VDDR/2 - C Language Virtual DevHlp Services

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Reprint Courtesy of International Business Machines Corporation, © International Business Machines Corporation

Virtual Device Driver Reference for OS/2
Part 1. Overview
Introduction
Virtual Device Driver Architecture and Operations

Part 2. Virtual Device Drivers

Base Virtual Device Drivers
Installable Virtual Device Drivers
Virtual Mouse Device Driver

Part 3. Reference Material

C Language Virtual DevHlp Services

Appendixes

OS/2 Version Compatibility Considerations
Assembler Language Syntax
Notices
Glossary

Contents

C Language Virtual DevHlp Services

Virtual DevHlp functions are used by virtual device drivers to access various services provided by the OS/2 operating system and by other virtual device drivers. These functions are provided because normal OS/2 API calls from a virtual device driver and routines in a C-language run-time library cannot be used for access purposes.

The virtual DevHlp services are categorized in the following list and subsequent sections. Individual functions follow and are listed alphabetically with an explanation of their purpose, parameters, and calling conventions.

Function Type
#VDHAllocBlock byte-granular memory management service
#VDHAllocDMABuffer DMA service
#VDHAllocDOSMem byte-granular memory management service
#VDHAllocHook hook management service
#VDHAllocMem byte-granular memory management service
#VDHAllocPages page-granular memory management service
#VDHArmBPHook hook management service
#VDHArmContextHook hook management service
#VDHArmReturnHook hook management service
#VDHArmSTIHook hook management service
#VDHArmTimerHook timer service
#VDHArmVPMBPHook DPMI service
#VDHBeginUseVPMStack DPMI service
#VDHCallOutDMA DMA service
#VDHChangeVPMIF DPMI service
#VDHCheckPagePerm DPMI service
#VDHCheckVPMIntVector DPMI service
#VDHClearVIRR Virtual interrupt service
#VDHClose file or device I/O service
#VDHCloseVDD inter-device communication service
#VDHCloseVIRQ Virtual interrupt service
#VDHCopyMem byte-granular memory management service
#VDHCreateBlockPool byte-granular memory management service
#VDHCreateSel GDT selector service
#VDHCreateSem semaphore service
#VDHDecodeProperty DOS settings service
#VDHDestroyBlockPool byte-granular memory management service
#VDHDestroySel GDT selector service
#VDHDestroySem semaphore service
#VDHDevBeep miscellaneous virtual DevHlp service
#VDHDevIOCtl file or device I/O service
#VDHDisarmTimerHook timer service
#VDHEndUseVPMStack DPMI service
#VDHEnumerateVDMs miscellaneous virtual DevHlp service
#VDHExchangeMem byte-granular memory management service
#VDHFindFreePages page-granular memory management service
#VDHFreeBlock byte-granular memory management service
#VDHFreeDMABuffer DMA service
#VDHFreeHook hook management service
#VDHFreeMem byte-granular memory management service
#VDHFreePages page-granular memory management service
#VDHFreezeVDM DOS session control service
#VDHGetCodePageFont miscellaneous virtual DevHlp service
#VDHGetDirtyPageInfo page-granular memory management service
#VDHGetError miscellaneous virtual DevHlp service
#VDHGetFlags miscellaneous virtual DevHlp service
#VDHGetSelBase DPMI service
#VDHGetVPMExcept DPMI service
#VDHGetVPMIntVector DPMI service
#VDHHaltSystem DOS session control service
#VDHHandleFromPID miscellaneous virtual DevHlp service
#VDHHandleFromSGID miscellaneous virtual DevHlp service
#VDHInstallFaultHook page-granular memory management service
#VDHInstallIntHook hook management service
#VDHInstallIOHook hook management service
#VDHInstallUserHook hook management service
#VDHIsVDMFrozen DOS session control service
#VDHKillVDM DOS session control service
#VDHLockMem memory-locking memory management service
#VDHMapPages page-granular memory management service
#VDHOpen file or device I/O service
#VDHOpenPDD inter-device communication service
#VDHOpenVDD inter-device communication service
#VDHOpenVIRQ Virtual interrupt service
#VDHPhysicalDisk file or device I/O service
#VDHPopInt V8086 stack manipulation service
#VDHPopRegs V8086 stack manipulation service
#VDHPopStack V8086 stack manipulation service
#VDHPopup miscellaneous virtual DevHlp service
#VDHPostEventSem semaphore service
#VDHPrintClose parallel port and printer service
#VDHPushFarCall V8086 stack manipulation service
#VDHPushInt V8086 stack manipulation service
#VDHPushRegs V8086 stack manipulation service
#VDHPushStack V8086 stack manipulation service
#VDHPutSysValue miscellaneous virtual DevHlp service
#VDHQueryFreePages page-granular memory management service
#VDHQueryHookData hook management service
#VDHQueryLin miscellaneous virtual DevHlp service
#VDHQueryKeyShift keyboard service
#VDHQueryProperty DOS settings service
#VDHQuerySel GDT selector service
#VDHQuerySem semaphore service
#VDHQuerySysValue miscellaneous virtual DevHlp service
#VDHQueryVIRQ Virtual interrupt service
#VDHRaiseException DPMI service
#VDHRead file or device I/O service
#VDHReadUBuf DPMI service
#VDHReallocPages page-granular memory management service
#VDHRegisterAPI Register API handler
#VDHRegisterDMAChannel DMA service
#VDHRegisterProperty DOS settings service
#VDHRegisterVDD inter-device communication service
#VDHReleaseCodePageFont miscellaneous virtual DevHlp service
#VDHReleaseMutexSem semaphore service
#VDHRemoveFaultHook page-granular memory management service
#VDHRemoveIOHook hook management service
#VDHReportPeek idle DOS application management service
#VDHRequestMutexSem semaphore service
#VDHRequestVDD inter-device communication service
#VDHReservePages page-granular memory management service
#VDHResetEventSem semaphore service
#VDHSeek file or device I/O service
#VDHSendVEOI Virtual interrupt service
#VDHSetDosDevice miscellaneous virtual DevHlp service
#VDHSetError miscellaneous virtual DevHlp service
#VDHSetFlags miscellaneous virtual DevHlp service
#VDHSetIOHookState hook management service
#VDHSetPriority DOS session control service
#VDHSetVIRR Virtual interrupt service
#VDHSetVPMExcept DPMI service
#VDHSetVPMIntVector DPMI service
#VDHSwitchToVPM DPMI service
#VDHSwitchToV86 DPMI service
#VDHThawVDM DOS session control service
#VDHUnlockMem memory-locking memory management service
#VDHUnreservePages page-granular memory management service
#VDHWaitEventSem semaphore service
#VDHWaitVIRRs Virtual interrupt service
#VDHWakeIdle idle DOS application management service
#VDHWakeVIRRs Virtual interrupt service
#VDHWrite file or device I/O service
#VDHWriteUBuf DPMI service
#VDHYield DOS session control service

Some Notes on Virtual DevHlp Services

Passing Addresses of Buffers

The SSToDS macro must be used when passing the address of a frame (automatic) variable in a function call because the 32-bit code assumes SS= DS. Pointers allocated from the stack must be DS-relative.

Function Definitions and Calling Conventions

All virtual DevHlp services are 32-bit NEAR functions. For a description of the calling conventions, refer to the function prototype definition VDHENTRY located in the MVDM.INC include file included with the Developer's Toolkit for OS/2.

When using the virtual DevHlp services, the function being called is responsible for cleaning up the stack. This means that when you call a virtual DevHlp service, the function you call cleans up the stack; you do not have to pop the parameters off the stack after the call. This also means that when you register a hook (or callback) routine with a virtual DevHlp service, your hook routine is responsible for cleaning up the stack before it returns to the function that called it.

The virtual DevHlp services are called directly, as in CALL VDHFunction. This is in contrast to the physical device driver Device Helper services, which are called indirectly as in CALL [DevHlpFunction].

Syntax Examples

The syntax examples are shown in C language. For assembler language syntax examples, see Assembler Language Syntax.

Defined Constants and Type Definitions

Defined constants, that is, equate statements in an include file, and type definitions are widely used in OS/2. These constant values are defined in the master header files, MVDM.INC or .h, or in one of the files that MVDM. INC or .h includes. The defined constants and type definitions that are seen in the syntax examples should be used to provide a degree of machine and version independence.

Invalid Parameters and System Halts

In many of the virtual DevHlp functions, invalid parameters or other error conditions often cause a system halt because virtual device drivers run at Ring 0 and have free access to everything in the system.

Remarks Section

Each function description has a Remarks section at the end, which consists of three parts:

  • Context Issues: Indicates the specific contexts in which virtual DevHlps should be called.
  • DOS Session Termination: Indicates what the virtual device driver must do upon termination of a DOS session, for example, release resources.
  • Notes: These are miscellaneous function-specific notes about the function.

Virtual DevHlp Services by Category

Virtual DevHlp services can be divided into categories based on the type of service the virtual DevHlp provides. These categories are:

DMA Services

#VDHAllocDMABuffer Allocate DMA buffer
#VDHCallOutDMA Call virtual DMA device driver
#VDHFreeDMABuffer Free DMA buffer
#VDHRegisterDMAChannel Register DMA channel

DOS Session Control Services

#VDHFreezeVDM Freeze DOS session
#VDHHaltSystem Cause system halt
#VDHIsVDMFrozen Determine if DOS session is frozen
#VDHKillVDM Terminate DOS session
#VDHSetPriority Adjust DOS session scheduler priority
#VDHThawVDM Allow frozen DOS session to resume executing
#VDHYield Yield the processor

DOS Settings Services

#VDHDecodeProperty Decode property string
#VDHQueryProperty Query virtual device driver property value
#VDHRegisterProperty Register virtual device driver property

DPMI Services

#VDHArmVPMBPHook Obtain address of DOS session protect-mode breakpoint
#VDHBeginUseVPMStack Begin using DOS session protect-mode stack
#VDHChangeVPMIF Change virtual Interrupt Flag (IF)
#VDHCheckPagePerm Check Ring 3 page permissions
#VDHCheckVPMIntVector Determine if DOS session protect-mode handler exists
#VDHEndUseVPMStack End use of DOS session protect-mode stack
#VDHGetSelBase Get flat base address
#VDHGetVPMExcept Get DOS session protect-mode exception vector
#VDHGetVPMIntVector Return DOS session protect-mode interrupt vector
#VDHRaiseException Raise an exception to a DOS session
#VDHReadUBuf Read from protect-mode address space
#VDHSetVPMExcept Set DOS session protect-mode exception vector
#VDHSetVPMIntVector Set DOS session protect-mode interrupt vector
#VDHSwitchToVPM Switch DOS session to protect mode
#VDHSwitchToV86 Switch DOS session to V86 mode
#VDHWriteUBuf Write to protect-mode address space

Note: "VPM", as found in the function names above, stands for Virtual Protect Mode.

File or Device I/O Services

#VDHClose Close a file handle
#VDHDevIOCtl Issue device-specific commands
#VDHOpen Open a file or device
#VDHPhysicalDisk Get information about partitionable disks
#VDHRead Read bytes from file or device
#VDHSeek Move read or write file pointer for a handle
#VDHWrite Write bytes to file or device

GDT Selector Services

#VDHCreateSel Create GDT selector to map a linear range
#VDHDestroySel Destroy GDT selector
#VDHQuerySel Get selector for data or stack address

Hook Management Services

#VDHAllocHook Allocate hooks needed for interrupt simulation
#VDHArmBPHook Obtain address of V86 breakpoint
#VDHArmContextHook Set local or global context hook
#VDHArmReturnHook Set handler to receive control
#VDHArmSTIHook Set handler to receive control
#VDHFreeHook Disarm and free hook
#VDHInstallIntHook Set handler for V86 interrupt
#VDHInstallIOHook Install I/O port hooks
#VDHInstallUserHook Install handler for DOS session event
#VDHQueryHookData Returns pointer to hook reference data
#VDHRemoveIOHook Remove hooks for PIC I/O ports
#VDHSetIOHookState Enable/disable I/O port trapping

Idle DOS Application Management Services

#VDHReportPeek||Report DOS session polling activity
#VDHWakeIdle Wake up DOS session

Note: The services above indicate when a DOS application appears to be idle, and when activity exists that could make the DOS application BUSY.

Inter-Device-Communication Services

#VDHCloseVDD Close virtual device driver
#VDHOpenPDD Open physical device driver
#VDHOpenVDD Open virtual device driver
#VDHRegisterVDD Register virtual device driver entry points
#VDHRequestVDD Issue request for virtual device driver operation

Keyboard Services

#VDHQueryKeyShift Query keyboard shift state

Memory Management Services

There are three sub-categories of the memory management virtual DevHlp services. The first two are used for the granularity of the memory allocation unit; the third category is used for memory-locking services.

Byte-Granular Memory Management Services

#VDHAllocBlock Allocate block from memory block pool
#VDHAllocDOSMem Allocate block of memory from DOS area
#VDHAllocMem Allocate small amount of memory
#VDHCopyMem Copy from one linear memory address to another
#VDHCreateBlockPool Create memory block pool
#VDHDestroyBlockPool Destroy memory block pool
#VDHExchangeMem Exchange contents of two linear memory regions
#VDHFreeBlock Free block of memory
#VDHFreeMem Free memory

Page-Granular Memory Management Services

#VDHAllocPages Allocate page-aligned memory object
#VDHFindFreePages Find largest available linear memory
#VDHFreePages Free memory object
#VDHGetDirtyPageInfo Return status of dirty bits
#VDHInstallFaultHook Install page fault handler
#VDHMapPages Map specified linear address
#VDHQueryFreePages Return amount of free virtual memory
#VDHReallocPages Reallocate memory object
#VDHRemoveFaultHook Remove page fault handler
#VDHReservePages Reserve range of linear addresses
#VDHUnreservePages Unreserve range of linear addresses

Memory-Locking Memory Management Services

#VDHLockMem Verify access or lock memory
#VDHUnlockMem Release memory lock

Note: The services above allow virtual device drivers to allocate, free, reallocate, and lock memory for global, per-DOS session, page-granular, or byte-granular objects.

Four types of mappings are supported:

  • Mapping to a physical address
  • Mapping to another linear address
  • Mapping to black holes (don't care) pages
  • Mapping to invalid (unmapped) pages

Virtual device drivers can also request smaller memory allocations from the kernel heap, which is global and fixed. Small, fixed size block services are available to speed up frequent allocations and freeing of memory. For a particular block size, a pool of blocks is maintained and the requirements are met by taking off a block from the block pool.

Miscellaneous Virtual DevHlp Services

#VDHDevBeep Device beep virtual DevHlp service
#VDHEnumerateVDMs Run worker function for each DOS session
#VDHGetCodePageFont Return information of DOS session code page font
#VDHGetError Get error code from last virtual DevHlp service
#VDHGetFlags Get DOS Session's EFLAGS Register
#VDHHandleFromPID Get handle for given Process ID
#VDHHandleFromSGID Get DOS session handle from Screen Group ID
#VDHPopup Display message
#VDHPutSysValue Set system value
#VDHQueryLin Get linear address for Far16 address
#VDHQuerySysValue Query system value
#VDHRegisterAPI Register API handler
#VDHReleaseCodePageFont Release code page font
#VDHSetDosDevice Register/install DOS device driver
#VDHSetError Set error code
#VDHSetFlags Set DOS session flags register

Parallel Port and Printer Services

#VDHPrintClose Flush and close open printers for DOS session

Semaphore Services

#VDHCreateSem Create event or mutex semaphore
#VDHDestroySem Destroy semaphore
#VDHPostEventSem Post event semaphore
#VDHQuerySem Query semaphore state
#VDHReleaseMutexSem Release mutex semaphore
#VDHRequestMutexSem Request mutex semaphore
#VDHResetEventSem Reset event semaphore
#VDHWaitEventSem Wait on event semaphore

Note: The services above are used for synchronizing with an OS/2 process. Virtual device drivers must be careful not to block (VDHRequestMutexSem/ VDHWaitEventSem) in the context of a DOS session task. Otherwise, that task will receive no more simulated hardware interrupts until it becomes unblocked.

Timer Services

#VDHArmTimerHook Set timer service/handler
#VDHDisarmTimerHook Cancel timer service

Virtual Interrupt Services

#VDHClearVIRR Clear virtual IRR
#VDHCloseVIRQ Deregister IRQ handler
#VDHOpenVIRQ Register IRQ handler
#VDHQueryVIRQ Query IRQ status on a DOS session
#VDHSendVEOI Send virtual EOI to VPIC
#VDHSetVIRR Set virtual interrupt request register (IRR)
#VDHWaitVIRRs Wait until interrupt is simulated
#VDHWakeVIRRs Wake up DOS session

V8086 Stack Manipulation Services

#VDHPopInt Remove IRET frame from client DOS session stack
#VDHPopRegs Pop client DOS session registers from client stack
#VDHPopStack Pop data off client stack
#VDHPushFarCall Simulate Far Call to V86 code
#VDHPushInt Transfer control to V86 interrupt handler
#VDHPushRegs Push client DOS session registers onto client stack
#VDHPushStack Push data onto client stack

VDHAllocBlock

Format
This function allocates a block from the specified memory block pool. This block is allocated from fixed or swappable memory, depending on the value of the OptionFlag flag when the block is created with VDHCreateBlockPool.
#include mvdm.h

HBLOCK    SourceBlockPool;  /*  Handle to a memory block pool */
PVOID     rc;

rc = VDHAllocBlock(SourceBlockPool);
Parameters
SourceBlockPool (HBLOCK) Handle to the pool of memory blocks from which to allocate a memory block.
rc (PVOID) - returns
Success: If the function is successful, it returns the address of the allocated memory block.
Failure: If the function fails, it returns 0. VDHGetErrorshould be called to determine the nature of the problem. Note that passing an invalid memory block handle causes a system halt to occur.
Purpose
Context Issues: This function can be called in the initialization or task context.
DOS Session Terminations: Any blocks allocated by a virtual device driver for use by the terminating DOS session are freed by using VDHFreeBlock. Any block pools created for the DOS session should also be freed.

VDHAllocDMABuffer

Format
This function allocates a DMA buffer.

#include <mvdm.h>
ULONG  RequestSize;  /* Request size */
BOOL   Align64kFlag; /* Alignment flag */
PULONG PhysAddrPtr;  /* Location to store the physical address returned */
PVOID   rc;

rc = VDHAllocDMABuffer(RequestSize, Align64kFlag, PhysAddrPtr);

Parameters
RequestSize (ULONG) Request Size.
If the Align64kFlag=1, RequestSize is always less than or equal to 64KB. If the Align64kFlag=0, RequestSize is always less than or equal to 128KB.
Align64kFlag (BOOL) Alignment flag.
If Align64kFlag=1, the buffer is at a 64KB alignment in physical memory. If Align64kFlag=0, the buffer is at a 128KB alignment in physical memory.
PhysAddrPtr (PULONG) Location where VDHAllocDMABuffer returns the physical address of the allocation.
rc (PVOID) - returns
Success: If the function is successful, it returns the linear address of allocation (system memory).
Failure: If the function fails, it returns -1. VDHGetError should be called to determine the nature of the problem.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: The virtual device driver frees the buffer by using VDHFreeDMABuffer at DOS session termination.

Notes: Physical memory is allocated resident and contiguous, and is always in the first 16MB. The Linear Memory range comes from the system arena. The contents of the returned buffer are not important; that is, the buffer is not zero-filled.

VDHAllocDOSMem

Format
This function allocates a block of memory from the DOS memory area. Allocations start at 0 bytes and go to 256KB.
#include mvdm.h

ULONG    BlockSize;  /*  Size of the desired memory block (in bytes) */
PVOID    rc;

rc = VDHAllocDOSMem(BlockSize);
Parameters
BlockSize (ULONG) Size of the desired memory block; the number of bytes to allocate.
rc(PVOID) - returns
Success: If the function is successful, it returns the address of the allocated memory block.
Failure: If the function fails, it returns 0. VDHGetError should be called to determine the nature of the problem. If BlockSize= 0, or if the function is called in an invalid context (see "Context Issues" below), a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context (DOS session creation).
DOS Session Terminations: There are no DOS session termination implications for this function. The DOS Session Manager frees this memory.

Notes: There is no way to free memory taken from the DOS heap. If there is no free memory in the DOS memory area, the allocation fails. Allocations always start on paragraph (16-byte) boundaries.

VDHAllocHook

Format
This function is used to allocate a hook handle for the arm hook services: Context, STI, Return, Timer, and BP (breakpoint).
#include mvdm.h

ULONG     HookType;     /* Hook type */
PFNARM    ArmHookFcn;   /* Arm hook function */
ULONG     RefDataSize;  /* Size of the reference data */
HHOOK     rc;

rc = VDHAllocHook(HookType, ArmHookFcn, RefDataSize);
Parameters
HookType (ULONG) Hook type.
Possible values are:
VDH_CONTEXT_HOOK VDHArmContextHook
VDH_STI_HOOK VDHArmSTIHook
VDH_RETURN_HOOK VDHArmReturnHook
VDH_TIMER_HOOK VDHArmTimerHook
VDH_BP_HOOK VDHArmBPHook
ArmHookFcn (PFNARM) Arm hook function.
RefDataSize (ULONG) Size of the reference data.
rc (HHOOK) - returns
Success: If the function is successful, it returns a hook handle, which is used in the Arm services.
Failure: If there is an error, the function returns NULL. VDHGetError should be called to determine the nature of the problem. If HookType or ArmHookFcn is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or DOS session-task context. However, VDH_RETURN_HOOK and VDH_BP_HOOK require the DOS session-task context.
DOS Session Terminations: During initialization time, hooks are allocated globally; that is, they are not associated with a DOS session process. These hooks are not automatically freed when a DOS session terminates. During DOS session creation time or thereafter, allocated hooks are associated with the current DOS session, and are freed when that DOS session terminates.

Notes: Use VDHQueryHookData to get a pointer to any reference data allocated.

VDHAllocMem

Format
This function allocates a small amount of memory on a LONG/DWORD boundary. The memory is allocated from the system area, so the address is valid in all process contexts.
#include mvdm.h

ULONG    NumBytes;
ULONG    OptionFlag;  /* Number of bytes to allocate */
PVOID    rc;

rc = VDHAllocMem(NumBytes, OptionFlag);
Parameters
NumBytes (ULONG) Number of bytes to allocate.
OptionFlag (ULONG) Bit flag describing the allocation options.
Possible value:
VDHAM_SWAPPABLE Allocate memory from the swappable heap. Otherwise, memory is allocated from the fixed heap and can be accessed at hardware interrupt time.
rc (PVOID) - returns
Success: If the function is successful, it returns the address of the allocated space.
Failure: If the function fails, it returns 0. VDHGetError should be called to determine the nature of the problem. If either NumBytes or OptionFlag is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or task context.
DOS Session Terminations: All memory allocated by a virtual device driver for use by the terminating DOS session is freed by using VDHFreeMem.

Notes: Allocations larger than one page are performed by using VDHAllocPages. To access the allocated memory at hardware interrupt time, be sure to allocate memory from the fixed heap.

VDHAllocPages

Format
This function allocates a page-aligned, page-granular memory object.

#include mvdm.h
PVOID StartingAddress; /* A specific linear address */
ULONG NumPages;        /* The number of pages to allocate */
ULONG OptionFlag;      /* Allocation options bit-flag */
PVOID rc;

rc = VDHAllocPages(StartingAddress, NumPages, OptionFlag);

Parameters
StartingAddress (PVOID) A specific address used with the available options (see Option Flag).
NumPages (ULONG) Number of pages of linear memory to allocate.
OptionFlag (ULONG) Bit flag indicating choices in allocation options.
This flag can take one or more of the following values:
VDHAP_SPECIFIC VDHAllocPages attempts to allocate pages starting at the linear address, StartingAddress. Otherwise, an arbitrary linear address is selected.
VDHAP_SYSTEM The linear address is allocated from the system (global) area, essentially allocating global memory. Otherwise, it is allocated from the private area of this process.
VDHAP_FIXED The allocated memory is fixed. Otherwise, the memory is swappable. This flag cannot be used if VDHAP_PHYSICAL is specified.
VDHAP_PHYSICAL The allocated linear address range maps the physical address range, starting at StartingAddress. Otherwise, an arbitrary physical page is assigned. Note that this flag cannot be used if VDHAP_FIXED is specified .
rc (PVOID) - returns
Success: If the function is successful, it returns the address of the allocated memory.
Failure: If the function fails, it returns 0. VDHGetError should be called to determine the nature of the problem. If the OptionFlag flag is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or task context. If called in the initialization context, VDHAP_SYSTEM must be specified. If called in the OS/2 task context, VDHAP_SYSTEM must also be specified.
DOS Session Terminations: Any allocations that are not in the terminating DOS sessions private area must be released by using VDHFreePages.

Notes: When an allocation made with VDHAllocPages is shrunk by VDHReallocPages, the linear range between the end of the allocation and the original end of the allocation remains available for object growth without movement. Regardless of VDHReallocPages activity, all pages in the allocation retain the same properties (that is fixed, system, and physical) .

VDHArmBPHook

Format
This function obtains the address of the V86 breakpoint allocated by a previous call to VDHAllocHook with the VDH_BP_HOOK flag.
#include mvdm.h

HHOOK     HookHandle;  /*  Hook handle */
VPVOID    rc;

rc = VDHArmBPHook(HookHandle);
Parameters
HookHandle (HHOOK) Hook handle allocated with VDHAllocHook.
Hook routine interface:

VOID HOOKENTRY fnarm(pRefData, pcrf)
ENTRY pRefData Pointer to hook-specific reference data
pcrf Pointer to client register frame
EXIT None
CONTEXT DOS session-task

rc (VPVOID) - returns
Success: If the function is successful, it returns a V86 breakpoint address.
Failure: If HookHandle is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context, and needs to be called only at DOS session creation time.
DOS Session Terminations: There are no DOS session termination implications for this function. BP (breakpoint) hooks are automatically removed during DOS session termination.

Notes: This VDH service provides a raw breakpoint service. Upon entry to the arm hook function, the client's CS:IP is randomly set. Therefore, it is crucial that this function set the CS:IP to a valid address. Typically, the CS:IP is retrieved from the client's stack through use of VDHPopStack. This is a low-level service. Appropriate care should be exercised to ensure that the client's CS:IP and stack remain valid.

Unlike other hooks, breakpoint hooks are armed until explicitly disarmed by a call to VDHFreeHook. When the V86 breakpoint address is called from V86 mode, the hook function is called. Any changes made to the client register frame cause the corresponding registers to take on these values upon return to V86 mode. The p parameter in the hook routine points to the cbRefData bytes of data allocated by VDHAllocHook.

VDHArmContextHook

Format
This function is used to get to a task-time context from interrupt time when an interrupt is simulated. This service adds a handler to the list of routines called the next time the task context is entered (global context), or the next time a specific DOS session-task context is reached (local context). This is done only once; the handler is removed from the list after it is executed.
#include mvdm.h

HHOOK    HookHandle;  /*  Hook handle allocated with VDHAllocHook */
HVDM     VDMHandle;   /*  DOS session handle */

VDHArmContextHook(HookHandle, VDMHandle);
Parameters
HookHandle (HHOOK) Hook handle allocated with VDHAllocHook.
VDMHandle (HVDM) DOS session handle. A value of -1 indicates a global context.
Hook routine interface:

VOID  HOOKENTRYfnarm(pRefData, pcrf)
ENTRY pRefData - Pointer to reference data
pcrf - Pointer to client register frame
EXIT||None
USES ||EAX, ECX, EDX, FS, GS, Flags
CONTEXT||Task (global) or DOS session-task (local)
NOTE||pcrf is valid only for local context hook handlers

Return Value
Success: If the function was successful, it returns nothing.
Failure: If HookHandle or VDMHandle is invalid, or if the hook is already armed, a system halt occurs.
Purpose
Context Issues: This function can be called in the task or interrupt context.
DOS Session Terminations: Any context hooks allocated in the context of the terminating DOS session are deallocated by the DOS Session Manager.

Notes: After calling this routine, the caller is guaranteed that the context hook will be executed before any user-space code (global context) or any V86 code in the specified DOS session (local context).

VDHArmReturnHook

Format
This function sets a service to receive control when an Interrupt Return (IRET) or Far Return (RETF) instruction is executed in V86 mode or when VDHPopInt is executed.
#include mvdm.h

HHOOK    HookHandle;   /*  Hook handle */
ULONG    RetHookType;  /*  Return hook type */
BOOL     rc;

rc = VDHArmReturnHook(HookHandle, RetHookType);
Parameters
HookHandle (HHOOK) Hook handles the routine to get control on an IRET/RETF. Allocated with VDHAllocHook.
RetHookType (ULONG) Return hook type.
Possible values are:
VDHARH_NORMAL_IRET
VDHARH_NORMAL_RET
VDHARH_RECURSIVE_IRET
VDHARH_RECURSIVE_RET
VDHARH_CSEIP_HOOK
VDHARH_RECURSIVE_CSEIP_HOOK
Hook routine interface:

VOID HOOKENTRY fnarm(pRefData, pcrf)
ENTRY pRefData - Pointer to reference data
pcrf - Pointer to client register frame
EXIT None
USES EAX, ECX, EDX, FS, GS, Flags
CONTEXT DOS session-task

rc (BOOL) - returns
Success: If the function was successful it returns a nonzero value.
Failure: If VDHARH_NORMAL_x is already armed, the function returns 0. If HookHandle is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: Any return hooks allocated in the context of the terminating DOS session are deallocated automatically by the DOS Session Manager.

Notes: The VDHARH_NORMAL_RET and VDHARH_RECURSIVE_RET return hook types can be made only after VDHPushFarCall has been called, but before returning to V86 mode. The return hook types, VDHARH_NORMAL_IRET and VDHARH_RECURSIVE_ IRET, can be made only in the following contexts:

  • Within a software interrupt handler set by VDHInstallIntHook
  • After VDHPushInt has been called, but before returning to V86 mode

The VDHARH_RECURSIVE_x return types push two extra WORDs on the client's stack before the IRET or RET frame. VDHARH_CSEIP_HOOK and VDHARH_RECURSIVE_ CSEIP_HOOK are meant to be used before a VDHPushInt or VDHPushFarCall, as it is more efficient to do this type of return hook first. Only the normal and recursive CS:EIP hooks will work in DOS session protected mode.

VDHArmSTIHook

Format
This function sets a handler to receive control when the current DOS session enables simulated interrupts. This handler is called only once. If interrupts are already enabled in the DOS session, the handler is called immediately.
#include mvdm.h

HHOOK    HookHandle;  /*  Hook handle allocated with VDHAllocHook */
HVDM     VDMHandle;   /*  DOS session handle */

VDHArmSTIHook(HookHandle, VDMHandle);
Parameters
HookHandle (HHOOK) Hook handle allocated with VDHAllocHook.
VDMHandle (HVDM) DOS session handle.
Hook routine interface:

VOID HOOKENTRY fnarm(pRefData, pcrf)
ENTRY pRefData - Pointer to reference data
pcrf - Pointer to client register frame
EXIT None
USES EAX, ECX, EDX, FS, GS, Flags
CONTEXT DOS session-task

Return Value
Success: If the function was successful, it returns nothing.
Failure: If either HookHandle or VDMHandle is invalid, or if the hook is already armed, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: Any STI hooks allocated in the context of the terminating DOS session are deallocated automatically by the DOS Session Manager.

Notes: Interrupt re-enabling detection is performed when the DOS session runs with IOPL = 0. This causes any instructions that might modify the interrupt flag to fault.

VDHArmTimerHook

Format
This function sets a timer handler to be called after a specified period of time has elapsed. The handler is called only once.
#include mvdm.h

HHOOK    HookHandle;  /*  Timer hook handle */
ULONG    Duration;    /*  Duration of the timeout in milliseconds */
HVDM     VDMHandle;   /*  DOS session handle */

VDHArmTimerHook(HookHandle, Duration, VDMHandle);
Parameters
HookHandle (HHOOK) Timer hook handle.
Duration (ULONG) Timer duration in milliseconds.
VDMHandle (HVDM) DOS session handle.
Possible values are:
DOS Session Handle or 0 When the specified time duration expires, a local context hook is automatically armed by using the specified HookHandle.
VDH_TIMER_GLOBAL_CONTEXT When the specified time duration expires, a global context hook is automatically armed by using the specified HookHandle.
VDH_TIMER_INTERRUPT_HOOK When the specified time duration expires, the timer hook specified by HookHandle is called at interrupt time.
Hook routine interface:

VOID HOOKENTRY pfn(pRefData)
ENTRY pRefData - Pointer to reference data
EXIT None
CONTEXT Interrupt

Note:This hook routine interface is for interrupt-type hooks only. For context-type hooks, see hook routine interface listed under VDHArmContextHook.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If either Duration or HookHandle is invalid or the hook is already armed, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization, task, or interrupt context.
DOS Session Terminations: Any timer hooks allocated in the context of the terminating DOS session are deallocated automatically by the DOS Session Manager at DOS session termination.

Notes: If type VDH_TIMER_INTERRUPT_HOOK, the timer handler cannot block since it executes at physical interrupt time.

VDHArmVPMBPHook

Format
This function obtains the address of the DOS session's protected-mode breakpoint allocated by a previous call to VDHAllocHook with the VDH_BP_ HOOK flag.
#include mvdm.h

HHOOK    HookHandle;  /*  Hook handle allocated with VDHAllocHook */
FPFN     rc;

rc = VDHArmVPMBPHook(HookHandle);
Parameters
HookHandle (HHOOK) Hook handle allocated with VDHAllocHook.
The hook routine interface:

VOID HOOKENTRY fnarm(pRefData, pcrf)
ENTRY pRefData - Pointer to hook-specific reference data
pcrf - Pointer to client register frame
EXIT None
CONTEXT DOS session-task

rc (FPFN) - returns
Success: If the function is successful, it returns a DOS session protected- mode breakpoint address.
Failure: If HookHandle is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Unlike other hooks, breakpoint hooks are armed until explicitly disarmed by a call to VDHFreeHook. When the breakpoint address is executed from DOS session protected mode, the hook function is called. Any changes made to the client register frame cause the corresponding registers to take on these values after returning to the DOS session. The p parameter in the hook routine points to the RefDataSize bytes of data allocated by VDHAllocHook.

VDHArmVPMBPHook provides a raw breakpoint service. On entry to the arm hook function, the client's CS:EIP is randomly set. It is therefore crucial that the virtual device driver's hook handler sets the CS:EIP to a valid address . Typically, the CS:EIP is retrieved from the client's stack through the use of VDHPopStack, which is a low-level service. Appropriate care should be exercised to ensure that the client's CS:EIP and stack remain valid.

The breakpoint address returned will be valid for all DPMI clients within the DOS session. The breakpoint address may be placed in the DPMI application's IDT (see #VDHSetVPMIntVector), but will have to be rehooked each time a DPMI task starts (see #VDHInstallUserHook).

There must be a protected-mode DPMI client running in the DOS session before calling this function.

VDHBeginUseVPMStack

Format
This function is used to switch to the DOS session's protected-mode stack for hardware interrupts, exceptions, and so forth. This service can be called repeatedly, but only the first call will switch stacks. Subsequent calls increment use, count but remain on the VPM stack.
#include mvdm.h

VOID    ;

VDHBeginUseVPMStack();
Parameters
None.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: There must be a DPMI client running in the DOS session before calling this function.

VDHCallOutDMA

Format
This function is used by the virtual DMA device driver (VDMA) to check how much DMA transfer has been completed, and to copy the contents from the temporary buffer to the DOS area.
If a virtual device driver owns a DMA channel, it must call the virtual DMA device driver for those interrupts that occur when a DMA request is pending on that channel. This service also indicates when the DOS session is done with the channel so that the channel can be given to another waiting DOS session.
#include mvdm.h

VOID    ;

VDHCallOutDMA();
Parameters
None.
Purpose
Context Issues: This function can be called in any context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHChangeVPMIF

Format
This function changes the virtual Interrupt Flag (IF) that enables or disables protected-mode interrupts. This change is reflected in a bit in the flVDMStatus kernel variable (see "Notes" under Purpose). If the STI hooks are waiting and interrupts are enabled, the hooks are called.
#include mvdm.h

BOOL    SetIFFlag;  /*  Indicates whether to turn the IF flag on or off */
BOOL    rc;

rc = VDHChangeVPMIF(SetIFFlag);
Parameters
SetIFFlag (BOOL) Indicates whether to turn the IF flag ON or OFF. If nonzero, set IF flag to 1 (one). If zero, set IF flag to 0 (zero).
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: Not applicable to this function.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: The flVDMStatus kernel variable is exported from the kernel. Any virtual device driver can refer to it directly. flVDMStatus is a DD-sized variable that contains various DOS session status flags relating to protected mode and the DOS Protected Mode Interface (DPMI).

The flVDMStatus flags indicate:

  • DPMI was initialized (protected mode was enabled)
  • 16-bit or 32-bit
  • The current execution mode (V86 or protected)

These flags and their values are:

VDM_STATUS_VPM_32 0x00000001 /* 32-bit DPMI application */
VDM_STATUS_VPM_APP 0x00000002 /* DPMI application started */
VDM_STATUS_VPM_EXEC 0x00000004 /* In DOS session protected mode*/
VDM_STATUS_VPM_IF_FLAG 0x00000010 /* Virtual IF flag */
VDM_STATUS_VPM_PERM 0x00000080 /* Protected mode allowed? */
VDM_STATUS_VPM_XDOS 0x00000100 /* DOS API extension active? */

VDHCheckPagePerm

Format
This function checks Ring 3 page permissions for a range of pages. This service fails if a Ring 3 client faults on any of the pages that have been checked.
#include mvdm.h

ULONG    BasePage;  /*  Base virtual page number */
PVOID    Reserved;  /*  Reserved; must be set to zero */
ULONG    NumPages;  /*  Number of pages to verify */
ULONG    Flag;      /*  Flag */
BOOL     rc;

rc = VDHCheckPagePerm(BasePage, Reserved,
       NumPages, Flag);
Parameters
BasePage (ULONG) Base virtual page number.
Reserved (PVOID) Reserved. Must be set to 0.
NumPages (ULONG) Number of pages to verify.
Flag (ULONG) Values are:
VPMPG_U Are the pages user-accessible?
VPMPG_W Are the pages writable?
VPMPG_R Are the pages readable (valid)?
VPMPG_X Are the pages executable?
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHCheckVPMIntVector

Format
This function returns a nonzero value if the application protected-mode interrupt vector is set.
#include mvdm.h

ULONG    Vector;  /*  Interrupt vector number */
BOOL     rc;

rc = VDHCheckVPMIntVector(Vector);
Parameters
Vector (ULONG) Interrupt vector number.
rc (BOOL) - returns
Success: If the function is successful it returns a nonzero value.
Failure: If there is no user-registered interrupt handler for the interrupt in Vector, the function returns 0 (zero).
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: There must be a DPMI client running in the DOS session before calling this function.

VDHClearVIRR

Format
This function clears the virtual Interrupt Request Register (IRR) in the Virtual Programmable Interrupt Controller (VPIC) of the specified DOS session for the IRQ specified. The simulation of interrupts to the specified DOS session is stopped on this IRQ level.
#include mvdm.h

HVDM    VDMHandle;  /*  DOS session handle */
HIRQ    IRQHandle;  /*  IRQ handle from VDHOpenVIRQ */

VDHClearVIRR(VDMHandle, IRQHandle);
Parameters
VDMHandle (HVDM) DOS session handle. A value of 0 (zero) indicates the current DOS session.
IRQHandle (HIRQ) IRQ handle from VDHOpenVIRQ.
Return value
Success: If the function was successful, it returns nothing.
Failure: If either of the parameters is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the task or interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHClose

Format
This function closes a file or device that was opened with VDHOpen.
#include mvdm.h

HFILE    FileHandle;  /*  Handle to the file or device to close */

VDHClose(FileHandle);
Parameters
FileHandle (HFILE) Handle (from VDHOpen) to the file or device to close.
Return value
Success If the function is successful, it returns nothing.
Failure If FileHandle is invalid or if the DOS session is not in the DOS session-task context, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: Any handles opened by the virtual device driver for the terminating DOS session must be closed.

VDHCloseVDD

Format
This function closes a virtual device driver/virtual device driver (VDD/VDD ) Inter-Device-Driver Communication (IDC) session that was opened with VDHOpenVDD.
#include mvdm.h

HVDD    VDDHandle;  /*  Handle to the file or device to close */

VDHCloseVDD(VDDHandle);
Parameters
VDDHandle(HVDD) Handle (from VDHOpenVDD) to the virtual device driver to close.
Return value
Success: If the function is successful, it returns nothing.
Failure: If VDMHandle is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: If a virtual device driver has a VDD/VDD session for a particular DOS session, that session is closed when the DOS session terminates.

Notes: This service is used to close the type of VDD/VDD connections, which are temporary or are on a per-DOS session basis.

VDHCloseVIRQ

Format
This function closes the virtual IRQ handle passed to it.
#include mvdm.h

HIRQ    IRQHandl;  /*  Handle of the virtual device driver to close */

VDHCloseVIRQ(IRQHandl);
Parameters
IRQHandl (HIRQ) Handle to the IRQ (from VDHOpenVIRQ) to close.
Return value
Success: If the function was successful, it returns nothing.
Failure: If IRQHandle is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the initialization context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHCopyMem

Format
This function copies memory from one user linear address to another.
#include mvdm.h

PVOID    Source;       /*  Address of the data to copy */
PVOID    Destination;  /*  Address to copy the data to */
ULONG    NumBytes;     /*  Number of bytes to copy */

VDHCopyMem(Source, Destination, NumBytes);
Parameters
Source (PVOID) Address of the source data to be copied.
Destination (PVOID) Address to which the data is to be copied.
NumBytes (ULONG) Number of bytes to copy.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If NumBytesis 0 (zero), a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Protection faults are handled as if a user application had performed the access. Therefore, writing to an invalid page causes a virtual device driver page fault handler to gain control. If there is no virtual device driver fault handler, a "don't care" page is mapped in at the faulting linear address.

Note that touching invalid pages is allowed only in the context of the DOS session. A virtual device driver cannot touch invalid pages through the HVDM (DOS session Handle) alias region if it is not in the context of that DOS session. A virtual device driver that violates this rule causes a system halt.

This function yields the CPU if it is necessary to ensure that the thread dispatch latency limit is not exceeded. This function also supports overlapping linear regions. However, the results are undefined when copying between regions with aliases (through VDHMapPages) to the same physical page.

If necessary, VDHLockMem is used to ensure that the status of the source and destination linear ranges does not change. This is required only if the source and destination ranges are in private DOS session memory (accessed through the HVDM), and the call to VDHCopyMem is made in the context of some other process.

VDHCreateBlockPool

Format
This function creates a pool of memory blocks of a specified size. The blocks are allocated from the system area so that the block addresses are valid in all process contexts.
#include mvdm.h

ULONG     BlockSize;   /*  Size of block to initialize (in bytes) */
ULONG     OptionFlag;  /*  Allocation options bit flag */
HBLOCK    rc;

rc = VDHCreateBlockPool(BlockSize, OptionFlag);
Parameters
BlockSize (ULONG) Size of block to initialize (in bytes).
OptionFlag (ULONG) Allocation options bit flag. Possible value:
VDHCBP_SWAPPABLE Blocks are allocated from the swappable heap. Otherwise, blocks are allocated from the fixed heap and can be accessed at hardware interrupt time.
rc(HBLOCK) - returns
Success: If the function is successful, it returns a handle to the pool of memory blocks.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If OptionFlag is invalid, or if BlockSize is equal to 0 (zero), a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or task context.
DOS Session Terminations: Any block pools allocated by a virtual device driver for use by the terminating DOS session is freed by using VDHDestroyBlockPool.

VDHCreateSel

Format
This function creates a GDT selector that maps a linear range. This service is used to create a 16:16 pointer, which is passed to a 16-bit physical device driver.
#include mvdm.h

PVOID    LinearAddress;  /*  Linear address of the start of the buffer */
ULONG    BufferSize;     /*  Size of the buffer in bytes */
SEL      rc;

rc = VDHCreateSel(LinearAddress, BufferSize);
Parameters
LinearAddress (PVOID) Linear address of the beginning of the buffer.
BufferSize (ULONG) Size of the buffer in bytes. The expected range is 0- 65535 with 0 interpreted as 65536.
rc (SEL) - returns
Success: If the function is successful, it returns a nonzero selector value such that SELECTOR:0 points to the first byte of the linear range.
Failure: If BufferSizeis greater than 65535 or if there are no more selectors available, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: Any selectors created to map memory in the terminating DOS session must be destroyed with VDHDestroySel. The virtual device driver must ensure that any physical device driver that was given these selectors is finished with them.

Notes: The linear address must be in system memory. To create a 16:16 pointer to a DOS session address (in the 0 to 1MB+64KB range), use the HVDM (DOS session handle) alias linear address. VDHDestroySel must be called when finished with this pointer.

VDHCreateSem

Format
This function is used to create an event or mutex semaphore.
#include mvdm.h

PHVDHSEM    SemHandlePointer;  /*  Semaphore handle address */
ULONG       SemType;           /*  Type of semaphore of create */
BOOL        rc;

rc = VDHCreateSem(SemHandlePointer, SemType);
Parameters
SemHandlePointer (PHVDHSEM) Semaphore handle address.
SemType (ULONG) Type of semaphore to create.
Values are:
VDH_EVENTSEM Event semaphore
VDH_MUTEXSEM Mutex semaphore
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value and places a handle to the semaphore in SemHandlePointer.
Failure If the function fails, it returns 0. VDHGetError should be called to determine the nature of the problem. An invalid semaphore type causes a system halt to occur.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: These semaphores are global and are not attached to a specific DOS session. If a virtual device driver maintains semaphores on a per-DOS session basis, it destroys the semaphores by using VDHDestroySem when the DOS session they are associated with is terminated.

VDHDecodeProperty

Format
This function decodes the specified format of a property string. (See Notes )
#include mvdm.h

PPSZ      ppProperty;      /*  Pointer to a pointer to property string */
PULONG    StartNumberPtr;  /*  Location to return the starting number */
PULONG    EndNumberPtr;    /*  Location to return the ending number */
ULONG     BaseFlag;        /*  Flag indicating the numeric base to use */
BOOL      rc;

rc = VDHDecodeProperty(ppProperty, StartNumberPtr,
       EndNumberPtr, BaseFlag);
Parameters
ppProperty (PPSZ) A pointer to a pointer to the property string to be decoded.
StartNumberPtr (PULONG) Location for storing the returned starting number.
EndNumberPtr (PULONG) Location for storing the returned ending number.
BaseFlag (ULONG) Flag indicating which numeric base to use:
VDH_DP_DECIMAL Decimal
VDH_DP_HEX Hex
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value and the ppProperty pointer is modified to point to the next range in the property string. StartNumberPtr and EndNumberPtr will have the range values. ppProperty is returned NULL after processing the last range.
Failure: If the function fails, it returns 0, indicating an invalid parameter. If BaseFlag contains an invalid value or if ppProperty is NULL, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: If a single value is found, EndNumberPtr is a -1. All the numbers are decoded in the specified base. A negative sign is used only as range delimiter. Numbers cannot have more than eight digits or a failure is returned. If this service returns Failure, it is still possible that the contents of StartNumberPtr or EndNumberPtr might have changed.

Because pointers passed are from a virtual device driver (not a user), there is no verification of addresses. Bad pointers result in page faults.

This function decodes the specified format of a property string as shown below:

String Syntax = "N1-N2,N3-N4,N5,N6-N7,..."

Notice that Nxare valid numbers in a specified base.

VDHDestroyBlockPool

Format
This function releases a memory block pool.
#include mvdm.h

HBLOCK    PoolHandle;  /*  Handle to the memory block pool to release */
HBLOCK    rc;

rc = VDHDestroyBlockPool(PoolHandle);
Parameters
PoolHandle (HBLOCK) Handle to the memory block pool to release.
rc (HBLOCK) - returns
Success: If the function was successful, it returns nothing.
Failure: An invalid memory block pool handle causes a system halt to occur.
Purpose
Context Issues: This function can be called in the initialization or task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHDestroySel

Format
This function destroys a GDT selector created by VDHCreateSel.
#include mvdm.h

SEL     GDTSelector;  /*  GDT selector to destroy */

VDHDestroySel(GDTSelector);
Parameters
GDTSelector (SEL) GDT selector to be destroyed.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If GDTSelector was not created by VDHCreateSel, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: All selectors created with VDHCreateSel that map the terminating DOS session must be destroyed.

VDHDestroySem

Format
This function destroys a semaphore previously created with VDHCreateSem. The semaphore must be posted or unowned before calling this service.
#include mvdm.h

HVDHSEM    SemHandle;  /*  Semaphore handle to destroy */

VDHDestroySem(SemHandle);
Parameters
SemHandle (HVDHSEM) Handle of the semaphore to destroy.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If SemHandle is invalid or if the semaphore is reset or owned, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHDevBeep

Format
This function performs the preempt beep request on behalf of the requesting virtual device driver.
#include mvdm.h

ULONG    Frequency;  /*  Frequency of the beep in hertz */
ULONG    Duration;   /*  Duration of the beep in milliseconds */
BOOL     rc;

rc = VDHDevBeep(Frequency, Duration);
Parameters
Frequency (ULONG) Frequency of the beep in hertz.
Duration (ULONG) Duration of the beep in milliseconds.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0.
Purpose
Context Issues: This function can be called in the task or interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHDevIOCtl

Format
This function allows a virtual device driver to send device-specific commands to a physical device driver through the generic IOCtl interface. The parameters and error return codes are identical to the ones found in the DosDevIOCtl API. Refer to the OS/2 Control Program Programming Reference for a complete description of each DosDevIOCtl API parameter.

#include mvdm.h
HFILE DevHandle; /* Device handle returned by VDHOpen or VDHPhysicalDisk */
ULONG Category; /* Category of function performed */
ULONG Function; /* Function within category performed */
PVOID ParmList; /* Pointer to command-specific input parameter area */
ULONG ParmLengthMax; /* Maximum size of input parameter area, in bytes */
PULONG ParmLengthInOut; /* Pointer to length of the parameters passed, in bytes */
PVOID DataArea; /* Pointer to the data area */
ULONG DataLengthMax; /* Maximum size of the parameters passed, in bytes */
PULONG DataLengthInOut; /* Pointer to length of the parameters passed, in bytes */
HFILE rc;
rc = VDHDevIOCtl(DevHandle, Category, Function, ParmList, ParmLengthMax, ParmLengthInOut, DataArea, DataLengthMax, DataLengthInOut);

Parameters
DevHandle (HFILE) Device handle returned by VDHOpen or VDHPhysicalDisk.
Category (ULONG) Category of function performed.
Function (ULONG) Function within category performed.
ParmList (PVOID) Pointer to the command-specific input parameter area.
ParmLengthMax (ULONG) Maximum size of the application input parameter area, in bytes. ParmLengthInOut can be longer than this on input, but not on output.
ParmLengthInOut (PULONG) Pointer to the length (in bytes) of the parameters passed by the caller in ParmList.
DataArea (PVOID) Pointer to the data area.
DataLengthMax (ULONG) Maximum size of the application data area, in bytes.
DataLengthInOut (PULONG) Pointer to the length (in bytes) of the parameters passed by the caller in ParmList. ParmLengthInOut can be longer than this on input, but not on output.
rc (HFILE) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0. VDHGetError should be called to determine the nature of the problem. VDHGetError can return the following errors:
ERROR_INVALID_HANDLE
ERROR_INVALID_FUNCTION
ERROR_INVALID_CATEGORY
ERROR_INVALID_DRIVE
ERROR_INVALID_PARAMETER.
If the function is called when not at DOS session-task time, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Addresses (pointers) inside device-specific Data or Parameter Packets are not translated.

VDHDisarmTimerHook

Format
This function cancels a timer that was installed by VDHArmTimerHook before the handler was called.
#include mvdm.h

HHOOK    TimerHook;  /*  Handle to the timer hook to disarm */
BOOL     rc;

rc = VDHDisarmTimerHook(TimerHook);
Parameters
TimerHook (HHOOK) Handle to the timer hook to disarm.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If TimerHook is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization, task, or interrupt context.
DOS Session Terminations: Any timer hooks allocated in the context of the terminating DOS session are deallocated automatically by the DOS Session Manager at DOS session termination.

VDHEndUseVPMStack

Format
This function must be called once with every call made to VDHBeginUseVPMStack. It switches back to the original DOS session protected -mode stack when the use count goes to zero.
#include mvdm.h

VOID    ;

VDHEndUseVPMStack();
Parameters
None.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: There must be a DPMI client running in the DOS session before calling this function.

VDHEnumerateVDMs

Format
This function is used to run a worker function for each DOS session in the system. The worker function can stop the enumeration by returning 0.
#include mvdm.h

PENUMHOOK    WorkerFcn;  /*  Worker function */
ULONG        FcnData;    /*  Function-specific data to be passed each call */
BOOL         rc;

rc = VDHEnumerateVDMs(WorkerFcn, FcnData);
Parameters
WorkerFcn (PENUMHOOK) Worker function, the routine that does the work.
The worker function uses the following interface:
BOOL HOOKENTRY fnworker (hVDM, ulData)
     ENTRY         hVDM   - Handle to DOS session
                   ulData - Function-specific data
     EXIT-SUCCESS  Return a non-zero value, enumeration continues
     EXIT-FAILURE  Return 0, stop enumeration
FcnData (ULONG) Function-specific data to be passed each call.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 indicating that a worker function stopped the enumeration.
Purpose
Context Issues: This function can be called in the task and interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHExchangeMem

Format
This function exchanges the contents of two regions of linear address space . Overlapping regions are not supported.
#include mvdm.h

PVOID    Source;       /*  Source data address */
PVOID    Destination;  /*  Destination address */
ULONG    NumBytes;     /*  Number of bytes to be exchanged */
BOOL     rc;

rc = VDHExchangeMem(Source, Destination, NumBytes);
Parameters
Source (PVOID) Address of the source data.
Destination (PVOID) Address of the target region.
NumBytes (ULONG) Number of bytes to exchange.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This function fails if the two memory regions to be exchanged overlap. Protection faults are handled as if a user application had performed the access. Therefore, writing to read-only pages or invalid page-table entries causes a virtual device driver page fault handler to gain control or causes the default behavior (that is, DOS session termination). This function also yields the CPU, if it is necessary to ensure that the thread dispatch latency limit is not exceeded.

VDHFindFreePages

Format
This function starts at a specified linear address and searches linear memory (up to a specified limit) for the largest free linear memory block. The address and size of the largest region found are returned.
#include mvdm.h

PVOID     StartAddress;  /*  Starting address */
PULONG    Pages;         /*  Size of the range (in pages) */
PVOID     rc;

rc = VDHFindFreePages(StartAddress, Pages);
Parameters
StartAddress (PVOID) Starting address of the linear memory range to be searched. Must be page-aligned and between 0 and 110000H (1MB+64KB).
Pages (PULONG) On input: The size of the linear memory range to search, in pages.
On output: The size of the region found, in pages.
rc (PVOID) - returns
Success: If the function is successful, it returns the address of the region found and sets Pagesto the size of the region found (in pages).
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem.
Purpose
Context Issues: This function can be called in the initialization context where it searches only the global linear map. This function can also be called in DOS session-task context (DOS session creation only), where it searches only the DOS session's private linear map.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHFreeBlock

Format
This function releases a memory block previously allocated by VDHAllocBlock . The memory block is returned to the user's memory block pool for reuse.
#include mvdm.h

HBLOCK    PoolHandle;   /*  Handle to a memory block pool */
PVOID     BlockToFree;  /*  Address of the memory block to free */

VDHFreeBlock(PoolHandle, BlockToFree);
Parameters
PoolHandle (HBLOCK) Handle (from VDHCreateBlockPool) to the pool of memory blocks that contains the memory block to free.
BlockToFree (PVOID) Address of the memory block to free.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If BlockPool is not a valid handle to a memory block pool, or if BlockToFree is not a block allocated from the BlockPool memory block pool, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: The only way to reclaim memory for freed blocks is to call VDHDestroyBlockPool.

VDHFreeDMABuffer

Format
This function frees a DMA buffer previously allocated by VDHAllocDMABuffer.
#include mvdm.h

PVOID    LinearAddress;  /*  Starting linear address of the DMA buffer */

VDHFreeDMABuffer(LinearAddress);
Parameters
LinearAddress (PVOID) Starting linear address of the DMA buffer.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If LinearAddress is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHFreeHook

Format
This function disarms and frees a hook.
#include mvdm.h

HHOOK    HookHandle;  /*  Hook handle from VDHAllocHook */

VDHFreeHook(HookHandle);
Parameters
HookHandle (HHOOK) Hook handle (from VDHAllocHook) for the hook to free.
Retunr Value
Success: If the function is successful, it returns nothing.
Failure: If HookHandle is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or DOS session-task context.
DOS Session Terminations: Any context hooks allocated in the context of the terminating DOS session are deallocated automatically by the DOS Session Manager.

VDHFreeMem

Format
This function frees memory that was previously allocated by VDHAllocMem.
#include mvdm.h

PVOID    MemAddress;  /*  Address of the memory block to free */

VDHFreeMem(MemAddress);
Parameters
MemAddress (PVOID) Address of the memory block to be freed. Pointer is originally obtained from VDHAllocMem.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If MemAddressis not an address pointer allocated by VDHAllocMem, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHFreePages

Format
This function frees a memory object. All the memory associated with the memory object is released.
#include mvdm.h

PVOID    ObjectAddress;  /*  Address of the memory object to free */

VDHFreePages(ObjectAddress);
Parameters
ObjectAddress (PVOID) Address of the memory object to free.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If ObjectAddress was not allocated by VDHAllocPages or VDHReallocPages, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or task context. At initialization time, only global memory can be freed.
DOS Session Terminations: Any allocations made in the terminating DOS session's private area, or on behalf of the terminating DOS session, must be released by using VDHFreePages.

Notes: This function succeeds only if the linear range specified was allocated by a previous call to VDHAllocPages or VDHReallocPages. Freeing a memory region that was not allocated causes an internal error (a probable system halt).

If the region, starting at ObjectAddress, has been broken into two or more regions by calls to VDHMapPages, then VDHFreePagesis not used.

VDHFreezeVDM

Format
This function freezes a DOS session, which prevents it from executing. The specified DOS session is not allowed to execute any V86-mode code until VDHThawVDM is called. This freeze occurs when the specified DOS session leaves kernel mode. The DOS session does not execute any V86-mode code from the time VDHFreezeVDM is called until the matching VDHThawVDM is called.
#include mvdm.h

HVDM    VDMHandle;  /*  Handle to the DOS session to freeze */
BOOL    rc;

rc = VDHFreezeVDM(VDMHandle);
Parameters
VDMHandle (HVDM) Handle to the DOS session to freeze.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If VDMHandle is not a valid DOS session handle, a system halt occurs.
Purpose
Context Issues: This function can be called in the task or interrupt context.
DOS Session Terminations: The DOS Session Manager thaws a frozen DOS session prior to calling any VDM_TERMINATE user hooks.

Notes: Each DOS session has a freeze count. This count starts at zero when the DOS session is created. Each VDHFreezeVDMcall adds one to this count. Each VDHThawVDM call subtracts one from this count. The DOS session is frozen when the freeze count is 1 (one) or greater. The DOS session is thawed when the freeze count is 0 (zero). This allows multiple virtual device drivers to perform freeze and thaw operations without inadvertently causing the DOS session to run. If this count exceeds MAX_FREEZE_COUNT, VDHFreezeVDMreturns VDHERR_FROZEN_LIMIT.

VDHGetCodePageFont

Format
This function returns the address of the code page font information, if code page support is active and a font is available for the given character cell dimensions.
#include mvdm.h

ULONG     CellWidth;    /*  Width of character cells, in pels */
ULONG     CellHeight;   /*  Height of character cells, in pels */
PPVOID    FontAddress;  /*  Address where font table addresses will be copied */
ULONG     rc;

rc = VDHGetCodePageFont(CellWidth, CellHeight,
       FontAddress);
Parameters
CellWidth (ULONG) Width of character cells, measured in pels.
CellHeight (ULONG) Height of character cells, measured in pels.
FontAddress (PPVOID) Address to which font table addresses will be copied.
rc (ULONG) - returns
Success: If the function is successful, it returns the size of the font table in bytes.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: If this function was called on behalf of the terminating DOS session, VDHReleaseCodePageFont must be called to release the fonts.

Notes: System memory can be allocated to hold the font, especially if it is a merged font (that is, merged from two separate font tables). When the virtual device driver is finished with the font, it must call VDHReleaseCodePageFont.

VDHGetDirtyPageInfo

Format
This function returns a bit vector for the dirty pages of a specified DOS session for a specified range of pages. The dirty bits for the range are reset.
#include mvdm.h

HVDM     VDMHandle;        /*  Handle to the DOS session that owns the object */
PVOID    StartingAddress;  /*  Address to start the scan */
ULONG    PageRange;        /*  Range of pages to scan */
ULONG    rc;

rc = VDHGetDirtyPageInfo(VDMHandle, StartingAddress, PageRange);
Parameters
VDMHandle (HVDM) Handle to the DOS session that owns the object. A 0 (zero) value indicates the current DOS session.
StartingAddress (PVOID) Starting address of the range of pages to scan.
PageRange (ULONG) Range (number of pages) to scan. Maximum allowed is 32.
rc (ULONG) - returns
Success: If the function is successful, it returns the bit vector. The low- order bit (that is, bit 0, the rightmost bit) is the dirty bit for the first page scanned. Bit 1 (from the right) is the dirty bit for the next page, and so forth for all the pages scanned.
Failure: If any of the input parameters are invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: The virtual dirty bits remain set until cleared by this function, regardless of the swapping activity that has occurred. The actual dirty bits in the page tables are reset whenever a page is swapped to the swap device and brought back into memory. This function is valid only for linear addresses up to 110000H (1MB+64KB) in a DOS session.

VDHGetError

Format
This function returns the error code from the last virtual DevHlp service called.
#include mvdm.h

VOID     ;
ULONG    rc;

rc = VDHGetError();
Parameters
None.
rc (ULONG) - returns
Success: If the function is successful, it returns the error code.
Failure: If the function fails, it returns 0, indicating that the last virtual DevHlp call did not have an error.
Purpose
Context Issues: This function can be called in any context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: The return value is guaranteed to be valid as long as the virtual device driver does not block or yield between the virtual DevHlp service that failed and the call to VDHGetError. VDHGetError and VDHSetError work at hardware interrupt time. Each level of interrupt nesting (where task time is Level 0) has a separate error code variable.

VDHGetFlags

Format
This function gets the DOS session's EFlags Register.
#include mvdm.h

ULONG    ulFlagsAddr;  /*  DOS session flag address. */

VDHGetFlags(ulFlagsAddr);
Parameters
ulFlagsAddr (ULONG) Address of the ULONG in which the EFLAGs value is to be returned.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Virtual device drivers must use this interface instead of the client register frame pointer to change the DOS session's flags. Changes to the interrupt flag and the I/O Privilege Level (IOPL) field must be under the control of 8086 emulation so that VDHArmSTIHook works correctly.

Getting the Interrupt Flag (IF) must be under 8086 emulation control due to virtual mode extensions and DPMI.

VDHGetSelBase

Format
This function returns the base address for a Local Descriptor Table (LDT) selector.
#include mvdm.h

SEL       Selector;      /*  LDT selector */
PULONG    pBasePointer;  /*  Pointer for returned address */
BOOL      rc;

rc = VDHGetSelBase(Selector, pBasePointer);
Parameters
Selector (SEL) LDT Selector.
pBasePointer (PULONG) Pointer for returned address.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value. The base address is returned in the variable pointed to by pBasePointer.
Failure: If the function fails, it returns 0 (zero).
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Error checking is performed only to ensure that the selector is allocated.

VDHGetVPMExcept

Format
This function gets the current value from the protected-mode exception table.
#include mvdm.h

ULONG    Vector;                  /*  Exception vector number */
PFPFN    pHandlerAddressPointer;  /*  Pointer to put handler address */
PBYTE    pFlag;                   /*  Pointer to a flag variable */
BOOL     rc;

rc = VDHGetVPMExcept(Vector, pHandlerAddressPointer, pFlag);
Parameters
Vector (ULONG) Exception vector number (0-1FH).
pHandlerAddressPointer (PFPFN) Pointer to put handler address.
pFlag (PBYTE) Pointer to a flag variable for returning the flag value. Possible values are:
VPMXCPT32 A 32-bit handler was registered.
VPMXCPT_REFLECT The exception is reflected back to a V86-mode handler.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: There must be a DPMI client running in the DOS session before calling this function.

VDHGetVPMIntVector

Format
This function gets the application Ring 3 protected-mode interrupt handler. This service is used only for DOS Protected-Mode Interface (DPMI) support.
#include mvdm.h

ULONG    Vector;                 /*  Interrupt vector number */
PFPFN    HandlerAddressPointer;  /*  Pointer for return of handler address */
BOOL     rc;

rc = VDHGetVPMIntVector(Vector, HandlerAddressPointer);
Parameters
Vector (ULONG) Interrupt vector number.
HandlerAddressPointer (PFPFN) Pointer for return of the handler address.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Note: There must be a DPMI client in the DOS session before calling this function.

VDHHaltSystem

Format

This function causes a system halt.

#include mvdm.h

VOID    ;

VDHHaltSystem();
Parameters
None.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Calling VDHHaltSystem is an extremely drastic action. Calling VDHPopup and VDHKillVDM is the preferred method for handling a problem. VDHHaltSystem is used only if the virtual device driver is certain that the entire multiple DOS session environment is inoperable. In general, this function is used only by a base virtual device driver (for example, the virtual video device driver or virtual keyboard device driver), whose absence would render the multiple DOS session environment unusable. VDHPopup is called prior to VDHHaltSystem to tell the user what has happened.

VDHHandleFromPID

Format
This function returns the DOS session handle for a given Process ID.
#include mvdm.h

PID     ProcessID;  /*  A DOS session process ID */
HVDM    rc;

rc = VDHHandleFromPID(ProcessID);
Parameters
ProcessID (PID) A DOS session Process ID.
rc (HVDM) - returns
Success: If the function is successful, it returns the DOS session handle for the Process ID.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHHandleFromSGID

Format
This function determines the DOS session handle given the Screen Group ID.
#include mvdm.h

SGID    ScreenGroupID;  /*  Screen Group ID */
HVDM    rc;

rc = VDHHandleFromSGID(ScreenGroupID);
Parameters
ScreenGroupID (SGID) Screen Group ID.
rc (HVDM) - returns
Success: If the function is successful, it returns a handle to the DOS session that was given the Screen Group ID.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem.
Purpose
Context Issues: This function can be called in the task or interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHInstallFaultHook

Format
This function sets a page fault handler for a region of linear address space. The page fault handler receives control when a DOS session touches a page in a reserved region that was invalidated by VDHMapPages. The handler does not get control if the page was indicated "not present" by the Page Manager.

#include mvdm.h
HVDM VDMHandle; /* DOS session handle; 0 = current DOS session */
PVOID StartingAddress; /* Starting linear address */
ULONG Pages; /* Number of pages */
PFAULTHOOK PageFaultHandlerFcnPtr; /* Page fault handler function */
BOOL OptionFlag; /* Options bit flag */
BOOL rc;
rc = VDHInstallFaultHook(VDMHandle, StartingAddress, Pages, PageFaultHandlerFcnPtr, OptionFlag);

Parameters
VDMHandle (HVDM) DOS session handle. If the parameter contains a 0 (zero), use the currently active DOS session.
StartingAddress (PVOID) Starting linear address.
Pages (ULONG) Number of pages.
PageFaultHandlerFcnPtr (PFAULTHOOK) Page fault handler function.
The PageFaultHandlerFcnPtr function pointer contains the address of a function with the following interface:
VOID  HOOKENTRY PageFaultHandler(pVDM)
      ENTRY PARAMETERS  pVDM - Address of the page in which fault occurred
      EXIT-SUCCESS      None
      EXIT-FAILURE      None
      CONTEXT           DOS session-task
OptionFlag (BOOL) Options bit flag.
Possible value:
VDHIFH_ADDR If set, pVDM is a byte-granular address. Otherwise, pVDM is a page-granular address.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If any of the input parameters are invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: Any fault hooks for the terminating DOS session must be released by using VDHRemoveFaultHook.

Notes: In order for the fault handler to terminate the DOS session, it must call VDHKillVDM and return. Page fault hooks are stored on a per-DOS session basis.

VDHInstallIntHook

Format
This function sets a handler for a V86 interrupt. The virtual device driver's interrupt handler gets control after any subsequently hooked DOS interrupt handlers.
#include mvdm.h

ULONG      Reserved;    /*  Reserved; must be set to 0 */
ULONG      Vector;      /*  Number of the interrupt vector to hook */
PFNHOOK    HookFcn;     /*  Address of the hook routine */
FLAGS      OptionFlag;  /*  Interface options flag */
BOOL       rc;

rc = VDHInstallIntHook(Reserved, Vector, HookFcn, OptionFlag);
Parameters
Reserved (ULONG) Reserved. Must be set to 0.
Vector (ULONG) Number of the interrupt vector to hook (0-255).
HookFcn(PFNHOOK) Address of the hook routine.
OptionFlag(FLAGS) Interface options flag.
Possible values:
VDH_ASM_HOOK Use assembler language hook interface (for the assembler language interface refer to the function #VDHInstallIOHook). Otherwise, use the calling convention in the function prototype VDHENTRY found in the MVDM .INC include file, which is included with the Toolkit.
VDH_PRE_HOOK If set, install handler as a pre-reflection hook; that is, call the hook routine before reflecting the interrupt to V86 mode.
C Language Interface for the interrupt hook routine:
 HookRoutine  PROC  NEAR
 ; PARAMETERS
 ;    ENTRY   EBX - pcrf - Client register frame pointer
 ;     EXIT   If carry flag set, chain to next virtual device driver
 ;            If carry flag clear, don't chain to the next virtual
 ;            device driver
 ;     USES   EAX, ECX, EDX, FS, GS, Flags
 ;  CONTEXT   DOS Session-task
 
rc (BOOL) - returns
Success: If the function was successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If HookFcn is invalid or if Vectoris out of range, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function. Interrupt hooks are automatically removed during DOS session termination.

Notes: The effect of this service is per-DOS session; the software interrupt handler must be installed as each DOS session is created. The return value from the interrupt hook controls whether the next virtual device driver is chained to or not. An explicit VDHPopInt is needed to remove the software interrupt (so that the ROM code is not executed).

VDHInstallIOHook

Format
This function is used to install I/O port hooks.

#include mvdm.h
ULONG Reserved; /* Reserved; must be set to 0 */
PORT StartingPort; /* Starting port number */
ULONG NumPorts; /* The number of ports from the starting point */
PIOH IOPortHookEntry; /* Pointer to I/O port hook entry */
FLAGS Flags; /* Indicates interface and trapping options */
BOOL rc;
rc = VDHInstallIOHook(Reserved, StartingPort, NumPorts, IOPortHookEntry, Flags);

Parameters
Reserved (ULONG) Reserved. Must be set to 0 (zero).
StartingPort (PORT) Number of the starting port.
NumPorts (ULONG) The number of ports from the starting port.
IOPortHookEntry(PIOH) Pointer to I/O port hook entry.
Flags(FLAGS) Indicates interface and trapping options.
Possible values:
VDHIIH_ASM_HOOK Use assembler language hook interface (register-based). Otherwise, use a C hook interface (stack-based).
VDHIIH_ALWAYS_TRAP Always trap this range of addresses. The virtual device driver cannot call VDHSetIOHookState on any ports in the range.
VDHIIH_NO_SIMULATE Does not change WORD or other I/O handlers to simulation routines; allows WORD handlers for 1-port ranges.
VDHIIH_IGNORE Sets a system handler that does the following:
On WRITES: The OUT succeeds, but no actual I/O is performed.
On READS: The IN succeeds, and always returns -1 (all bits set to 1).
This is also the default behavior of unhooked ports. This behavior is compatible with the behavior of a machine when there is no hardware on a particular I/O address.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If IOPortHookEntry is invalid, or if StartingPort or NumPorts are out of range, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function. I/O hooks are automatically removed during DOS session termination.

Notes: This function installs I/O port trap handlers for a contiguous range of I/O addresses. Trapping is initially enabled for the specified ports. The I/O hook entry contains the handlers for each kind of I/O operation. If an entry in the table is NULL, that I/O type is simulated by using a lower I/O type (for example, WORD-I/O is simulated by performing two-byte I/O operations). I/O port hooks are kept on a per-DOS session basis; a virtual device driver generally installs I/O hooks at DOS session creation time.

VDHSetIOHookState can be used to enable or disable I/O trapping on a per- port, per-DOS session basis except when the VDHIIH_ALWAYS_TRAP option is specified. In this case, VDHSetIOHookState cannot be called on any port in the range for the current DOS session.

I/O hooks can take their parameters either from registers or the stack. High-performance hooks take register parameters (the I/O hook router is optimized for this case). Hooks with lower performance requirements take stack parameters, and therefore can be written in the C language.

WordInput, WordOutput and Other hooks can be NULL. In this case, the DOS Session Manager simulates these routines by using the ByteInput and ByteOutput routines. If the ByteInput or ByteOutput handlers are NULL, the DOS Session Manager uses default internal routines that do input and output to the hardware ports. This is most useful when a virtual device driver shadows the hardware state (by trapping OUT instructions) but does not care what is returned by IN instructions.

The client register frame (CRF) is updated as the instructions are simulated. For example, when the string I/O instructions are simulated, the client's EDI/ESI and ECX is incremented or decremented.

In a particular DOS session, a particular I/O port address can be hooked only by a single virtual device driver. If this function fails, no I/O hooks are installed.

The routing of I/O instructions to the supplied port hooks covers the specified range exactly. If an I/O instruction overlaps port address ranges hooked on separate VDHInstallIOHook calls, the instruction is simulated with smaller I/O operations to ensure that the hooks in each range are called correctly. For example, a virtual device driver that hooks 100H-103H , and installs a byte, WORD, and DWORD (other) handler would work as follows:

VDHInstallIOHook (reserved,0x100,4,&iohA,NULL);

The I/O instructions to each address with the length indicated cause the following hooks to be called:

Address Length Hooks Called
100 4 iohA.Other(100,DWORD)
101 4 iohA.Word(101) iohA.Byte(103)
102 4 iohA.Word(102)
103 4 iohA.Byte(103)

VDHRemoveIOHook must be called with identical StartingPort and NumPorts in order to remove these I/O hooks. Port hooks cannot be removed for a subset of the range of ports hooked on the call to VDHInstallIOHook. If the IOPortHookEntry is in instance data, the address passed to VDHInstallIOHook must be the same address passed to VDHRemoveIOHook or VDHSetIOHookState.

Virtual device drivers hook ports in all cases, even if the desired behavior is to act as though direct port access were allowed. This keeps the I/O Permissions Map small. Only a port that requires high performance (for example, a graphics card) is allowed to go straight through. The existence of such ports increases the size of the I/O Permissions Map in the Task State segment even if SetIOHookState is never called for them.

Interfaces for IOPortHookEntry are as follows:

typedef struct ioh {
    PBIH ioh_pbihByteInput;
    PBOH ioh_pbohByteOutput;
    PWIH ioh_pwihWordInput;
    PWOH ioh_pwohWordOutput;
    POTH ioh_pothOther;
} IOH;

BYTE HOOKENTRY ByteInput(port, pcrf)
    ENTRY    port                   - Port number
             pcrf                   - Client register frame pointer
    EXIT     Returns data read
    USES     EAX, ECX, EDX, FS, GS, Flags
    CONTEXT  DOS session-task

BYTE HOOKENTRY ByteOutput(bOutputData, port, pcrf)
    ENTRY    bOutputData     - Data to write
             port            - Port number
             pcrf            - Client register frame pointer
    EXIT     None
    USES     EAX, ECX, EDX, FS, GS, Flags
    CONTEXT  DOS session-task

USHORT HOOKENTRY WordInput(port, pcrf)
    ENTRY    port                - Port number
             pcrf                - Client register frame pointer
    EXIT     Returns data read
    USES     EAX, ECX, EDX, FS, GS, Flags
    CONTEXT  DOS session-task

USHORT HOOKENTRY WordOutput(usOutputData, port, pcrf)
    ENTRY    usOutputData           - Data to write
             port                   - Port number
             pcrf                   - Client register frame pointer
    EXIT     None
    USES     EAX, ECX, EDX, FS, GS, Flags
    CONTEXT  DOS session-task

ULONG HOOKENTRY Other(ulOutputData, pulInputData, port, flType, pcrf)
    ENTRY    ulOutputData               - Data for DWORD writes
             pulInputData               - Pointer to put input data
             port                       - Port number
             flType                     - I/O type
                 IO_TYPE_SHIFT        - Shift for type
                 IO_TYPE_MASK         - Mask for type
                 IO_TYPE_INPUT        - If set input else output
                 IO_TYPE_BYTE         - If set byte else WORD/DWORD
                 IO_TYPE_DWORD
                 IO_TYPE_STRING
                 IO_TYPE_REVERSE
                 IO_TYPE_ADDR32
                 IO_TYPE_REP
                 IO_SEG_SHIFT         - Shift for SEG  field
                 IO_SEG_MASK          - Mask for SEG field
                 IO_SEG_CS
                 IO_SEG_SS
                 IO_SEG_ES
                 IO_SEG_FS
                 IO_SEG_GS
             pcrf                       - Client register frame pointer
    EXIT        *pulInputData           - Data from DWORD reads
                if returns 0, simulate the I/O operation
                if returns a nonzero value, I/O is done
    USES     EAX, ECX, EDX, FS, GS, Flags
    CONTEXT  DOS session-task
    NOTES    (1) The ASM Other hook does not need the pulInputData
                 parameter because it returns DWORD input values in EAX,
                 with the carry flag used to indicate done/simulate. See
                 "VDHInstallIOHook" in Assembler Language Syntax.

                 The C hook has to use EAX to return status, and so needs
                 the additional parameter.

VDHInstallUserHook

Format
This function is used to set a handler for a specific DOS session event.
#include mvdm.h

ULONG        Event;     /*  A DOS session event for which a handler is installed */
PUSERHOOK    UserHook;  /*  User's handler for this event */
BOOL         rc;

rc = VDHInstallUserHook(Event, UserHook);
Parameters
Event (ULONG) A DOS session event (such as DOS session termination).
Possible values are:
VDD_EXIT DOS session support is shutting down
VDM_CREATE DOS session creation
VDM_TERMINATE DOS session termination
VDM_FOREGROUND DOS session to the foreground
VDM_BACKGROUND DOS session to the background
VDM_CREATE_DONE DOS session creation completed successfully
VDM_VDD_CREATE_DONE DOS session virtual device driver creation completed
VDM_PDB_DESTROY DOS Program Data Block (PDB) destroyed in DOS session
VDM_PDB_CHANGE PDB changed in DOS session
VDM_CODEPAGE_CHANGE Code page change event
VDM_TITLE_CHANGE DOS session title change event
VDM_MEMORY_MAPPED_IN Pages mapped into a DOS session (0 to 1MB+64KB)
VDM_MEMORY_UN_MAPPED Pages unmapped from a DOS session (0 to 1MB+64KB).
VDM_BEGIN_VPM_TASK Protected-mode task has started
VDM_END_VPM_TASK Protected-mode task has ended
The interfaces for the UserHookhandlers (depending on the event that is handled) are:

RETCODE HOOKENTRY pfnExit()
ENTRY None
EXIT None
CONTEXT INIT Task
RETCODE HOOKENTRY pfnCreate(hvdm)
ENTRY hvdm
EXIT-SUCCESS Return a nonzero value
EXIT-FAILURE Return 0 - DOS session creation fails; the DOS Session Manager calls all the VD_TERMINATE hooks for all virtual device drivers that returned Successful on this DOS session creation.
CONTEXT DOS session-task
RETCODE HOOKENTRY pfnTerminate(hvdm)
ENTRY hvdm - DOS session being terminated
EXIT-SUCCESS Return a nonzero value
EXIT-FAILURE Return 0
CONTEXT DOS session-task
RETCODE HOOKENTRY pfnForeground(hvdm)
ENTRY hvdm - DOS session coming foreground
EXIT None
CONTEXT Task
RETCODE HOOKENTRY pfnBackground(hvdm)
ENTRY hvdm - DOS session going background
EXIT None
CONTEXT Task
RETCODE HOOKENTRY pfnCreateDone(hvdm)
ENTRY hvdm
EXIT None
CONTEXT DOS session creation
RETCODE HOOKENTRY pfnVDDCreateDone(hvdm)
ENTRY hvdm
EXIT None
CONTEXT DOS session Creation
RETCODE HOOKENTRY pfnPDBDestroy(hvdm,segPDB)
ENTRY hvdm
segPDB V86 segment of terminating PDB
EXIT-SUCCESS Return a nonzero value
EXIT-FAILURE Return 0
CONTEXT DOS session-task
RETCODE HOOKENTRY pfnPDBChange(hvdm,segPDB)
ENTRY hvdm
segPDB V86 segment of new PDB
EXIT-SUCCESS Return a nonzero value
EXIT-FAILURE Return 0
CONTEXT DOS session-task
VOID HOOKENTRY pfnCodePageChange(ulCodePage)
ENTRY ulCodePage - New code page
EXIT-SUCCESS Return a nonzero value
EXIT-FAILURE Return 0 - An error is returned on the set code-page operation, but the rest of the device-code-page handlers are called.
CONTEXT DOS session-task
VOID HOOKENTRY pfnVDMTitleChange (pszTitle)
ENTRY pszTitle new DOS session Title
EXIT-SUCCESS Return a nonzero value
EXIT-FAILURE Return 0
CONTEXT DOS session-task
NOTES
  1. This event is called for both full screen and windowed DOS session.
  2. If pszTitle is NULL, the virtual device driver should treat it as DOS session's default and original title.
  3. Ideally there should be only one virtual device driver for this hook, but this is not a restriction. One of the virtual device drivers registered is responsible for putting the title. Only this virtual device driver returns a nonzero value; all others return 0.
RETCODE HOOKENTRY pfnMemoryMappedIn (hvdm,page,cpages,fl)
ENTRY hvdm
page page address
cpages # of pages mapped in from the starting page address
fl type of mapping, (see VDHMapPages)
EXIT-SUCCESS Return a nonzero value
EXIT-FAILURE Return 0
CONTEXT DOS session-task

 RETCODE HOOKENTRY pfnMemoryUnMapped (hvdm,page,cpages,fl)
         ENTRY         hvdm
                       page     page address
                       cpages   # of pages unmapped from the starting page address
                       fl       type of mapping, (see VDHMapPages)
         EXIT-SUCCESS  Return a nonzero value
         EXIT-FAILURE  Return 0
         CONTEXT       DOS session-task

 RETCODE HOOKENTRY pfnBeginVDMTask (hvdm,page,cpages,fl)
         ENTRY         hvdm
                       page     page address
                       cpages   # of pages unmapped from the starting page address
                       fl       type of mapping, (see VDHMapPages)
         EXIT-SUCCESS  Return a nonzero value
         EXIT-FAILURE  Return 0
         CONTEXT       DOS session-task

 RETCODE HOOKENTRY pfnEndVDMTask (hvdm,page,cpages,fl)
         ENTRY         hvdm
                       page     page address
                       cpages   # of pages unmapped from the starting page address
                       fl       type of mapping, (see VDHMapPages)
         EXIT-SUCCESS  Return a nonzero value
         EXIT-FAILURE  Return 0
         CONTEXT       DOS session-task

 RETCODE HOOKENTRY pfnBeginVPMTask (hvdm,page,cpages,fl)
         ENTRY         hvdm
                       page     page address
                       cpages   # of pages unmapped from the starting page address
                       fl       type of mapping, (see VDHMapPages)
         EXIT          None
         CONTEXT       DOS session-task


 RETCODE HOOKENTRY pfnEndVPMTask (hvdm,page,cpages,fl)
         ENTRY         hvdm
                       page     page address
                       cpages   # of pages unmapped from the starting page address
                       fl       type of mapping, (see VDHMapPages)
         EXIT          None
         CONTEXT       DOS session-task
UserHook(PUSERHOOK) A user-defined handler for the event.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, an invalid input parameter or a kernel heap overflow (that is, if the system runs out of memory) causes a system halt.
Purpose
Context Issues: This function can be called only in the initialization context.
DOS Sessions Terminations: The VDM_TERMINATE hook is called at DOS session termination. In the case of a partially created DOS session, the VDM_ TERMINATE handler is called only if all the registered VDM_CREATE handlers are called successfully. Partially created DOS sessions might occur when, for example, the Create_Handler for Virtual Device Driver A returned successfully, but the Create_Handler for Virtual Device Driver B failed. In this case, the Terminate_Handler for Virtual Device Driver A will not be called. This should be taken into consideration when deciding what to do in a Create_Handler and a Create_Done_Handler.

VDHIsVDMFrozen

Format
This function returns the freeze state of a DOS session.
#include mvdm.h

HVDM    VDMHandle;  /*  Handle to the DOS session */
BOOL    rc;

rc = VDHIsVDMFrozen(VDMHandle);
Parameters
VDMHandle (HVDM) Handle to the DOS session in question.
rc (BOOL) - returns
Success: If the DOS session is not frozen, the function returns 0 (zero). Otherwise, the function returns a nonzero value indicating the DOS session's freeze count.
Failure: If VDMHandle is an invalid DOS session handle, a system halt occurs .
Purpose
Context Issues: This function can be called in the task or interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: See #VDHFreezeVDM for a full discussion of freeze counting.

VDHKillVDM

Format
This function terminates the DOS session at the earliest opportunity. V86 code is no longer executed in the context of the terminated DOS session.
#include mvdm.h

HVDM    VDMHandle;  /*  Handle to the DOS session to terminate */

VDHKillVDM(VDMHandle);
Parameters
VDMHandle (HVDM) Handle to the DOS session to terminate. A value of 0 (zero ) indicates the current DOS session.
Success: If the function is successful, it returns nothing.
Failure: If VDMHandle is not a valid DOS session handle, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: When a DOS session is terminating, all virtual device drivers that registered a VDM_TERMINATE hook by using VDHInstallUserHook are called.

Notes: This function sets a flag and returns. If the calling virtual device driver is in the context of the DOS session to be terminated, it must return to its caller in order for the termination to occur.

VDHLockMem

Format
This function verifies that a specified region is accessible in the requested manner, and locks the memory in the requested manner.

#include mvdm.h
PVOID StartingLinAddr; /* Starting address of region in user process */
ULONG NumBytes; /* The size of the region to lock, in bytes. */
ULONG OptionFlag; /* Access option flags */
ULONG PagelistArrayPtr; /* Pointer to array of VDHPageList_s structures */
ULONG ArrayCountPtr; /* Points to count of VDHPageList_selements */
HLOCK rc;
rc = VDHLockMem(StartingLinAddr, NumBytes, OptionFlag, PagelistArrayPtr, ArrayCountPtr);

Parameters
StartingLinAddr (PVOID) Starting linear address of the region in the user process that is to be locked.
NumBytes (ULONG) Size in bytes of the region to lock.
OptionFlag (ULONG) Used to set access options for the locked region. The VDHLM_READ and VDHLM_WRITE flags are for verification purposes and are not mixed with the VDHLM_RESIDENT flag. Either the VDHLM_READ, VDHLM_WRITE, or VDHLM_RESIDENT flag must be used. Note that VDHLM_RESIDENT cannot be combined with other flags.
Possible values are:
VDHLM_RESIDENT Lock physical pages.
VDHLM_READ Verify read access. VDHLM_READ is a verify lock, and is not mixed with other flags. Nonverify locks always make the region resident.
VDHLM_WRITE Verify write access. VDHLM_WRITE is a verify lock, and is not mixed with other flags. Nonverify locks always make the region resident.
VDHLM_CONTIGUOUS Force physical pages contiguous; can be used only for 64KB or less.
VDHLM_NOBLOCK Lock must not give up the CPU.
VDHLM_16M Must reside below the 16MB physical memory address.
PagelistArrayPtr (ULONG) Pointer to array of VDHPageList_s structures.
VDHLockMem fills this array. Each VDHPageList_s structure describes a single physically contiguous sub-area of the physical memory that was locked. If PagelistArrayPtr is set to VDHLM_NO_ADDR, no array is returned. The area that PagelistArrayPtr points to must contain enough VDHPageList_s structures to handle a worst case of one structure per page plus one more structure, that is, the region does not begin on a page boundary.
ArrayCountPtr (ULONG) Pointer to a variable where a count of the number of elements returned in the PagelistArrayPtr array is placed by VDHLockMem. If PagelistArrayPtr is set to VDHLM_NO_ADDR, ArrayCountPtr is ignored.
rc(HLOCK) - returns
Success: If the function is successful, it returns a lock handle. This is a global handle that can be used in any task context.
Failure: If the function fails, it returns 0. If the function fails, call VDHGetError to determine the nature of the problem. If NumBytes equals 0, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function. There cannot be any memory locked on behalf of a particular DOS session.

Notes: The caller must call VDHUnlockMem to remove this lock. All locks are long-term. This function must be used prior to using any pointers passed to a virtual device driver from an OS/2 process (through DOSRequestVDD). This might also be useful to the callers of VDHCopyMem and VDHExchangeMem.

VDHMapPages, VDHReallocPages, and VDHFreePages will block if applied to pages that are locked. They unblock when the lock is released.

VDHMapPages

Format
This function maps a linear address region in the V86 address space.

#include mvdm.h
PVDHMAPSOURCE pvdhmsSourceRegion; /* Pointer to source region definition */
PVDHMAPTARGET pvdhmtTargetRegion; /* Target region definition */
ULONG flMappingFlag; /* Mapping options flag */
BOOL rc;
rc = VDHMapPages(pvdhmsSourceRegion, pvdhmtTargetRegion, flMappingFlag);

Parameters
pvdhmsSourceRegion(PVDHMAPSOURCE) Pointer to VDHMAPSOURCE structure.
VDHMAPSOURCE is the source region definition for VDHMapPages with a data structure as follows:
typedef struct VDHMapSource_s {
    ULONG   vdhms_laddr;     /* Source linear address of source */
                             /* memory object.  Source address  */
                             /* to be mapped.  Defines the start*/
                             /* of the source region for the    */
                             /* mapping.  The region is the same*/
                             /* length as the target region.    */
    ULONG   vdhms_hobj;      /* Memory object handle set by the */
                             /* service to hold a source handle */
                             /* for VDHMT_LINEAR mappings.      */
                             /* See the VDHMT_LINEAR            */
                             /* description under MappingFlag.  */
} VDHMAPSOURCE;
typedef VDHMAPSOURCE *PVDHMAPSOURCE;
pvdhmtTargetRegion(PVDHMAPTARGET) Target region definition. Pointer to VDHMAPTARGET structure.
VDHMAPTARGET is the target region definition for VDHMapPages with a data structure as follows:
typedef struct VDHMapTarget_s {
    ULONG   vdhmt_laddr;     /* Address in V86-space to be      */
                             /* mapped.                         */
                             /* (0 <= vdhmt_laddr < 1MB+64KB)   */
    ULONG   vdhmt_cpg;       /* Count of pages to map.          */
    ULONG   vdhmt_hmap;      /* Mapping handle. Must be zero on */
                             /* the first call to VDHMapPages   */
                             /* for region.  Set by the service */
                             /* to hold a handle used for       */
                             /* remapping the region. The handle*/
                             /* is reset each time it is used.  */
                             /* vdhmt_hmap must be the value    */
                             /* returned from the previous      */
                             /* VDHMapPages call for the region */
                             /* unless the pages are either     */
                             /* already invalid or else are     */
                             /* being made invalid.  If either  */
                             /* the old or new mapping is       */
                             /* invalid pages, vdhmt_hmap can   */
                             /* be 0.                           */
                             /* Making a region invalid restores*/
                             /* pages in the region to their    */
                             /* reserved state, and sets        */
                             /* vdhmt_hmap to 0.                */
} VDHMAPTARGET;

typedef VDHMAPTARGET *PVDHMAPTARGET;
flMappingFlag (ULONG) Mapping options flag.
Possible values are:
VDHMT_INVALID Make target region pages invalid. vdhmt_hmap can be 0 (zero). This service is faster when the handle is provided, but virtual device drivers that do not store handles can map to invalid before remapping a region. Note that pvdhmsSourceRegion is ignored.
VDHMT_LINEAR Map linear source region into target region. vdhms_laddr contains the linear address to map at the start of the target region. This can only be a page-granular address in a memory allocation that was obtained by using VDHAllocPages or VDHReallocPages. After a successful mapping, the target region aliases the corresponding region of the source.
vdhms_hobj must be 0 (zero) the first time a newly allocated or reallocated source object is mapped. On a successful mapping, vdhms_hobj is filled in. Using this handle on the next mapping that uses the same source object speeds up that mapping call. Any linear address (laddr) at the start of the target region can be mapped using the handle. The returned result must be stored after each mapping call. Virtual device drivers can avoid storing this handle and always use 0 (zero), however, the call will be slower.
VDHMT_PHYSICAL Map physical source region into target region. vdhms_laddr contains the physical address to map at the start of the target region. vdhms_hobjis ignored.
VDHMT_BLACK_HOLE Map target region to black hole pages. pvdhmsSourceRegionis ignored.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem.
Purpose
This function maps a linear address region in the V86 address space to:
  • Part of a virtual memory object
  • Specific physical addresses (for physical devices)
  • Undefined memory (black holes)
  • Invalid pages (the unmapped state, which is the default state for reserved pages)
VDHMapPages also changes the virtual address contents of regions in the V86 address space (below 11000H (1MB+64KB)). Pages in this range can be made to address:
  • Part of a memory object previously allocated using VDHAllocPages or VDHReallocPages
  • Physical addresses for a device
  • Black hole (undefined memory) addresses that are read or written but do not retain their values
  • Invalid pages, which cause faults when accessed (see VDHInstallFaultHook)
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Mapping succeeds only if it completely replaces a previous mapping, or if the region contains only invalid pages. To change the size of a region, it must first be made invalid. The entire target region must lie below 11000H (1MB+64KB) and must be contained in pages previously reserved by VDHReservePages. VDHMapPages and VDHAllocPages can be used on the same target region but care must be taken. Before switching from one service to the other, the pages affected must first be made invalid. If pages are left invalid, a pagefault handler must be registered (through VDHInstallFaultHook) to handle page faults, in case the pages are accessed.

Both target and source addresses must be on page boundaries. If they are not, the page offset part of the address is ignored.

VDHOpen

Format
This function opens a file or device and returns a handle. The handle can be used with VDHRead, VDHWrite, VDHSeek, VDHClose and VDHDevIOCtl. The parameters and error return codes are the same as those found in the DosOpen API. Refer to the OS/2 Control Program Programming Reference for a complete descriptions of each DosOpen API parameter.

  1. include mvdm.h

PSZ FileName; /* Pointer to the name of the file or device to open */ PHFILE FileHandle; /* Where the system returns the file handle */ PULONG ActionTaken; /* Where a description of the action taken is returned */ ULONG FileSize; /* The new file's logical size (EOD) in bytes */ ULONG FileAttribute;/* File attribute bits used on file creation */ ULONG OpenFLag;|| /* Specifies action taken, based on whether file exists */ ULONG OpenMode;|| /* Describes the mode of the Open function */ PVDH_EOAP EABuf; /* Address of a VDH_EAOP structure or NULL */ BOOL rc;

rc = VDHOpen(FileName, FileHandle, ActionTaken, FileSize, FileAttribute, OpenFLag, OpenMode, EABuf);

Parameters
FileName (PSZ) Pointer to the ASCIIZ string containing the name of the device or file to open.
FileHandle (PHFILE) Where the system returns the file handle.
ActionTaken (PULONG) Where the system returns a description of the action taken as a result of this function call.
FileSize (ULONG) The new file's logical size (EOD) in bytes.
FileAttribute (ULONG) File attribute bits used on file creation.
OpenFLag (ULONG) Specifies the action taken depending on whether the file exists.
Possible actions are:
VDHOPEN_FILE_EXISTED File existed
VDHOPEN_FILE_CREATED File created
VDHOPEN_FILE_TRUNCATED File replaced
OpenMode (ULONG) Describes the mode of the Open function.
EABuf(PVDH_EOAP) Address of a VDH_EAOP structure, or NULL.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero). If the function fails, VDHGetError should be called to determine the nature of the problem. VDHGetError can return the following errors:
ERROR_DISK_FULL
ERROR_OPEN_FAILED
ERROR_FILE_NOT_FOUND
ERROR_INVALID_PARAMETER
ERROR_PATH_NOT_FOUND
ERROR_ACCESS_DENIED
ERROR_DRIVE_LOCKED
ERROR_NOT_DOS_DISK
ERROR_SHARING_BUFFER_EXCEEDED
ERROR_SHARING_VIOLATION
ERROR_INVALID_ACCESS
ERROR_CANNOT_MAKE
ERROR_TOO_MANY_OPEN_FILES
ERROR_NOT_ENOUGH_MEMORY
If the function is called at other than DOS session-task time, or if the pszFileName pointer is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: Any handles the virtual device driver opened for the terminating DOS session must be closed with VDHClose.

Notes: Using VDHOpen does not interfere with the handle space available to the DOS session with INT 21H, except that it does count against the system- wide limit on the number of open file handles. These VDHOpen handles and the handles returned from INT 21H $Open cannot be used interchangeably.

VDHOpenPDD

Format
This function gets the address of the routine in a physical device driver that the virtual device driver uses to communicate with the physical device driver. The physical device driver's device must have previously registered its name and entry point using the DevHlp service RegisterPDD.

#include mvdm.h
PSZ     DeviceName;    /* Pointer to device name of physical device driver to open */
FPFNVDD VDDEntryPoint; /* VDD entry point for VDD/PDD communication */
FPFNPDD rc;
rc = VDHOpenPDD(DeviceName, VDDEntryPoint);

Parameters
DeviceName (PSZ) Pointer to the device name of the physical device driver to open.
VDDEntryPoint (FPFNVDD) Virtual device driver entry point for use by the physical device driver. Since physical device drivers are 16:16 modules, this is a 16:32 entry point.
The interface for the VDDEntryPoint:
 USHORT VDDENTRY VDDEntryPoint (ulFunc, ul1, ul2)

 ENTRY
     ULONG ulFunc - function code
           All function codes are private to a physical device driver/
           virtual device driver pair.
     ULONG ul1 - function/specific;
           If a pointer, it is 16:16, and will generally be an input packet
     ULONG ul2 - function/specific;
           If a pointer, it is 16:16, and will generally be an output packet
 EXIT-SUCCESS  Returns !0
 EXIT-FAILURE  Returns 0
rc(FPFNPDD) - returns
Success: If the function is successful, it returns a pointer to the physical device driver Inter-Device-Driver Communication (IDC) function. See " RegisterPDD" in the OS/2 Physical Device Driver Reference for a description of the physical device driver's IDC function.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem.
Purpose
Context Issues: This function can be called only in the initialization context.
DOS Session Terminations: The virtual device driver must communicate with the physical device driver to ensure that any resources the physical device driver has for the terminating DOS session are freed.

VDHOpenVDD

Format
This function returns a handle to a virtual device driver that can be used with VDHRequestVDD to enable a virtual device driver to communicate with another virtual device driver. The name must be one that was previously registered by using VDHRegisterVDD.

#include mvdm.h
PSZ VDDName; /* Pointer to the name of the virtual device driver to open */
HVDD rc;
rc = VDHOpenVDD(VDDName);

Parameters
VDDName (PSZ) Pointer to a string containing the name of the virtual device driver to open.
rc(HVDD) - returns
Success: If the function is successful, it returns a handle to the virtual device driver.
Failure: If the function fails, it returns 0 (zero). This can occur if:
The virtual device driver referenced by VDDName is not found.
The virtual device driver was found, but has not registered a worker function (the routine that gets control when this interface is called) for virtual device driver/virtual device driver communication.
If this function is called with invalid parameters or in the incorrect context, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context, typically during DOS session creation.
DOS Session Terminations: The virtual device driver must communicate with the opened virtual device driver to ensure that any resources for the terminating DOS session are freed. In addition, the virtual device driver must communicate with any virtual device driver or OS/2 clients to ensure that any resources created due to the connection are freed. Notes: The recommended way for two virtual device drivers to rendezvous with this function is for each to attempt to open the other at the first creation of a DOS session. This allows the two virtual device drivers to work together regardless of the order in which they are initialized.

VDHOpenVIRQ

Format
This function returns an IRQ handle for use with the other Virtual Programmable Interrupt Controller (VPIC) services and, optionally, sets handlers called when an End Of Interrupt (EOI) or Interrupt Return (IRET) is executed during a simulated interrupt.

#include mvdm.h
IRQN IRQNumber; /* Number of the IRQ to open */
PFN EOIHandler; /* Address of End-Of-Interrupt (EOI) handler */
PFN IRETHandler; /* Address of Interrupt Return (IRET) handler */
ULONG Timeout; /* IRET timeout value in milliseconds */
ULONG OptionFlag; /* Indicates whether the IRQ can be shared */
HIRQ rc;
rc = VDHOpenVIRQ(IRQNumber, EOIHandler, IRETHandler, Timeout, OptionFlag);

Parameters
IRQNumber (IRQN) Number of the IRQ to open.
EOIHandler (PFN) Address of End-Of-Interrupt (EOI) handler.
Linear address of the handler to be called when EOI is received by VPIC from a DOS session for the IRQ. If this is not desired, put a 0 (zero) in this parameter. Note that the IRQ is no longer "in service" (the ISR bit has been cleared) when the virtual device driver's EOI handler is called. The interface to the EOI handler is:

VOID HOOKENTRY EOIHdlr(pcrf)
ENTRY pcrf - Pointer to client register frame
EXIT None
USES EAX, ECX, EDX, FS, GS, Flags
CONTEXT DOS session-task

IRETHandler (PFN) Address of Interrupt Return (IRET) handler.
Linear address of the handler to be called when the IRET in the DOS session 's interrupt code is executed for this IRQ. If this is not desired, set the parameter to 0 (zero). The interface for the IRET routine is:

VOID HOOKENTRY IRETHdlr(pcrf)
ENTRY pcrf - Pointer to client register frame
EXIT None
USES EAX, ECX, EDX, FS, GS, Flags
CONTEXT DOS session-task

Timeout (ULONG) IRET timeout value in milliseconds. When the timeout expires, the virtual device driver's IRET handler is called as if the IRET had occurred. A value of -1 indicates that no timeout occurs.
OptionFlag (ULONG) Option flag. Indicates whether the IRQ can be shared.
Possible value:
VPIC_SHARE_IRQ Indicates that the virtual device driver is willing to share the IRQ with another virtual device driver. All virtual device drivers that virtualize the same IRQ must pass this flag. Whether a particular IRQ is shared or unshared is determined by the setting of OptionFlag by the first virtual device driver to open the IRQ.
rc (HIRQ) - returns
Success: If the function is successful, it returns an IRQ handle.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If IRQNumber, EOIHandler, IRETHandler, or OptionFlag are invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the initialization context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: A maximum of 32 virtual device drivers can share an IRQ.

VDHPhysicalDisk

Format
This function returns information about partitionable disks.

#include mvdm.h
ULONG Function; /* Type of partitionable disks' information */
PULONG DataPtr; /* Pointer to the return buffer */
ULONG DataLen; /* Length of the return buffer */
PULONG ParmPtr; /* Pointer to the user-supplied information */
ULONG ParmLen; /* Length of the user-supplied information */
BOOL rc;
rc = VDHPhysicalDisk(Function, DataPtr, DataLen, ParmPtr, ParmLen);

Parameters
Function (ULONG) Type of partitionable disks' information to obtain.
Possible values are:
VDHPHYD_GET_DISKS Obtain the total number of partitionable disks
VDHPHYD_GET_HANDLE Obtain a handle to use with the Category 9 IOCtls
VDHPHYD_RELEASE_HANDLE Release a handle for a partitionable disk
DataPtr (PULONG) Pointer to the return buffer.
DataLen (ULONG) Length of the return buffer.
The returned data for each function is described as follows (all lengths are in bytes):
VDHPHYD_GET_DISKS Data Length=2. Total number of partitionable disks in the system. 1-based.
VDHPHYD_GET_HANDLE Data Length=2. Handle for the specified partitionable disk for Category 9 IOCtls.
VDHPHYD_RELEASE_HANDLE Data Length=0. None; pointer must be 0 (zero).
ParmPtr (PULONG) Pointer to the user-supplied information.
ParmLen (ULONG) Length of the user-supplied information (all lengths are in bytes):
VDHPHYD_GET_DISKS Parm Length=0. None; must be set to 0 (zero). 1-based.
VDHPHYD_GET_HANDLE Parm Length=string length. ASCIIZ string that specifies the partitionable disk.
VDHPHYD_RELEASE_HANDLE Parm Length=2. Handle obtained from VDHPHYD_GET_ HANDLE.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. VDHGetError can return the following error codes:
ERROR_ACCESS_DENIED
ERROR_INVALID_FUNCTION
ERROR_INVALID_HANDLE
ERROR_INVALID_PARAMETER
ERROR_LOCK_VIOLATION
If VDHPhysicalDiskis called in any context except DOS session task time, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: The handle obtained with Function Value=2 is released with Function Value=3. The ASCIIZ string used to specify the partitionable disk must be of the following format:
    number:<null byte>

    Where:
          number       Specifies the partitionable disk (1-based) number in ASCII
          :            Must be present
          <null byte>  Specifies the byte of 0 for the ASCIIZ string

Notes: If the pointers passed by this function are allocated from the stack , then the SSToDS macro must be used to make the DS pointer relative. Addresses (pointers) inside device-specific data and parameter packets are not translated.

VDHPopInt

Format
This function reverses the effects of VDHPushInt. It removes the Interrupt Return (IRET) frame from the client's stack and restores the client's CS:IP to what was in the IRET frame.
#include mvdm.h

VOID    ;
BOOL    rc;

rc = VDHPopInt();
Parameters
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 if the client is in protected mode and the stack is invalid or a stack overflow would occur. A stack exception will be simulated to the client.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This function always returns Successful when the DOS session is in client mode because no data accesses below 1MB can cause a fault.

VDHPopRegs

Format
This function reverses the VDHPushRegs by popping the specified client registers into the Client Register Frame (CRF) from the client's stack.
#include mvdm.h

FLAGS    RegFlag;  /*  Indicates which client registers to pop */
BOOL     rc;

rc = VDHPopRegs(RegFlag);
Parameters
RegFlag (FLAGS) Flag indicating which client registers to pop.
These flags can be "ORed" together to indicate more than one register. Possible values are:
VDHREG_AX Pop the AX register
VDHREG_BX Pop the BX register
VDHREG_CX Pop the CX register
VDHREG_DX Pop the DX register
VDHREG_SI Pop the SI register
VDHREG_DI Pop the DI register
VDHREG_BP Pop the BP register
VDHREG_SP Pop the SP register
VDHREG_DS Pop the DS register
VDHREG_ES Pop the ES register
VDHREG_SS Pop the SS register
VDHREG_FLAG Pop the Flags register
VDHREG_ALL Pop all the registers
VDHREG_GENERAL Pop all the registers except SS and SP
rc (BOOL) - returns
Success: If the function was successful, it returns a nonzero value.
Failure: If this function fails, it returns 0 (zero) if the client is in protected mode and the stack is invalid or a stack underflow would occur. A stack exception is simulated to the client. If RegFlag is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: The caller should be careful to pass the same RegFlag value to VDHPopRegs that was used for the corresponding VDHPushRegs call. If the caller does not do this, the client stack can become damaged. This function always returns Successful when RegFlagis valid and the DOS session is in V86 mode because no data accesses below 1MB can cause a fault.

VDHPopStack

Format
This function pops the data off the client's stack.

#include mvdm.h
ULONG NumBytes; /* Number of bytes to pop off the client's stack */
PVOID DataPtr; /* Pointer to data to pop off client's stack */
BOOL rc;
rc = VDHPopStack(NumBytes, DataPtr);

Parameters
NumBytes (ULONG) Number of bytes to pop off the client's stack. Must be an even number.
DataPtr (PVOID) Pointer to the data to pop off the client's stack.
rc (BOOL) - returns
Success: If the function was successful, it returns a nonzero value.
Failure: If this function fails, it returns 0 (zero) if a fault would occur when accessing the user stack. If NumBytes is odd, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This is a very low-level service. Appropriate care should be exercised in its use to ensure that the client's stack is not damaged. This service handles stack wraparound, and always returns successful when the DOS session is in V86-mode because no data accesses below 1MB can cause a fault.

VDHPopup

Format
This function displays a message according to the Message ID, and gets a response from the user.

#include mvdm.h
PSZ ParmTable; /* Pointer to a table of substitution strings */
ULONG StrCount; /* Number of substitution strings */
ULONG MsgNumber; /* Message number */
PULONG RespPtr; /* Pointer to a DD to receive the response */
ULONG RespAllowed; /* Bit field describing the allowed responses */
PVOID Reserved; /* Reserved; must be set to NULL */
BOOL rc;
rc = VDHPopup(ParmTable, StrCount, MsgNumber, RespPtr, RespAllowed, Reserved);

Parameters
ParmTable (PSZ) Pointer to a table of substitution strings.
StrCount (ULONG) Number of substitution strings.
MsgNumber (ULONG) Message number.
RespPtr (PULONG) Pointer to a DD to receive the returned response, filled on exit.
RespAllowed (ULONG) Bit field describing the allowed responses.
The allowed values are (any combination of these flags can be specified):
VDHP_FAIL (0001H)
VDHP_RETRY (0004H)
VDHP_IGNORE (0008H)
VDHP_TERMINATE_SESSION (0002H)
Reserved (PVOID) Reserved. Must be set to NULL.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value and the variable pointed to by RespPtr is filled in with actual response selected by the user.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem.
Purpose
Context Issues: This function can be called in the initialization context or the DOS session-task context. If it is called at initialization time, the message is displayed as a string on the console as if a DosWrite to standard output (stdout) had been made. No prompt is displayed, and no user response is returned. ResponsePtr is filled in with 0 (zero).
DOS Session Terminations: A DOS session cannot be terminated if it is waiting in this call for a user response.

Notes: This service is intended for virtual device drivers, which must inform the user of some extraordinary circumstance. For example, the virtual COM device driver (VCOM) issues this call to inform the user that a COM port is busy and gives the user a choice of how to handle the situation .

The input value of ResponsePtr is not used. "Retry" is the default action chosen for hard errors. If Retry is not allowed, "End the Program" is chosen as the default.

VDHPostEventSem

Format
This function posts an event semaphore. All the threads blocked on this semaphore will wake up.
#include mvdm.h

HVDHSEM    EventSemHandle;  /*  Handle of an event semaphore */

VDHPostEventSem(EventSemHandle);
Parameters
EventSemHandle (HVDHSEM) Handle of the event semaphore to post.
Return value
Success: If the function is successful, it will return nothing.
Failure: Posting a semaphore that is invalid or is already posted causes a system halt to occur.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHPrintClose

Format
This function is called by other virtual device drivers to flush and close a DOS session's open printers that have been opened for INT 17H printing. A DOS session can have more than one printer open. This service flushes and closes all of them.
#include mvdm.h

HVDM    VDMHandle;  /*  DOS session handle */

VDHPrintClose(VDMHandle);
Parameters
VDMHandle (HVDM) DOS session handle.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: The system will flush and close any open printers when the DOS session is terminated.

Notes: If a printer has been left open because of direct access to the parallel ports, it will also be closed.

VDHPushFarCall

Format
This function simulates a Far Call to V86 code as if a DOS program had executed a Far Call instruction.
#include mvdm.h

FPFN    SegOffAddr;  /*  Address of V86 mode or protected mode code to call */
BOOL    rc;

rc = VDHPushFarCall(SegOffAddr);
Parameters
SegOffAddr (FPFN) The V86-mode segment:offset address of the V86-mode code to call, or selector:offset of protected-mode code to call.
rc (BOOL) - returns
Success: If the function was successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 if the client is in protected mode and the stack is invalid or a stack underflow would occur. A stack exception is simulated to the client.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This function does not take effect until the operating system returns to the DOS session. In most cases, VDHArmReturnHook is called after this service. This allows the virtual device driver to regain control when the called V86 code executes its Far Return (RETF).

This function always returns successful when the DOS session is in V86 mode because no data accesses below 1MB can cause a fault.

VDHPushInt

Format
This function is used to change the DOS session's control flow to the interrupt handler when an interrupt is simulated. This function also simulates an interrupt to a specified V86-interrupt vector as if a DOS program has executed an INT n instruction. Any virtual device driver hooked on this interrupt with VDHInstallIntHook will get control as expected. The VDHArmReturnHook service can be used after this function is called to regain control when the V86 code executes the Interrupt Return (IRET).
If the DOS session is in V86-mode, the V86-mode handler from the IVT is called. If the DOS session is in protected mode, the protected-mode interrupt handler is called.
#include mvdm.h

ULONG    Vector;  /*  Number of the interrupt vector to push */
BOOL     rc;

rc = VDHPushInt(Vector);
Parameters
Vector (ULONG) Number of the interrupt vector to push (0-255).
rc (BOOL) - returns
Success: If the function was successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 if the client is in protected mode and the stack is invalid or a stack underflow would occur. A stack exception will be simulated to the client. If Vectoris invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This function does not take effect until the operating system returns to V86 mode. This function always returns successful when the DOS session is in V86 mode because no data accesses below 1MB can cause a fault .

VDHPushRegs

Format
This function pushes the specified client register from the Client Register Frame (CRF) to the client's stack. This service is usually used in conjunction with VDHPushFarCall to preserve user registers.
#include mvdm.h

FLAGS    RegFlag;  /*  Flag indicating which client registers to push */
BOOL     rc;

rc = VDHPushRegs(RegFlag);
Parameters
RegFlag (FLAGS) Flag indicating which client registers to push. These flags can be ORed together to indicate more than one register.
Possible values are:
VDHREG_AX Push the AX register
VDHREG_BX Push the BX register
VDHREG_CX Push the CX register
VDHREG_DX Push the DX register
VDHREG_SI Push the SI register
VDHREG_DI Push the DI register
VDHREG_BP Push the BP register
VDHREG_SP Push the SP register
VDHREG_DS Push the DS register
VDHREG_ES Push the ES register
VDHREG_SS Push the SS register
VDHREG_FLAG Push the Flags register
VDHREG_ALL Push all the registers
VDHREG_GENERAL Push all the registers except SS and SP
rc (BOOL) - returns
Success: If the function was successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 if the client is in protected mode and the stack is invalid or a stack underflow would occur. A stack exception will be simulated to the client. If RegFlagis invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Because the registers are saved on the DOS session stack (as opposed to a virtual device driver data structure), the virtual device driver is in no danger of losing track of data if the DOS session does not return to the virtual device driver. This service is used sparingly as it consumes DOS session stack space, and most DOS applications cannot tolerate excessive stack usage beyond their own needs.

This function always returns successful when RegFlag is valid and the DOS session is in V86 mode because no data accessed below 1MB can cause a fault .

VDHPushStack

Format
This function pushes data onto the client's stack.
#include mvdm.h

ULONG    NumBytes;  /*  Number of bytes to push on the client's stack */
PVOID    DataPtr;   /*  Pointer to the data to push on the stack */
BOOL     rc;

rc = VDHPushStack(NumBytes, DataPtr);
Parameters
NumBytes (ULONG) Number of bytes to push onto the client's stack. Must be an even number.
DataPtr (PVOID) A pointer to the data to be pushed.
rc (BOOL) - returns
Success: If the function was successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 if the client is in protected mode and the stack is invalid or a stack underflow would occur. A stack exception will be simulated to the client. If NumBytes is odd, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This is a very low-level service. Appropriate care should be exercised in its use to ensure that the client's stack is not corrupted. This service handles stack wraparound, and always returns successful when the DOS session is in V86-mode because no data accesses below 1MB can cause a fault.

VDHPutSysValue

Format
This function sets a system value.
#include mvdm.h

ULONG    Index;  /*  Index of the system variable to set */
ULONG    Value;  /*  New value for the system variable */

VDHPutSysValue(Index, Value);
Parameters
Index (ULONG) Index of the system value to set. System value indexes are defined in VDMM.INC and listed in #VDHQuerySysValue.
Value (ULONG) New value for the system variable.
Return Value
Success If the function was successful, it returns nothing.
Failure If Index is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or DOS session-task (DOS session creation) context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This service is intended for system virtual device drivers to export system constants, such as ROM memory size. The behavior of the system is undefined if this service is used for any other purpose.

VDHQueryFreePages

Format
This function returns the total amount of free virtual memory in bytes. This is the amount of memory that could be allocated successfully.
#include mvdm.h

VOID     ;
ULONG    rc;

rc = VDHQueryFreePages();
Parameters
rc (ULONG) - returns
Success: If the function is successful, it returns the number of bytes of free virtual memory.
Failure: If the function fails, it returns nothing.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This is a system-wide value that is not specific to the virtual address space of the DOS session.

VDHQueryHookData

Format
This function returns a pointer to the reference data created during the call to VDHAllocHook.
#include mvdm.h

HHOOK    HookHandle;  /*  Hook handle from VDHAllocHook */
PVOID    rc;

rc = VDHQueryHookData(HookHandle);
Parameters
HookHandle (HHOOK) Hook handle (from VDHAllocHook) for the hook to query.
rc (PVOID) - returns
Success: If the function is successful, it returns a pointer to the reference data block.
Failure: If HookHandle is invalid or if there is no reference data (that is, the RefDataSize parameter for VDHAllocHook is 0), a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization, task, or interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHQueryLin

Format
This function converts a 16:16 (Far16) address to a 0:32 address. The 16:16 address can be a LDT-based or GDT-based address. The function is also callable on stack-based addresses.
#include mvdm.h

F16PVOID    Far16Addr;  /*  16:16 addressto be converted */
PVOID       rc;

rc = VDHQueryLin(Far16Addr);
Parameters
Far16Addr (F16PVOID) The 16:16 address to be converted to a 0:32 address.
rc (PVOID) - returns
Success: If the function is successful, it returns the 0:32 address that corresponds to Far16Addr.
Failure: If Far16Addr is an invalid selector, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization, task, or interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This service does minimal checking on Far16Addr. The caller should make sure that Far16Addr is not invalid. If an invalid address is passed, this service can return an invalid address.

VDHQueryKeyShift

Format
This function is called by the virtual mouse device driver to query the keyboard shift state of a DOS session.
#include mvdm.h

HVDM      VDMHandle;  /*  DOS session handle */
USHORT    rc;

rc = VDHQueryKeyShift(VDMHandle);
Parameters
VDMHandle (HVDM) DOS session handle.
rc (USHORT) - returns Returns a USHORT which is a bitmask that indicates the current key state:
Right Shift 1
Left Shift 2
Ctrl 4
ALT 8
Left Ctrl 100
Left ALT 200
Right Ctrl 400
Right ALT 800
Purpose
Context Issues: This function can be called only in the interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHQueryProperty

Format
This function returns the current value of the specified DOS Setting.
#include mvdm.h

PSZ      PropertyName;  /*  Pointer to a property name */
ULONG    rc;

rc = VDHQueryProperty(PropertyName);
Parameters
PropertyName (PSZ) Pointer to an ASCIIZ string containing the property name for which information is being sought. Maximum length is 40 characters, including the terminating NULL.
rc (ULONG) - returns
Success: The format of the return value for successful depends on the type of the property being queried:
VDMP_BOOL The return value is a BOOL (Boolean). A 0value represents FALSE and a nonzero value represents TRUE.
VDMP_INT The return value is a DD. It is guaranteed to be valid with respect to the bounding information specified in VDHRegisterVDD. Only the low half (DW) of the DD is significant. The high half is always 0.
VDMP_ENUM The return value is a pointer to a NULL-terminated string. The string is guaranteed to be one of those specified in VDHRegisterVDD.
VDMP_STRING The return value is a pointer to a NULL-terminated string. The string is guaranteed to be, at most, as long as the limit specified in VDHRegisterVDD.
VDMP_MLSTR The return value is a pointer to a NULL-terminated string. The string is guaranteed to be, at most, as long as the limit specified in VDHRegisterVDD.
Note: For property types VDMP_ENUM, VDMP_STRING, and VDMP_MLSTR, a pointer to the current value is returned to the virtual device driver, thereby avoiding a condition where an OS/2 process might be trying to change the same value. The virtual device driver calls VDHFreeMem to free the string after the virtual device driver is finished with it.
Failure: If the function fails, it returns NULL for property types VDMP_ENUM , VDMP_STRING, and VDMP_MLSTR, if there is insufficient memory to create a copy of the string value. In this case, the virtual device driver uses the default property value. NULL is also returned if pszName is invalid or is not a registered virtual device driver name.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: All memory allocated by a virtual device driver for use by the terminating DOS session is freed by using VDHFreeMem.

Notes: A virtual device driver can assume that the property value is valid. The system validates all types, except VDMP_STRING and VDMP_MLSTR, by using the validation values passed on the call to VDHRegisterProperty. The string types are validated by calling the virtual device driver function registered through VDHRegisterProperty.

VDHQuerySel

Format
This function returns the selector part of a 16:16 far pointer from a flat 0:32 address. The selector is in the Global Descriptor Table (GDT).
#include mvdm.h

PVOID    VirtAddress;  /*  0:32 virtual address */
SEL      rc;

rc = VDHQuerySel(VirtAddress);
Parameters
VirtAddress (PVOID) A 0:32 virtual address.
rc (SEL) - returns
Success: If the function is successful, it returns a nonzero selector.
Failure: If the specified linear address is not in a virtual device driver data object, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization and task context:
During initialization time; query is allowed only on initialization and global data.
Global, instance, and stack data are allowed during task time (typically DOS session creation time), but initialization data is not.
DOS Session Terminations: Selectors for virtual device driver instance data are destroyed when the DOS session terminates. The virtual device driver must ensure that any physical device driver that was given this kind of selector is finished with it.

Notes: This function works only on 0:32 addresses in virtual device driver data objects and stacks. Each virtual device driver data object is limited to a maximum of 64KB in size so that the following formula can be used. A virtual device driver that needs more than 64KB of a particular class (INIT , global, or instance) must use multiple objects.

Notice that the selectors for virtual device driver data are created to map starting at a 64KB linear address boundary. As a result, VDHQuerySelneeds to be called only once. The returned selector is valid for any memory in the particular object that contains the passed address, because the DOS Session Manager does not allow a virtual device driver data object to span a 64KB linear address boundary.

For virtual device driver instance data, this function returns a different GDT selector for each DOS session, and it can be called only in the context of a DOS session.

VDHQuerySem

Format
This function queries the state of an event or mutex semaphore.
#include mvdm.h

HVDHSEM         SemHandle;    /*  Handle to an event or mutex semaphore */
PVDHSEMSTATE    SemStatePtr;  /*  Pointer to a VDHSEMSTATE data area */

VDHQuerySem(SemHandle, SemStatePtr);
Parameters
SemHandle (HVDHSEM) Semaphore handle.
SemStatePtr (PVDHSEMSTATE) A pointer to the data area to be filled with the state of the semaphore.
SemStatePtr points to a variable defined in VDMM.INC and structured as follows:

typedef struct VDHSemState_s {
UCHAR vss_SemType; /* VDH_EVENTSEM/VDH_MUTEXSEM */
UCHAR vss_fOwned; /* 0 = Not Owned; 1 = Owned */
USHORT vss_fWaiter; /* 0 = No one waiting; 1 = Waiting */
USHORT vss_cRequest; /* Request count in mutex case */
TID vss_tid; /* TID of the owner, if owned */
}VDHSEMSTATE;

Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for state checking services.

Notes: The validity of SemStatePtr is not checked. The calling program must pass the address of a valid data area.

VDHQuerySysValue

Format
This function queries a system value.

#include mvdm.h

HVDM VDMHandle;  /* Index of the system variable handle of the DOS session */
ULONG Index;     /* Index values */
ULONG rc;

rc = VDHQuerySysValue(VDMHandle, Index);

Parameters
VDMHandle (HVDM) Index of the system variable handle of the DOS session to query. A value of 0 (zero) indicates the current DOS session.
Index (ULONG) VDHQuerySysValue index values (as defined in VDMM.INC) and descriptions:

Global Values Ordinal Type Units Range
VDHGSV_DAY 0 ULONG days 1 < = x < = 31
VDHGSV_MONTH 1 ULONG months 1 < = x < = 12
VDHGSV_YEAR 2 ULONG years 1980 < = x < = MAXULONG
VDHGSV_DAYOFWEEK 3 ULONG days 0 < = x < = 6
VDHGSV_HOUR 4 ULONG hours 0 < = x < = 24
VDHGSV_MINUTE 5 ULONG minutes 0 < = x < = 60
VDHGSV_SECOND 6 ULONG seconds 0 < = x < = 60
VDHGSV_HUNDREDTH 7 ULONG 1/100S 0 < = x < = 100
VDHGSV_SECONDS1970 8 ULONG seconds 0 < = x < = MAXULONG
VDHGSV_TIMEZONE 9 ULONG minutes 0 < = x < = MAXULONG
VDHGSV_MSECSBOOT 10 ULONG milliseconds 0 < = x < = MAXULONG
VDHGSV_TIMERINTERVAL 11 ULONG milliseconds 0 < = x < = 1000
VDHGSV_DYNVARIATION 12 BOOL TRUE(nonzero)/FALSE(0)
VDHGSV_MAXWAIT 13 ULONG seconds 0 < = x < = MAXULONG
VDHGSV_MINTIMESLICE 14 ULONG milliseconds 0 < = x < = MAXULONG
VDHGSV_MAXTIMESLICE 15 ULONG milliseconds 0 < = x < = MAXULONG
VDHGSV_YIELD 16 BOOL TRUE(nonzero)/FALSE(0)
VDHGSV_TCYIELD 17 BOOL TRUE(nonzero)/FALSE(0)
VDHGSV_VERMAJOR 18 ULONG 0 < = x < = MAXULONG
VDHGSV_VERMINOR 19 ULONG 0 < = x < = MAXULONG
VDHGSV_VERREVISION 20 CHAR 0 < = x < = 255
Global Values Ordinal Type Units Range
VDHGSV_MACHINETYPE 21 ULONG MACHINE_TYPE_
VDHGSV_BLACKHOLEADDR 22 PVOID bytes 0 < = x < = MAXULONG
VDHGSV_BLACKHOLESIZE 23 ULONG bytes 0 < = x < = MAXULONG
VDHGSV_FGNDSESSIONID 24 ULONG 0 < = x < = MAXSESSIONS
VDHGSV_ARPLADDR 29 ULONG
VDHGSV_MACHINEINFO 30 ULONG Pointer to System Configuration table
VDHGSV_PPOSREGS 31 ULONG Pointer to POS Regs structure
VDHGSV_PICMASK 32 ULONG Original PIC mask values
Local Values Ordinal Type Units Range
VDHLSV_HVDM 4096 HVDM
VDHLSV_PID 4097 PID
VDHLSV_PCRF 4098 PCFR
VDHLSV_SESSIONID 4099 ULONG N < = x < MAXSESSIONS
VDHLSV_FOREGROUND 4100 BOOL TRUE(nonzero)/FALSE(0)
VDHLSV_RMSIZE 4101 ULONG KB 0 < x < = 640
VDHLSV_CODEPAGEID 4102 ULONG See DosGetCP
VDHLSV_PRIORITYCLASS 4103 ULONG See VDHSetPriority
VDHLSV_PRIORITYLEVEL 4104 ULONG See VDHSetPriority
VDHLSV_VPICBASE 4105 UCHAR[4]

rc (ULONG) - returns
Success :If the function is successful, it returns the value of the system variable. If the value is 0 and VDHGetError returns 0, then 0 is the correct value.
Failure: If VDMHandle or Index is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in any context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Systems values are of two classes, global and per-DOS session. These classes are distinguished by the prefix of the index name. Variables with prefixes of VDHGSV_are global. Variables with a VDHLSV_ prefix are per-DOS session.

VDHQueryVIRQ

Format
This function returns information about the virtual mask, interrupt request flag, interrupt in-service flag, and pending virtual device driver Interrupt Return (IRET) handlers for the specified IRQ, device, or DOS session.

#include mvdm.h
HVDM VDMHandle; /* IRQ handle from DOS session handle */
HIRQ IRQHandle; /* IRQ handle from VDHOpenVIRQ */
ULONG rc;
rc = VDHQueryVIRQ(VDMHandle, IRQHandle);

Parameters
VDMHandle (HVDM) IRQ handle from VDHOpenVIRQ DOS session handle. A value of 0 (zero) indicates the current DOS session.
IRQHandle (HIRQ) IRQ handle from VDHOpenVIRQ.
rc (ULONG) - returns
Success If the function is successful, it returns the IRQ status as a DD of flag bits:
VPICQ_REQUEST_PENDING Request is pending for the queried IRQ
VPICQ_IN_SERVICE Queried IRQ is in service
VPICQ_VIRT_MASK Mask is turned ON for the queried IRQ
VPICQ_STAT_IRET_PENDING IRET is pending for the queried IRQ.
Failure: If VDMHandle or IRQHandle is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHRaiseException

Format
This function is used to raise an exception, which is reflected to a DOS session as if the exception were caused by the hardware.

#include mvdm.h
ULONG Exception; /* An exception number */
ULONG ErrorCode; /* Error code for the exception */
ULONG ExtraCode; /* Extra error code */
BOOL rc;
rc = VDHRaiseException(Exception, ErrorCode, ExtraCode);

Parameters
Exception (ULONG) An exception number that might be caused by the 80386 microprocessor.
ErrorCode (ULONG) Error code for the exception defined for the 80386 microprocessor.
ExtraCode (ULONG) Extra error code for DPMI 1.0 page faults.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero).
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHRead

Format
This function reads bytes from a file or device previously opened by VDHOpen.

#include mvdm.h
HFILE FileHandle; /* Handle to the file or device to read */
PVOID ReadBufferPtr; /* Address of the buffer to store the bytes read */
ULONG NumBytes; /* Number of bytes to read */
ULONG rc;
rc = VDHRead(FileHandle, ReadBufferPtr, NumBytes);

Parameters
FileHandle (HFILE) Handle to the file or device to read.
ReadBufferPtr (PVOID) Address of the buffer to store the bytes read.
NumBytes (ULONG) Number of bytes to read.
rc (ULONG) - returns
Success: If the function is successful, it returns a count of the number of bytes read; this can be equal to 0 (zero).
Failure: If the function fails, it returns 0FFFFFFFFH. VDHGetError should be called to determine the nature of the problem. If FileHandle is invalid or this function is called in any context except DOS session-task, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHReadUBuf

Format
This function is used to read from protected-mode address space as if the read were done at Ring 3. This means any other faults are trapped. All faults are passed on to the DOS session application handler through VDHRaiseException.

#include mvdm.h
PVOID DestBuffer; /* Destination buffer for copy. */
ULONG ByteCount; /* Count of bytes */
SEL Selector; /* Application selector */
PULONG OffsetPointer; /* Address of the variable containing the offset */
ULONG Flag; /* Checking controls flag */
BOOL rc;
rc = VDHReadUBuf(DestBuffer, ByteCount, Selector, OffsetPointer, Flag);

Parameters
DestBuffer (PVOID) Destination buffer for copy.
ByteCount (ULONG) Count of bytes.
Selector (SEL) Application selector.
OffsetPointer (PULONG) Address of the variable containing the offset for the start of the read.
Flag (ULONG) Flag containing checking controls.
Possible values are:
VPM_PROT_READ Check for read.
VPM_PROT_WRITE Check for write.
VPM_FAULT_IF_SU_SET Fault, if supervisor pages.
VPM_FAULT_IF_RO Fault, if writing to read-only descriptor.
VPM_SEL_PRESENT Caller knows descriptor is present.
VPM_SEL_WRITEABLE Caller knows descriptor is writable.
VPM_SEL_IS_SS Selector is client's stack.
VPM_XCPTRET_ALT After exception, return to alternate mode. For example, if the client was in protected mode when the service was called, return in V86 mode after the exception is handled.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 if a bad address reference is causing the fault. In this case, OffsetPointer is updated with the address of the fault. For selector faults, OffsetPointer is unchanged.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: If the routine fails, the caller must clean up and exit so that the exception can be simulated to the user. Supervisor pages can be read without faults to avoid the overhead of checking.

VDHReallocPages

Format
This function expands or shrinks a memory object.

#include mvdm.h
PVOID ObjectAddress; /* Address of the memory object to resize */
ULONG NumPages; /* New size of the memory object (in 4KB pages) */
ULONG Reserved; /* Must be zero */
PVOID rc;
rc = VDHReallocPages(ObjectAddress, NumPages, Reserved);

Parameters
ObjectAddress (PVOID) Address of the memory object to reallocate or resize.
NumPages (ULONG) The new size of the memory object (in 4KB pages).
Reserved (ULONG) Must be set to zero.
rc (PVOID) - returns
Success: If the function is successful, it returns that address of the reallocated memory block.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If the memory object at ObjectAddress was not allocated by VDHAllocPagesor VDHReallocPages, or if the NumPages or Reserved parameters are invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or task context.
DOS Session Terminations: Any allocations that are not in the terminating DOS session's private area must be released by using VDHFreePages.

Notes: When an allocation made with VDHAllocPages is shrunk by VDHReallocPages, the linear range between the end of the allocation and the original end of the allocation remains available for object growth without movement. If the linear range encompassed by the new size was reserved ( with VDHReservePages), reallocation occurs without movement. Reallocation also succeeds without movement if the object was larger than the desired size since it last moved. Regardless of VDHReallocPages activity, all pages in the allocation retain the same properties, that is, fixed, system, and physical.

VDHRegisterAPI

Format
This function is used to register a virtual device driver's API handler that can be called by a DOS or DPMI application in the DOS session. A V86- mode or protected-mode (or both) API handler is set for a particular virtual device driver. Each virtual device driver must register with a unique virtual device driver name. This service provides a mechanism for DOS applications to communicate directly with the virtual device driver.

#include mvdm.h
PSZ VDDName; /* Pointer to the name of the virtual device driver */
PFNHook pfnV86Hook; /* V86-mode hook routine address */
PFNHook pfnVPMHook; /* VPM-mode hook routine address */
BOOL rc;
rc = VDHRegisterAPI(VDDName, pfnV86Hook, pfnVPMHook);

Parameters
VDDName (PSZ) Pointer to the name of the virtual device driver. Maximum length is MAXLENXDD.
pfnV86Hook (PFNHook) V86-mode hook routine address (NULL if no V86-mode handler is needed).
pfnVPMHook(PFNHook) VPM-mode hook routine address (NULL if no VPM-mode handler is needed).
rc (BOOL) - returns
Success Returns TRUE
Failure Returns FALSE
Purpose
Context Issues: This function can only be called in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function. The hook(s) are freed when the DOS session is terminated .
Notes
Hook routine:
VOID HOOKENTRY pfnHook(p,prcf)
     ENTRY     PVOID p-reserved
               PCRF pcrf-pointer to client register frame
     EXIT      None
     CONTEXT   DOS session-task

DOS or DPMI applications issue the following INT 2F calls to determine if they are running under OS/2, and then get the virtual device driver API entry point.

Get OS/2 version (DOS or DPMI applications can use this INT 2F call to get the OS/2 version):

     ENTRY     AX = 0x4010
     EXIT      If OS/2 is running:
                  AX = 0
                  BX = OS/2 version (example:BX = 1400 for 2.0)
               If OS/2 is not present, AX is unchanged

Get virtual device driver API entry points. DOS or DPMI applications can use this INT 2F call to get the address to call the virtual device driver entry points. If the INT 2F is issued in V86 mode, an address that calls the V86 virtual device driver API handler is returned. If the INT 2F call is issued in protected-mode, an address that corresponds to the protected- mode API handler is returned.

     ENTRY     AX = 0x4011
               DS:(E)SI = pointer to ASCIIZ name registered
                                with VDHRegisterAPI
     EXIT      If VDD API handler exists:
                  ES:DI = address to call to invoke handler
               If handler is not registered:
                  ES:DI = NULL

The DOS or DPMI application can then issue a far call to the address returned to invoke the virtual device driver API handler.

VDHRegisterDMAChannel

Format
This function is used by virtual device drivers to register with the virtual DMA device driver (VDMA) to get the ownership of a DMA channel.

#include mvdm.h
ULONG DMAChannel; /* DMA channel */
PFNDMA DMAHandlerFunc; /* The virtual device driver's DMA-handling routine */
BOOL rc;
rc = VDHRegisterDMAChannel(DMAChannel, DMAHandlerFunc);

Parameters
DMAChannel (ULONG) DMA channel.
DMAHandlerFunc (PFNDMA) The virtual device driver's DMA-handler function.
The interface for the DMA-handler routine is as follows:
 BOOL HOOKENTRY (hvdm, iEvent)

 ENTRY
     HVDM  hvdm   - DOS session requesting DMA
     ULONG iEvent - VDD_DMA_MASKOFF (Start DMA, Event)
                    VDD_DMA_MASK    (Stop  DMA, Event)
 EXIT
     SUCCESS - returns nonzero
               If VDD_DMA_MASKOFF,
                  the virtual DMA device driver will program the DMA
               If VDD_DMA_MASK, don't care
     FAILURE - returns 0 (zero)
rc (BOOL) - returns
Success: If the function is successful, it returns 1.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem.
Purpose
Context Issues: This function can be called only in the initialization context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: In the case of VDD_DMA_MASKOFF, the virtual device driver gets the hardware ownership and unhooks all the ports. If hardware ownership is not available immediately, it blocks the DOS session. On VDD_DMA_MASK, the virtual device driver returns the ownership and hooks back the ports.

If the DOS application programs the hardware handled by a virtual device driver first, and then programs the DMA, this virtual device driver receives ownership of hardware, unhooks all ports on first port access, and arms a timer for a safe period. This is a preventive measure to protect the system from errant I/O to DMA ports. If the timer fires, the virtual device driver releases the hardware. In this case, the virtual device driver does nothing when the virtual DMA device driver later calls with VDD_DMA_MASKOFF .

It is the virtual device driver's responsibility (in DMAHandlerFunc) to handle the unavailability of hardware ownership. This means the virtual device driver must put up the pop-up and suspend (or terminate) the DOS session. The virtual device driver passes the interrupt notification to the virtual DMA device driver before simulating that interrupt to the DOS session, if it owns the hardware.

In between VDD_DMA_MASKOFF and VDD_DMA_MASK events, the virtual DMA device driver always returns the physical DMA state, if the application polls its status or transfer count. This is appropriate because the virtual device driver owns the device during this period. VDD_DMA_MASK event notification takes place before actually masking the register in DMA. VDD_DMA_MASKOFF takes place after masking off the DMA.

DMA Channel 4 is not supported.

VDHRegisterProperty

Format
This function registers a virtual device driver property with the DOS Session Manager.

#include mvdm.h
PSZ PropertyName; /* Property name pointer */
PSZ Reserved; /* Must be set to 0 */
ULONG Reserved; /* Must be set to 0 */
VPTYPE PropertyType; /* Property type */
VPORD PropertyOrdinal; /* Property ordinal */
ULONG PropertyFlag; /* Property flag */
PVOID DefaultValue; /* Default value of the property */
PVOID ValidationData; /* Validation data */
PFNVDHRP ValidationFunc; /* Pointer to a virtual device driver property function */
BOOL rc;
rc = VDHRegisterProperty(PropertyName, Reserved, Reserved, PropertyType, PropertyOrdinal, PropertyFlag, DefaultValue, ValidationData, ValidationFunc);

Parameters
PropertyName (PSZ) Pointer to an ASCIIZ string containing the property name . Maximum length is 40 characters.
Reserved (PSZ) Must be set to 0 (zero).
Reserved (ULONG) Must be set to 0 (zero).
PropertyType(VPTYPE) Property type.
Values are:
VDMP_BOOL 0-Boolean
VDMP_INT 1-Integer. DD size, but only DW is valid
VDMP_ENUM 2-Enumeration
VDMP_STRING 3-ASCIIZ string
VDMP_MLSTR 4-Multi-line string, separated by linefeed (0AH)
PropertyOrdinal(VPORD) Property ordinal.
Values are:
VDMP_ORD_OTHER 0-Custom virtual device driver property
VDMP_ORD_KERNEL 1-ASCIIZ path of DOS kernel
VDMP_ORD_SHELL 2-ASCIIZ path of DOS_SHELL
VDMP_ORD_RMSIZE 3-Integer size of DOS box (128KB-640KB)
VDMP_ORD_FCB 4-Integer total FCBs
VDMP_ORD_FCB2 5-Integer FCBs immune to close LRUing
VDMP_ORD_BREAK 6-Boolean Break flag
VDMP_ORD_DOSDD 7-Multi-line string DOS_DEVICE
VDMP_ORD_VMBOOT 8-ASCIIZ string virtual machine boot drives
VDMP_ORD_VERSION 10-Multi-line string fake version entries
VDMP_ORD_DOS_UMB 11-Boolean flag. DOS_UMB
VDMP_ORD_DOS_HIGH 12-Boolean flag. DOS_HIGH
VDMP_ORD_LASTDRIVE 13-ASCIIZ DOS_LASTDRIVE
VDMP_ORD_FILES 14-Integer total FILES
PropertyFlag (ULONG) Property flag.
Possible value:
VDMP_CREATE Property can be specified only at DOS session creation. Any change to the property after DOS session creation is ignored.
DefaultValue (PVOID) Default value of the property.
The format of this field depends on the value of PropertyType:
VDMP_BOOL DefaultValue is interpreted as a BOOL (Boolean) value.
VDMP_INT DefaultValue is interpreted as a DD value. Only the low half is used (the high half is ignored) so this is more similar to a DW than a DD.
VDMP_ENUM DefaultValue is interpreted as a pointer to an ASCIIZ string.
VDMP_STRING DefaultValue is interpreted as a pointer to an ASCIIZ string.
VDMP_MLSTR DefaultValue is interpreted as a pointer to an ASCIIZ string.
ValidationData (PVOID) Validation data.
The value of this field depends on the value of PropertyType.
VDMP_BOOL ValidationData is NULL. The user is expected to validate Booleans .
VDMP_INT ValidationData is a pointer to a VPBOUND structure:
VPBOUND Limits for VDMP_INT properties. Note that maximum > minimum must hold, the range of maximum to minimum must be a multiple of step, and step= 1 implies that all values between minimum and maximum are valid:

typedef struct VPBOUND_s {
USHORT min; // minimum allowed value
USHORT max; // maximum allowed value
USHORT step; // increment between values } VPBOUND;
typedef VPBOUND *PVPBOUND;

VDMP_ENUM ValidationData is a pointer to a set of ASCIIZ strings terminated by a zero byte, which is the allowed set of responses. The Shell uses this to construct a list or combination box for the user to pick from. Empty ("\ 0") strings are not allowed.
VDMP_STRING ValidationData is a DD that is the maximum allowed string length (including the NULL terminator).
VDMP_MLSTR ValidationData is a DD that is the maximum allowed string length (including the NULL terminator).
ValidationFunc (PFNVDHRP) Function that validates and accepts changes to this property for a running DOS session. Ignored if VDMP_CREATE is specified in conjunction with VDMP_BOOL, VDMP_INT, or VDMP_ENUM.
The interface for the ValidationFunc is defined as follows:

#define VDHPROP_VALIDATE 0x00000000L
#define VDHPROP_SET 0x00000001L
ULONG EXPENTRY fnvdhrp (ULONG op, HVDM hvdm, ULONG cb, PSZ pch);

PFNVDHRP is a pointer to a property function of the virtual device driver that performs property setting and validation. This routine is required for any property that does not specify VDMP_CREATE. Set operations can be requested any time after a DOS session is created. The validation operation can be requested at any time, even before a DOS session is created. Validation is requested only for VDMP_ STRING and VDMP_MLSTR types because all other types can be validated using the information supplied by VDHRegisterProperty.

Parameter Data Type Description
op ULONG Operation to perform. See the following parameter.
hvdm HVDM Handle of DOS session. Undefined if op = VDHPROP_VALIDATE.
cb ULONG Count of bytes pointed by pch. See the following parameter.
pch PSZ Pointer to the value set or validate. See the following parameter.

op Operation to perform (enumeration):
VDHPROP_VALIDATE Validate property for any process. Only called for VDMP_ STRING and VDMP_MLSTR properties.
VDHPROP_SET Set an already validated property for specified hvdm. The return code is ignored.
cb Count of bytes pointed to by pch. Value depends upon PropertyType:
VDMPROP_BOOL Undefined
VDMPROP_INT Undefined
VDMPROP_ENUM Length of ASCIIZ string including NULL terminator
VDMPROP_STRING Length of ASCIIZ string including NULL terminator
VDMPROP_MLSTR Length of ASCIIZ string including NULL terminator
pch Value to set/validate. The format depends on the property type:
VDMPROP_BOOL pch is interpreted as a BOOL (Boolean). Value 0 is FALSE; a nonzero value is TRUE.
VDMPROP_INT pch is interpreted as a DD, and is guaranteed to meet the registered bounds.
VDMPROP_ENUM pch points to an ASCIIZ string, and is guaranteed to be one of the registered enumeration strings.
VDMPROP_STRING pch points to an ASCIIZ string, and is guaranteed to be equal to or less than the registered maximum string length.
VDMPROP_MLSTR pch points to an ASCIIZ string. Multiple lines are separated by a line feed (0x0A). It is guaranteed to be less than or equal to the registered maximum string length.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0. VDHGetError should be called to determine the nature of the problem. A system halt occurs if:
Any of the pointers (PropertyName, HelpFile, ValidationData, or ValidationFunc) are invalid
PropertyFlag or PropertyType are invalid
A VPBOUND structure has invalid contents
The maximum string length for a VDMP_STRING is less than the length of the default string value
Purpose
Context Issues: This function can be called only in the initialization context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: VDHQueryProperty is used to obtain the value of a virtual device driver property for a particular DOS session.

VDHRegisterVDD

Format
This function registers virtual device driver entry points for use by other virtual device drivers (through VDHOpenVDD and VDHRequestVDD), and by OS/2 applications (through DosOpenVDD and DosRequestVDD).

#include mvdm.h
PSZ VDDName; /* Pointer to the name of the virtual device driver */
PFNSYSREQ DosReqFcn; /* Function for use by DosRequestVDD */
PFNDEVREQ VDDReqFcn; /* Function for use by VDHRequestVDD */
BOOL rc;
rc = VDHRegisterVDD(VDDName, DosReqFcn, VDDReqFcn);

Parameters
VDDName (PSZ) Pointer to the name of the virtual device driver. Maximum length is MAXLENXDD.
DosReqFcn (PFNSYSREQ) Function used by DosRequestVDD. NULL, if none.
The interface for the DosReqFcn is:
 RETCODE EXPENTRY DosReqFcn(ulCmd,SGid,nbIn,pReqIn,nbOut,pReqOut)

 ENTRY
     SGID  SGid    - Screen Group ID
     ULONG ulCmd   - Command
     ULONG cbIn    - Input buffer size
     PVOID pReqIn  - Input packet
     ULONG cbOut   - Output buffer size
     PVOID pReqOut - Output packet

 EXIT
     VDDREQ_PASS     - DOS session manager calls the next routine
                       registered under same name
     TRUE (nonzero)  - Return failure (For APIs, 0 is success)
     FALSE (0)       - Return the caller success
VDDReqFcn (PFNDEVREQ) Function used by VDHRequestVDD. NULL, if none.
The interface for the VDDReqFcn is:
 BOOL EXPENTRY VDDReqFcn(hvdm,ulCmd,pReqIn,pReqOut)

 ENTRY
     HVDM    hvdm    - DOS session handle
     ULONG   ulCmd   - Command
     PVOID   pReqIn  - Input packet
     PVOID   pReqOut - Output packet

 EXIT
     VDDREQ_PASS     - DOS Session Manager calls the next routine
                       registered under same name
     TRUE (nonzero)  - Return success (For virtual DevHlp services, 1 is success)
     FALSE (0)       - Return the caller failure
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0. If this function is called with invalid parameters or in an incorrect context, a system halt occurs.
Purpose
Context Issues: This function can be called only in the initialization context.
DOS Session Terminations: The virtual device driver must communicate with any virtual device driver or OS/2 clients, to ensure that the resources for the terminating DOS session are freed.

Notes: If a virtual device driver fails in its INIT routine after registering (through VDHRegisterVDD), the deregistration is done automatically at the time the virtual device driver is unloaded. Because two or more virtual device drivers can register the same name (VDDName), the DOS Session Manager calls each virtual device driver's routine in turn, until one of them returns a nonzero value.

Note that the order of the calling sequence is not consistent.

VDHReleaseCodePageFont

Format
This function releases a code page font loaded with VDHGetCodePageFont. If system memory was allocated to hold the specified font, this call will free that memory.
#include mvdm.h

PVOID    FontPtr;  /*  Pointer returned by VDHGetCodePageFont */

VDHReleaseCodePageFont(FontPtr);
Parameters
FontPtr (PVOID) Pointer returned in FontAddress by VDHGetCodePageFont.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If FontPtr is not valid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session task context.
DOS Session Terminations: The virtual device driver must call this function for any code page fonts loaded for this DOS session.

VDHReleaseMutexSem

Format
This function releases the ownership of a mutex semaphore. If the request count becomes 0 (zero), the highest priority semaphore is awakened.
#include mvdm.h

HVDHSEM    MutexSemHandle;  /*  Handle of the semaphore to be released */

VDHReleaseMutexSem(MutexSemHandle);
Parameters
MutexSemHandle (HVDHSEM) Handle of the semaphore to be released.
Return Value
Success: If the function is successful, it returns nothing and the semaphore in MutexSemHandle is released.
Failure: If the virtual device driver that called VDHReleaseMutexSem is not the owner of the semaphore to be released, or if MutexSemHandle invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHRemoveFaultHook

Format
This function removes the page fault handler hook for the specified DOS session page range.

#include mvdm.h
HVDM VDMHandle; /* DOS session handle. 0 = current DOS session */
PVOID StartingAddress; /* Starting linear address */
ULONG Pages; /* Number of pages */
PFAULTHOOK PageFaultHandlerFcnPtr; /* Function supplied to VDHInstallFaultHook */
VDHRemoveFaultHook(VDMHandle, StartingAddress, Pages, PageFaultHandlerFcnPtr);

Parameters
VDMHandle (HVDM) DOS session handle. A value of 0 (zero) indicates the current DOS session.
StartingAddress (PVOID) Starting linear address.
Pages (ULONG) Number of pages.
PageFaultHandlerFcnPtr (PFAULTHOOK) Function supplied to VDHInstallFaultHook. This is used to verify that the calling virtual device driver is the one that installed the fault hook.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If any of the input parameters are invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: Any fault hooks for the terminating DOS session must be released.

VDHRemoveIOHook

Format
This function must be called with StartingPort and NumPorts to remove the I /O hooks for the specified I/O ports. Port hooks cannot be removed for a subset of the range of ports hooked by VDHInstallIOHook.

#include mvdm.h
ULONG Reserved; /* Reserved. Must be set to 0 (zero). */
PORT StartingPort; /* Starting port number */
ULONG NumPorts; /* Number of ports in the range */
PIOH IOPortHook; /* Pointer to installed I/O hook entry */
VDHRemoveIOHook(Reserved, StartingPort, NumPorts, IOPortHook);

Parameters
Reserved (ULONG) Reserved. Must be set to 0.
StartingPort (PORT) Starting port number.
NumPorts (ULONG) Number of ports in the range.
IOPortHook(PIOH) Pointer to installed I/O hook entry. This parameter is used to verify that the calling virtual device driver is the one that installed the I/O hook.
Return Value
Success: If the function was successful, it returns nothing.
Failure: If IOPortHookEntry is invalid or if StartingPort or NumPorts are out of range, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function. I/O hooks are automatically removed during DOS session termination.

Notes: If the IOPortHook is in instance data, the address passed VDHInstallIOHook must be the same address passed to VDHRemoveIOHook or VDHSetIOHookState.

VDHReportPeek

Format
This function reports DOS session polling activity. A counter of idle polling activity is incremented. If the count exceeds a threshold, the current DOS session is put to sleep for a period.
#include mvdm.h

ULONG    PeekWeight;  /*  Value to add to the idle counter */

VDHReportPeek(PeekWeight);
Parameters
PeekWeight (ULONG) Value to add to the idle counter.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If the current process is not a DOS session, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Any virtual device driver that can detect idle polling activity can call this service to report it. If the sum of peek weights exceeds 64KB in a single VDHGSV_MSECSBOOT clock tick (see #VDHQuerySysValue), the DOS session is considered idle. It is the responsibility of the virtual device driver to calibrate its peek weight. This depends on machine speed and the Ring 0 trap overhead time, and therefore cannot be calibrated from measuring peek rate under DOS.

Note that testing the time before the count ensures that new tests begin at the first peek in a time slice. This allows use of a very short test period .

VDHRequestMutexSem

Format
This function requests the ownership of a mutex semaphore. If the semaphore is owned and the caller is not the owner, the thread will block. If the caller is the owner, a request count is incremented. Request calls can be nested. A maximum of 65,535 (64KB) requests are allowed for each semaphore at any one time. Exceeding this limit results in a system halt.

#include mvdm.h
HVDHSEM MutexSemHandle; /* Mutex semaphore handle */
ULONG Timeout; /* Timeout (in milliseconds) */
BOOL rc;
rc = VDHRequestMutexSem(MutexSemHandle, Timeout);

Parameters
MutexSemHandle (HVDHSEM) Mutex semaphore handle.
Timeout (ULONG) Number of milliseconds to wait before timing out the semaphore.
rc (BOOL) - returns
Success: If the function is successful, it returns 1.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. An invalid semaphore will result in a system halt. A system halt also occurs if the request count crosses the 64KB limit.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHRequestVDD

Format
This function requests an operation of a virtual device driver. This service is also used for communication between two or more virtual device drivers where dynamic linkage between them is not appropriate.

#include mvdm.h
HVDD VDDHandle; /* Virtual device driver handle */
HVDM VDMHandle; /* DOS session handle */
ULONG Command; /* Command requested */
PVOID InputRequestPacket; /* Pointer to the input packet */
PVOID OutputRequestPacket; /* Pointer to the output packet */
BOOL rc;
rc = VDHRequestVDD(VDDHandle, VDMHandle, Command, InputRequestPacket, OutputRequestPacket);

Parameters
VDDHandle (HVDD) Handle to a virtual device driver.
VDMHandle (HVDM) Handle to a DOS session.
Command (ULONG) Command requested.
InputRequestPacket (PVOID) Pointer to the input packet.
OutputRequestPacket (PVOID) Pointer to the output packet.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If VDDHandle or VDMHandle is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the task or the interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Every VDHRequestVDD procedure registered under the virtual device driver name associated with the given handle is called until one returns a nonzero value. No assumption should be made about the order of the calling sequence.

The virtual device driver worker routine sets the error with VDHSetError when it returns 0 (zero). If the calling virtual device driver is registered under the same name as the virtual device driver handle, then its entry point is also called. Furthermore, the DOS Session Manager does not prevent any of the called virtual device drivers from issuing another VDHRequestVDD.

VDHReservePages

Format
This function reserves a range of linear addresses for later use with VDHMapPages or VDHAllocPages. A reserved area cannot contain a mixture of pages set by VDHMapPages and VDHAllocPages, but it can be used successively with either one.

#include mvdm.h
PVOID StartingAddress; /* Starting address of the linear memory to reserve */
ULONG NumPages; /* Number of pages to reserve */
BOOL rc;
rc = VDHReservePages(StartingAddress, NumPages);

Parameters
StartingAddress (PVOID) Starting address of the linear memory to reserve. Must be page aligned and must be less than 110000H (1MB + 64KB).
NumPages (ULONG) Number of pages to reserve.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value and the pages are reserved for later access.
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If StartingAddress or NumPages is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization and DOS session-task contexts. In the initialization context, the reservation affects only the global linear memory map. In the DOS session-task context, reservations affect only the local linear memory map.
DOS Session Terminations: There are no DOS session termination implications for this function. The DOS Session Manager will clean up these reservations when the DOS session terminates.

VDHResetEventSem

Format
This function resets an event semaphore.
#include mvdm.h

HVDHSEM    EventSemHandle;  /*  Handle to the event semaphore to be reset */

VDHResetEventSem(EventSemHandle);
Parameters
EventSemHandle (HVDHSEM) Handle to the event semaphore to be reset.
Return Value
Success: If the function is successful, it returns nothing and the semaphore is reset.
Failure: Resetting a semaphore that is invalid or is already reset causes a system halt to occur.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHSeek

Format
This function seeks to a specified position within a file previously opened by VDHOpen.

#include mvdm.h
HFILE FileHandle; /* Handle to the file */
ULONG NewOffset; /* Offset of the new file-pointer position */
ULONG MoveTypeFlag; /* Type of move (absolute, relative) */
ULONG rc;
rc = VDHSeek(FileHandle, NewOffset, MoveTypeFlag);

Parameters
FileHandle (HFILE) Handle to the file.
NewOffset (ULONG) Offset to the new file-pointer position. Depending on the value of MoveTypeFlag, this can be the offset from the beginning of the file, the ending of the file, or the current position of the file-pointer.
MoveTypeFlag (ULONG) Indicates what type of move is being done.
Possible values are:
VDHSK_ABSOLUTE Move file-pointer to a location relative to the beginning of the file
VDHSK_CURRENT_POSITION Move file-pointer relative to its current position
VDHSK_END_OF_FILE Move file-pointer to a location relative to the end of the file
rc (ULONG) - returns
Success: If the function is successful, it returns the new current absolute position of the file-pointer within the file.
Failure: If the function fails, it returns 0FFFFFFFFH. VDHGetError should be called to determine the nature of the problem. If FileHandle is invalid, or if this function is not called in the DOS session-task context, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHSendVEOI

Format
This function sends a virtual End-Of-Interrupt (EOI) signal to the Virtual Programmable Interrupt Controller (VPIC), and clears the in-service state of the IRQ for the calling device. The EOI handler for the IRQ is called, if one exists.
#include mvdm.h

HIRQ    IRQHandle;  /*  IRQ handle */

VDHSendVEOI(IRQHandle);
Parameters
IRQHandle (HIRQ) IRQ handle.
Return Value
Success: If the function was successful, it returns nothing.
Failure: If IRQHandle is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHSetDosDevice

Format
This function links a DOS device driver into the chain of DOS device drivers for a DOS session.
#include mvdm.h

VPDOSDDTYPE    vpDosDD;  /*  V86 FAR address of the DOS device driver header */
BOOL           rc;

rc = VDHSetDosDevice(vpDosDD);
Parameters
vpDosDD (VPDOSDDTYPE) V86 FAR address of the DOS device driver header. This header (and any headers chained to it) are entered into the DOS device driver list for this DOS session.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero).
Purpose
Context Issues: This function can be called only in the DOS session-task context (DOS session creation only).
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHSetError

Format
This function sets the error code for return by VDHGetError.
#include mvdm.h

ULONG    ErrorCode;  /*  Error code to set */

VDHSetError(ErrorCode);
Parameters
ErrorCode (ULONG) Error code to set for VDHGetError.
Purpose
Context Issues: This function can be called in any context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This function is intended for use by any virtual device driver that offers dynamic link services to other virtual device drivers. Most of the base errors are defined in BSEERR.INC. Where possible, these definitions are used when returning errors.

VDHSetFlags

Format
This function sets the DOS session's Flags Register to specified values.
#include mvdm.h

ULONG    FlagValue;  /*  DOS session flag value */

VDHSetFlags(FlagValue);
Parameters
FlagValue (ULONG) DOS session flag value that sets the flag register of the DOS session.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Virtual device drivers must use this interface instead of the client register frame pointer to change the DOS session's flags. Changes to the interrupt flag and the I/O Privilege Level (IOPL) field must be under the control of 8086 emulation so that VDHArmSTIHook works correctly.

Nested Task (NT) and Resume Flag (RF) flags are cleared, the virtual 8086 Mode (VM) flag is set, and the IOPL field is left unchanged. This function does not take effect until the operating system returns to V86 mode.

VDHSetIOHookState

Format
This function is used to enable and disable I/O port trapping for a range of ports.

#include mvdm.h
ULONG Reserved; /* Reserved. Must be set to 0 */
PORT StartingPort; /* Starting port number */
ULONG NumPorts; /* Number of ports in the range */
PIOH IOPortHook; /* Pointer used to install I/O hooks */
BOOL EnableFlag; /* FLag for setting I/O hooks */
VDHSetIOHookState(Reserved, StartingPort, NumPorts, IOPortHook, EnableFlag);

Parameters
Reserved (ULONG) Reserved. Must be set to 0 (zero).
StartingPort (PORT) Starting port number.
NumPorts (ULONG) Number of ports in the range.
IOPortHook (PIOH) Pointer used to install I/O hooks. This is used to verify that the calling virtual device driver is the one that installed the I/O hooks.
EnableFlag (BOOL) Flag for setting I/O hooks.
TRUE (Non-zero). Enable I/O hooks.
FALSE (0). Disable I/O hooks.
Return Value
Success: If the function was successful, it returns nothing.
Failure: If IOPortHook is invalid, or if StartingPort or NumPorts are out of range, or if StartingPort and NumPorts overlap a range of ports previously marked as VDHIIH_ALWAYS_TRAP by VDHInstallIOHook, a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: If the IOPortHook is in instance data, the address passed to VDHInstallIOHook must be the same address passed to VDHRemoveIOHook or VDHSetIOHookState. When trapping is enabled, the I/O port hooks for the specified range get control when a DOS session does I/O to that range. When trapping is disabled, DOS session I/O goes directly to the physical hardware ports. None of the ports in the range can be marked as VDHIIH_ ALWAYS_TRAP by VDHInstallIOHook.

VDHSetPriority

Format
This function adjusts a DOS session's scheduler priority class and level. Priority levels within each priority class range from 0-31.

#include mvdm.h
HVDM VDMHandle; /* Handle to the DOS session with the priority to change */
ULONG ActionClassFlag; /* Dual purpose flag, Action and Class */
LONG NewPriority; /* Change from the DOS session's previous priority level */
VDHSetPriority(VDMHandle, ActionClassFlag, NewPriority);

Parameters
VDMHandle (HVDM) Handle to the DOS session with the priority to change.
ActionClassFlag (ULONG) A dual-purpose flag.
The Class component of ActionClassFlag indicates the class to which the DOS session should be changed. The Action component of the ActionClassFlag allows the virtual device driver to manage when the priority is changed, and when to start, end, or continue use of the class. See "Notes" under Purpose.
The value of the Class component can be one of the following:
VDHSP_TIME_CRITICAL Highest priority
VDHSP_SERVER Highest priority
VDHSP_REGULAR Highest priority
VDHSP_IDLE Lowest priority
VDHSP_NO_CHANGE Do not change the DOS session's class
The value of the Action component can be one of the following:
VDHSP_START_USE Start use of a class
VDHSP_CONTINUE_USE Continue use of a class
VDHSP_END_USE End use of a class
VDHSP_DEFAULT_ACTION If no action is specified, the default class is changed
NewPriority (LONG) Change from the DOS session's previous priority level.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If VDMHandle or ActionClassFlag are invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the task or interrupt contexts.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: A count of the current users is maintained at each class. The actual priority class in effect at any time is always the highest priority class with current declared users. When there are no declared users, the default class is used. Changes to a class other than the effective class are made to saved values. These changes take effect when the class becomes the effective class.

The caller must signal when it begins use of the class, when it makes changes within the class, and when it finishes with the class. The typical user would make one or more changes to priority at a particular class, and finish the series of changes at the class. The virtual device driver uses the VDHSP_START_USE and VDHSP_END_USE flags at the first and last calls within the class, and the VDHSP_CONTINUE_USE flag for changes in between.

The default class is normally VDHSP_REGULAR unless the class or NewPriority is changed without declaring a user (that is, without specifying a start, continue, or end action flag). This allows a user interface to adjust the default priority of a DOS session.

VDHSetVIRR

Format
This function sets the Virtual Interrupt Request Register (VIRR) in the Virtual Programmable Interrupt Controller (VPIC) of the specified DOS session for the IRQ specified. This causes an interrupt to be simulated to the DOS session.

#include mvdm.h
HVDM VDMHandle; /* DOS session handle */
HIRQ IRQHandle; /* Handle from VDHOpenVIRQ */
VDHSetVIRR(VDMHandle, IRQHandle);

Parameters
VDMHandle (HVDM) DOS session handle. A value of 0 (zero) indicates the current DOS session.
IRQHandle (HIRQ) IRQ handle from VDHOpenVIRQ.
Return Value
Success: If the function was successful, it returns nothing.
Failure: If either of the parameters is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the task or interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: If the interrupt request has not been cleared when the DOS session issues an End-Of-Interrupt (EOI), another interrupt will be simulated to the DOS session.

VDHSetVPMExcept

Format
This function sets the current value in the protected-mode exception table.

#include mvdm.h
ULONG Vector; /* Interrupt vector number */
FPFN HandlerAddress; /* Far32 handler address */
BYTE Flag; /* Flag indicating exception handler */
BOOL rc;
rc = VDHSetVPMExcept(Vector, HandlerAddress, Flag);

Parameters
Vector (ULONG) Interrupt vector number.
HandlerAddress (FPFN) Far32 handler address.
Flag (BYTE) Flag indicating the kind of exception handler being registered.
Possible value:
VPMXCPT32 A 32-bit handler is being registered.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero).
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: There must be a DPMI client running in the DOS session before calling this function.

VDHSetVPMIntVector

Format
This function sets the application Ring 3 handler in the protected-mode interrupt chain. This is used only for DOS Protect Mode Interface (DPMI) support.

#include mvdm.h
ULONG Vector; /* Interrupt vector number */
FPFN HandlerAddress; /* Far32 handler address */
BYTE Flag; /* Flag. */
BOOL rc;
rc = VDHSetVPMIntVector(Vector, HandlerAddress, Flag);

Parameters
Vector (ULONG) Interrupt vector number.
HandlerAddress (FPFN) Far32 handler address.
Flag (BYTE) Flag.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero).
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: There must be a DPMI client running in the DOS session before calling this function.

VDHSwitchToVPM

Format
This function switches the current DOS session into protected mode. This assumes that the appropriate initializations have already been performed.
#include mvdm.h

VOID    ;

VDHSwitchToVPM();
Parameters
None.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHSwitchToV86

Format
This function switches the current DOS session to V86 mode.
#include mvdm.h

VOID    ;

VDHSwitchToV86();
Parameters
None.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHThawVDM

Format
This function reverses the effect of VDHFreezeVDM. The specified DOS session is allowed to run when the freeze count becomes 0 (zero).
#include mvdm.h

HVDM    VDMHandle;  /*  Handle to the DOS session to thaw */

VDHThawVDM(VDMHandle);
Parameters
VDMHandle (HVDM) Handle to the DOS session to allow to execute (thaw).
Return Value
Success: If the function is successful, it returns nothing. The freeze count for the DOS session is decremented.
Failure: If VDMHandle is an invalid handle, a system halt occurs.
Purpose
Context Issues: This function can be called in the task or interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: This function does nothing if called on behalf of a DOS session that is not frozen. See #VDHFreezeVDM for a full discussion of freeze counting.

VDHUnlockMem

Format
This function reverses the effect of VDHLockMem, unlocking a previously locked area of memory.
#include mvdm.h

HLOCK    LockHandle;  /*  Lock handle from VDHLockMem */

VDHUnlockMem(LockHandle);
Parameters
LockHandle (HLOCK) Lock handle of a locked memory area. Originally obtained from VDHLockMem.
Return Value
Success: If the function is successful, it returns nothing.
Failure: An invalid lock handle causes a system halt to occur.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Because lock handles are global, this function can be made in any task context.

VDHUnreservePages

Format
This function unreserves pages that were previously reserved with VDHReservePages. The starting address and size must be identical to the previous corresponding call to VDHReservePages. Note that any mapping made earlier on this region is unmapped before calling this function.

#include mvdm.h
PVOID StartingAddress; /* Starting address of the region to unreserve */
ULONG NumPages; /* Size of the region to unreserve, in pages */
VDHUnreservePages(StartingAddress, NumPages);

Parameters
StartingAddress (PVOID) Starting address of the region to unreserve. Must be less than 110000H (1MB+64KB) and must be page-aligned. In addition, StartingAddress must match a previous VDHReservePages call.
NumPages (ULONG) Size, in pages, of the region to unreserve. Must match the corresponding parameter to a previous call to VDHReservePages.
Return Value
Success: If the function is successful, it returns nothing.
Failure: If StartingAddress or NumPages is invalid, or if they were not used together in an earlier call to VDHReservePages, a system halt occurs.
Purpose
Context Issues: This function can be called in the initialization or DOS session-task context (DOS session creation). In the initialization context, memory can be unreserved only from the global linear memory map. In the DOS session-task context, memory can be unreserved only from the local linear memory map.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: StartingAddress must be less than 110000H (1MB+64KB) and must be page -aligned. Additionally, StartingAddress must match a previous call to VDHReservePages. NumPages must match the corresponding parameter to a previous call to VDHReservePages.

VDHWaitEventSem

Format
This function is used to wait on an event semaphore. If the semaphore is posted, it will return immediately.

#include mvdm.h
HVDHSEM EventSemHandle; /* Event semaphore handle */
ULONG Timeout; /* Timeout (in milliseconds) */
BOOL rc;
rc = VDHWaitEventSem(EventSemHandle, Timeout);

Parameters
EventSemHandle (HVDHSEM) Event semaphore handle.
Timeout (ULONG) Number of milliseconds to wait before timing out.
rc (BOOL) - returns
Success: If the function is successful, it returns 1 (one).
Failure: If the function fails, it returns 0 (zero). VDHGetError should be called to determine the nature of the problem. If EventSemHandle is invalid , a system halt occurs.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function. If Timeout is 0 (zero), the caller will not block; however, ERROR_TIMEOUT is returned. If Timeout is -1, the caller is blocked until the semaphore is posted. Otherwise, the caller blocks for the time specified (in milliseconds) in Timeout.

VDHWaitVIRRs

Format
This function waits until any virtual interrupt is simulated to the current DOS session.

#include mvdm.h
HHOOK PostInFcnHook; /* Hook handle */
BOOL rc;
rc = VDHWaitVIRRs(PostInFcnHook);

Parameters
PostInFcnHook (HHOOK) Hook handle of a routine that is to be called after interrupts are simulated.
rc (BOOL) - returns
Success: The function returns a nonzero value, if it woke up because of a simulated interrupt. If it woke up because of a VDHWakeVIRRs call, the function returns 0 (zero).
Failure: If the function fails, it returns nothing.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: The hook handle must be allocated as a VDH_WAITVIRRS_HOOK type. This function is intended for virtual device drivers that need to simulate a spin loop without stopping virtual interrupt simulation. This allows the virtual device driver to be compatible with DOS but avoid wasting CPU time in a spin loop.

The DOS session's interrupts must be enabled, using VDHSetFlags, before this service is used.

Generally, the virtual device driver will be in a loop when calling this function. When it returns a nonzero value, the virtual device driver returns to V86 mode so that the interrupt can be simulated. The hook function passed to this service is executed after all interrupts are simulated. When this function returns 0 (zero), it is because some other portion of the virtual device driver (likely in response to a physical hardware interrupt) has determined that the DOS session no longer needs to spin. The virtual device driver exits the loop at this point.

The virtual keyboard device driver behaves in this manner in order to emulate the ROM BIOS Read Keyboard function (INT 16H, AH=00) without using excessive CPU time, by allowing the ROM BIOS to spin out in V86 mode, or stopping simulated interrupts by performing a VDHWaitEventSem.

VDHWakeIdle

Format
This function notes that the DOS session is busy (doing useful work). If the DOS session is currently sleeping or running at a lower priority because of the polling activities, the DOS session is awakened, its priority is restored, and it is no longer considered idle.
#include mvdm.h

HVDM    VDMHandle;  /*  Handle to the DOS session to wake up */

VDHWakeIdle(VDMHandle);
Parameters
VDMHandle (HVDM) Handle to the DOS session to be awakened.
Purpose
Context Issues: This function can be called in the task or interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHWakeVIRRs

Format
This function wakes up a DOS session that is waiting with the VDHWaitVIRRs service. See #VDHWaitVIRRs for a full description of the use of this function.
#include mvdm.h

HVDM    VDMHandle;  /*  Handle of the DOS session to wake up */

VDHWakeVIRRs(VDMHandle);
Parameters
VDMHandle (HVDM) Handle of the DOS session to be awakened.
Return Value
Success: If the function was successful, it returns nothing.
Failure: If VDMHandle is invalid, a system halt occurs.
Purpose
Context Issues: This function can be called in the task or interrupt context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: Use with caution because it wakes up every virtual device driver that is waiting on a VDHWaitVIRRs.

VDHWrite

Format
This function writes bytes to a file or device previously opened by VDHOpen .

#include mvdm.h
HFILE FileHandle; /* Handle to the file or device to write to */
PVOID WriteBufferPtr; /* Pointer to the buffer to write */
ULONG NumBytes; /* Number of bytes to write */
ULONG rc;
rc = VDHWrite(FileHandle, WriteBufferPtr, NumBytes);

Parameters
FileHandle (HFILE) Handle to the file or device to write to.
WriteBufferPtr (PVOID) Pointer to the buffer to write.
NumBytes (ULONG) Number of bytes to write.
rc (ULONG) - returns
Success: If the function is successful, it returns a count of the bytes written. This can be equal to 0 (zero).
Failure: If the function fails, it returns 0FFFFFFFFH. VDHGetError should be called to determine the nature of the problem. If FileHandle is invalid, or this function is called in any context except DOS session-task, a system halt occurs.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

VDHWriteUBuf

Format
This function writes to protected-mode address space as if access were done at Ring 3. This means checking for supervisor and read-only faults, and trapping any other faults. All faults are passed on to the DOS session application handler through VDHRaiseException.

#include mvdm.h
PVOID SourceBuffer; /* Source buffer from which to copy */
ULONG ByteCount; /* Count of bytes */
SEL Selector; /* Application selector */
PULONG OffsetPointer; /* Address of the variable containing the offset */
ULONG Flag; /* Flag for checking controls */
BOOL rc;
rc = VDHWriteUBuf(SourceBuffer, ByteCount, Selector, OffsetPointer, Flag);

Parameters
SourceBuffer (PVOID) Source buffer from which to copy.
ByteCount (ULONG) Count of bytes.
Selector (SEL) Application selector.
OffsetPointer (PULONG) Address of the variable containing the offset for the start of the write.
Flag (ULONG) Checking control.
Possible values are:
VPM_PROT_READ Check for read.
VPM_PROT_WRITE Check for write.
VPM_FAULT_IF_SU_SET Fault, if supervisor pages.
VPM_FAULT_IF_RO Fault, if writing to read-only descriptor.
VPM_SEL_PRESENT Caller knows descriptor is present.
VPM_SEL_WRITEABLE Caller knows descriptor is writable.
VPM_SEL_IS_SS Selector is client's stack.
VPM_XCPTRET_ALT After exception, return to alternate mode. For example, if the client was in protected mode when the service was called, return in V86 mode after the exception is handled.
rc (BOOL) - returns
Success: If the function is successful, it returns a nonzero value.
Failure: If the function fails, it returns 0 (zero) if there is a bad address reference, which causes a fault. In such a case, OffsetPointer is updated with the address of the fault. For Selector Faults, OffsetPointer remains unchanged.
Purpose
Context Issues: This function can be called only in the DOS session-task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: When the routine fails, the caller must clean up and exit so that the exception can be simulated to the user.

VDHYield

Format
This function yields the processor to any other thread of equal or higher priority.
#include mvdm.h

BOOL    OptionFlag;  /*  Yield options */

VDHYield(OptionFlag);
Parameters
OptionFlag (BOOL) Yield options.
Possible value:
VDH_YIELD_TIME_CRITICAL Yield only to time-critical threads.
Purpose
Context Issues: This function can be called only in the task context.
DOS Session Terminations: There are no DOS session termination implications for this function.

Notes: If OptionFlag is VDH_YIELD_TIME_CRITICAL, and no time-critical thread is able to run, the caller keeps the CPU.