CWSDPMI is Copyright (C) 1995-2010  Charles W Sandmann (cwsdpmi@earthlink.net)
                                    1206 Braelinn, Sugar Land, TX 77479

This is release 7.  The files in this binary distribution may be redistributed
under the GPL (with source) or without the source code provided:

* CWSDPMI.EXE or CWSDPR0.EXE are not modified in any way except via CWSPARAM.

* CWSDSTUB.EXE internal contents are not modified in any way except via
  CWSPARAM or STUBEDIT.  It may have a COFF image plus data appended to it.

* Notice to users that they have the right to receive the source code and/or
  binary updates for CWSDPMI.  Distributors should indicate a site for the
  source in their documentation.

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The purpose of this release is to allow high performance access to large
amounts of physical memory (up to 4GB).  Memory above 32-bit address space
(common on machines over 3GB physical memory) will be mapped to fill the
address hole to provide a full 4GB memory.  4MB pages will be automatically
used for large memory requests.  Release 5 works well for systems using 256MB
or less of memory; release 7 is useful for quick access to over 500MB.

Known limitations with 4MB pages:
 1) 4Mb regions are treated as locked (non-pageable).  Virtual memory may be
    less effective.
 2) DPMI 1.0 extensions to manage page attributes will not work on 4MB pages.
 3) DPMI function 0x503 to resize memory is not supported if it requires the
    memory zone to be moved in physical memory and it contains a 4Mb page.
Note: CWSPARAM bit 3, (bitmask 8) can be used to suppress using 4Mb pages.

CWSDPMI was written to provide DPMI services for V2 of DJGPP.  It
does not support 16-bit DPMI applications, or DPMI applications requiring a
built in extender.  It does support virtual memory and hardware interrupt
reflection from real mode to protected mode.  DJGPP V1.1x and RSX applications
will also run using this server, which can be used to provide enhanced control
over hardware interrupts.  Some DPMI 1.0 extensions (0x506, 0x507, 0x508) have
been implemented.

CWSDPR0.EXE is an alternate version which runs at ring 0 with virtual memory
disabled.  It may be used if access to ring-0 features are desired.  It
currently does not switch stacks on HW interrupts, so some DJGPP features
such as SIGINT and SIGFPE are not supported and will generate a double fault
or stack fault error (to be fixed someday).

CWSDSTUB.EXE is a stub loader image for DJGPP which includes CWSDPMI.  This
allows single executable image distributions.  You can use the EXE2COFF
program and COPY /B CWSDSTUB.EXE+yourimage yourimage.exe to create a
standalone executable image.  CWSDSTR0.EXE is the ring 0 stub.

Some of the internal tuning and configuration parameters may be modified
in the image using CWSPARAM.EXE (see CWSPARAM.DOC).

If you want to use CWSDPMI with DJGPP, you expand the distribution into the
DJGPP directory tree.  CWSDPMI.EXE will be put in the BIN directory with your
DJGPP images and it will automatically be loaded when they run.

Directions for use (server can be used in either of two different ways):

1) "cwsdpmi" alone with no parameters will terminate and stay resident
   FOR A SINGLE DPMI PROCESS.  This means it unloads itself when your
   DPMI application exits.  This mode is useful in software which needs
   DPMI services, since CWSDPMI can be exec'ed and then will unload on exit.

2) "cwsdpmi -p" will terminate and stay resident until you remove it.
   It can be loaded into UMBs with LH.  "cwsdpmi -u" will unload the TSR.

3) The file used for virtual memory swapping, if desired, is controlled
   by the "-sc:\cwsdpmi.swp" syntax on the command line.  You must specify
   either a file with full disk/directory syntax, or "-s-" which disables
   virtual memory.  If -s is used, it must be the last option on the command
   line, since all characters after -s will be treated as the swap file name.

4) The default swap file name is c:\cwsdpmi.swp, but this can be changed
   with the CWSPARAM image, as can some other parameters.

5) You can disable the DPMI 1.0 extensions by starting the image with the
   "cwsdpmi -x" syntax.  This feature allows you to run programs developed
   under other DPMI providers which do not behave properly with these
   extensions enabled (typically use of NULL pointers).

If you are using an EMM provider for UMBs, CWSDPMI will need to use VCPI.
VCPI memory prevents usage of 4MB pages, so for best performance with an EMM
provider I recommend suppressing VCPI memory.  For example, with JEMM386
this can be done with:  JEMM386 LOAD MAX=0

I would like to give special thanks to DJ Delorie who wrote the original
GO32 code on which CWSDPMI is based.  Morten Welinder also provided and
improved much of the code in this program.

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This section contains a list of the error messages you might see out of
CWSDPMI and some details on what they mean.

Exceptions are only handled by CWSDPMI if the application does not establish
an exception handler, exceptions nest 5 deep, or the error is particularly bad:

"Page fault" -
  1) an illegal page fault happens in a RMCB or HW interrupt, (lock all pages!)
  2) all available pages have been locked,
  3) the application is using non-committed pages for null pointer protection.
"Double Fault" - multiple exceptions occurred
"Invalid TSS" - typically due to RMCB or HW interrupt being called after the
   selectors/memory have been deallocated (remember to reset the mouse)
"General Protection Fault" - bad parameter sent to a DPMI call

"80386 required."

Since 80286 and lesser processors don't have the hardware necessary to
run CWSDPMI.  No workaround, upgrade.

"DOS 3 required."

A few interrupts are used which need DOS 3.0 or higher.  I don't expect to
ever see this message, since 80386 machines were introduced after DOS 3.0
and that check is made first.

"CWSDPMI V0.90+ (r7) Copyright (C) 2010 CW Sandmann  ABSOLUTELY NO WARRANTY"

An informational message displayed if the program is not run in one-pass mode.

"Protected mode not accessible."

This message should only be displayed if running CWSDPMI in a protected
environment with no access to protected mode.  In this case, DPMI should
already be available and CWSDPMI would not be needed.  This might happen if
a 16-bit DPMI client is loaded and a DJGPP image attempts to load CWSDPMI
to provide 32-bit DPMI services under Windows.

"Warning: cannot open swap file c:\cwsdpmi.swp"

Maybe you are out of file handles, or the swap file name is incorrectly
specified in the image (change the name with cwsparam).

"No swap space!"

This message means you tried to use more swap file than CWSDPMI was
configured to handle.  Since this is protected against in the memory
allocation code you should never see this message, except when swapping
is disabled and you run out of DOS memory for page tables (greater than
400MB of memory without 4MB pages).

"Swap disk full!"

This means the swap file could not be expanded when trying to swap
memory out to disk.  This would normally not be seen, unless you are
writing output to the same disk which holds the swap file.  Decrease
the amount of memory your DPMI application is using or free up disk space.

"Interrupt 0x??"

Your application tried to call an interrupt from protected mode which
normally shouldn't be called (something like a data pointer).  If the
request was allowed to continue it would likely hang your machine.  If you
see this message and think the interrupt should be allowed to continue, let
me know.

"Error: Using XMS switched CPU into V86 mode."

This message might be seen if you have your memory manager in AUTO mode.  The
only workaround in this case is to stop using AUTO mode.

"Error: could not allocate page table memory"

The page table memory (a minimum of 16Kb) is allocated from conventional
memory (either in the 640Kb region or UMBs).  If CWSDPMI cannot allocate the
minimum necessary memory, you would see this message.  Free up some
conventional memory.  You may also see this message if a page directory needs
to be faulted in, and there are no available pages.  This means too many pages
have been locked for the allocated page tables available.  While CWSDPMI
tries to dynamically allocate these if needed, this effort failed.  You need
to increase the number of page tables with CWSPARAM, or increase the amount
of free conventional memory if it is low.  If the application which calls
CWSDPMI internally manages all the DOS memory, the page tables may need to
be pre-allocated at DPMI startup time (if this is needed, try using the
run option flag 2 in cwsparam).

"16-bit DPMI unsupported."

CWSDPMI is a 32-bit only DPMI server.  Ideally, on the request to enter DPMI's
PM with a 16-bit request, we would just fail the call setting the carry bit
like the DPMI specification describes.  Some buggy 16-bit compiler tools don't
check the return status and will hang the machine in this case.  So, I issue
an error message and exit the image instead.

"Descriptors exhausted."

An attempt to nest a DPMI client failed in the setup phase due to insufficient
free selectors in the LDT.

"CWSDPMI not removed"

When the -u parameter is specified, if DPMI is not detected this message is
printed.  Informational.