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Wildcat Gold - The Optical BBS (The Golden ROM Series)(Volume 4 Number 1)(The Digital Publishing Company)(1992).ISO
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HDUTIL.TXT
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1991-04-10
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Hard disk utilities:
No single type of program makes more demanding use of your hard drive than
a large database program like this one.
On the hardware side, the hard drive vendors take every possible short cut
to push out their products to meet consumer demand. They won't communicate
the most basic information to end users about the operating characteristics
of their hardware, such as the heat-up/cool-down cycles and voltage spikes
that occur with their equipment.
In the software end, this operating system seems woefully under-engineered
to deal with the realities of high-volume disk access that are typical of
large application software.
The net result is that our work, your use of my software and my development
efforts, become captive to the vicissitudes of the hard drive.
These utilities have appeared on a number of bulletin boards and other
sources of shareware. In all cases, the respective authors of these
utilities assert their right of intellectual ownership of their respective
software programs, though they are physically resident on a number of
shareware sources, such as bulletin boards or in the catalogs of shareware
distributors.
Each author of these respective utilities has the same legal rights of
ownership as would be found with a journalist or a novelist. Any person
who wishes to use any of these utilities would have to enter into an
individual license agreement with the author of each respective software
program.
No such license agreement currently exists between ACS, Juskovitch
Corporation, or Paul Sax and any of these authors.
These copywrited or trademarked utilities are enclosed here merely as an
educational tool, a point of reference, an example of what you should be
looking for if you elect to buy this general type of hard drive utility
from any of these authors or from another source, such a retail store.
Their presence here in no way contravenes, inhibits, or modifies the legal
rights or recourse of the individual authors.
DDU (Dangerous Disk Utility) provides many uncommon features such as showing
the clusters assigned to files, listing allocated, bad and free clusters and
more.
Syntax:
The syntax for DDU depends on the function you wish to perform. More than one
function may be requested with a single execution of the program
General Syntax:
DDU param-1 param-2 param-3 ... param-x
Specific Syntax:
DDU [d:][path\]filename.extShow clusters assigned to the specified file
DDU [d:]/AShow allocated cluster numbers
DDU [d:]/BShow bad cluster numbers
DDU [d:]/FShow free cluster numbers
DDU [d:]cluster/M*Mark specified cluster as bad
DDU [d:]cluster/OShow name of file that contains this cluster
DDU [d:]/PShow parameters for specified drive
DDU [d:]cluster/U*Unmark specified cluster as free
DDU [d:]/V*Verify specified disk and mark all bad clusters
Note that all options marked with a trailing asterisk (*) rewrite the disk's
file allocation table.These options are the ones that may be "dangerous".
Requirements:
DOS 2.0 or greater. I believe that with a slight change, this could be
overcome but I don't have a DOS 1.XX operating system to test with. The
problem is that DOS 1 does not support directories or the DOS function call
that returns the current directory.
Standard disk formats.The program has tables for 160K, 180K, 320K, 360K and
1.2 meg 5.25 inch disks with no boot record.It should be able to support
other formats provided with a properly formatted boot record. I have a
modified VDISK.SYS device driver installed with which it also works.
25 lines per screen. If you have (for whatever reason) a smaller screen, you
may loose information. The best example of this is seen with the /P option
which currently displays about 17 lines.)
When you use the /V option, you should be prepared for a long wait (10 to 15
minutes) for verifying a hard disk. If all goes well, you should see no
messages until DDU finishes verifying the media. If DDU discovers bad sectors
in the system area of the disk, (boot sector, FAT sectors or root directory
sectors) it will terminate immediately with an error message. If errors are
found in the data area of the disk, it will attempt to mark the cluster
containing the bad sectors. If the cluster is in use by a file or is
already marked as bad or reserved, a message to that effect will be displayed
and the program will continue.Otherwise, the offending cluster will be marked
bad.
DDU:
[continued]
If any clusters are already marked bad, you will be asked if you want to
unmark them before the verify begins. If you enter Y (or y), all
bad clusters are freed. If you enter anything else they will be left marked.
Here are two examples:
A>DDU D:/V
3 marked clusters -- unmark? (Y/N) <N>:N
Cluster 2152 is already marked bad
Cluster 2153 is already marked bad
Cluster 2154 is already marked bad
Verify marked 0 clusters bad
A>DDU D:/V
3 marked clusters -- unmark? (Y/N) <N>:Y
Cluster 2152 has been unmarked (freed)
Cluster 2153 has been unmarked (freed)
Cluster 2154 has been unmarked (freed)
Cluster 2152 has been marked bad
Cluster 2153 has been marked bad
Cluster 2154 has been marked bad
Verify marked 3 clusters bad
Note that any drive specification remains in effect until another parameter on
the same command line containing a drive spec is supplied. If no drive is
specified with the first parameter the current (default) drive will be used.
The path specification is not retained from one parameter to the next.If it
is not given, it is always assumed that the current directory for that drive
is to be used.
Be careful! Enjoy! and hopefully find this program useful.
DTST - Yet another disk tester v1.0 15-Feb-88
============================== (C) 1988 Samuel H. Smith
DTST is a small utility that is used to check out your hard disks. It
has the special ability to report "slow" sectors. These are sectors
that read properly, but often require retries. I feel that such sectors
are on the verge of failure and should quickly be locked out before they
cause any harm.
DTST consults your FAT and reports if clusters are already marked bad.
You can use another disk utility (such as Norton's NU) to locate any
files using the questionable sectors. Copy the files to a safe place
and then use "DT" to mark the blocks as "bad". This will prevent real
trouble before it happens.
Use this at your own risk! I am including source code so you can verify
that it has not been hacked.
Samuel H. Smith
The Tool Shop
Revision history
----------------
15-feb-88 v1.0
Initial coding and release.
21-feb-88 v1.1
Added two optional parameters to specify the first and last
sector number to test.
21-may-88 v1.2
Changed scanning direction. Consults boot record for information
needed to calculate cluster numbers.
23-may-88 v1.3
Fixed the 'slow sector' message, which was broken in the 21-may version.
Also reduced display activity during testing.
16-jun-88 v1.4
The FAT is now loaded to determine clusters which are already marked
as bad. Added READ/WRITE test. Initial SourceWare release.
26-jun-88 v1.5
Directed the non-error track by track status messages to the display
regardless of where standard output has been redirected. This removes
clutter from a logfile if you are running DTST in a batch with output
redirected to a file.
17-may-89 v1.6
Added support for DOS 4.0 and partitions over 32meg.
Added additional error messages when a disk failure is detected.
SST - THE SEEK STOPPER, Version 2.01
Copyright 1986 by Alfred J. Heyman
Feel free to copy and share SST with others so long as it
is distributed in its unmodified form and as long as no
disk copy or duplication fee is charged. The Author
reserves the sole right to distribute SST for profit.
If you find SST to be useful, And/Or would like to be
notified about getting possible future SST enhancements,
you can become a registered SST user by Sending $10 to the
Author.
SST may not be used in a commercial environment without
the above mentioned registration. Source code is
available.
====== WARNING, RLL Drives ========
Any program like SST should only be used with extreme caution AFTER BACKING
UP YOUR DRIVE. But do not attempt to use SST on an RLL-formatted drive.
SST does not work with RLL hard drives, only MFM.
----------------------------------------------------------
WHAT IS SST?
SST is a program that is designed to reorganize a DOS disk
so that it will run "Faster". Normal daily use of a disk
will produce a disk with many fragmented files and
subdirectories. Simply put, these are files that are not
completely contiguous or together, but are spread out all
over the disk. These fragmented files and subdirectories
slow disk access down because DOS must tell the Disk Head
to Seek to other parts of the disk to pick up other parts
of the same file. For example, your disk might have three
files on it that we will call A,B,and C. Different parts
might be arranged as follows....
AAAAAAABBBBBBBBAAAC CCAAABBBB CCC
SST would reorganize the three files so that all of their
parts would be contiguous....
AAAAAAAAAAAAABBBBBBBBBBBBCCCCCC
This change would shorten the amount of time that it takes
DOS to read in the file. If a subdirectory is fragmented,
fixing it will speed up disk access time even more
noticeably!
Syntax: SST [d:] [ TEST] [ CLEAR]
TEST - will run SST in a READ-ONLY mode. No
alterations will be made to the disk.
CLEAR - will Clear move all erased entries in all
directories to the ends of those directories.
__________________________________________________________
SO WHATS SO GREAT ABOUT SST?
The main difference between SST and other Disk Optimizing
programs is the way that SST achieves the end result. SST
was designed to be FAST. SST is also NOT copy-protected
and never will be.
SST reads in all of the data that it will need during the
run session and Keeps this information in memory.
Specifically, SST uses DOS Interrupts 25h and 26h to look
at the boot track and other parts of the disk.
Information about the disks' characteristics are stored
there. SST makes a quick comparison of the data it gets
here with what DOS thinks about the disk. If these two
sets of data agree with each other, SST will read in the
disks File Allocation Table, Root Directory and All
subdirectories. ALL of this information is kept in memory
during the SST session.
SST then decides on the best way to reorganize the disk's
clusters. When this is finished, the user is prompted (Y
or N) to continue or not.
A "Y" response to the above question will start the File
Cluster Swapping procedure. Here, the actual file data is
physically moved. All data is buffered IN MEMORY. When
SST is finished SWAPPING, it then updates the File
Allocation table on the disk, and all directories.
Some disk optimization programs use the slower and safer
method of buffering file data to the disk. While this
practically eliminates the chances of data losses because
of accidents such as power failures, it makes the program
run incredibly slow on a nearly full disk.
SST DISADVANTAGES:
WARNING: It is strongly advised that the user back up his
disk before using SST. Since SST buffers all Data,
Tables, and Directories to Memory,
IF A POWER FAILURE OCCURS WHILE CLUSTER SWAPPING IS IN
ACTION... ALL DATA WILL BE LOST.
The Same thing goes for ANY interruption during the SWAP
procedure. Simply LEAVE SST alone after pressing "Y" when
prompted!
SST assumes that all disk sectors that are bad are so
marked in the File Allocation Table. If you have a Hard
disk that causes you problems... I.E. it develops
unexpected bad Sectors regularly, Don't use SST on it
unless you have verified that the disk is currently OK.
One way of doing this is with Peter Norton's DiskTest
Program in his Norton Utilities Package. (CopyRight Peter
Norton).
THE SST USER:
SST is intended for Computer users who have the ability to
quickly back up their disk and who don't have the time to
waste for a simple disk optimization. Other disk
optimizers can take many hours to work on a LARGE/FULL
disk. SST can usually handle these more quickly. For
Example, SST has reorganized a 32 MEG Hard disk on an AT
compatible in under 30 minutes. This particular
Optimization moved over 20 Meg of data. Zero Bytes were
free on the disk.
SST LIMITATIONS:
SST is designed to run only in a single user, non-multi-
tasking system without stay resident programs installed.
SST can perform an optimization on almost any standard DOS
disk up to 32 Megabytes in size as long as sectors are 512
bytes long. However, it should be noted that SST needs a
lot of memory to work with Bigger disks. If SST runs out
of memory, a runtime error FF will halt the program. This
error typically occurs while SST is reading in the
Subdirectories and before anything is moved or changed on
the disk. SST's Memory allocation routines will look to
see if enough memory is available when the "BIG BYTES" are
needed. A lack of memory returns a message along with the
Runtime Error FF message. The Smaller Dynamic Memory
allocations are not PreChecked. These routines are called
many times... (Thousands of times on Hard disks) and it
would slow things up a great deal to do a bunch of
calculations every time that 16 bytes were needed,
especially since SST's Library Routines AUTOMATICALLY
check on Stack/Heap memory availability in order to
generate this Runtime Error.
If SST just can't quite make it to the SWAPPING procedure
with the memory that you have, you can do a few things to
try and get it to run.
Simply do a cold boot without any unneeded device drivers
like ANSI.SYS in the system. Temporarily rename your
CONFIG.SYS file to something else and boot up without any
of the other DOS parameters that you may specify that eat
up memory (BUFFERS=##). SST does not use Dos' DISK buffers
to move any disk cluster data. Don't run ANY Stay Resident
programs before SST. The extra 1 or 2K of free memory
gained with these methods has proven to be enough before!
MEMORY USAGE SPELLED OUT:
SST uses 16 bytes of memory for every used cluster on the
disk. This translates to 262k for a completely full 32Meg
Hard disk. SST uses 32 bytes of memory for every active
directory entry on the disk. One thousand files would use
up 32000 bytes of RAM. SST will buffer out one complete
copy of the File allocation Table. This would use up
another 32K of ram on a 32Meg Hard Drive. The program
also needs another 64k for dynamic variables when run on a
32Meg drive.....
As you can see, this all adds up very quickly. If you
plan to run SST on a 32Meg drive, you will need at LEAST
512K, If you have 640K, you should not have memory
problems with SST and a 32 Meg Drive.
For smaller drives such as 20 Meg and 10 Meg, The memory
requirements are much lower.
__________________________________________________________
* DISCLAIMER *
The author makes no claims or guarantees about the use
misuse, or suitability of SST on a particular computer.
It is the users duty to take adequate precautions to
prevent and recover from any accidental data loss because
of power failure or any other cause.