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Sydex 22DISK A CP/M-to-DOS Diskette Interchange Utility Sydex P.O. Box 5700 Eugene, OR 97405 Voice: (503) 683-6033 FAX: (503) 683-1622 22DISK A CP/M-to-DOS Diskette Interchange Utility Version 1.30, February, 1989 Copyright 1988, 1989, Sydex Sydex P.O. Box 5700 Eugene, OR 97405 Voice: (503) 683-6033 FAX: (503) 683-1622 All Rights Reserved NOTICE THIS IS NOT FREE SOFTWARE! If you paid a "public domain" vendor for this program, you paid for the service of copying the program, and not for the program itself. Rest assured that nothing ever gets to the originators of this product from such a sale. You may evaluate this product, but if you make use of it, you must register your copy. We offer several inducements to you for registering. First of all, you receive the most up-to-date copy of the program that we have -- and we do update the product on a regular basis. You also receive support for 22DISK -- which can be quite valuable at times. And finally, we have a few utilities not included in the evaluation package. Make no mistake, however - this is a fully functional ver- sion of 22DISK and not "crippled" in any way. REGISTRATION INFORMATION The non-commercial single-user registration fee for 22DISK is $25.00 US. The commercial and multisystem site fee for 22DISK is $100.00. Send a check or company P.O. for the appropriate amount to: Sydex P.O. Box 5700 Eugene, OR 97405 Please indicate what product you are ordering and if you have a re- quirement for 3.5" media. We normally ship 5.25" 360K diskettes, but will furnish 3.5" 720K media upon request. Customers outside of the United States and Canada should include an extra $5.00 for airmail. If you are a registered user of this product and desire an update, please send $5.00 for handling and we will ship you an up-to-date copy. Please add $10.00 for printed documentation to cover duplication and shipping costs. DISTRIBUTION NOTICE This is "user-supported" software. You are hereby granted a license by Sydex to distribute this evaluation copy of 22DISK and its documen- tation, subject to the following conditions: 1. 22DISK may be distributed freely without charge in evaluation form only. 2. 22DISK may not be sold, licensed, or a fee charged for its use. If a fee is charged in connection with 22DISK, it must cover the cost of copying or dissemination only. Such charges must be clearly identified as such by the originating party. Under no circumstances may the purchaser be given the impression that he is buying 22DISK itself. 3. 22DISK must be presented as a complete unit, including this documentation. Neither 22DISK nor its documentation may be amended or altered in any way. 4. By granting you the right to distribute the evaluation form of 22DISK, you do not become the owner of 22DISK in any form. Any other use, distribution or representation of 22DISK is expressly forbidden without the written consent of Sydex. _______________________________________________________________ CP/M, CP/M-80 and CP/M 2.2 are trademarks of Digital Research. MS-DOS is a trademark of Microsoft. IBM PC, PC-XT and PC-AT are trademarks of International Business Machines. V20, V30, uPD70108, uPD70116 are trademarks of NEC Electronics. CompatiCard is the trademark of MicroSolutions, Inc. Some products of Lear-Siegler, Kaypro, Osborne and Televideo are also trademarked. Table of Contents 22DISK, Briefly..............................................1 Installing 22DISK............................................2 Getting Started..............................................2 Selecting A Disk Format......................................4 22DISK CP/M File Naming Conventions..........................5 22DISK Command Syntax Conventions............................6 A Quick Reference Guide to 22DISK Commands...................7 CTOD -- Convert A CP/M Diskette To DOS.......................9 DTOC -- Convert DOS Files TO CP/M Files.....................10 CTYPE -- Display A CP/M File................................10 CDIR -- Display A CP/M Directory............................11 CERA -- Erase CP/M Files....................................12 CFMT -- Format A CP/M Diskette..............................13 Building Custom Diskette Definitions........................14 Some Hints on Developing a Definition.......................19 Indexing A Large Definition File with GENINDEX..............21 Diskette Densities and Recording Modes......................21 Modifying A PC-XT "Clone" Controller For Single-Density Re..23 In Closing..................................................25 Other Sydex Products........................................26 22DISK, Briefly 22DISK is a product which enables one to convert files on diskette from various CP/M formats to MS-DOS, and vice versa. It is a com- panion product to 22NICE, a Z-80/8080 CP/M 2.2 emulator. The opera- tion of one part is not dependent on the other--if you want to use 22DISK to convert data from other disk formats to DOS or vice-versa, you need not install the 22NICE CP/M emulator. Similarly, if you al- ready have CP/M programs available as DOS files, you may not want to use the 22DISK disk conversion utilities. Our packaging for 22NICE and 22DISK offers the 22DISK program set separately for those who may be using a different emulator or have no need of a CP/M emulator. The 22NICE emulation package, however, is bundled with 22DISK because of the need to transport CP/M files to the PC before emulation can be performed. The 22DISK disk conversion package offers the following features: * "Roll your own" disk formats - we provide support for several common CP/M 2.2 diskette formats, but if you have a format that isn't in our list, you can simply define the characteristics in an ASCII parameter file. Registered users get an even larger file of diskette types. * Support for single- double- and quad-density formats, hardware permitting. * Support of the the following operations: CP/M-to-DOS DOS-to-CP/M Directory display Display CP/M files Erase CP/M files Format CP/M diskette * Full user number support. * Support of MicroSolutions' CompatiCard. 22DISK currently will not handle "hard sectored" diskettes, nor will it work with diskettes written on an Apple ][ or Commodore 64 or 128. Page 1 Installing 22DISK 22DISK will not run without first being installed. To do this, enter the following command at the DOS prompt: A:22DINST and press the ENTER key. We're assuming that the file 22DINST.EXE is located on the diskette in drive A:; if you are installing 22DISK from some other drive or direc- tory, substitute it for the A: in this command. Generally, the installation process is self-explanatory. A few of the more important points to note are: 1. 22DISK will support up to 8 diskette drives--4 per control- ler card. Support for two controller cards is provided. 2. If you're using 22DISK on an XT-class computer with a high- density controller, you'll need to specify that your com- puter is an AT-type computer. This is necessary to ensure that your controller is correctly programmed by 22DISK. 3. 22DINST installs all files in the same directory. However, the file CPMDISKS.DEF and the files with an extension of "LBL" may be placed in any directory specified by the DOS PATH environment variable. For information on PATH, consult the DOS reference manual. 4. The files comprising 22DISK can be installed or re-installed "in place". That is, the source drive and directory may be the same as the destination. You'll need about 512K of base memory to install 22DISK. If you don't have that much available, you can still install 22DISK by creating an installation diskette having all of the 22DISK files except CPMDISKS.DEF and all of the files having a extension of "LBL". These files can be copied over to your destination drive or directory after you've run 22DINST. Getting Started The following sections deal with various specific features of 22DISK. If the diskette format desired is one of those included in the stan- dard definition file, entering the command CMENU will cause a menu-driven interface to 22DISK to be executed. The ap- propriate function may then be selected from the menu. CMENU displays the following choices: Page 2 +------------------------------------------------+ | | | 22DISK Version 1.30 (12-Mar-89) | | | | Please select one of the following: | | | | 0. Exit to DOS | | 1. Set CP/M diskette type | | 2. Set CP/M diskette drive | | 3. Copy CP/M file(s) to DOS | | 4. Copy DOS file(s) to CP/M | | 5. Format a CP/M diskette | | 6. Display a CP/M directory | | 7. Display (type) CP/M file(s) | | 8. Erase CP/M file(s) | | | +------------------------------------------------+ No diskette type selected yet. Please enter function number (0...8): When CMENU is used for the first time, choice 1 should be selected to determine what CP/M diskette format will be used. Until a format is selected, no CP/M diskette operations can be performed; attempts to perform any operation before selecting a type will produce an error message. When choice 1 is selected, a list of CP/M diskette types, in display "pages" of 23 types will be displayed. The cursor keys may be used to select a format type. When the desired type is located, pressing the ENTER keys will select that format. A screen of general information about systems requirements will be displayed, after which the opening menu is again shown. After the diskette type is selected, CMENU will "remember" it from session to session. The next step is to select choice 2 to specify what diskette drive will be used to access CP/M diskettes. The desired function may then be selected from the menu. Each func- tion may then request additional input for items such as CP/M diskette type and names of source and destination files. Page 3 CMENU prompts for parameters and formats them into a command line for one of 22DISK's utility programs. If a menu interface is not desired, each program may also be invoked as a normal DOS command. The follow- ing sections deal with each specific function in terms of the program that performs that function. Selecting A Disk Format All of the 22DISK utilities make use of a common interface to specify the format of CP/M diskette to be used. Over 200 different formats are provided with 22DISK and "custom" definitions may also be written. Each different CP/M format is given a unique one- to four-character tag. For example, the Osborne 1, single-sided, double-density format is given a tag of "OSB2", while the single-sided, double-density Kaypro 2is assigned a tag of "KAY1". So, to specify a format, its tag is used. The format tag may be indicated to the 22DISK utilities in any of three ways: (1) The tag may be specified interactively. This is the default situation if the tag has not been indicated by either of the other two ways. The following prompting message is dis- played - Enter 1-4 character disk format type, ? for list - If a question mark is entered, followed by the ENTER key, a list of diskette formats and their tags is displayed, 23 lines at a time. The cursor keys (up, down, PgUp and PgDn) may be used to select a type. Pressing ENTER causes the current type to be used. (2) The tag may be specified directly on the DOS command line. In this case, the tag is the first field of the 22DISK com- mand and is preceded with a slash (/) character. For ex- ample, CFMT /KAY1 A: would result in the diskette in drive A: being formatted as a Kaypro 2 single-sided, double-density diskette. (3) The DOS environment variable "CPMDISK" may be set to the tag corresponding to the desired format. So, SET CPMDISK=OSB2 Page 4 would result in all 22DISK operations being performed in terms of Osborne 1 double-density format, unless overridden by an explicit DOS command line specification as in (2), above. The file named CPMDISKS.DEF contains definitions for all diskette types and must be present somewhere in the DOS command search path. That is, one of the directories indicated by the DOS PATH statement must contain the CPMDISKS.DEF file. In addition to the predefined formats given in CPMDISKS.DEF as sup- plied with 22DISK, custom definitions may also be prepared using any ASCII text editor. For details, consult the section titled Building Custom Diskette Definitions. 22DISK CP/M File Naming Conventions All of the 22DISK utilities use the same convention for naming CP/M files, which corresponds roughly to that used by CP/M. However, to supply a means of indicating CP/M user numbers and to afford an alter- nate way to refer to diskette drives, the convention has been extended somewhat. A CP/M file designator as used by 22DISK consists of the following items: * A disk drive specifier. This is a letter referring to those drives configured by the 22DINST program. * An optional user number between 0 and 31. If omitted, user number 0 is assumed. A wildcard, or asterisk (*), may be specified to signify all user numbers. * A colon (:). * The file name consisting of up to 8 letters, numbers or spe- cial characters. Upper- and lower-case letters are con- sidered to be equivalent. A special character may be any of the following - ! @ # $ % ^ & ( ) - _ = + { } [ ] ' " , / * The characters "?" and "*" serve as "wildcard" specifiers; "?" matches any single character. "*" matches any remaining characters in the file name. * A period (.), which may be omitted if no file extension is present (see next item). Page 5 * The file extension which consists of up to 3 letters, num- bers or special characters. Its rules of formation are identical to those associated with the file name, including use of wildcard characters. Here are some examples of CP/M file names accepted by the 22DISK con- version utilities: A:*.COM All files with an extension of "COM" from drive A:, user number 0. D*:*.* All files from any user number on diskette drive D. B2:X*.DAT All files having an extension of "DAT" under user number 2, from drive B:, starting with the let- ter "X". In all of the 22DISK utilities, a drive designator followed by a colon without any filename or extension assumes all files on that drive. Thus, B: is identical in meaning to B:*.* Sometimes, as with the CFMT utility, a drive designator is required without a file name. In these cases, no user number, file name or ex- tension is used, but physical unit designations are still allowed. 22DISK Command Syntax Conventions In order to discuss command syntax in 22DISK, a number of conventions have been adopted in this document: (1) All commands are assumed to be followed by depression of the ENTER key. Sometimes this key is referred to as RETURN or CARRIAGE RETURN. (2) All upper-case (capital) letters are entered exactly as shown in the command description. For instance, CFMT is entered as depressions of the "C", "F", "M" and "T" keys. Actual case of the entered characters is irrelevant; that is, either upper- or lower-case letters may be entered. Page 6 (3) Any underlined item enclosed in italics refers to a name of a particular type of item and is not to be entered literally. For example: CP/M file refers to a general CP/M file designator as described in the preceding section, and NOT the characters ""CP/M file"". (4) Any item enclosed in parentheses ("(" and ")") refers to an item which may be omitted from the command line. For ex- ample: (disk type) refers to a disk type item which may be left out completely from the command statement. (5) Any blank character may be replaced by more than one blank character or a tab character. These conventions will be used throughout this document with addi- tional explanations where required. A Quick Reference Guide to 22DISK Commands The following is a short description of the command syntax of each conversion program: CONVERT CP/M FILES TO DOS CTOD (/disk type) CP/M file name DOS disk unit Example: CTOD /KAY1 A:*.DAT C: CONVERT DOS FILES TO CP/M DTOC (/disk type) DOS file name CP/M disk unit Example: DTOC C:*.BAS A: DISPLAY A CP/M DISKETTE DIRECTORY CDIR (/disk type) CP/M file name Page 7 Example: CDIR A:*.OVR ERASE A CP/M DISKETTE FILE CERA (/disk type) CP/M file name Example: CERA /IBM1 WS?.COM DISPLAY (TYPE) A CP/M DISKETTE FILE CTYPE (/disk type) CP/M file name Example: CTYPE 2:*.DOC FORMAT A CP/M DISKETTE CFMT (/disk type) CP/M disk unit Example: CFMT /OSB1 B: GENERATE AN INDEXED DEFINITION FILE GENINDEX source file destination file Example: GENINDEX CPMDISKS.NOI CPMDISKS.DEF STRIP AN INDEX FROM A DEFINITION FILE STRIPIDX source file destination file Example: STRIPIDX CPMDISKS.DEF CPMDISKS.NOI Page 8 CTOD -- Convert A CP/M Diskette To DOS The program CTOD is used to read a CP/M diskette and copy files to any selected DOS directory. The general syntax of the CTOD command is - CTOD (/disk type) CP/M file (DOS path) Disk type is the optional diskette tag as discussed earlier. CP/M file refers to the CP/M file designator for the diskette drive con- taining the CP/M diskette and the file(s) to be copied. The wildcard characters * and ? are allowed to specify a number of CP/M files. DOS path refers to the name of a DOS disk drive or subdirectory to which the CP/M files will be copied by CTOD. If this term is omitted, the current DOS default drive and path are used. Some transformations of CP/M file names are made by CTOD when copying to DOS. CP/M file naming conventions allow just about any character in a file name; DOS naming conventions are much more restrictive. Characters which are not accepted by DOS are translated by CTOD to the character #, a legal DOS file name character. In addition, the file extension COM is changed to CPM by CTOD. DOS considers any file with the extension COM to be executable; if execu- tion of a CP/M file is attempted by DOS, the result could be dis- astrous. The 22NICE CP/M emulator also performs the same name translation in- ternally for CP/M programs, so programs will operate correctly with the transformed file extensions. Here are a few examples of CTOD commands: CTOD A:*.* Copy all files from user 0, on drive A: to the current directory. Use whatever format that was defined by the CPMDISK environment variable, or prompt for one if CPMDISK is not defined. CTOD /A1 B*:*.COM C:\CPMFILES Copy all files with an extension of COM from all users, from drive B: to the directory named C:\CPMFILES. Use the 8" SSSD format. These files, when copied, will be given an extension of CPM. CTOD Produces no action, but gives a synopsis of the CTOD command syn- tax. Page 9 DTOC -- Convert DOS Files TO CP/M Files The program DTOC is the complement of CTOD; that is, it writes DOS files to a CP/M diskette. The general syntax of the DTOC command is: DTOC (/disk type) DOS file name CP/M drive and user The optional term disk type is the name of a CP/M diskette type, as discussed above. DOS file name refers to the name of a DOS file or group of files and may include drive and subdirectory specifiers. CP/M drive and user specifies the diskette drive to receive the DOS files and the user number under which they are to be created. In addition to copying DOS files to CP/M diskettes, DTOC carries out the CPM to COM name translation described in the CTOD command. That is, all DOS files with an extension of CPM will be created as COM files on the CP/M target diskette. Some examples of DTOC commands are: DTOC C:*.* A: Copy all files from DOS drive C: to CP/M diskette A:, user 0. Use whatever format that was defined by the CPMDISK environment variable, or prompt for one if CPMDISK is undefined. DTOC /A1 \UTILS\*.ASM B3: Copy all files from the DOS default drive in the subdirectory named UTILS with an extension of ASM to user 3 on CP/M diskette drive B:. Use the 8" SSSD format. DTOC Produces no action, but gives a synopsis of the DTOC command syn- tax. CTYPE -- Display A CP/M File The program CTYPE copies a CP/M diskette file or files to DOS standard output. Before each file is copied, its name is also copied to stan- dard output. CTYPE is the analogue of the DOS and CP/M TYPE utilities. The general syntax of the CTYPE command is: CTYPE (/disk type) CP/M file Page 10 Disk type is the optional diskette tag code as discussed earlier. CP/M file refers to the CP/M file designator for the diskette drive containing the CP/M diskette and the file(s) to be displayed. The wildcard characters * and ? are allowed in order that a group of CP/M files may be specified. An operation similar to CTYPE can be obtained with CTOD, where the destination DOS drive is given as CON. Some examples of the CTYPE command are: CTYPE A:*.* Copy all files from user 0, on drive A: to standard output. CTYPE /A1 B*:*.DOC Copy all files with an extension of DOC from all user numbers, from drive B: to standard output. The source diskette is assumed to be in 8" SSSD format. CTYPE Produces no action, but gives a synopsis of the CTYPE command syntax. CDIR -- Display A CP/M Directory The program CDIR displays a list of CP/M diskette files in much the same way that the CP/M command DIR does. However, the user number for each file is also displayed, along with the available CP/M diskette space remaining. The general syntax of the CDIR command is: CDIR (/disk type) CP/M file Disk type is the optional two character diskette type code as dis- cussed earlier. CP/M file refers to the CP/M file designator for the diskette drive containing the CP/M diskette and the file(s) to be dis- played. The wildcard characters "*" and "?" are allowed in order that a group of CP/M files may be specified. Some examples of the CDIR command are: CDIR A:*.* Displays a directory of all files from all user areas, on drive A. CDIR /A1 B*:*.DOC Page 11 Displays a directory of all files with an extension of DOC from all user numbers, on drive B:. The source diskette is assumed to be in 8" SSSD format. CDIR Produces no action, but gives a synopsis of the CDIR command syn- tax. CERA -- Erase CP/M Files The program CERA erases a list of CP/M diskette files in much the same way that the CP/M command ERA does. In addition, the available remaining CP/M diskette space is reported. The general syntax of the CERA command is: CERA (/disk type) CP/M file disk type is the optional diskette tag as discussed earlier. CP/M file refers to the CP/M file designator for the diskette drive con- taining the CP/M diskette and the file(s) to be displayed. The wildcard characters "*" and "?" are allowed in order that a group of CP/M files may be specified. Each file specified is erased by writing the hexadecimal character E5 as the first byte (user number) of the CP/M diskette directory entry. The rest of the affected directory entry is left alone. Examples of the CERA command are: CERA A:*.* Erase all files belonging to user 0, on drive A:. CERA /A1 B*:*.DOC Erase all files with an extension of DOC from all user numbers, on drive B:. The source diskette is assumed to be in 8" SSSD format. CERA Produces no action, but gives a synopsis of the CERA command syn- tax. Page 12 CFMT -- Format A CP/M Diskette The CFMT utility formats blank CP/M diskettes. CFMT corresponds directly to the CP/M FORMAT or NEWDISK command. The general syntax of the CFMT command is: CFMT (/disk type) CP/M unit name Disk type is the optional diskette tag as discussed earlier. CP/M unit name refers to the designator for the diskette drive containing the diskette to be formatted. Before a diskette is formatted by CFMT, a prompt is issued to the con- sole in order to confirm that a diskette is to be reformatted. If the letter "G" followed by the ENTER key is typed, a blank format pattern is created on the designated diskette. Examples of the CFMT command are: CFMT /MOR1 A: Format the diskette in drive A: with a format pattern suitable for a Morrow MD1 computer system. CFMT F: Format the diskette in diskette unit F: with a format pattern corresponding to whatever is specified by the CPMDISK environment variable. If CPMDISK is not defined, CFMT will prompt for a dis- kette type. Page 13 Building Custom Diskette Definitions As mentioned earlier, the file CPMDISKS.DEF contains definitions for various common CP/M diskette types. This sections describes how you can add your own definitions to this file for diskette formats not al- ready present. This section requires some knowledge of CP/M disk structure; it is not intended for the casual user. The following is a typical diskette format definition: BEGIN SUP3 Superbrain QD -- DSDD 48 tpi 5.25" DENSITY MFM,LOW COMPLEMENT CYLINDERS 35 SIDES 2 SECTORS 10,512 SIDE1 0 1,3,5,7,9,2,4,6,8,10 SIDE2 1 1,3,5,7,9,2,4,6,8,10 ORDER CYLINDERS BSH 4 BLM 15 EXM 1 DSM 169 DRM 63 AL0 080H AL1 00H OFS 2 END Diskette definitions are keyword-oriented. That is, there are a few words which have special meaning to the routines with interpret the diskette definitions. Each keyword identifies the data which im- mediately follows it. The following rules of construction apply to a diskette definition: (1) Definitions are not sensitive to alphabetic case; terms and keywords may be in upper- or lower-case characters, or a mixture of both. (2) Spaces, tabs and line boundaries are treated as separators between terms. In some cases, a comma is required as an ad- ditional separator. (3) A term must be completely contained on a single line; other- wise, line boundaries are generally ignored. The only ex- ceptions to this are the NOTE keyword, which causes the rest Page 14 of the current line to be ignored, and the BEGIN keyword, which uses the rest of the line following the diskette type code or "tag" as a descriptive comment. (4) Numbers may be expressed in decimal, hexadecimal or binary. Decimal quantities are the default and are made up of digits between 0 and 9 inclusive. Hexadecimal quantities may also include the letters A through F, but must begin with a num- ber. Hexadecimal quantities are denoted by a final "H". Binary quantities are made up of the numbers 0 and 1 and are denoted by a final "B". These are the same conventions as those used in CP/M assembler coding. (5) All-blank or empty lines are ignored and may be used freely to enhance readability. BEGIN signals the start of a definition. The first term following this keyword is a one- to four-character diskette tag code by which this definition may be accessed. The first character of this type code must be alphabetic; the second character may be numeric or al- phabetic. The remainder of the the line following the type code is saved as commentary describing the diskette type. DENSITY takes two terms, separated by a comma. The first term is either MFM for a double-density diskette or FM for single density. Your disk controller must be capable of supporting FM operation if the FM density option is given. The second term is used to program the diskette clock rate on AT-class machines. LOW signifies that a 250 Kbps data rate should be used; HIGH signifies that a 500 Kbps (HD den- sity) data rate is to be used. When the PC-AT 1.2M 5.25" diskette drive is being used, a data rate of LOW is taken to mean 300 Kbps in- stead of 250 Kbps. CYLINDERS specifies the number of cylinders contained in the diskette format. If this number is less than 50, quad-density (80 track) drives will be double stepped to go from cylinder to cylinder. SKEW specifies the physical interleaving of sectors. This specifica- tion is optional; if omitted a 1-to-1 physical interleave is assumed. SIDES specifies the number of tracks or surfaces per cylinder. SIDES may be either 1 or 2 for single- or double-sided media, respectively. SECTORS specifies both the number of sectors per track (cylinder sur- face) and the size of a sector. The sector count and the size terms must be separated by a comma. SECTORS must precede SIDE1 and SIDE2 in a definition. Page 15 COMPLEMENT is used to denote certain formats which record data in complemented or NOT-ed form. The primary offender in this area is the Superbrain line. COMPLEMENT instructs 22DISK to complement data before writing and after reading a CP/M diskette. If COMPLEMENT is not used within a definition, normal true format recording is assumed. ORDER instructs 22DISK as to the ordering of tracks on a double-sided diskette. Most formats record first one side, and then the other before moving to a new cylinder. However, some diskette formats, notably CP/M-86 on the IBM PC, record all of the tracks on one side of a diskette, then record the tracks on the other side in descending or- der. To specify that the cylinder is incremented before the side, use CYLINDERS after the ORDER keyword. To specify that the side is incre- mented before the cylinder number, use SIDES after the ORDER keyword. The default when ORDER is not specified is SIDES; that is, first one side is recorded, then the other before the cylinder number is incre- mented. ORDER has no effect on single-sided media. SIDE1, which must follow the SECTORS specification, specifies the sec- tor ordering on the first cylinder surface. CP/M 2.2 allows a software interleave of sectors on a diskette; the terms given here reflect that interleave. The first term after the SIDE1 keyword is the logical side ID found in each ID address mark for that disk. Usually, this number is 0 for the first side of a diskette and 1 for the second side. Certain computers, however, deviate from this, as shown by the Kaypro example above, where the second side also has a side ID of 0. After the side ID, there follows a list of sector num- bers in their CP/M ordering. Each number specifies the next logical sector to be addressed. Sector numbers in this list must be separated by commas; the number given must correspond to that stated in the SECTORS specification. SIDE2 is specified only if the diskette has two surfaces per cylinder. The terms following SIDE2 are the same as those for SIDE1, except that they define the sector addressing and ordering for the second surface of the diskette. LABEL is specified for diskette formatting only. The term following the word LABEL is used as a file name with an implied suffix of .LBL. When a diskette is formatted, the contents of this file are written to the diskette, starting with the first sector. If the data length of the file does not work out to be an integral multiple of the diskette sector length, the last sector is filled to its end with the value of the last byte read from the file. The LABEL feature may also be used to enable one to create CP/M "system" diskettes. The remainder of the keywords in the definition are taken from the CP/M Disk Parameter Block for this diskette type. The CP/M System Al- teration Guide presents details on the meaning of each field. A brief description of each is presented here: Page 16 BSH refers to the block shift or the number of left shifts needed to translate an allocation block number to a relative sector address. BLM refers to the block mask or a bit mask of ones corresponding to the number of bits specified by BSH. For example, if BSH is 3, BLM is 7 (3 bits). EXM refers to the extent mask or a bit mask of ones used in delimiting extents, or groups of 128 128-byte records. DSM refers to the total number of sectors present on a diskette. This quantity, like all of the CP/M system variables, as- sumes a 128-byte sector. DRM refers to the total number of directory entries available on a diskette. DRM is also related to the AL0 and AL1 fields. AL0 and AL1 form a bit mask, beginning with the most significant bit in byte AL0 and ending with the least significant bit in AL1. These two bytes map the first 16 allocation blocks of the disk. A 1 bit in a position indicates that an alloca- tion block is reserved, usually for the directory (see DRM, above). OFS indicates the number of tracks that are used for storing the CP/M system and BIOS at the beginning of a diskette. SOFS indicates the number of sectors that are used for storing the CP/M system and BIOS at the beginning of a diskette. SOFS is used when the number of sectors used by the CP/M is not an integral number of tracks, such as for the Coleco Adam. Every diskette definition must end with the END keyword, which follows the OFS specification. If the following Microsoft BASIC program is run on the host CP/M (8 bit) system, the values of the relevant DPB fields are displayed for the currently logged-in drive: 100 REM PROGRAM TO DISPLAY A DEFAULT DPB 110 REM 120 REM FOR CP/M 2.2 ONLY 130 REM 140 DEF FNP(X) = PEEK(X) + 256*PEEK(X+1) 150 IF PEEK(0) <> 195 THEN PRINT "Requires CP/M" : STOP 160 PRINT "DPB VALUES FOR THE CURRENT DISK -- " : PRINT 170 REM 180 REM STUFF S$ WITH THE FOLLOWING PROGRAM - Page 17 190 REM 200 REM PUSH H ; Save address of FAC-3 210 REM LHLD 1 ; Get BIOS Cold boot entry 220 REM MVI L,27 ; Change to SELDISK vector 230 REM LDA 4 ; Get current disk 240 REM MOV C,A 250 REM MVI A,PCHL ; for indirect call 260 REM STA 38H ; set in RST 7 vector 270 REM RST 7 ; call SELDISK 280 REM POP D ; FAC-3 290 REM XCHG 300 REM MOV M,E ; Store pointer to DPH 310 REM INX H 320 REM MOV M,D 330 REM RET ; exit... 340 REM 350 S$ = "" 360 READ SD : IF SD < 0 THEN 380 ' Read the USR code 370 S$ = S$ + CHR$(SD) : GOTO 360 380 SX = VARPTR(S$) +1 390 SR = FNP(SX) 400 DEF USR = SR ' User program set up 410 DPH = USR(0) ' Get DPH Pointer 420 IF DPH = 0 THEN PRINT "Select error" : STOP 430 SPT = FNP( FNP( DPH +10)) ' Get Sectors/Track 440 PRINT "Sectors per Track";TAB(30);SPT 450 IF FNP(DPH) = 0 THEN 510 ' if no interleave 460 PRINT " Sectors interleaved as follows:" 470 FOR I = 1 TO SPT 480 PRINT TAB(10); PEEK( FNP(DPH) + I-1) 490 NEXT I 500 PRINT : GOTO 520 510 PRINT " Sectors are not interleaved" 520 DPB = FNP(DPH+10) 530 PRINT "Block Shift (BSH)";TAB(30);PEEK(DPB+2) 540 PRINT "Block Mask (BLM)";TAB(30);PEEK(DPB+3) 550 PRINT "Extent Mask (EXM)";TAB(30);PEEK(DPB+4) 560 PRINT "Total Sectors (DSM)";TAB(30);FNP(DPB+5) 570 PRINT "Directory Entries (DRM)";TAB(30);FNP(DPB+7) 580 PRINT "Allocation 0 (AL0)";TAB(31);HEX$(PEEK(DPB+9));"H" 590 PRINT "Allocation 1 (AL1)";TAB(31);HEX$(PEEK(DPB+10));"H" 600 PRINT "Cylinder Offset (OFS)";TAB(30);PEEK(DPB+13) 610 PRINT 620 STOP 630 DATA 229,42,1,0,46,27,58,4,0,79,62,233,50,56,0 640 DATA 255,209,235,115,35,114,201,-1 650 END Page 18 Some Hints on Developing a Definition Quite frequently, the only information available when developing a definition for 22DISK is a diskette with a few files and nothing more. Here's a guide on what to do if you'd like to try working up a defini- tion yourself: 1. Get a copy of Sydex's ANADISK. This utility will fur- nish far more information than will any other program. 2. Run ANADISK on the diskette in SECTOR EDIT mode. Note that the interleave (or SKEW) is given, as well as the number, size and addresses of sectors. You then have the figures for DENSITY, CYLINDERS, SIDES, SKEW SIDE1 and SIDE2. 3. Locate the directory on the diskette. Almost in- variably, it starts on the first sector of a track. The number of tracks up the point where the directory begins will give the figure for OFS. The directory stands out because it shows file names every 32 bytes, or every other line on the ANADISK display. 4. Examine the first directory entry. The second 16 bytes (the second line of the entry) gives a list of alloca- tion unit numbers belonging to the file. The first one of these will tell how many allocation units have been reserved to hold the directory. Thus, if the first al- location byte is 04, four allocation units have been al- located to the directory. Another thing to note is whether the allocation unit number appears to be an 8 bit or 16 bit quantity. For example, if an entry has the following form: 00 50 49 50 20 20 20 20 20 43 4F 4D 00 00 00 10 .PIP COM.... 04 00 05 00 06 00 00 00 00 00 00 00 00 00 00 00 ................ the allocation unit designators are 4, 5 and 6 and are 16- bit quantities. On the other hand, the following item: 00 50 49 50 20 20 20 20 20 43 4F 4D 00 00 00 10 .PIP COM.... 04 05 06 00 00 00 00 00 00 00 00 00 00 00 00 00 ................ shows the same allocation units, but as 8-bit quantities. If 16-bit quantities are involved, more than 255 allocation units are defined for the diskette, if an 8-bit quantity, less than 256 units. This serves as a check for later com- putations. In any case, the first allocation number of the first directory entry gives the number of bits to be set in AL0 and AL1. Thus, for an allocation number of 04: AL0 11110000B Al1 0 Page 19 5. Starting with the first directory sector, advance the sector (and track, if necessary) until you find the data belonging to the first file. Unused directory entries are almost al- ways filled out with a pattern of E5's. The number of sec- tors dedicated to the directory will give an indication of both the number of directory entries and the allocation unit size. Suppose that a our hypothetical diskette shows 16 sectors of 512 bytes allocated to the directory. Since a directory entry is 32 bytes long, the number of directory entries possible for this format is: 16 entries/sector X 16 sectors = 256 entries total Thus, DRM is one less than this or 255. Since we know that these 16 sectors represent 4 allocation units or 8,192 bytes, the allocation unit size is: 8,192 / 4 = 2,048 bytes Given this, we can use the following table to compute the values for BSH and BLM: +------------+---------+----------+ | Unit Size | BSH | BLM | +------------+---------+----------+ | 1,024 | 3 | 7 | +----------+ | 2,048 | 4 | 15 | ------+ This one | | 4,096 | 5 | 31 | +----------+ | 8,192 | 6 | 63 | | 16,384 | 7 | 127 | +------------+---------+----------+ 7. We still need a value for EXM and DSM. DSM is simply the total number of allocation units on the diskette, not count- ing the system OFS area. Let's assume that our diskette has an offset of 2 tracks and is single-sided with 40 cylinders with 8 sectors per track. The value of DSM is then: ((40 cylinders X 1 side) - 2 tracks) X 8 sectors X 512 bytes) = 155,648 bytes / 2,048 = 76 Allocation units, total To get EXM, we then use the following table: +------------+-----------+-----------+ | Unit Size | DSM < 256 | DSM > 255 | +------------+-----------+-----------+ | 1,024 | 0 | na | | 2,048 | 1 | 0 | | 4,096 | 3 | 1 | | 8,192 | 7 | 3 | | 16,384 | 15 | 7 | +------------+-----------+-----------+ Page 20 8. That's almost the complete picture, but for the SIDE1 and SIDE2 sector ordering. This is the hardest to determine of any of the parameters. Find a readable text file on the diskette and piece the text back together by observing how words break across sector boundaries. After a bit, a pat- tern in the ordering will become apparent, such as: 1, 3, 5, 7, 2, 4, 6, 8 9. The ORDER value can be determined on double-sided diskettes by observing whether file data appears to move from one track to the next on the same side (CYLINDERS), or appears to go from one side to the other and then advance to the next cylinder (SIDES). 10. COMPLEMENT is rare. Generally, if a diskette appears to be formatted with values of 1A instead of E5, the data on the diskette is complemented. Indexing A Large Definition File with GENINDEX CPMDISKS.DEF as supplied with 22DISK has been indexed so that the en- tire file does not need to be searched for the specified diskette definition. CPMDISKS.DEF is also supplied in a non-indexed form as CPMDISKS.NOI. To generate an indexed definition file, the GENINDEX command is used as follows: GENINDEX source file destination file where source file is the non-indexed input definition file and des- tination file names the file which will contain the indexed defini- tions. An editable form of CPMDISKS.DEF may be had by using the utility STRIPIDX to remove the index from a definition file: STRIPIDX source file destination file Diskette Densities and Recording Modes The diskette has undergone quite a number of changes in its develop- ment and 22DISK reflects some of these changes. This section dis- cusses some of the terms used in connection with 22DISK definitions: 1. The physical size of the diskette. By and large, most dis- kettes come in one of three sizes: 8, 5.25 or 3.5". The 8" diskette is rare to find in use nowadays, but 22DISK is able Page 21 to handle this format, given the appropriate hardware. 5.25" diskettes are the reigning media choice now, but may soon be displaced by the 3.5" "micro" diskettes. There have been other sizes, such as 3.25", but these have not enjoyed much popularity. 2. Recording performed on both surfaces of the diskette. The formats using only one surface are called single-sided, those using both surfaces, double-sided. Double-sided drives were rare until about 1978; now they are the rule, rather than the exception. 3. The track density. An analogue to this would be to ask how close the grooves on a phonograph record are. On 8" and 5.25" drives, a track packing density of 48 tracks per inch is most commonly used, although some high-capacity 5.25" drives double this for 96 tracks per inch (the PC AT's 1.2 megabyte drive is a 96 tpi drive). There was an alternate 5.25" standard in use between 1977 and 1980, 100 tracks per inch, but it was always in the minority of applications. 3.5" diskettes use a track density of 135.5 tracks per inch. 4. The spindle speed, or how fast the diskette spins inside its jacket. All 8" diskettes spin at 360 revolutions per minute; almost all 3.5" diskettes spin at 300 rpm; the first Sony drives spun at 600 rpm. Most 5.25" drives also spin at 300 rpm, with the exception of the PC AT 1.2 megabyte high- capacity drive, which spins at 360 rpm. 5. The recording method used. Early diskette drives used a method called FM, for frequency modulation, in which one pulse per time period signified a zero bit and two pulses signified a one bit. This is the method referred to as single density. Later, a recording method called MFM, for Modified FM came into popular use. This scheme uses a some- what more complex encoding scheme dependent on the position of a pulse within a bit time window and the value of the last bit written. What MFM does is get twice the data rate for the same bit rate, hence the term double density. Al- most all modern diskette drives use MFM recording. 6. The bit rate at which data is read or written. The data rate for low-density 5.25" diskettes are recorded is 250,000 bits per second. The PS/2 and PC AT high-density formats make use of a data rate of 500,000 bits per second. 8" for- mats generally make use of a 500,000 bit per second data rate. The PC AT 1.2 megabyte high-capacity drive uses a data rate of 300,000 bits per second to record 360K dis- kettes because of its higher spindle speed: Page 22 360 rpm ---------- X 250,000 bps = 300,000 bps 300 rpm 7. The sector demarcation method used. All modern diskettes use unique data patterns to show where a sector begins and ends on a track. On some older systems, however, additional index holes were used to mark sector boundaries--known as "hard" sectoring. 22DISK does not support hard sectored formats. The common PC XT diskette controller is able to handle single- and double-sided, double-density diskettes. The common PC AT diskette controller possesses a variable-rate bit clock generator for 250,000, 300,000 and 500,000 bits per second to handle double density diskettes in both 8", 5.25" and 3.5" sizes, as well as high-density diskettes in the 5.25" and 3.5" profiles. If there is a need to handle single-density diskettes in a 5.25" form factor, a PC XT clone controller can easily be modified to do so, at no loss of normal functioning. The next section shows how. Modifying A PC-XT "Clone" Controller For Single-Density Reading Got a bunch of Xerox 820 diskettes that you'd love to be able to read? Sold your Osborne I at a swap meet and need your correspondence files from 1981? Too bad, your PC can't handle single-density diskettes... Or can it? Well, it can be done with a little patience, a few bits of wire, and a small soldering iron. The result is a controller that remains PC- compatible as far as any DOS software can tell, but has an extra FM mode in addition. Do not attempt this modification unless you really know what you're doing and have worked with this kind of equipment before. This is no place for a novice. First, you need to determine the type of controller you're using. The original IBM PC and PC/XT controllers are NOT readily adaptable, but most inexpensive clones are. The important thing to locate on the controller card is the data separator chip; it's an 8-pin DIP. It looks something like this: Page 23 +--U--+ Pin 1 | | Pin 8 Pin 2 | | Pin 7 Pin 3 | | Pin 6 Pin 4 | | Pin 5 +-----+ (Top View) This DIP (Dual Inline Package) will have pins 4, 5 and 6 grounded and pin 8 connected to the +5 supply trace. Numbering of this device varies -- Western Digital (the prime source) has it as a WD 9216; a NEC part number is UM 8326. But it's all the same as far as we're concerned. Identify the diskette controller chip on your board -- this is the large 40 pin DIP labeled uPD765A (NEC), Z765A (Zilog), or 8272A (Intel). Note that pin 26 is a no-connection on your card -- this is the MFM/FM mode output pin. The last thing you need to find is an unused inverter section. This is the most difficult part of this whole modification. Most cards use a SN7404 or 'S04 as an oscillator (look near the crystal). Usually, not all sections are used. Or look for a section of an 'LS00 gate or some such thing that can be wired as an inverter (Hint: tie both in- puts together). You need to lift pin 5 of the 8-pin data separator (above) from ground. Depending on how your card is laid out, this can be quick and simple (cut the ground trace) or very messy (unsolder the whole chip). Connect a wire (wire-wrap wire is great) between this pin 5 and the output of the inverter which you located. Connect a second wire be- tween pin 26 of the floppy disk controller (uPD 765) and the input of the inverter. That's it -- put the card back into your PC and make sure it still handles regular DOS diskettes okay. If you've got an AT-style controller or a Western Digital 'Fox' dual- density XT controller, you can even drive SD and DD 8" diskettes with this modification. Note that this simple modification will enable you to read single- density diskettes, but not to write them. If you're really adven- turous, an XT-style controller can be made to write diskettes if the write-precompensation circuitry is bypassed. We do it here with a section of a 74LS157 driven from the MFM pin of the '765. A schematic of your controller is a must for this kind of work. Page 24 In Closing Thank you for taking the time to consider Sydex. We hope that 22DISK does its job well and that it meets your needs. This product repre- sents several months of work and research; if you have any suggestions on how it might be improved, please let us know. Page 25 Other Sydex Products SHAREWARE CON>FORMAT -- Concurrent "background" diskette formatter. Fea- tures "pop-up" operation and "hot key" activation. You've got to see it to believe. Supports all current DOS formats. $15.00 ($50.00 site) registration fee. 22DISK -- Transfer files, format, examine and erase files on "foreign" CP/M diskettes on your PC. Includes tips on supporting 8" and 5.25" single-density diskettes. Contains definitions for over 200 different formats. $25.00 ($100.00 site) registration fee. 22NICE -- A CP/M 2.2 emulation package. Supports the NEC V-series chips or performs emulation by software for both the 8080 and Z80 processors. Includes terminal emulation and dis- kette handling for common CP/M systems. Includes 22DISK. $40.00 ($150.00 site) registration fee. ANADISK -- The compleat diskette utility. Nothing like it anywhere else; scan, edit, repair and copy just about any kind of diskette. $25.00 ($150.00 site) registration fee. TELEDISK -- Turn any diskette into a compressed data file and vice-versa. Allows you to send and receive entire diskettes via modem. Even works with some "copy-protected" diskettes. $20.00 ($150.00 site) registration fee. COPYQM -- Mass diskette duplicator. Format, copy and verify mul- tiple diskettes from a single master. Implements "no keyboard" interaction mode and drive "round robin" servicing. Supports all standard DOS formats. $15.00 ($50.00 site) registration fee. FORMATQM -- Mass diskette formatter - format a box of diskettes at a single sitting. Implements "no keyboard" interaction mode and drive "round robin" servicing. Supports all standard DOS formats. $10.00 ($40.00 site) registration fee. RETAIL SOFTWARE SIM-CGA 4.2 -- Color Graphics Adapter simulation on monochrome (Hercules-compatible) graphics-equipped machines. Available from better software retailers and distributed by CSS, ABCO and American Software Distributors. SIM-EMS -- Simulate Lotus/Intel/Microsoft Expanded Memory on PC- AT class machines. Conforms to EMS 4.0 specification. Dis- tributed by CSS and ABCO. Page 26