a person hired to answer the phone. BBS - A BBS is available (2400 to 9600 baud, N81) in order to provide immediate support as necessary. NEWSLETTER - A one year subscription to the MSC newsletter discusses communications problems and solutions (published quarterly). PRICE - You get PCL4B for a very reasonable price! UPGRADES - Once you buy PCL4B, you can always update to the most recent version very inexpensively ($15 plus shipping). PCL4B Users Manual Page 3 1.1 User Support We want you to be successful in developing your applications using PCL4B! We depend on our customers to let us know what they need in a communications library. This means we are committed to providing the best communications library that we can. If you have any suggestions or comments, please let us know. If you are having a problem using PCL4B, call us at 205-881-4630 between 1:30 PM and 9:30 PM (CST) Monday through Saturday, or FAX us at the same telephone number at any time (24 hours). You can also call at other times and leave a message, and call back later for a reply. However, we can only answer questions with respect to using the PCL4B library. We cannot help you program your application, but we'll be glad to discuss it with you. You may also call our User Support BBS (2400 to 9600 baud, no parity, 8 data bits, 1 stop bit) at 205-880-9748 and leave a message (address it to the SYSOP). We will usually have a reply ready for you within 24 hours. The BBS is available 24 hours per day. All files are in standard ZIP format. The BBS will contain the latest shareware version of all MarshallSoft Computing products as well as related files such as: BUGS.ZIP - Bug report. NEWS.ZIP | Latest news regarding our products. PRODUCTS.ZIP - List of all shareware products. The MarshallSoft Computing, Inc. newsletter "Comm Talk" is published quarterly. It discusses various communications problems and solutions using PCL4B as well as related information. Registered users receive a one year complimentary subscription when first registering and for each update purchased. Of course, you can always write to us. You should receive a reply within a week or so. 1.2 ASP Ombudsman MarshallSoft Computing, Inc. is a member of the Association of Shareware Professionals (ASP). ASP wants to make sure that the shareware principle works for you. If you are unable to resolve a shareware-related problem with an ASP member by contacting the member directly, ASP may be able to help. The ASP Ombudsman can help you resolve a dispute or problem with an ASP member, but does not provide technical support for members' products. Please write to the ASP Ombudsman at 545 Grover Road, Muskegon, MI USA 49442-9427, Fax 616-788-2765, or send a CompuServe message via CompuServe Mail to ASP Ombudsman 70007,3536. PCL4B Users Manual Page 4 1.3 A Typical Application The following code is the complete MINIMAL.BAS program. It talks on COM1 at 2400 baud. The code is as follows: +--------------------------------------------------------+ | | | ' | | ' MINIMAL.BAS: Talk on COM1 @ 2400 baud | | ' | | '$INCLUDE: 'LCL4B.INC' | | 'Reset port | | S$ = STRING$(256+16,0) | | BufSeg = 1 + SSEG(S$) + (SADD(S$) \ 16) | | CODE = SioRxBuf(COM1, BufSeg, Size256) | | CODE = SioReset(COM1, Baud2400) | | DO | | 'Anything incoming ? | | CODE = SioGetc(COM1, 1) | | IF CODE > -1 THEN CODE = SioCrtWrite(CODE) | | 'Anything to send ? | | IF SioKeyPress() <> 0 THEN | | ANYKEY = SioKeyRead() | | 'Exit if user types Escape (ESC=27) | | IF ANYKEY = 27 THEN EXIT DO | | CODE = SioPutc(COM1,ANYKEY) | | END IF | | LOOP | | CODE = SioDone(COM1) | | END | | | +--------------------------------------------------------+ The above code can be compiled by using either the command line compiler by typing MINIMAL_.BAT or BC MINIMAL.BAS; LINK MINIMAL,MINIMAL,,VBDRT10.LIB LCL4B_BC.LIB; or by using the project file MINIMAL.MAK from within the integrated Visual Basic environment. Be sure to start by loading the LCL4B quick library by typing VBDOS /LLCL4B.QLB when starting VBDOS. PCL4B Users Manual Page 5 1.4 Installation (1) Before installation of PCL4B, your Visual BASIC compiler should already be installed on your system and tested. Each test program can be compiled either from within the integrated development environment or by using a command file. For example, the TERM application can be compiled either by using TERM.MAK from the IDE or by typing TERM_ which invlokes the command line compiler. (2) Make a backup copy of your distribution disk. Put your original distribution disk in a safe place. (3) Create a work directory on your work disk (normally your harddisk). For example, to create a work directory named PCL4B, we first log onto the work disk and then type: MKDIR PCL4B (4) Copy all the files from your backup copy of the distribution disk to your work directory. For example, to copy from the A: drive to your work directory, we type: CD PCL4B COPY A:*.* (5) Compile MINIMAL.BAS. To use the integrated development environment (IDE), first type: VBDOS /LPCL4B then choose the project file MINIMAL.MAK from the FILES menu. To compile using the standalone BASIC compiler, type: MINIMAL_ (6) Also compile SIMPLE, LOGIN, and TERM. All have project files *.MAK and command files *_.BAT. (7) The recommended way to test SIMPLE is to run it on two computers connected by a null modem cable. Whatever is typed on one computer should be displayed on the other. SIMPLE can also be tested by connecting your port to a modem. (8) Repeat the above with the LOGIN and TERM example program. TERM can be used to call up a BBS such as our customer support BBS and down load files. PCL4B Users Manual Page 6 2.0 Library Organization The PCL4B library is organized into six categories of functions. Refer to the PCL Reference Manual (PCL4B.REF) for details on individual functions. 2.1 Configuration There are three functions in the configuration category. SioPorts sets the number of PC and DigiBoard (or BOCA board) ports. SioUART is used to change the UART base address for a communications port to a non-standard address, while SioIRQ is used to assign a nonstandard IRQ line to a port. (See the chapter IBM Communications Ports for more details on standard UART addresses and IRQ lines). The configuration functions SioPorts, SioUART and SioIRQ must be called before calling any other library functions. Be very careful in using these functions. Remember that your serial hardware must support the UART and IRQ that you specify. Always test any new configuration immediately. SioPorts - Sets number of PC and DigiBoard (or BOCA board) ports. SioUART | Sets the UART base address. SioIRQ - Assigns an IRQ line to a port. THE IRQ GOLDEN RULE: You may open (via SioReset) only one port per IRQ (except for the DigiBoard and BOCA board). 2.2 Initialization & Termination There are eight functions in the initialization and termination category. Together, SioParms, SioFIFO, SioRxBuf, SioTxBuf, and SioReset initialize your serial communications system. Your application must call SioParms and SioRxBuf before calling SioReset, and SioReset must be called before any serial I/O processing can be done. After initialization, SioParms and SioBaud can be called again to change the communications parameters without resetting the serial port. SioFlow can be called to enable hardware flow control. Before exiting from your application, SioDone must be called. Failure to call SioDone can crash your system later. SioRxBuf - Sets up receive buffer. SioTxBuf | Sets up transmitter buffer. SioFIFO | Sets the interrupt level for the INS16550. SioParms | Sets parity, stop bits, and word length. SioReset | Initialize a serial port for processing. SioDone | Terminates further serial processing. SioBaud | Sets the baud rate of the selected port. SioFlow - Enables / disables flow control. PCL4B Users Manual Page 7 2.3 Modem Control & Status There are nine functions in the modem control and status category which provide your application with complete control over the status and control bits of your modem. There are two modem control bits, "Data Terminal Ready" (DTR) and "Request To Send" (RTS). These bits can be read, set, or cleared by SioDTR and SioRTS. There are four modem status bits, "Data Set Ready" (DSR), "Clear To Send" (CTS), "Ring Indicator" (RI), and "Data Carrier Detect" (DCD). SioModem can read any of the modem status bits. SioDSR, SioCTS, SioRI, and SioDCD can only read their respective modem status bit. SioGetDiv reads the baud rate divisor register so the baud rate can be determined. Refer to the chapter entitled "RS232 Signals" for a discussion of each of the control and status bits. SioDTR - Set, clear, or read the Data Terminal Ready (DTR) bit. SioRTS | Sets, clears, or reads the Request to Send (RTS) line. SioModem | Reads the modem status register. SioDSR | Reads the Data Set Ready (DSR) modem status bit. SioCTS | Reads the Clear to Send (CTS) modem status bit SioDCD | Reads the Data Carrier Detect (DCD) modem status bit. SioRI | Reads the Ring Indicator (RI) modem status bit. SioRead | Reads the contents of the 7 UART registers. SioGetDiv - Reads the baud rate divisor registers. 2.4 Serial I/O There are eight library functions in the serial I/O category. Together, these functions give the programmer complete control over serial I/O. Higher level functions such as protocols and smart modem communications can be completely implemented in terms of these functions. Refer to the example code. SioGetc and SioPutc perform all the actual serial I/O. SioUnGetc "ungets" the last serial byte read. SioRxFlush clears the receive queue while SioTxFlush clears the transmit queue. SioLine can be used to test for UART errors. SioRxQue returns the number of bytes in the receive queue while SioTxQue returns the number of bytes in the transmit queue. SioGetc - Reads the next character from the serial line. SioPutc | Transmit a character over a serial line. SioUnGetc | "Un-gets" (puts back) a specified character. SioRxFlush | Flush (clears) the receive buffer. SioRxQue | Returns the number of characters in the RX queue. SioTxFlush | Flush (clears) the transmit buffer. SioTxQue | Returns the number of characters in the TX queue. SioLine - Reads the line status register. PCL4B Users Manual Page 8 2.5 Error Detection There are four functions in the error detection category. They are concerned with detecting or reporting communications errors. Use of these functions can make your application significantly more robust. SioBrkKey can be used as an "emergency" exit from your application. SioBrkSig can read or modify the UART break bit. This is useful for signalling the remote system that a fatal condition has occurred. SioLoopBack can be used to test the integrity of your UART. SioError displays a error message corresponding to an error code returned from a PCL4B function (every PCL4B function returns a code). SioBrkKey - Returns non-zero if the Control-BREAK key was pressed SioBrkSig | Asserts, cancels, or detects the RS232 BREAK signal. SioError - Displays error in text. SioLoopBack - Performs a UART loopback test. 2.6 General Support There are six functions in the general support category. Strictly speaking, they are not communications functions but are provided in the PCL4B library because they are not always available (especially in some older compiler run-time libraries). At any rate, they take up a very small amount of additional memory. Registered users can also remove these functions from the library if needed. SioInfo - Returns the library version & memory model. SioCrtWrite | Use BIOS to write character to the screen. SioDelay | Delays one or more tics (18.2 tics per second). SioKeyPress | Use BIOS to detect if keyboard key has been pressed. SioKeyRead | Use BIOS to reads the keyboard. SioTimer - Returns the number of system clock tics. PCL4B Users Manual Page 9 3.0 Library Organization 3.1 Using the Library The PCL4B has been tested on a Tandy 1000 (4.77 MHZ 8088 IBM PC clone), a Tandy 3000 (80286 IBM AT clone), a Tandy 1400LT (IBM XT clone), a Gateway 2000 386 (25 MHZ 80386-DX), and a Gateway 2000 486 (66MHZ 80486-DX). PCL4B has also been tested under MSDOS 2.11, 3.2, 3.3, 4.01, 5.0, 6.0 and 6.2. Please examine the PCL4B.BI file. Note that COM1 is defined as port zero, not port one. The user must assume the responsibilty for passing the correct information when calling PCL4B functions. If there are any conflicts between PCL4B definitions and those in other libraries, the PCL4B definitions can be changed in the PCL4B.BI file and any file that uses the definition. There is no change necessary for the library code itself. The PCL4B libraries contain no references to any runtime libraries. Only BIOS and MSDOS functions are called. 3.2 Example Programs Four communications programs are provided as a demonstration of the PCL4B library - MINIMAL, SIMPLE, LOGIN, and TERM. MINIMAL is the "minimal" communications program. All the essential elements of a communication proggram are present. The only way to test MINIMAL is with two computers connected together with a null modem cable. Whatever is typed on one machine is displayed on the other. SIMPLE is provided as a slightly more involved example of communications programming using PCL4B. It (unlike MINIMAL) can be used to talk to a modem since is sets DTR and RTS. Test SIMPLE like MINIMAL or hook it to a modem and issue AT commands. LOGIN is a program designed to call up a BBS and log on. It serves as an example of the use of the MODEM_IO.BAS functions. To test LOGIN, you need a AT command set compatible modem and a BBS to call up. TERM is an example communications program capable of calling up BBSs and downloading or uploading files using XMODEM and YMODEM protocols. The TERM program is a more capable terminal emulator than SIMPLE. It features modem initialization, hardware flow control, and file transfer using ASCII, XMODEM, YMODEM, and YMODEM-G communications protocols. TERM can be used to call up any bulletin board system, including the MarshallSoft Computing BBS. Start TERM by typing TERM followed by the port and baud rate. For example: TERM 4 2400 Refer to the chapter "Terminal Emulator Program" for a complete discussion of TERM. Other example programs may be included on your distribution disk. PCL4B Users Manual Page 10 3.3 Door Programs In order to write a door program which "takes over" a serial port without resetting the port or changing the baud rate, call SioReset() with NORESET as the second argument rather than the baud rate. Call SioGetDiv() to get the baud rate divisor if the baud rate must be determined. Be sure to call SioDone() before returning to the invoking program. 3.4 BBS Programs If you are designing a BBS program, consider using 16550 UARTS. You should also choose a multiport card such as the DigiBoard or BOCA board if you wish to run more than 4 ports simultaneously. If you wish to do simultaneous XMODEM or YMODEM transfers, then you need to get the state driven Personal Protocol Library. Refer to the section on other MarshallSoft Computing products for more information. 3.5 Compiling and Linking Registered users may wish to assemble PCL4B.ASM. To assemble using the Microsoft assembler: MASM PCL4B /DLARGE_MODEL /MX; To enable transmitter interrupts, add "/DSET_TBE" to the MASM command line above. To make PCL4B.OBJ into a library file for use with the stand alone compiler BC, type: DEL PCL4B_BC.LIB LIB PCL4B_BC.LIB+PCL4B,PCL4B.MAP; In order to make a quick library so that you may run from the IDE, type: M_PCL_QL Remember to load PCL4B.QLB when starting VBDOS with: VBDOS /LPCL4B PCL4B Users Manual Page 11 4.0 Talking to Your Modem A modem is used to extend the distance over which you may communicate. Without a modem, your RS232 cable is limited to a maximum of approximately 50 feet. But with a modem, you can communicate literally around the world. Also refer to section on "MODEM_IO functions" for details on MODEM_IO functions. These functions faciliate communications with modems. 4.1 Modem Standards Two modems can communicate over a telephone line only if they are both using the same signaling frequencies and modulation, which are determined by the the modem standards used. Modem standards can be divided into three sets: (1) speed, (2) data compression used, and (3) error control. The Bell standards (103 & 212A) are those of AT&T. The CCITT (The International Consultative Committee for Telephone and Telegraph) standards are designated as "V. ". Speed Bell 103 - 300 baud Bell 212A | 1200 baud V.21 | 300 baud V.22bis | 1200 & 2400 baud V.32 | 4800 & 9600 baud V.32bis - 4800, 7200, 9600, 12000, and 14400 baud Data Compression MNP 5 - Microcom Networking Protocol (proprietary). V.42bis - International data compression standard. Error Control MNP 2,3,4 - Three level error correction (public domain). V.42 - International error correction standard. Most of the newer high speed modems use several of the above standards. However, not all combinations of modem makes communicate easily with each other, especially at high speeds (9600 and up). PCL4B Users Manual Page 12 4.2 Flow Control With modems using data compression, the modem to modem connection will run at various speeds depending on the quality of the line. The computer to modem connection will be at a fixed baud rate. Therefore, a protocol (flow control) is necessary to synchronize the data flow between and modems and the computer to modem connection. Refer to your modem manual for information on flow control protocols supported. Two flow control protocols are used by most all modems which require flow control. Software flow control is called "XON/XOFF" (other software flow control character pairs are defined but operate the same as XON/XOFF) and hardware flow control is called "RTS/CTS". Most modems which require flow control enable hardware flow control by default. In XON/XOFF (software) flow control, the computer suspends transmitting data if it receives a XOFF character (13 hex) from the modem, and continues transmitting when it receives a XON character (11 hex). Similiarly, the computer can signal the modem not to send any more data by transmitting a XOFF to it, and can tell the modem to continue transmission be sending a XON. In RTS/CTS (hardware) flow control, the RTS line is used by the computer to signal the modem , while the CTS line is used by the modem to signal the computer. The RTS line is set OFF by the computer to tell the modem to suspend transmission, and set to ON to tell the modem to continue transmission. The CTS line is set to OFF by the modem to tell the computer to stop transmitting, and set to ON to tell the computer to continue transmitting. Given the choice, always choose hardware flow control over software flow control so that all data transmission is transparent. If hardware flow control is not the default (which it almost always is), you should modify your modem initialization string to turn hardware flow control on. You will not need to use flow control when exchanging data between computers connected by a null modem cable (no modems) as long as each packet is acknowledged (as in XMODEM and YMODEM) and the buffer size is at least as large as the packet size. PCL4B Users Manual Page 13 4.3 MODEM_IO Functions The file MODEM_IO.C contains several functions that ease communicating with your modem. Look in the TERM.C code for examples of their use. Registered users can also see examples in the script interpreter SI.C. ModemSendTo : Sends string (including control chars) to the modem. ModemWaitFor : Waits for a particular string from the modem, passing all else through. ModemQuiet : Waits for continuous quiet of specified duration. ModemHangup : Hangs up the modem. ModemCmdState : Goes into the modem's command state. ModemEcho : Echos all serial incoming bytes to the display. 4.3.1 ModemEcho Syntax: FUNCTION ModemEcho(Port,Echo) The ModemEcho functions copies bytes from serial input to the display for 'Echo' timer tics (18.2 tics per second). 4.3.2 ModemSendTo Syntax: FUNCTION ModemSendTo(Port,Pace,Text$) The ModemSendTo function sends the characters in the string 'Text$' to serial output. There is a delay of 'Pace' timer tics between characters. 4.3.3 ModemWaitFor Syntax: FUNCTION ModemWaitFor(Port,Tics,CaseFlag,Text$) The ModemWaitFor function waits for characters from serial input that match the string 'Text$'. A total of 'Tics' timer tics are allowed before timing out and returning FALSE. If the 'CaseFlag' is TRUE, then the string comparison is case sensitive. 4.3.4 ModemQuiet Syntax: FUNCTION ModemQuiet(Port,Tics) The ModemQuiet function waits for continuous quiet of 'Tics' timer tics before returning. Any incoming character is echoed to the display and the wait begins anew. 4.3.5 ModemCmdState Syntax: FUNCTION ModemCmdState(Port) The ModemCmdState sets the modem to command state, provided that your modem uses a guard time of 1 second and the standard 3 characters "+-+". Refer to you Modem manual for information on setting command state. 4.3.6 ModemHangup Syntax: FUNCTION ModemHangup(Port) The ModemHangup command hangs up the modem by first calling ModemCmdState and then sending the string "ATH0". PCL4B Users Manual Page 14 4.4 Modem Initialization If your application uses a modem (as opposed to using a null modem cable), then you should always send an initialization string to your modem if it is a programmable modem such as those made by Hayes. Communication programs such as PROCOMM and TELIX always send such a string automatically as soon as they start up. The particular initialization string depends on the make of your modem. For Hayes and Hayes AT command set compatible modems, the following string (followed by a carriage return) may work: AT E1 S7=60 S11=60 V1 X1 Q0 S0=0 Refer to your Modem User's Guide for a full discussion of these commands. A brief description is as follows: AT Modem attention command. E1 Modem will echo what you send to it. S7=60 Wait 60 seconds for carrier and/or dial tone. S11=60 Use 60 milliseconds for tone dialing duration & spacing. V1 Display result code as words (not numbers). X1 Use the extended result message (CONNECT XXXX) set. Q0 Modem returns result codes. S0=0 Do not answer RING. If your application will answer incoming calls, then set the S0 register to the ring on which to automatically answer. If you send the above codes by using SioPutc (as opposed to typing them from the keyboard), then follow these guidelines: (1) Send an initial carriage return before the initialization string. (2) Pause at least two tics (18 tics to the second) after each character sent as your modem needs the time to perform its own internal processing. Pause a little longer if your modem is not accepting your initialization string. (3) Pause one and a half seconds after sending any initialization command such as ATZ or AT&F since your modem must do quite a bit of processing. If you experience any problems in initializing your Hayes modem, you should first reset it to factory settings by sending: AT&F Your modem may require additional initialization than presented above. Refer to your modem manual for details. It you have a comm program such as ProComm or Telix that is known to initialize your modem correctly, then you may wish to use the same initialization string. Refer to the TERM program (functions ModemSendTo and ModemWaitFor in the file MODEM_IO.C) for an example of sending an initialization string to a Hayes compatible modem. PCL4B Users Manual Page 15 5.0 Problems If you cannot get your application to run properly, first compile and run the terminal emulator program TERM provided on your distribution disk. If you are using a null modem cable or a non-programmable modem, be sure to set the HAYES constant to 0 in the source code (#define AT_COMMAND_SET 0). If you are using a Hayes compatible modem, set the AT_COMMAND_SET constant to 1. If you are using a programmable modem which is not Hayes compatible, then you must modify the initialization string for your particular modem. If your application does not run but TERM runs correctly, then you have most likely made a programming mistake in your application. MarshallSoft Computing cannot debug your application, especially over the telephone! However, consider each of the following when searching for an error in your application. 1. Have you included the file PCL4B.BI in your application ? 2. Did you link with the correct PCL4B library ? This is the most probable cause if your application 'hangs' as soon as it starts and you must reboot. The function SioInfo('M') returns the the model ID under which the library was assembled. 3. Is your receive buffer large enough ? If you are using 1K data blocks in YMODEM, then your receive buffer should be at least 1K (2K if baud rates above 19200 are to be used). 4. Have you selected too high a baud rate (if you are using a slow PC) ? If only one COM port is being run, you should be able to run at 38400 baud on 8088 machines and 115200 on most 286 and all 386 and 486 machines. 5. Are you attempting to run another application in the background ? Try running without any other programs running in the background (unload all TSR programs). 6. If you are running two COM ports simultaneously, are you using separate receive buffers ? (you should). 7. Did SioReset return a zero value ? If not, then you must call SioReset again. See TERM.C for an example. 8. Did you send the proper initialization string to your modem ? Did you set DTR and RTS ? (you should). 9. Do you have more than one COM1 port, etc. For example, if you have a COM1 port on your motherboard, you cannot add another COM1 port or modem board that uses COM1 without first disabling the COM1 on the motherboard. 10. Your first comm port should be COM1. If you have a second port, it should be COM2, not COM3 or COM4. 11. Are you passing the proper segment of the receive (or transmit) buffer? See TERM.C for an example. PCL4B Users Manual Page 16 6.0 Serial Communications 6.1 Communications Basics The heart of serial communications is the UART (Universal Asynchronous Receiver Transmitter). The IBM PC/XT/AT and compatibles use the INS8250, INS16450, or the INS16550 UART. The purpose of the UART is: (1) To convert bytes from the CPU (Central Processing Unit), into a serial format by adding the necessary start, stop, and parity bits to each byte before transmission, and to then transmit each bit at the correct baud rate. (2) To convert the incoming stream (at a specified baud rate) of serial bits into bytes by removing the start, stop, and parity bits before being made available to the CPU. The UART is part of the serial interface circuitry which allows the CPU to send and receive signals over the RS232 lines. This can be diagrammed as follows: Serial Interface +-------------------+ | | +-----+ Data Bus | +------+ | RS232 Signals | CPU +------------+ | UART | +----------------* +-----+ | +------+ | | | +-------------------+ The INS8250/16450/16550 UART is capable of operating in one of two modes, "polled" and "interrupt driven". The serial communications functions in the BIOS uses the polled method. In this approach, the CPU is typically in a loop asking the UART over and over again if it has a byte ready. If it does, the polling code returns the byte. But, if the next byte comes in before the polling code is executing again, then that byte is lost. In the interrupt driven approach (used by PCL4B for incoming data), when a byte is received by the UART, an interrupt is generated and the "Interrupt Service Routine" (ISR) is executed immediately, suspending temporarily whatever else is executing. The ISR then moves the byte to a buffer so that your application program can later read it. Refer to the sections entitled "RS232 Signals" and "National INS8250 UART" for further information on these topics. PCL4B Users Manual Page 17 6.2 Standard Port Addresses There are a few things to know about how serial communications ports are used by IBM PC/XT/AT and compatible computers. The standard IBM PC/XT/AT configuration values are as follows: Port Reg. IRQ Vector COM1 3F8H 4 12 COM2 2F8H 3 11 COM3 3E8H 4 12 COM4 2E8H 3 11 (Refer to your DigiBoard manual for DigiBoard addresses, or your BOCA board manual for BOCA port addresses). PCL4B assumes the above values. If necessary, the UART base address can be changed by SioUART, and IRQ lines can be re-assigned by SioIRQ. Remember that each port to be used concurrently must have a unique IRQ line. Refer to the PCL4B Reference Manual for specific details. When installing new communications cards, the following guidelines are recommended: (1) Be sure to read the documentation for the hardware you are installing. Pay special attention to UART base addresses and IRQ lines, particularly if trying to set up a non-standard configuration. (2) If you have a choice in base addresses and IRQ lines, always choose standard values as defined above. (3) The first port should be COM1, the second COM2, etc. Do NOT skip over any port. (4) Use SioUART to zero all unused ports (for example, call SioUART(COM4,0) if there is no COM4 port installed). (5) Be carefull not to configure two ports for the same address. This is easier to do than you may believe. (6) Choose an external modem over an internal one. It is much easier to debug problems with an external modem than an internal one. (7) Select hardware flow control (RTS/CTS) if flow control is required and hardware flow control is not the default. (8) Always test your port as soon as it is installed. Try several programs that use the communications ports. PCL4B Users Manual Page 18 6.3 Running 3 or 4 Ports Concurrently PCL4B supports up to 4 serial ports running concurrently (more if you have a DigiBoard or BOCA board). One free interrupt for each port is required. Refer to the next section if you have a DigiBoard or BOCA board. Interrupts IRQ4 and IRQ3 are dedicated to the communications ports in a standard IBM PC/XT/AT configuration. IRQ4 is shared between COM1 and COM3 while IRQ3 is shared between COM2 and COM4. This means that you can run two ports simultaneously provided that they don't share an interrupt. Suppose that you wish to run 3 ports simultaneously. To begin, you must have 3 serial UARTs installed on your computer. Assume, for purposes of this discussion, that COM1 is installed on your motherboard, and that you have purchased a new 2 port serial communications board. You should be able to configure the first serial board port as COM2, which uses IRQ3. Refer to the manual that came with your serial board. In order to run the third serial port concurrently with the first two, an unused interrupt must be found. If your serial card can use only IRQ3 and IRQ4, then there is no way to run a third line since IRQ4 and IRQ3 are used for COM1 and COM2. However, many serial cards can use other IRQs, typically IRQ2 through IRQ5. Since IRQ5 is normally used for a second printer port, it is a good candidate for COM3. To use IRQ5 for the third serial port, first set your serial card to use IRQ5 for COM3 (refer to your serial card manual) and then add the following line to your applications code before calling SioReset: SioIRQ(COM3,IRQ5); Don't forget to disable any device that might use IRQ5, such as a second printer port or a music card. Unfortunately, there is no easy way to determine that you have no conflicts until you actually attempt to use the IRQ. If there are conflicts, your system will probably hang and you will have to reboot. To run a fourth serial port, another free IRQ must be found. On some systems, IRQ2 can be used. To use IRQ2 for the fourth serial port, first set your serial card to use IRQ2 for COM4 and then add: SioIRQ(COM4,IRQ2); To summarize, your serial card must be able to generate the correct IRQ, which is not already being used. Refer to the entry for the SioIRQ function in the PCL4B Reference Manual. PCL4B Users Manual Page 19 6.4 Using Multiport Cards The PCL4B library supports the dumb Digiboard (PC/4 & PC/8) and the dumb BOCA board (BB1004, BB1008, and BB2016). 6.4.1 The DigiBoard PCL4B supports the DigiBoard PC/4 and PC/8. In order to use the DigiBoard, you must configure PCL4B using the SioPorts(), SioUART(), and SioIRQ() functions. Your PCs ports must be partitioned into "standard" PC ports and dumb card ports. Remember that standard PC ports cannot share IRQs like the DigiBoard (or BOCA board) can. If you are using IRQ4 and IRQ3 for standard PC ports COM1 and COM2, then you cannot use either for DigiBoard ports (try IRQ5 or IRQ7). Suppose that COM1 through COM2 are standard PC ports (using IRQ4 and IRQ3) and you have installed a PC/8 DigiBoard that you wish to use for COM3 through COM10 using interrupt line IRQ5. You choose to use the recommended DigiBoard UART addresses starting at 0x100: DEFINT A-Z RC = SioPorts(8,COM1,&H140,DIGIBOARD) 'COM1 = 1st BOCA port Address = &H100 '1st BOCA UART address FOR Port=COM1 TO COM8 'look at each port RC = SioUART(Port,Address) 'set the UART address Address = Address + 8 'compute next address RC = SioIRQ(Port,IRQ5) 'set the BOCA IRQ NEXT I The DigiBoard uses 0x140 for the status address for odd interrupts and 0x141 for even interrupts. Digiboard may be contacted at 6400 Flying Cloud Drive, Eden Prairie, MN 55344. Telephone 612-943-9020 or FAX 612-943-5398. 6.4.2 The BOCA Board PCL4B supports the dumb BOCA board. As with the DigiBoard, you must configure PCL4B before using the BOCA board. For example, to configure the BOCA BB2016 to use COM1 to COM16, with base addresses starting at 0x100 and IRQ5: DEFINT A-Z RC = SioPorts(16,COM1,&H107,BOCABOARD) 'COM1 = 1st BOCA port Address = &H100 '1st BOCA UART address FOR Port=COM1 TO COM16 'look at each port RC = SioUART(Port,Address) 'set the UART address Address = Address + 8 'compute next address RC = SioIRQ(Port,IRQ5) 'set the BOCA IRQ NEXT I BOCA may be contacted at BOCA Research, Inc., 6413 Congress Avenue, Suite 130, Boca Raton, FL 33487. Phone 407-241-8088, FAX 407-997-0918. PCL4B Users Manual Page 20 6.5 Transmitter Interrupts Beginning with version 4.0 of PCL4B, transmitter interrupts are supported by the library. Separate libraries are provided, one with transmitter interrupts enabled and one without. When transmitter interrupts are NOT enabled, the following logic occurs everytime you call SioPutc(): 1. Wait for transmit buffer to become empty. The transmit buffer may not be empty if the previous transmit is not completed (the UART breaks down the byte & sends 1 bit at a time). 2. When the transmit buffer is empty, the byte from the SioPutc() call is loaded into the transmit buffer and control is returned to the caller. Note that you can not write to the UART any faster the the UART baud rate. When transmitter interrupts are enabled, the byte from SioPutc() is put into a previously prepared (by SioTxQue) transmitter queue. The interrupt service routine fetches bytes from this queue as soon as the previous byte has been sent. While you can now call SioPutc() faster than the baud rate, bytes are still transmitted at the given baud rate. The above sounds like transmitter interrupts are the way to go. Unfortunately, this is often NOT the case. Most applications will perform better if transmitter interrupts are NOT enabled. The reason is that transmitter interrupts double the amount of code in the time critical interrupt service routines. While the library is processing a transmitter interrupt (which can take a while), incoming bytes can not be processed. What this means is that a given machine can run at a higher baud rate without transmitter interrupts. This problem is compounded when running multiple ports simultaniously. However, there are a few application areas where transmitter interrupts are preferable. If your application will be transmitting blocks of data at fairly slow baud rates you might profit from enabling transmitter interrupts provided that there is something else for the processor to do (which is NOT the case in most protocols). Recall that PCL4B_S2.LIB (small), PCL4B_C2.LIB (compact), PCL4C_M2.LIB (medium), and PCL4C_L2.LIB (large) are the four memory model libraries with transmitter interrupts enabled. PCL4B Users Manual Page 21 6.6 RS-232 Signals RS-232 is the name of the serial data interface standard used to connect computers to modems. Most IBM compatible computers are built with at least one serial port and use either DB9 (9 pin) or DB25 (25 pin) connectors. A summary of these pins and their function follows. For more detailed information, refer to one of the many books dealing with RS-232 interfacing. Signal Ground Pin 7 (DB25), Pin 5 (DB9) The SG line is used as the common signal ground, and must always be connected. Transmit Data Pin 2 (DB25), Pin 3 (DB9) The TX line is used to carry data from the computer to the modem. Receive Data Pin 3 (DB25), Pin 2 (DB9) The RX line is used to carry data from the modem to the computer. Data Terminal Ready Pin 20 (DB25), Pin 4 (DB9) The DTR line is used by the computer to signal the modem that it is ready. DTR should be set high when talking to a modem. Data Set Ready Pin 6 (DB25), Pin 6 (DB9) The DSR line is used by the modem to signal the computer that it is ready. Request to Send Pin 4 (DB25), Pin 7 (DB9) The RTS line is used to "turn the line around" in half duplex modems, and for hardware flow control in most modems that require flow control. Clear to Send Pin 5 (DB25), Pin 8 (DB9) The CTS line is used to "turn the line around" in half duplex modems, and for hardware flow control in most modems that require flow control. Data Carrier Detect Pin 8 (DB25), Pin 1 (DB9) The DCD line is used by the modem to signal the computer that a data carrier signal is present. Ring Indicator Pin 22 (DB25), Pin 9 (DB9) The RI line is asserted when a 'ring' occurs. PCL4B Users Manual Page 22 6.7 National INS8250, INS16450, and INS16550 UARTs The Personal Communications Library is based on the standard National INS8250, INS16450, and INS16550 UARTs. The 8250 was the original UART used in the IBM PC, whereas the 16450 is a faster version found on most 286 & up machines. The 16550 contains a 16 byte FIFO to further reduce communications overhead. These UARTs consists of 8 register ports as follows: Offset R/W Register 0 R/W Receiver (read) / Transmitter (write) 1 R/W Interrupt Enable (read) 2 R Interrupt Identification 2 W FIFO control (INS16550 only) 3 R/W Data Format (Line Control) 4 R/W RS-232 (Modem) Control 5 R/W Line Status 6 R/W RS-232 (Modem) Status 7 R/W Not used. For the standard PC ports (not DigiBoard or BOCA ports), the UART registers are based at 3F8h (COM1), 2F8h (COM2), 3E8h (COM3), and 2E8h (COM4). COM1 and COM3 share interrupt request line IRQ4 while COM2 and COM4 share request line IRQ3. This means that COM1 and COM3 can't be used concurrently. Similarly for COM2 and COM4. If you have a DigiBoard (or BOCA board) installed, you will have 4 or more additional ports using INS16450 or INS16550 UARTS. The default DigiBoard and BOCA board ports are located at 100h, 108h, 110h, etc. Refer to your DigiBoard (or BOCA board) manual. Four sources of interrupts are possible with the 8250 and 16550: (1) receiver error or BREAK, (2) receiver data ready, (3) ready to transmit, and (4) RS232 input. These four sources of interrupts are summarized as follows: Source of Interrupt Action Required to Clear Receiver error or BREAK. Read Line Status register. Receiver data. Read data from data register. Transmitter Buffer Empty. Write to data register or read IID reg. RS232 input. Read Modem Status register. However, PCL4C only enables the receiving data interrupt. This means that interrupts can only be caused by incoming data. If you are not familiar with the INS8250, several good books are available. Refer to the Serial Communications chapter for recommendations. Although a knowledge of the 8250 is not necessary to use PCL4C, a general knowledge of the theory of asynchronous serial communications is recommended. PCL4B Users Manual Page 23 6.8 Register Summary REG 0 : Data Register Reading from the data register fetches the next input byte, once it is ready. Writing to the data register transmits the byte written to it over the serial line. REG 1 : Interrupt Enable The Interrupt Enable register enables each of four types of interrupts when the appropriate bit is set to a one. bit 3 : Enable interrupt on RS232 input. bit 2 : Enable interrupt on receiver error or break. bit 1 : Enable interrupt on transmitter buffer empty (TBE). bit 0 : Enable interrupt on received data (RxRDY). REG 2 : Interrupt Identification (IID) Reading the Interrupt Identification (read only) register once an interrupt has occurred identifies the interrupt as follows: Bit 2 Bit 1 Bit 0 Priority Interrupt 0 0 1 none none 1 1 0 0 (high) Serialization or break. 1 0 0 1 Received data. 0 1 0 2 Transmitter Buffer Empty. 0 0 0 3 (low) RS232 Input. In the INS16650, REG 2 (write only) is also the FIFO control register. Writing bits 6 & 7 will set the FIFO trigger level (number of bytes received before an interrupt is generated). Bit 7 Bit 6 Trigger Bit 7 Bit 6 Trigger 0 0 1 byte 1 0 8 bytes 0 1 4 bytes 1 1 14 bytes REG 3 : Line Control RS232 line parameters are selected by writing to this register. bit 7 : DLAB = 0 bit 6 : BREAK on(1), off(0). bits 5-3: Parity None(000),ODD(001),EVEN(011),MARK(101),SPACE(111) bit 2 : One stop bit(0), two stop bits(1). bits 1-0: Data bits = 5 (00), 6(01), 7(10), 8(11). When the Divisor Latch Access Bit (DLAB) is 1, registers 0 and 1 become the LS and MS bytes of the Baud Rate Divisor registers. Baud Divisor Baud Divisor Baud Divisor 300 0180 4800 0018 38400 0003 1200 0060 9600 000C 57600 0002 2400 0030 19200 0006 115200 0001 PCL4B Users Manual Page 24 REG 4 : Modem Control RTS, DTR, loopback testing, and General Purpose Outputs #1 and #2 are controlled by the Modem Control register as follows: bit 4 : Enable local loopback. bit 3 : Enable GP02. Necessary for 8250 interrupts. bit 2 : Enable GP01. bit 1 : Set / clear RTS. bit 0 : Set / clear DTR. REG 5 : Line Status Reading the Line Status register provides status information as follows (1 for TRUE, 0 for FALSE) : bit 6 : Transmitter Empty. bit 5 : Transmitter Buffer Empty (TBE). bit 4 : BREAK detect. bit 3 : Framing error. bit 2 : Parity error. bit 1 : Overrun error. bit 0 : Data Ready. REG 6 : Modem Status Reading the Modem Status register provides the following status information (1 for TRUE, 0 for FALSE) : bit 7 : DCD status. bit 6 : RI status. bit 5 : DSR status. bit 4 : CTS status. bit 3 : Delta DCD status. bit 2 : Delta RI status. bit 1 : Delta DSR status. bit 0 : Delta CTS status. The delta bits (bits 0 through 3) are set whenever one of the status bits (bits 4 through 7) changes (from 0 to 1 or from 1 to 0) since the last time that the Modem Status register was read. Reading the Modem Status register clear the delta bits. REG 7 : Scratch Register There is no function associated with register 7. It does not exist in early versions of the 8250. PCL4B Users Manual Page 25 7.0 Terminal Emulator Example Program TERM is an communications program suitable for calling bulletin board systems (BBS) and performing as a PC to PC file copy program. TERM itself is not part of the communications library, but rather it is provided as an example of a communications application using PCL4C. TERM can send a standard Hayes standard AT command set string to your modem. An initialization string is sent by TERM provided that the constant AT_COMMAND_SET in the file TERM.CFG is defined to be TRUE: #define AT_COMMAND_SET 1 Refer to the chapter "Modem Initialization" for a discussion of initialization strings. TERM also supports hardware flow control (RTS/CTS). Hardware flow control is observed provided that the constant RTS_CTS_CONTROL in the file TERM.CFG is defined to be TRUE: #define RTS_CTS_CONTROL 1 Refer to the chapter "Flow Control" for a discussion of hardware flow control. TERM can be configured to run script files (the script compiler / interpreter is part of the registration package only) by setting #define SCRIPTS 1 in TERM.CFG. Registered users can refer to SCRIPTS.DOC for information on scripts. TERM can also exchange files using ASCII (with XON/XOFF), XMODEM, YMODEM (batch capability), and YMODEM-G (streaming YMODEM used with error correcting modems) communications protocols. TERM can accept wildcards in the filename so that multiple files can be sent using YMODEM and YMODEM-G. The protocol timing can also be adjusted (this should not be necessary) by modifying the constants SHORT_WAIT and LONG_WAIT in the file TIMING.BI. TERM can also be used as a PC to PC transfer program using a null modem cable. In this case, AT_COMMAND_SET and RTS_CTS_CONTROL should be defined to be FALSE in the file TERM.CFG: #define AT_COMMAND_SET 0 #define RTS_CTS_CONTROL 0 Be advised that many null modem cables do NOT swap RTS and CTS, which is necessary for hardware flow control. This means that RTS_CTS_CONTROL should never be set to 1 (TRUE) when using a null modem cable unless you are absolutely sure that RTS and CTS are swapped. To start TERM, type TERM followed by the port (1 to 4) and the baud rate (300, 600, 1200, 2400, 4800, 9600, 19200, 38400, 57600, or 115200). For example, to start TERM at 2400 baud on port COM4: TERM 4 2400 The TERM program (but of course not the library itself) is placed in the public domain by MarshallSoft Computing, Inc., and can be used in any way desired by the user. PCL4B Users Manual Page 26 8.0 Legal Issues 8.1 Registration If you wish to register the PCL4C library, please send $65 plus $3 S&H ($6 outside of North America) to: MarshallSoft Computing, Inc. Post Office Box 4543 Huntsville AL 35815 Multiple copies are available: $45 for 3 to 9, $35 for 10 to 19, and $25 for 20 or more. A site license is also available for $495 (includes 5 sets of printed documentation). We pay shipping. We accept American Express (account number, expiration date, exact name on your card, and complete AmEx billing address required), checks in US dollars drawn on a US bank, purchase orders (POs) from recognized US schools and companies listed in Dun & Bradstreet, and COD (street address and phone number required) within the USA (plus a $3 COD charge). Print the file PCL4C.INV if an invoice is needed. You can also order PCL4C from The Public Software Library (PSL) with your MC, Visa, AmEx, or Discover card by calling 800-242-4PSL (from overseas: 713-524-6394) or by FAX at 713-524-6398 or by CompuServe at [71355,470]. THESE NUMBERS ARE FOR ORDERING ONLY. The product number for PCL4C is 10908. If you wish to update from an older version of PCL4C, send $15 plus $3 S&H ($6 outside of North America). Updates must be ordered directly from MarshallSoft Computing. The registered package includes: o Assembler source code for the library. o Laser printed Users and Reference Manuals. o Telephone, FAX, and BBS support for one year. o Utility program (EXAMPORT) which displays a detailed formatted report for any serial port. The next version will also contain: o Script compiler (BUILDER) creates script binaries from source. o Script interpreter (SI) executes script binaries. Print the file INVOICE.DOC if an invoice is needed. The registered user will receive the latest version of PCL4C shipped by two day priority mail (packet airmail overseas). A 5.25" diskette is provided unless a 3.5" diskette is requested. PCL4B Users Manual Page 27 8.2 License MarshallSoft Computing, Inc. grants the registered user of PCL4C the right to use one copy of the PCL4C library (in object form) on a single computer in the development of any software product (other than libraries such as PCL4C). The user may not use the library on more than one computer at the same time. The source code for the library (PCL4C.ASM) is copyrighted by MarshallSoft Computing and may not be released in whole or in part. Products developed using PCL4C can include the object form of the library and may be distributed without any royalty. 8.3 Warranty MARSHALLSOFT COMPUTING, INC. DISCLAIMS ALL WARRANTIES RELATING TO THIS SOFTWARE, WHETHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, AND ALL SUCH WARRANTIES ARE EXPRESSLY AND SPECIFICALLY DISCLAIMED. NEITHER MARSHALLSOFT COMPUTING, INC. NOR ANYONE ELSE WHO HAS BEEN INVOLVED IN THE CREATION, PRODUCTION, OR DELIVERY OF THIS SOFTWARE SHALL BE LIABLE FOR ANY INDIRECT, CONSEQUENTIAL, OR INCIDENTAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE SUCH SOFTWARE EVEN IF MARSHALLSOFT COMPUTING, INC. HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES OR CLAIMS. IN NO EVENT SHALL MARSHALLSOFT COMPUTING, INC.'S LIABILITY FOR ANY SUCH DAMAGES EVER EXCEED THE PRICE PAID FOR THE LICENSE TO USE THE SOFTWARE, REGARDLESS OF THE FORM OF THE CLAIM. THE PERSON USING THE SOFTWARE BEARS ALL RISK AS TO THE QUALITY AND PERFORMANCE OF THE SOFTWARE. Some states do not allow the exclusion of the limit of liability for consequential or incidental damages, so the above limitation may not apply to you. This agreement shall be governed by the laws of the State of Alabama and shall inure to the benefit of Marshallsoft Computing, Inc. and any successors, administrators, heirs and assigns. Any action or proceeding brought by either party against the other arising out of or related to this agreement shall be brought only in a STATE or FEDERAL COURT of competent jurisdiction located in Madison County, Alabama. The parties hereby consent to in personam jurisdiction of said courts. PCL4B Users Manual Page 28 9.0 Summary 9.1 Revision History Version 4.2 - 1 Sept 1994 This is the first release of the BASIC language version of our library. The assembler language library is identical to that used by C/C++, version 4.2. Only the high level code (BASIC) had to be re-coded from the original C/C++ version. 9.2 Function Summary Refer to the PCL4C Reference Manual (PCL4C.REF) for detailed information on the communications and support functions. A one line summary of each function follows: SioBaud Sets the baud rate of the selected port. SioBrkKey Returns non-zero if the Control-BREAK key was pressed. SioBrkSig Asserts, cancels, or detects BREAK signal. SioCrtWrite Write character to the screen. SioCTS Reads the Clear to Send (CTS) modem status bit. SioDCD Reads the Data Carrier Detect (DCD) modem status bit. SioDelay Delays one or more tics (18 tics per second). SioDone Terminates further serial processing. SioDSR Reads the Data Set Ready (DSR) modem status bit. SioDTR Set, clear, or read the Data Terminal Ready (DTR) bit. SioError Displays error in text. SioFIFO Sets the interrupt level for the INS16550. SioFlow Enables / disables hardware flow control. SioGetc Reads the next character from the serial line. SioGetDiv Reads the baud rate divisor registers. SioKeyPress Detects if keyboard has been pressed. SioKeyRead Reads the keyboard. SioInfo Returns library version number & memory model. SioIRQ Assigns an IRQ line to a port. SioLine Reads the line status register. SioLoopBack Performs a UART loopback test. SioModem Reads the modem status register. SioParms Sets parity, stop bits, and word length. SioPorts Sets # ports, 1st DigiBoard / BOCA port & status reg. SioPutc Transmit a character over a serial line. SioRead Reads any of 7 UART ports. SioReset Initialize a serial port for processing. SioRI Reads the Ring Indicator (RI) modem status bit. SioRTS Sets, clears, or reads the Request to Send (RTS) line. SioRxBuf Sets up receive buffer. SioRxFlush Flushes (clears) the receive buffer. SioRxQue Returns the number of characters in the receive queue. SioTimer Returns the number of system clock tics. SioTxBuf Sets up transmit buffer. SioTxFlush Flushes (clears) the transmit buffer. SioTxQue Returns the number of characters in the transmit queue. SioUART Sets the UART base address. SioUnGetc "Un-gets" (puts back) a specified character. PCL4B Users Manual Page 29 9.3 Further Reading The best way to learn about serial communications is to read a good book on the subject. Several good texts are available. Two that I like are: (1) C Programmers's Guide to Serial Communications by Joe Campbell (SAMS) (2) Mastering Serial Communications by Peter Gofton (SYBEX). 10.0 Other MarshallSoft Computing Products MarshallSoft Computing also makes communication libraries for C/C++ (PCL4C), Turbo Pascal (PCL4P), and for Windows/C/C++ (PCL4W). The function calls are identical, except for a few minor differences in the Windows version. PCL4B Users Manual Page 30