Source code of Windows XP (NT5)
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1026 lines
28 KiB

/*++
Copyright (c) 1990 Microsoft Corporation
Module Name:
psldt.c
Abstract:
This module contains code for the io port handler support
Author:
Dave Hastings (daveh) 26 Jan 1991
Revision History:
--*/
#include "psp.h"
#if DBG
#define ASSERTEQUAL(value1, value2, string) \
if ((ULONG)value1 != (ULONG)value2) { \
DbgPrint string ; \
}
#define ASSERTEQUALBREAK(value1, value2, string)\
if ((ULONG)value1 != (ULONG)value2) { \
DbgPrint string ; \
DbgBreakPoint(); \
}
#else
#define ASSERTEQUAL(value1, value2, string)
#define ASSERTEQUALBREAK(value1, value2, string)
#endif
//
// Internal functions
//
NTSTATUS
Psp386InstallIoHandler(
IN PEPROCESS Process,
IN PEMULATOR_ACCESS_ENTRY EmulatorAccessEntry,
IN ULONG PortNumber,
IN ULONG Context
);
NTSTATUS
Psp386RemoveIoHandler(
IN PEPROCESS Process,
IN PEMULATOR_ACCESS_ENTRY EmulatorAccessEntry,
IN ULONG PortNumber
);
NTSTATUS
Psp386InsertVdmIoHandlerBlock(
IN PEPROCESS Process,
IN PVDM_IO_HANDLER VdmIoHandler
);
PVDM_IO_HANDLER
Psp386GetVdmIoHandler(
IN PEPROCESS Process,
IN ULONG PortNumber
);
NTSTATUS
Psp386CreateVdmIoListHead(
IN PEPROCESS Process
);
#ifdef ALLOC_PRAGMA
#pragma alloc_text(INIT,PspVdmInitialize)
#pragma alloc_text(PAGE,PspSetProcessIoHandlers)
#pragma alloc_text(PAGE,Ps386GetVdmIoHandler)
#pragma alloc_text(PAGE,Psp386RemoveIoHandler)
#pragma alloc_text(PAGE,Psp386InstallIoHandler)
#pragma alloc_text(PAGE,Psp386CreateVdmIoListHead)
#pragma alloc_text(PAGE,Psp386InsertVdmIoHandlerBlock)
#pragma alloc_text(PAGE,Psp386GetVdmIoHandler)
#pragma alloc_text(PAGE,PspDeleteVdmObjects)
#endif
//
// Resource to synchronize access to IoHandler list
//
ERESOURCE VdmIoListCreationResource;
NTSTATUS
PspSetProcessIoHandlers(
IN PEPROCESS Process,
IN PVOID IoHandlerInformation,
IN ULONG IoHandlerLength
)
/*++
Routine Description:
This routine installs a device driver IO handling routine for the
specified process. If an io operation is detected in a vdm on a port
that has a device driver IO handling routine, that routine will be called.
Arguments:
Process -- Supplies a pointer to the process for which Io port handlers
are to be installed
IoHandlerInformation -- Supplies a pointer to the information about the
io port handlers
IoHandlerLength -- Supplies the length of the IoHandlerInformation
structure.
Return Value:
--*/
{
PPROCESS_IO_PORT_HANDLER_INFORMATION IoHandlerInfo;
NTSTATUS Status;
PEMULATOR_ACCESS_ENTRY EmulatorAccess;
ULONG EmulatorEntryNumber, NumberPorts;
ULONG PortSize;
PAGED_CODE();
//
// Insure that this call was made from KernelMode
//
if (KeGetPreviousMode() != KernelMode) {
return STATUS_INVALID_PARAMETER; // this info type invalid in usermode
}
//
// Insure that the data passed is long enough
//
if (IoHandlerLength < (ULONG)sizeof( PROCESS_IO_PORT_HANDLER_INFORMATION)) {
return STATUS_INFO_LENGTH_MISMATCH;
}
IoHandlerInfo = IoHandlerInformation;
//
// For each of the entries in the array that describes the handlers,
// determine what size of port the specified handler is being installed
// for, and then iterate over each individual port.
//
for (EmulatorEntryNumber = 0, EmulatorAccess =
IoHandlerInfo->EmulatorAccessEntries;
EmulatorEntryNumber < IoHandlerInfo->NumEntries;
EmulatorEntryNumber++, EmulatorAccess++) {
switch (EmulatorAccess->AccessType) {
case Uchar:
PortSize = 1;
break;
case Ushort:
PortSize = 2;
break;
case Ulong:
default:
PortSize = 4;
}
for (NumberPorts = 0;
NumberPorts < EmulatorAccess->NumConsecutivePorts;
NumberPorts++) {
if (IoHandlerInfo->Install) {
Status = Psp386InstallIoHandler(
Process,
EmulatorAccess,
EmulatorAccess->BasePort + NumberPorts * PortSize,
IoHandlerInfo->Context
);
if (NT_SUCCESS(Status)) {
}
} else {
Status = Psp386RemoveIoHandler(
Process,
EmulatorAccess,
EmulatorAccess->BasePort + NumberPorts * PortSize
);
}
if (!NT_SUCCESS(Status)) {
goto exitloop;
}
}
}
Status = STATUS_SUCCESS;
exitloop:
return Status;
}
VOID
PspDeleteVdmObjects(
IN PEPROCESS Process
)
/*++
Routine Description:
Frees the VdmObjects structure and the Frees the IoHandler list
Arguments:
Process -- Supplies a pointer to the process
Return Value:
None
--*/
{
SIZE_T PoolQuota;
PVDM_PROCESS_OBJECTS pVdmObjects;
PVDM_IO_HANDLER p1, p2;
PVDM_IO_LISTHEAD p3;
PLIST_ENTRY Next;
PDELAYINTIRQ pDelayIntIrq;
pVdmObjects = Process->VdmObjects;
if (pVdmObjects == NULL) {
return;
}
//
// First Free any port handler entries for this process,
//
p1 = NULL;
p3 = pVdmObjects->VdmIoListHead;
if (p3) {
p2 = p3->VdmIoHandlerList;
while (p2) {
p1 = p2;
p2 = p1->Next;
ExFreePool( p1 );
}
ExDeleteResourceLite(&p3->VdmIoResource);
ExFreePool( p3 );
pVdmObjects->VdmIoListHead = NULL;
}
if (pVdmObjects->pIcaUserData) {
PsReturnProcessPagedPoolQuota (Process,
sizeof(VDMICAUSERDATA));
ExFreePool(pVdmObjects->pIcaUserData);
}
//
// Free up the DelayedIntList, spinlock protection is not needed because
// object referencing on the process is being used instead. Meaning there
// can be no outstanding timers because the process object reference
// count would have to be nonzero.
//
PoolQuota = 0;
Next = pVdmObjects->DelayIntListHead.Flink;
while (Next != &pVdmObjects->DelayIntListHead) {
pDelayIntIrq = CONTAINING_RECORD(Next, DELAYINTIRQ, DelayIntListEntry);
Next = Next->Flink;
RemoveEntryList (&pDelayIntIrq->DelayIntListEntry);
ExFreePool (pDelayIntIrq);
PoolQuota += sizeof(DELAYINTIRQ);
}
if (PoolQuota != 0) {
PsReturnProcessNonPagedPoolQuota(Process, PoolQuota);
}
PsReturnProcessNonPagedPoolQuota (Process, sizeof(VDM_PROCESS_OBJECTS));
ExFreePool (pVdmObjects);
Process->VdmObjects = NULL;
}
NTSTATUS
Psp386RemoveIoHandler(
IN PEPROCESS Process,
IN PEMULATOR_ACCESS_ENTRY EmulatorAccessEntry,
IN ULONG PortNumber
)
/*++
Routine Description:
This routine remove a handler for a port. On debug version, it will
print a message if there is no handler.
Arguments:
Process -- Supplies a pointer to the process
EmulatorAccess -- Supplies a pointer to the information about the
io port handler
PortNumber -- Supplies the port number to remove the handler from.
Return Value:
--*/
{
PVDM_PROCESS_OBJECTS pVdmObjects = Process->VdmObjects;
PVDM_IO_HANDLER VdmIoHandler;
KIRQL OldIrql;
PAGED_CODE();
//
// Ensure we have a vdm process which is initialized
// correctly for VdmIoHandlers
//
if (!pVdmObjects) {
#if DBG
DbgPrint("Psp386RemoveIoHandler: uninitialized VdmObjects\n");
#endif
return STATUS_UNSUCCESSFUL;
}
//
// If the list does not have a head, then there are no handlers to
// remove.
//
if (!pVdmObjects->VdmIoListHead) {
#if DBG
DbgPrint("Psp386RemoveIoHandler : attempt to remove non-existent hdlr\n");
#endif
return STATUS_SUCCESS;
}
//
// Lock the list, so we can insure a correct update.
//
KeRaiseIrql(APC_LEVEL, &OldIrql);
ExAcquireResourceExclusiveLite(&pVdmObjects->VdmIoListHead->VdmIoResource,TRUE);
VdmIoHandler = Psp386GetVdmIoHandler(
Process,
PortNumber & ~0x3
);
if (!VdmIoHandler) {
#if DBG
DbgPrint("Psp386RemoveIoHandler : attempt to remove non-existent hdlr\n");
#endif
ExReleaseResourceLite(&pVdmObjects->VdmIoListHead->VdmIoResource);
KeLowerIrql(OldIrql);
return STATUS_SUCCESS;
}
ASSERTEQUALBREAK(
VdmIoHandler->PortNumber,
(PortNumber & ~0x3),
("Psp386RemoveIoHandler : Bad pointer returned from GetVdmIoHandler\n")
);
if (EmulatorAccessEntry->AccessMode & EMULATOR_READ_ACCESS) {
switch (EmulatorAccessEntry->AccessType) {
case Uchar:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[0].UcharStringIo[PortNumber % 4],
("Psp386RemoveIoHandler : UcharString fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UcharStringIo[PortNumber % 4] = NULL;
} else {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[0].UcharIo[PortNumber % 4],
("Psp386RemoveIoHandler : Uchar fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UcharIo[PortNumber % 4] = NULL;
}
break;
case Ushort:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[0].UshortStringIo[(PortNumber & 2) >> 1],
("Psp386RemoveIoHandler : UshortString fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UshortStringIo[(PortNumber & 2) >> 1] = NULL;
} else {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[0].UshortIo[(PortNumber & 2) >> 1],
("Psp386RemoveIoHandler : Ushort fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UshortIo[(PortNumber & 2) >> 1] = NULL;
}
break;
case Ulong:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[0].UlongStringIo,
("Psp386RemoveIoHandler : UlongString fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UlongStringIo = NULL;
} else {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[0].UlongIo,
("Psp386RemoveIoHandler : Ulong fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UlongIo = NULL;
}
break;
}
}
if (EmulatorAccessEntry->AccessMode & EMULATOR_WRITE_ACCESS) {
switch (EmulatorAccessEntry->AccessType) {
case Uchar:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[1].UcharStringIo[PortNumber % 4],
("Psp386RemoveIoHandler : UcharString fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UcharStringIo[PortNumber % 4] = NULL;
} else {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[1].UcharIo[PortNumber % 4],
("Psp386RemoveIoHandler : Uchar fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UcharIo[PortNumber % 4] = NULL;
}
break;
case Ushort:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[1].UshortStringIo[(PortNumber & 2) >> 1],
("Psp386RemoveIoHandler : UshortString fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UshortStringIo[(PortNumber & 2) >> 1] = NULL;
} else {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[1].UshortIo[(PortNumber & 2) >> 1],
("Psp386RemoveIoHandler : Ushort fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UshortIo[(PortNumber & 2) >> 1] = NULL;
}
break;
case Ulong:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[1].UlongStringIo,
("Psp386RemoveIoHandler : UlongString fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UlongStringIo = NULL;
} else {
ASSERTEQUAL(
EmulatorAccessEntry->Routine,
VdmIoHandler->IoFunctions[1].UlongIo,
("Psp386RemoveIoHandler : Ulong fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UlongIo = NULL;
}
break;
}
}
ExReleaseResourceLite(&pVdmObjects->VdmIoListHead->VdmIoResource);
KeLowerIrql(OldIrql);
return STATUS_SUCCESS;
}
NTSTATUS
Psp386InstallIoHandler(
IN PEPROCESS Process,
IN PEMULATOR_ACCESS_ENTRY EmulatorAccessEntry,
IN ULONG PortNumber,
IN ULONG Context
)
/*++
Routine Description:
This routine install a handler for a port. On debug version, it will
print a message if there is already a handler.
Arguments:
Process -- Supplies a pointer to the process
EmulatorAccess -- Supplies a pointer to the information about the
io port handler
PortNumber -- Supplies the port number to install the handler for.
Return Value:
--*/
{
PVDM_PROCESS_OBJECTS pVdmObjects = Process->VdmObjects;
PVDM_IO_HANDLER VdmIoHandler;
NTSTATUS Status;
KIRQL OldIrql;
PAGED_CODE();
//
// Ensure we have a vdm process which is initialized
// correctly for VdmIoHandlers
//
if (!pVdmObjects) {
#if DBG
DbgPrint("Psp386InstallIoHandler: uninitialized VdmObjects\n");
#endif
return STATUS_UNSUCCESSFUL;
}
Status = STATUS_SUCCESS;
//
// If this is the first handler to be installed, create the list head,
// and initialize the resource lock.
//
if (!pVdmObjects->VdmIoListHead) {
Status = Psp386CreateVdmIoListHead(
Process
);
if (!NT_SUCCESS(Status)) {
return Status;
}
}
//
// Lock the list to insure correct update.
//
KeRaiseIrql(APC_LEVEL, &OldIrql);
ExAcquireResourceExclusiveLite(&pVdmObjects->VdmIoListHead->VdmIoResource,TRUE);
//
// Update Context
//
pVdmObjects->VdmIoListHead->Context = Context;
VdmIoHandler = Psp386GetVdmIoHandler(
Process,
PortNumber & ~0x3
);
// If there isn't already a node for this block of ports,
// attempt to allocate a new one.
//
if (!VdmIoHandler) {
try {
VdmIoHandler = ExAllocatePoolWithQuota(
PagedPool,
sizeof(VDM_IO_HANDLER)
);
} except(EXCEPTION_EXECUTE_HANDLER) {
Status = GetExceptionCode();
if (VdmIoHandler) {
ExFreePool(VdmIoHandler);
}
}
if (!NT_SUCCESS(Status)) {
ExReleaseResourceLite(&pVdmObjects->VdmIoListHead->VdmIoResource);
KeLowerIrql(OldIrql);
return Status;
}
RtlZeroMemory(VdmIoHandler, sizeof(VDM_IO_HANDLER));
VdmIoHandler->PortNumber = PortNumber & ~0x3;
Status = Psp386InsertVdmIoHandlerBlock(
Process,
VdmIoHandler
);
if (!NT_SUCCESS(Status)) {
ExReleaseResourceLite(&pVdmObjects->VdmIoListHead->VdmIoResource);
KeLowerIrql(OldIrql);
return Status;
}
}
ASSERTEQUALBREAK(
VdmIoHandler->PortNumber,
(PortNumber & ~0x3),
("Psp386InstallIoHandler : Bad pointer returned from GetVdmIoHandler\n")
);
if (EmulatorAccessEntry->AccessMode & EMULATOR_READ_ACCESS) {
switch (EmulatorAccessEntry->AccessType) {
case Uchar:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[0].UcharStringIo[PortNumber % 4],
("Psp386InstallIoHandler : UcharString fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UcharStringIo[PortNumber % 4] =
(PDRIVER_IO_PORT_UCHAR_STRING)EmulatorAccessEntry->Routine;
} else {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[0].UcharIo[PortNumber % 4],
("Psp386InstallIoHandler : Uchar fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UcharIo[PortNumber % 4] =
(PDRIVER_IO_PORT_UCHAR)EmulatorAccessEntry->Routine;
}
break;
case Ushort:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[0].UshortStringIo[(PortNumber & 2) >> 1],
("Psp386InstallIoHandler : UshortString fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UshortStringIo[(PortNumber & 2) >> 1] =
(PDRIVER_IO_PORT_USHORT_STRING)EmulatorAccessEntry->Routine;
} else {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[0].UshortIo[(PortNumber & 2) >> 1],
("Psp386InstallIoHandler : Ushort fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UshortIo[(PortNumber & 2) >> 1] =
(PDRIVER_IO_PORT_USHORT)EmulatorAccessEntry->Routine;
}
break;
case Ulong:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[0].UlongStringIo,
("Psp386InstallIoHandler : UlongString fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UlongStringIo =
(PDRIVER_IO_PORT_ULONG_STRING)EmulatorAccessEntry->Routine;
} else {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[0].UlongIo,
("Psp386InstallIoHandler : Ulong fns don't match\n")
);
VdmIoHandler->IoFunctions[0].UlongIo =
(PDRIVER_IO_PORT_ULONG)EmulatorAccessEntry->Routine;
}
break;
}
}
if (EmulatorAccessEntry->AccessMode & EMULATOR_WRITE_ACCESS) {
switch (EmulatorAccessEntry->AccessType) {
case Uchar:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[1].UcharStringIo[PortNumber % 4],
("Psp386InstallIoHandler : UcharString fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UcharStringIo[PortNumber % 4] =
(PDRIVER_IO_PORT_UCHAR_STRING)EmulatorAccessEntry->Routine;
} else {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[1].UcharIo[PortNumber % 4],
("Psp386InstallIoHandler : Uchar fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UcharIo[PortNumber % 4] =
(PDRIVER_IO_PORT_UCHAR)EmulatorAccessEntry->Routine;
}
break;
case Ushort:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[1].UshortStringIo[(PortNumber & 2) >> 1],
("Psp386InstallIoHandler : UshortString fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UshortStringIo[(PortNumber & 2) >> 1] =
(PDRIVER_IO_PORT_USHORT_STRING)EmulatorAccessEntry->Routine;
} else {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[1].UshortIo[(PortNumber & 2) >> 1],
("Psp386InstallIoHandler : Ushort fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UshortIo[(PortNumber & 2) >> 1] =
(PDRIVER_IO_PORT_USHORT)EmulatorAccessEntry->Routine;
}
break;
case Ulong:
if (EmulatorAccessEntry->StringSupport) {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[1].UlongStringIo,
("Psp386InstallIoHandler : UlongString fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UlongStringIo =
(PDRIVER_IO_PORT_ULONG_STRING)EmulatorAccessEntry->Routine;
} else {
ASSERTEQUALBREAK(
NULL,
VdmIoHandler->IoFunctions[1].UlongIo,
("Psp386InstallIoHandler : Ulong fns don't match\n")
);
VdmIoHandler->IoFunctions[1].UlongIo =
(PDRIVER_IO_PORT_ULONG)EmulatorAccessEntry->Routine;
}
}
}
ExReleaseResourceLite(&pVdmObjects->VdmIoListHead->VdmIoResource);
KeLowerIrql(OldIrql);
return STATUS_SUCCESS;
}
NTSTATUS
Psp386CreateVdmIoListHead(
IN PEPROCESS Process
)
/*++
Routine Description:
This routine creates the head node of the Io handler list. This node
contains the spin lock that protects the list. This routine also
initializes the spin lock.
Arguments:
Process -- Supplies a pointer to the process
Return Value:
Notes:
--*/
{
PVDM_PROCESS_OBJECTS pVdmObjects = Process->VdmObjects;
NTSTATUS Status;
PVDM_IO_LISTHEAD HandlerListHead=NULL;
KIRQL OldIrql;
PAGED_CODE();
Status = STATUS_SUCCESS;
// if there isn't yet a head, grab the resource lock and create one
if (pVdmObjects->VdmIoListHead == NULL) {
KeRaiseIrql(APC_LEVEL, &OldIrql);
ExAcquireResourceExclusiveLite(&VdmIoListCreationResource, TRUE);
// if no head was created while we grabbed the spin lock
if (pVdmObjects->VdmIoListHead == NULL) {
try {
// allocate space for the list head
// and charge the quota for it
HandlerListHead = ExAllocatePoolWithQuota(
NonPagedPool,
sizeof(VDM_IO_LISTHEAD)
);
} except(EXCEPTION_EXECUTE_HANDLER) {
Status = GetExceptionCode();
if (HandlerListHead) {
ExFreePool(HandlerListHead);
}
}
if ((!NT_SUCCESS(Status) || !HandlerListHead)) {
ExReleaseResourceLite(&VdmIoListCreationResource);
KeLowerIrql(OldIrql);
return (Status == STATUS_SUCCESS ?
STATUS_INSUFFICIENT_RESOURCES :
Status);
}
ExInitializeResourceLite(&HandlerListHead->VdmIoResource);
HandlerListHead->VdmIoHandlerList = NULL;
//
// Attach the list head to the process
// and attach the handler to the list.
// Since this was a new list
pVdmObjects->VdmIoListHead = HandlerListHead;
ExReleaseResourceLite(&VdmIoListCreationResource);
KeLowerIrql(OldIrql);
}
}
return STATUS_SUCCESS;
}
NTSTATUS
Psp386InsertVdmIoHandlerBlock(
IN PEPROCESS Process,
IN PVDM_IO_HANDLER VdmIoHandler
)
/*++
Routine Description:
This routine inserts a new VdmIoHandler block into the process's io
handler list.
Arguments:
Process -- Supplies a pointer to the process
VdmIoHandler -- Supplies a pointer to the block to insert.
Return Value:
--*/
{
PVDM_PROCESS_OBJECTS pVdmObjects = Process->VdmObjects;
PVDM_IO_HANDLER HandlerList, p;
PVDM_IO_LISTHEAD HandlerListHead;
PAGED_CODE();
HandlerListHead = pVdmObjects->VdmIoListHead;
HandlerList = HandlerListHead->VdmIoHandlerList;
p = NULL;
while ((HandlerList != NULL) &&
(HandlerList->PortNumber < VdmIoHandler->PortNumber)) {
#if DBG
if (HandlerList->PortNumber == VdmIoHandler->PortNumber) {
DbgPrint("Ps386InsertVdmIoHandlerBlock : handler list corrupt\n");
}
#endif
p = HandlerList;
HandlerList = HandlerList->Next;
}
if (p == NULL) { // Beginning of list
VdmIoHandler->Next = HandlerListHead->VdmIoHandlerList;
HandlerListHead->VdmIoHandlerList = VdmIoHandler;
} else if (HandlerList == NULL) { // End of list
p->Next = VdmIoHandler;
VdmIoHandler->Next = NULL;
} else { // Middle of list
VdmIoHandler->Next = HandlerList;
p->Next = VdmIoHandler;
}
return STATUS_SUCCESS;
}
BOOLEAN
Ps386GetVdmIoHandler(
IN PEPROCESS Process,
IN ULONG PortNumber,
OUT PVDM_IO_HANDLER VdmIoHandler,
OUT PULONG Context
)
/*++
Routine Description:
This routine finds the VdmIoHandler block for the specified port.
Arguments:
Process -- Supplies a pointer to the process
PortNumber -- Supplies the port number
VdmIoHandler -- Supplies a pointer to the destination for the lookup
Returns:
True -- A handler structure was found and copied
False -- A handler structure was not found
--*/
{
PVDM_PROCESS_OBJECTS pVdmObjects = Process->VdmObjects;
PVDM_IO_HANDLER p;
BOOLEAN Success;
KIRQL OldIrql;
PAGED_CODE();
if (pVdmObjects == NULL) {
return FALSE;
}
if (PortNumber % 4) {
#if DBG
DbgPrint(
"Ps386GetVdmIoHandler : Invalid Port Number %lx\n",
PortNumber
);
#endif
return FALSE;
}
if (!pVdmObjects->VdmIoListHead) {
return FALSE;
}
KeRaiseIrql(APC_LEVEL, &OldIrql);
ExAcquireResourceExclusiveLite(&pVdmObjects->VdmIoListHead->VdmIoResource,TRUE);
p = Psp386GetVdmIoHandler(
Process,
PortNumber
);
if (p) {
*VdmIoHandler = *p;
*Context = pVdmObjects->VdmIoListHead->Context;
Success = TRUE;
} else {
Success = FALSE;
}
ExReleaseResourceLite(&pVdmObjects->VdmIoListHead->VdmIoResource);
KeLowerIrql(OldIrql);
return Success;
}
PVDM_IO_HANDLER
Psp386GetVdmIoHandler(
IN PEPROCESS Process,
IN ULONG PortNumber
)
/*++
Routine Description:
This routine finds the VdmIoHandler block for the specified port.
Arguments:
Process -- Supplies a pointer to the process
PortNumber -- Supplies the port number
Returns:
NULL if no handler found
non-NULL if handler found
--*/
{
PVDM_PROCESS_OBJECTS pVdmObjects = Process->VdmObjects;
PVDM_IO_HANDLER p;
PAGED_CODE();
if (PortNumber % 4) {
#if DBG
DbgPrint(
"Ps386GetVdmIoHandler : Invalid Port Number %lx\n",
PortNumber
);
#endif
return NULL;
}
p = pVdmObjects->VdmIoListHead->VdmIoHandlerList;
while ((p) && (p->PortNumber != PortNumber)) {
p = p->Next;
}
return p;
}
NTSTATUS
PspVdmInitialize(
)
/*++
Routine Description:
This routine initializes the process based Vdm support for x86.
Arguments:
None
Return Value:
TBS
--*/
{
return ExInitializeResourceLite(&VdmIoListCreationResource);
}