windows-nt/Source/XPSP1/NT/drivers/parallel/parport2/pnputils.c
2020-09-26 16:20:57 +08:00

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#include "pch.h"
VOID
P5WorkItemFreePort( PDEVICE_OBJECT Fdo, PFDO_EXTENSION Fdx ) {
PIO_WORKITEM workItem;
UNREFERENCED_PARAMETER( Fdo );
workItem = InterlockedExchangePointer( &Fdx->FreePortWorkItem, NULL );
if( workItem ) {
IoFreeWorkItem( workItem );
}
PptFreePort( Fdx );
}
BOOLEAN
P5SelectDaisyChainDevice(
IN PUCHAR Controller,
IN UCHAR DeviceId
)
{
const ULONG maxRetries = 4;
ULONG retryCount = 0;
BOOLEAN selected = FALSE;
DD(NULL,DDE,"P5SelectDaisyChainDevice %x %d\n",Controller,DeviceId);
while( !selected && retryCount < maxRetries ) {
selected = PptSend1284_3Command( Controller, (UCHAR)(CPP_SELECT | DeviceId) );
++retryCount;
}
return selected;
}
BOOLEAN
P5DeselectAllDaisyChainDevices(
IN PUCHAR Controller
)
{
const ULONG maxRetries = 4;
ULONG retryCount = 0;
BOOLEAN deselected = FALSE;
DD(NULL,DDE,"P5DeselectAllDaisyChainDevices %x\n",Controller);
while( !deselected && retryCount < maxRetries ) {
deselected = PptSend1284_3Command( Controller, (UCHAR)CPP_DESELECT );
++retryCount;
}
return deselected;
}
VOID
P5DeletePdoSymLink(
IN PDEVICE_OBJECT Pdo
)
//
// clean up symbolic link so we can reuse it immediately for a new PDO
//
{
PPDO_EXTENSION pdx = Pdo->DeviceExtension;
if( pdx->SymLinkName ) {
UNICODE_STRING uniSymLinkName;
NTSTATUS status;
DD((PCE)pdx,DDE,"P5DeletePdoSymLink\n");
RtlInitUnicodeString( &uniSymLinkName, pdx->SymLinkName );
status = IoDeleteSymbolicLink( &uniSymLinkName );
PptAssert( STATUS_SUCCESS == status );
ExFreePool( pdx->SymLinkName );
pdx->SymLinkName = NULL;
}
return;
}
VOID
P5MarkPdoAsHardwareGone(
IN PDEVICE_OBJECT Fdo,
IN enum _PdoType PdoType,
IN ULONG DaisyChainId OPTIONAL // ignored if PdoType != PdoTypeDaisyChain
)
{
PFDO_EXTENSION fdx = Fdo->DeviceExtension;
PPDO_EXTENSION pdx;
PDEVICE_OBJECT pdo;
switch( PdoType ) {
case PdoTypeRawPort:
DD((PCE)fdx,DDE,"P5MarkPdoAsHardwareGone - PdoTypeRawPort\n");
pdo = fdx->RawPortPdo;
fdx->RawPortPdo = NULL;
break;
case PdoTypeEndOfChain:
DD((PCE)fdx,DDE,"P5MarkPdoAsHardwareGone - PdoTypeEndOfChain\n");
pdo = fdx->EndOfChainPdo;
fdx->EndOfChainPdo = NULL;
break;
case PdoTypeDaisyChain:
PptAssert( (0 == DaisyChainId) || (1 == DaisyChainId) );
DD((PCE)fdx,DDE,"P5MarkPdoAsHardwareGone - PdoTypeDaisyChain - %d\n",DaisyChainId);
pdo = fdx->DaisyChainPdo[ DaisyChainId ];
fdx->DaisyChainPdo[ DaisyChainId ] = NULL;
break;
case PdoTypeLegacyZip:
DD((PCE)fdx,DDE,"P5MarkPdoAsHardwareGone - PdoTypeLegacyZip\n");
pdo = fdx->LegacyZipPdo;
fdx->LegacyZipPdo = NULL;
break;
default:
DD((PCE)fdx,DDE,"P5MarkPdoAsHardwareGone - Invalid PdoType parameter\n",FALSE);
PptAssertMsg("P5MarkPdoAsHardwareGone - Invalid PdoType parameter",FALSE);
return;
}
pdx = pdo->DeviceExtension;
P5DeletePdoSymLink( pdo );
InsertTailList( &fdx->DevDeletionListHead, &pdx->DevDeletionList );
pdx->DeleteOnRemoveOk = TRUE;
return;
}
BOOLEAN
P5IsDeviceStillThere(
IN PDEVICE_OBJECT Fdo,
IN PDEVICE_OBJECT Pdo
)
//
// Is the Pdo device still connected to the port represented by the Fdo?
//
// N.B. Fdo must own (have locked for exclusive access) the port before calling this function
// or we can corrupt the data stream and hang devices connected to the port
//
{
PFDO_EXTENSION fdx = Fdo->DeviceExtension;
PPDO_EXTENSION pdx = Pdo->DeviceExtension;
BOOLEAN deviceStillThere = FALSE;
PCHAR devIdString = NULL;
PUCHAR controller = fdx->PortInfo.Controller;
PptAssert( DevTypeFdo == fdx->DevType );
PptAssert( DevTypePdo == pdx->DevType );
//
// Select device if needed, pull a fresh 1284 device ID string
// from the device, and compare the Mfg and Mdl from the fresh
// device ID with those stored in our extension. If the Mfg and
// Mdl fields match then the device is still there.
//
switch( pdx->PdoType ) {
case PdoTypeRawPort:
// raw port is always present - it's a virtual device
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeRawPort - StillThere\n");
deviceStillThere = TRUE;
break;
case PdoTypeLegacyZip:
deviceStillThere = P5LegacyZipDetected( fdx->PortInfo.Controller );
if( deviceStillThere ) {
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeLegacyZip - StillThere\n");
} else {
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeLegacyZip - Gone\n");
}
break;
case PdoTypeDaisyChain:
//
// Select device, pull a fresh 1284 device ID string
// from the device, and compare the Mfg and Mdl from the fresh
// device ID with those stored in our extension. If the Mfg and
// Mdl fields match then the device is still there.
//
{
UCHAR daisyChainId = pdx->Ieee1284_3DeviceId;
// select device
if( P5SelectDaisyChainDevice( controller, daisyChainId ) ) {
BOOLEAN bBuildStlDeviceId = FALSE;
PPDO_EXTENSION dummyPdx = NULL;
devIdString = NULL;
// do a check to see if this is an SCM Micro device
dummyPdx = ExAllocatePool( PagedPool, sizeof(PDO_EXTENSION) );
if( dummyPdx != NULL ) {
RtlZeroMemory( dummyPdx, sizeof(PDO_EXTENSION) );
dummyPdx->Controller = fdx->PortInfo.Controller;
bBuildStlDeviceId = ParStlCheckIfStl( dummyPdx, daisyChainId );
if( bBuildStlDeviceId ) {
// SCM Micro device
ULONG DeviceIdSize;
devIdString = ParStlQueryStlDeviceId( dummyPdx, NULL, 0,&DeviceIdSize, TRUE );
} else {
// non-SCM Micro device
devIdString = P4ReadRawIeee1284DeviceId( controller );
}
ExFreePool( dummyPdx );
}
if( devIdString ) {
// got a 1284 device ID string from the device
PCHAR mfg, mdl, cls, des, aid, cid;
ParPnpFindDeviceIdKeys( &mfg, &mdl, &cls, &des, &aid, &cid, devIdString+2 );
if( mfg && mdl ) {
// we have a device, is it the same device?
if( (0 == strcmp( mfg, pdx->Mfg )) && (0 == strcmp( mdl, pdx->Mdl )) ) {
// same device
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeDaisyChain %d - StillThere\n",daisyChainId);
deviceStillThere = TRUE;
} else {
// different device - IDs don't match
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeDaisyChain %d - Gone - diff 1284 ID\n",daisyChainId);
deviceStillThere = FALSE;
}
} else {
// either mfg or mdl field not found
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeDaisyChain %d - Gone - bad 1284 ID\n",daisyChainId);
deviceStillThere = FALSE;
}
// don't forget to free temp pool
ExFreePool( devIdString );
} else {
// unable to get a 1284 device ID string from the device
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeDaisyChain %d - Gone - no 1284 ID\n",daisyChainId);
deviceStillThere = FALSE;
}
// don't forget to deselect device
P5DeselectAllDaisyChainDevices( controller );
} else {
// unable to select device
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeDaisyChain %d - Gone - unable to select\n",daisyChainId);
deviceStillThere = FALSE;
}
} // end new scope for case PdoTypeDaisyChain
break;
case PdoTypeEndOfChain:
//
// Pull a fresh 1284 device ID string from the device, and
// compare the Mfg and Mdl from the fresh device ID with
// those stored in our extension. If the Mfg and Mdl
// fields match then the device is still there.
//
{
ULONG tryNumber = 0;
const ULONG maxTries = 5; // arbitrary number
do {
++tryNumber;
devIdString = P4ReadRawIeee1284DeviceId( controller );
if( devIdString ) {
PCHAR mfg, mdl, cls, des, aid, cid;
ParPnpFindDeviceIdKeys( &mfg, &mdl, &cls, &des, &aid, &cid, devIdString+2 );
if( mfg && mdl ) {
// we have a device, is it the same device?
if( (0 == strcmp( mfg, pdx->Mfg )) && (0 == strcmp( mdl, pdx->Mdl )) ) {
// same device
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeEndOfChain - StillThere\n");
deviceStillThere = TRUE;
} else {
// different device - IDs don't match
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeEndOfChain - Gone - diff 1284 ID\n");
deviceStillThere = FALSE;
}
} else {
// either mfg or mdl field not found
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeEndOfChain - Gone - bad 1284 ID\n");
deviceStillThere = FALSE;
}
// don't forget to free temp pool
ExFreePool( devIdString );
} else {
// unable to get a 1284 device ID string from the device
DD((PCE)pdx,DDE,"P5IsDeviceStillThere - PdoTypeEndOfChain - Gone - no 1284 ID\n");
deviceStillThere = FALSE;
}
if( (FALSE == deviceStillThere ) && (PASSIVE_LEVEL == KeGetCurrentIrql()) ) {
LARGE_INTEGER delay;
delay.QuadPart = - 10 * 1000 * 120; // 120 ms - 3x the usual arbitrary delay
KeDelayExecutionThread( KernelMode, FALSE, &delay);
}
} while( (FALSE == deviceStillThere) && (tryNumber < maxTries) );
}
break;
default:
PptAssertMsg("P5IsDeviceStillThere - invalid PdoType",FALSE);
DD((PCE)Fdo,DDE,"P5IsDeviceStillThere - invalid PdoType\n");
deviceStillThere = TRUE; // don't know what to do here - so, guess
}
return deviceStillThere;
}
NTSTATUS
PptAcquirePortViaIoctl(
IN PDEVICE_OBJECT PortDeviceObject,
IN PLARGE_INTEGER Timeout OPTIONAL
)
/*++dvdf
Routine Description:
This routine acquires the specified parallel port from the parallel
port arbiter ParPort via an IOCTL_INTERNAL_PARALLEL_PORT_ALLOCATE.
Arguments:
PortDeviceObject - points to the ParPort device to be acquired
Return Value:
STATUS_SUCCESS - if the port was successfully acquired
!STATUS_SUCCESS - otherwise
--*/
{
LARGE_INTEGER localTimeout;
if( Timeout ) {
localTimeout = *Timeout; // caller specified
} else {
localTimeout = AcquirePortTimeout; // driver global variable default
}
return ParBuildSendInternalIoctl(IOCTL_INTERNAL_PARALLEL_PORT_ALLOCATE,
PortDeviceObject, NULL, 0, NULL, 0, &localTimeout);
}
NTSTATUS
PptReleasePortViaIoctl(
IN PDEVICE_OBJECT PortDeviceObject
)
/*++dvdf
Routine Description:
This routine releases the specified parallel port back to the the parallel
port arbiter ParPort via an IOCTL_INTERNAL_PARALLEL_PORT_FREE.
Arguments:
PortDeviceObject - points to the ParPort device to be released
Return Value:
STATUS_SUCCESS - if the port was successfully released
!STATUS_SUCCESS - otherwise
--*/
{
return ParBuildSendInternalIoctl(IOCTL_INTERNAL_PARALLEL_PORT_FREE,
PortDeviceObject, NULL, 0, NULL, 0, NULL);
}
VOID
PptWriteMfgMdlToDevNode(
IN PDEVICE_OBJECT Pdo,
IN PCHAR Mfg,
IN PCHAR Mdl
)
{
PPDO_EXTENSION pdx = Pdo->DeviceExtension;
if( Mfg && Mdl ) {
NTSTATUS status;
HANDLE handle;
LONG mfgLen = strlen( Mfg );
LONG mdlLen = strlen( Mdl );
LONG maxLen = mfgLen > mdlLen ? mfgLen : mdlLen;
LONG bufLen = ( maxLen + sizeof(CHAR) ) * sizeof(WCHAR);
PWSTR buffer = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, bufLen );
if( buffer ) {
status = IoOpenDeviceRegistryKey( Pdo, PLUGPLAY_REGKEY_DEVICE, KEY_ALL_ACCESS, &handle );
if( STATUS_SUCCESS == status ) {
UNICODE_STRING uniValueName;
LONG wcharCount;
//
// Write MFG to DevNode
//
RtlInitUnicodeString( &uniValueName, L"IEEE_1284_Manufacturer" );
wcharCount = _snwprintf( buffer, bufLen/sizeof(WCHAR), L"%S", Mfg );
if( (wcharCount > 0) && (wcharCount < (LONG)(bufLen/sizeof(WCHAR))) ){
// no buffer overflow - continue
status = ZwSetValueKey( handle, &uniValueName, 0, REG_SZ, buffer, (wcharCount+1)*sizeof(WCHAR) );
PptAssert( STATUS_SUCCESS == status );
} else {
// buffer overflow - skip writing this value to devnode
PptAssert(!"PptWriteMfgMdlToDevNode - buffer overflow on Mfg");
DD((PCE)pdx,DDW,"PptWriteMfgMdlToDevNode - buffer overflow on Mfg\n");
}
//
// Write MDL to DevNode
//
RtlInitUnicodeString( &uniValueName, L"IEEE_1284_Model" );
wcharCount = _snwprintf( buffer, bufLen/sizeof(WCHAR), L"%S", Mdl );
if( (wcharCount > 0) && (wcharCount < (LONG)(bufLen/sizeof(WCHAR))) ){
// no buffer overflow - continue
status = ZwSetValueKey( handle, &uniValueName, 0, REG_SZ, buffer, (wcharCount+1)*sizeof(WCHAR) );
PptAssert( STATUS_SUCCESS == status );
} else {
// buffer overflow - skip writing this value to devnode
PptAssert(!"PptWriteMfgMdlToDevNode - buffer overflow on Mdl");
DD((PCE)pdx,DDW,"PptWriteMfgMdlToDevNode - buffer overflow on Mdl\n");
}
ZwClose( handle );
} else {
DD((PCE)pdx,DDW,"PptWriteMfgMdlToDevNode - IoOpenDeviceRegistryKey FAILED - status = %x\n",status);
}
ExFreePool( buffer );
} // end if( buffer )
} else {
PptAssert(!"PptWriteMfgMdlToDevNode - Mfg or Mdl is NULL - calling function should catch this!");
DD((PCE)pdx,DDW,"PptWriteMfgMdlToDevNode - Mfg or Mdl is NULL - calling function should catch this!");
}
}
NTSTATUS
PptFdoHandleBusRelations(
IN PDEVICE_OBJECT Fdo,
IN PIRP Irp
)
{
PFDO_EXTENSION fdx = Fdo->DeviceExtension;
ULONG deviceCount = 0;
ULONG daisyChainDevCount;
PDEVICE_RELATIONS devRel;
ULONG devRelSize;
NTSTATUS status;
LARGE_INTEGER acquirePortTimeout;
BOOLEAN acquiredPort;
PUCHAR controller = fdx->PortInfo.Controller;
BOOLEAN changeDetected;
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - enter\n");
//
// acquire exclusive access to bus
//
// timeout is in 100 ns units
acquirePortTimeout.QuadPart = -(10 * 1000 * 1000 * 2); // 2 seconds
// RMT - is it valid to send this IOCTL to FDO from here?
status = PptAcquirePortViaIoctl( Fdo, &acquirePortTimeout );
if( STATUS_SUCCESS == status ) {
// we have the port
acquiredPort = TRUE;
} else {
// failed to aquire port
acquiredPort = FALSE;
// skip rescanning port - just report same thing we reported during previous scan
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - failed to acquire port for rescan\n");
goto target_failed_to_acquire_port;
}
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - Port Acquired\n");
//
// Rescan the bus, note changes, create new PDOs or mark existing
// PDOs for removal as required
//
//
// Handle Raw Port Legacy Interface LPTx device
//
if( !fdx->RawPortPdo ) {
// first time through this - create our LPTx legacy interface PDO
DD((PCE)fdx,DDT,"PptFdoHandleBusRelations - attempting to create RawPortPdo\n");
fdx->RawPortPdo = P4CreatePdo( Fdo, PdoTypeRawPort, 0, NULL );
}
//
// Handle End of Chain Device
//
// make sure all 1284.3 daisy chain devices are deselected
P5DeselectAllDaisyChainDevices( controller );
{
// A small delay here seems to improve reliablility of 1284 device ID queries below.
LARGE_INTEGER delay;
delay.QuadPart = -1;
KeDelayExecutionThread( KernelMode, FALSE, &delay );
}
if( fdx->EndOfChainPdo ) {
if( fdx->DisableEndOfChainBusRescan ) {
//
// Pretend that the LPTx.4 device from previous rescan is still present.
//
// This is needed to work around firmware state machines that can't handle a
// 1284 Device ID query while a print job is active.
//
; // do nothing
} else {
//
// we had an end of chain device - verify that it's still there
//
if( !P5IsDeviceStillThere( Fdo, fdx->EndOfChainPdo ) ) {
// End of chain device is gone - do some cleanup and mark the PDO for removal/deletion
DD((PCE)fdx,DDE,"PptFdoHandleBusRelations - EndOfChain device gone\n");
// note - P5MarkPdoAsHardwareGone sets fdx->EndOfChainPdo to NULL
P5MarkPdoAsHardwareGone( Fdo, PdoTypeEndOfChain, 0 );
}
}
}
if( NULL == fdx->EndOfChainPdo ) {
//
// we don't have an EndOfChain device - check for EndOfChain device arrival
//
PCHAR devId = P4ReadRawIeee1284DeviceId( controller );
if( devId ) {
// RawIeee1284 string includes 2 bytes of length data at beginning, omit these 2 bytes in call to P4CreatePdo
PDEVICE_OBJECT EndOfChainPdo = P4CreatePdo( Fdo, PdoTypeEndOfChain, 0, (devId+2) );
DD((PCE)fdx,DDE,"PptFdoHandleBusRelations - EndOfChain device detected <%s>\n",(devId+2));
if( EndOfChainPdo ) {
fdx->EndOfChainPdo = EndOfChainPdo;
DD((PCE)fdx,DDE,"PptFdoHandleBusRelations - created EndOfChainPdo\n");
} else {
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - FAILED to create EndOfChainPdo\n");
}
ExFreePool( devId );
}
}
#ifdef _X86_ // Zip drives not supported on 64bit systems
//
// Handle Legacy Zip device
//
if( fdx->LegacyZipPdo ) {
//
// we had a Legacy Zip device - verify that it's still there
//
if( !P5IsDeviceStillThere( Fdo, fdx->LegacyZipPdo ) ) {
// Legacy Zip device is gone - do some cleanup and mark the PDO for removal/deletion
DD((PCE)fdx,DDE,"PptFdoHandleBusRelations - LegacyZip device gone\n");
// note - P5MarkPdoAsHardwareGone sets fdx->LegacyZipPdo to NULL
P5MarkPdoAsHardwareGone( Fdo, PdoTypeLegacyZip, 0 );
}
}
if( NULL == fdx->LegacyZipPdo ) {
//
// We don't have a LegacyZip - check for arrival
//
if( !ParEnableLegacyZip ) {
//
// Enumeration of LegacyZip drives was disabled, check the
// registry to see if user has enabled LegacyZip detection
//
// Check under \HKLM\SYSTEM\CCS\Services\Parport\Parameters
PptRegGetDword( RTL_REGISTRY_SERVICES, L"Parport\\Parameters", L"ParEnableLegacyZip", &ParEnableLegacyZip );
if( !ParEnableLegacyZip ) {
// Check under \HKLM\SYSTEM\CCS\Services\Parallel\Parameters (upgrade case - under Win2k flag was here)
PptRegGetDword( RTL_REGISTRY_SERVICES, L"Parallel\\Parameters", L"ParEnableLegacyZip", &ParEnableLegacyZip );
if( ParEnableLegacyZip ) {
// we found the setting in the old location, save
// setting in new Parport location so that we find the
// flag on the first check in the future
PptRegSetDword( RTL_REGISTRY_SERVICES, L"Parport\\Parameters", L"ParEnableLegacyZip", &ParEnableLegacyZip );
}
}
}
if( ParEnableLegacyZip ) {
//
// Enumeration of LegacyZip drives is enabled - check for a LegacyZip arrival
//
if( P5LegacyZipDetected( controller ) ) {
// detected drive - create LegacyZip PDO
PDEVICE_OBJECT legacyZipPdo = P4CreatePdo( Fdo, PdoTypeLegacyZip, 0, NULL );
DD((PCE)fdx,DDE,"legacy Zip arrival detected\n");
if( legacyZipPdo ) {
fdx->LegacyZipPdo = legacyZipPdo;
DD((PCE)fdx,DDE,"PptFdoHandleBusRelations - created LegacyZipPdo\n");
} else {
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - FAILED to create LegacyZipPdo\n");
}
} else {
// no legacy Zip detected - nothing more to do here
DD((PCE)fdx,DDE,"no legacy Zip detected\n");
}
} // if( ParEnableLegacyZip ) -- Detection of LegacyZips is enabled
} // if( fdx->LegacyZipPdo )
//
// Handle enumeration of IEEE 1284.3 Daisy Chain Devices
//
// did the 1284.3 daisy chain change since the last rescan?
daisyChainDevCount = PptInitiate1284_3( fdx );
DD((PCE)fdx,DDW,"daisyChainDevCount = %d\n",daisyChainDevCount);
changeDetected = FALSE;
{
ULONG id;
const ULONG maxId = 1;
ULONG count = 0;
for( id = 0 ; id <= maxId ; ++id ) {
if( fdx->DaisyChainPdo[id] ) {
++count;
}
}
if( count != daisyChainDevCount ) {
// number of devices changed from previous scan
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - number of DC devices changed - count=%d, daisyChainDevCount=%d\n",
count, daisyChainDevCount);
changeDetected = TRUE;
}
}
if( !changeDetected ) {
// number of devices stayed the same - are any of the devices different?
//
// number of daisy chain devices didn't change
// check if any of the devices changed
ULONG id;
const ULONG maxId = 1;
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - number of DC devices stayed same - check the devices\n");
for( id = 0 ; id <= maxId ; ++id ) {
if( fdx->DaisyChainPdo[id] && !P5IsDeviceStillThere( Fdo, fdx->DaisyChainPdo[id] ) ) {
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - a DC device changed\n");
changeDetected = TRUE;
break;
}
}
}
if( changeDetected ) {
// we detected a change in the 1284.3 daisy chain devices - nuke all existing devices
ULONG id;
const ULONG maxId = 1;
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - changeDetected - nuking existing daisy chain PDOs\n");
for( id = 0 ; id <= maxId ; ++id ) {
if( fdx->DaisyChainPdo[id] ) {
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - nuking daisy chain %d\n",id);
P5MarkPdoAsHardwareGone( Fdo, PdoTypeDaisyChain, id );
PptAssert( NULL == fdx->DaisyChainPdo[id] );
}
}
fdx->PnpInfo.Ieee1284_3DeviceCount = 0;
} else {
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - !changeDetected in daisy chain PDOs\n");
}
// reinit daisy chain and assign addresses
daisyChainDevCount = PptInitiate1284_3( fdx );
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - daisyChainDevCount = %d\n",daisyChainDevCount);
if( daisyChainDevCount > 2 ) {
// we only support 2 devices per port even though the spec supports up to 4 devices per port
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - DaisyChainDevCount > 2, set to 2\n");
daisyChainDevCount = 2;
}
if( changeDetected ) {
// we detected a change in the 1284.3 daisy chain devices - we
// previously nuked all old devices - now create a new PDO for
// each device detected
UCHAR id;
PptAssert( 0 == fdx->PnpInfo.Ieee1284_3DeviceCount );
for( id = 0 ; id < daisyChainDevCount ; ++id ) {
BOOLEAN bBuildStlDeviceId = FALSE;
PPDO_EXTENSION pdx = NULL;
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - changeDetected - trying to create new daisy chain PDOs\n");
if( P5SelectDaisyChainDevice( controller, id ) ) {
PCHAR devId = NULL;
// do a check to see if this is an SCM Micro device
pdx = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, sizeof(PDO_EXTENSION) );
if( pdx != NULL ) {
RtlZeroMemory( pdx, sizeof(PDO_EXTENSION) );
pdx->Controller = fdx->PortInfo.Controller;
bBuildStlDeviceId = ParStlCheckIfStl( pdx, id );
ExFreePool( pdx );
}
if( bBuildStlDeviceId ) {
// SCM Micro device
pdx = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, sizeof(PDO_EXTENSION) );
if( pdx != NULL ) {
ULONG DeviceIdSize;
RtlZeroMemory( pdx, sizeof(PDO_EXTENSION) );
pdx->Controller = fdx->PortInfo.Controller;
devId = ParStlQueryStlDeviceId(pdx, NULL, 0,&DeviceIdSize, TRUE);
ExFreePool (pdx);
}
} else {
// non-SCM Micro device
devId = P4ReadRawIeee1284DeviceId( controller );
}
if( devId ) {
// try to create a PDO for the daisy chain device
fdx->DaisyChainPdo[id] = P4CreatePdo( Fdo, PdoTypeDaisyChain, id, (devId+2) );
if( fdx->DaisyChainPdo[id] ) {
// have new PDO
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - new DaisyChainPdo[%d]\n",id);
++(fdx->PnpInfo.Ieee1284_3DeviceCount);
if( bBuildStlDeviceId ) {
// SCM Micro device - requires additional initialization
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - new SCM Micro DaisyChainPdo[%d]\n",id);
pdx = fdx->DaisyChainPdo[id]->DeviceExtension;
pdx->Controller = fdx->PortInfo.Controller;
ParStlCheckIfStl( pdx, 0 ); // update IEEE 1284 flags in the new pdx
}
} else {
// create PDO failed
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - create DaisyChainPdo[%d] failed\n",id);
}
ExFreePool( devId );
} else {
// devId failed
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - devId for DC %d failed\n",id);
}
P5DeselectAllDaisyChainDevices( controller );
} else {
// select failed
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - select for DC %d failed\n",id);
}
}
}
{
ULONG i;
ULONG count = 0;
i = 0;
for( i = 0 ; i < 2 ; ++i ) {
if( fdx->DaisyChainPdo[i] ) {
++count;
}
}
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - Ieee1284_3DeviceCount=%d count1 = %d\n",
fdx->PnpInfo.Ieee1284_3DeviceCount,count);
PptAssert( fdx->PnpInfo.Ieee1284_3DeviceCount == count );
}
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - daisyChainDevCount = %d, fdx->PnpInfo.Ieee1284_3DeviceCount = %d\n",
daisyChainDevCount, fdx->PnpInfo.Ieee1284_3DeviceCount);
// PptAssert( daisyChainDevCount == fdx->PnpInfo.Ieee1284_3DeviceCount );
#endif // _X86_
target_failed_to_acquire_port: // jump here if we couldn't get the port - result is that we report that nothing has changed
//
// Count the number of devices that we are going to report to PnP
// so that we can allocate a DEVICE_RELATIONS structure of the
// appropriate size.
//
if( fdx->RawPortPdo ) {
++deviceCount;
}
if( fdx->EndOfChainPdo ) {
++deviceCount;
}
if( fdx->LegacyZipPdo ) {
++deviceCount;
}
{
const ULONG maxDaisyChainId = 1;
ULONG i;
for( i=0 ; i <= maxDaisyChainId; ++i ) {
if( fdx->DaisyChainPdo[i] ) {
++deviceCount;
} else {
break;
}
}
}
if( deviceCount > 0 && fdx->RawPortPdo ) {
//
// Allocate and populate DEVICE_RELATIONS structure that we return to PnP
//
devRelSize = sizeof(DEVICE_RELATIONS) + (deviceCount-1)*sizeof(PDEVICE_OBJECT);
devRel = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, devRelSize );
if( !devRel ) {
// release port and fail IRP
P4ReleaseBus( Fdo );
return P4CompleteRequestReleaseRemLock( Irp, STATUS_INSUFFICIENT_RESOURCES, Irp->IoStatus.Information, &fdx->RemoveLock );
}
{ // local block - begin
ULONG idx = 0;
RtlZeroMemory( devRel, devRelSize );
++(devRel->Count);
ObReferenceObject( fdx->RawPortPdo );
devRel->Objects[ idx++ ] = fdx->RawPortPdo;
if( fdx->EndOfChainPdo ) {
++(devRel->Count);
ObReferenceObject( fdx->EndOfChainPdo );
devRel->Objects[ idx++ ] = fdx->EndOfChainPdo;
}
if( fdx->LegacyZipPdo ) {
++(devRel->Count);
ObReferenceObject( fdx->LegacyZipPdo );
devRel->Objects[ idx++ ] = fdx->LegacyZipPdo;
}
{
const ULONG maxDaisyChainId = 3;
ULONG i;
for( i=0 ; i <= maxDaisyChainId; ++i ) {
if( fdx->DaisyChainPdo[i] ) {
++(devRel->Count);
ObReferenceObject( fdx->DaisyChainPdo[i] );
devRel->Objects[ idx++ ] = fdx->DaisyChainPdo[i];
} else {
break;
}
}
}
} // local block - end
PptAssert( deviceCount == devRel->Count ); // verify that our two counts match
DD((PCE)fdx,DDE,"PptFdoHandleBusRelations - reporting %d devices\n",devRel->Count);
Irp->IoStatus.Status = STATUS_SUCCESS;
Irp->IoStatus.Information = (ULONG_PTR)devRel;
} else {
// deviceCount <= 0 - error somewhere - likely two ports
// have the same LPTx name in the FDO stack's devnode
// RMT - this assert needs to be changed to ErrorLog msg
PptAssert(!"no RawPort device - likely multiple ports have same LPTx name - email: DFritz");
}
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - passing IRP down stack\n");
status = PptPnpPassThroughPnpIrpAndReleaseRemoveLock( fdx, Irp );
//
// Release our lock on the bus and pass Irp down the stack
//
if( acquiredPort ) {
PIO_WORKITEM workItem = IoAllocateWorkItem( Fdo );
if( workItem ) {
PIO_WORKITEM oldWorkItem = InterlockedCompareExchangePointer( &fdx->FreePortWorkItem, workItem, NULL );
if( NULL == oldWorkItem ) {
// no workitem currently in use, queue this one
IoQueueWorkItem( workItem, P5WorkItemFreePort, DelayedWorkQueue, fdx );
} else {
// there is already a workitem in use, bail out and recover as best we can
// We really shouldn't be able to get here - how in blazes did we
// acquire the port at the top of this function if the workitem
// that we queued to free the port during the previous invocation
// of this function has not yet freed the port?
PptAssertMsg( "workitem collision - port arbitration state may be hosed", (oldWorkItem != NULL) );
IoFreeWorkItem( workItem );
PptFreePort( fdx );
}
} else {
PptFreePort( fdx );
}
// DbgPrint("xxx work item to free port has been queued\n");
//DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - Releasing Port\n");
//PptFreePort( fdx );
//DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - Port Released\n");
} else {
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - Port Not acquired so no need to release\n");
}
DD((PCE)fdx,DDW,"PptFdoHandleBusRelations - exit\n");
return status;
}
NTSTATUS
PptPnpStartScanPciCardCmResourceList(
IN PFDO_EXTENSION Fdx,
IN PIRP Irp,
OUT PBOOLEAN FoundPort,
OUT PBOOLEAN FoundIrq,
OUT PBOOLEAN FoundDma
)
/*++dvdf3
Routine Description:
This routine is used to parse the resource list for what we
believe are PCI parallel port cards.
This function scans the CM_RESOURCE_LIST supplied with the Pnp
IRP_MN_START_DEVICE IRP, extracts the resources from the list,
and saves them in the device extension.
Arguments:
Fdx - The device extension of the target of the START IRP
Irp - The IRP
FoundPort - Did we find a Port resource?
FoundIrq - Did we find an IRQ resource?
FoundDma - Did we find a DMA resource?
Return Value:
STATUS_SUCCESS - if we were given a resource list,
STATUS_INSUFFICIENT_RESOURCES - otherwise
--*/
{
NTSTATUS status = STATUS_SUCCESS;
PIO_STACK_LOCATION irpStack = IoGetCurrentIrpStackLocation( Irp );
PCM_RESOURCE_LIST ResourceList;
PCM_FULL_RESOURCE_DESCRIPTOR FullResourceDescriptor;
PCM_PARTIAL_RESOURCE_LIST PartialResourceList;
PCM_PARTIAL_RESOURCE_DESCRIPTOR PartialResourceDescriptor;
ULONG i;
ULONG length;
*FoundPort = FALSE;
*FoundIrq = FALSE;
*FoundDma = FALSE;
ResourceList = irpStack->Parameters.StartDevice.AllocatedResourcesTranslated;
FullResourceDescriptor = &ResourceList->List[0];
if( FullResourceDescriptor ) {
Fdx->InterfaceType = FullResourceDescriptor->InterfaceType;
PartialResourceList = &FullResourceDescriptor->PartialResourceList;
for (i = 0; i < PartialResourceList->Count; i++) {
PartialResourceDescriptor = &PartialResourceList->PartialDescriptors[i];
switch (PartialResourceDescriptor->Type) {
case CmResourceTypePort:
length = PartialResourceDescriptor->u.Port.Length;
//
// Use a heuristic based on length to guess which register set is
// SPP+EPP, which is ECP, and which is PCI Config or other.
//
switch( length ) {
case 8: // SPP + EPP base address
Fdx->PortInfo.OriginalController = PartialResourceDescriptor->u.Port.Start;
Fdx->PortInfo.SpanOfController = PartialResourceDescriptor->u.Port.Length;
Fdx->PortInfo.Controller = (PUCHAR)(ULONG_PTR)Fdx->PortInfo.OriginalController.QuadPart;
Fdx->AddressSpace = PartialResourceDescriptor->Flags;
*FoundPort = TRUE;
break;
case 4: // ECP base address
Fdx->PnpInfo.OriginalEcpController = PartialResourceDescriptor->u.Port.Start;
Fdx->PnpInfo.SpanOfEcpController = PartialResourceDescriptor->u.Port.Length;
Fdx->PnpInfo.EcpController = (PUCHAR)(ULONG_PTR)Fdx->PnpInfo.OriginalEcpController.QuadPart;
Fdx->EcpAddressSpace = PartialResourceDescriptor->Flags;
break;
default:
// don't know what this is - ignore it
;
}
break;
case CmResourceTypeBusNumber:
Fdx->BusNumber = PartialResourceDescriptor->u.BusNumber.Start;
break;
case CmResourceTypeInterrupt:
*FoundIrq = TRUE;
Fdx->FoundInterrupt = TRUE;
Fdx->InterruptLevel = (KIRQL)PartialResourceDescriptor->u.Interrupt.Level;
Fdx->InterruptVector = PartialResourceDescriptor->u.Interrupt.Vector;
Fdx->InterruptAffinity = PartialResourceDescriptor->u.Interrupt.Affinity;
if (PartialResourceDescriptor->Flags & CM_RESOURCE_INTERRUPT_LATCHED) {
Fdx->InterruptMode = Latched;
} else {
Fdx->InterruptMode = LevelSensitive;
}
break;
case CmResourceTypeDma:
// we don't do anything with DMA - fall through to default case
default:
break;
} // end switch( PartialResourceDescriptor->Type )
} // end for(... ; i < PartialResourceList->Count ; ...)
} // end if( FullResourceDescriptor )
return status;
}
BOOLEAN PptIsPci(
PFDO_EXTENSION Fdx,
PIRP Irp
)
/*++
Does this look like a PCI card? Return TRUE if yes, FALSE otherwise
--*/
{
PIO_STACK_LOCATION irpStack = IoGetCurrentIrpStackLocation( Irp );
PCM_RESOURCE_LIST ResourceList;
PCM_FULL_RESOURCE_DESCRIPTOR FullResourceDescriptor;
PCM_PARTIAL_RESOURCE_LIST PartialResourceList;
PCM_PARTIAL_RESOURCE_DESCRIPTOR PartialResourceDescriptor;
ULONG i;
ULONG portResourceDescriptorCount = 0;
BOOLEAN largePortRangeFound = FALSE;
ULONG rangeLength;
//
// If there are more than 2 IO resource descriptors, or if any IO resource
// descriptor has a range > 8 bytes, then assume that this is a PCI device
// and requires non-traditional handling.
//
ResourceList = irpStack->Parameters.StartDevice.AllocatedResourcesTranslated;
if (ResourceList == NULL) {
// we weren't given any resources
return FALSE;
}
FullResourceDescriptor = &ResourceList->List[0];
if (FullResourceDescriptor) {
PartialResourceList = &FullResourceDescriptor->PartialResourceList;
for (i = 0; i < PartialResourceList->Count; i++) {
PartialResourceDescriptor = &PartialResourceList->PartialDescriptors[i];
switch (PartialResourceDescriptor->Type) {
case CmResourceTypePort:
rangeLength = PartialResourceDescriptor->u.Port.Length;
DD((PCE)Fdx,DDT,"pnp::PptIsPCI - CmResourceTypePort - Start= %I64x, Length= %x , \n",
PartialResourceDescriptor->u.Port.Start.QuadPart, rangeLength);
++portResourceDescriptorCount;
if( rangeLength > 8 ) {
largePortRangeFound = TRUE;
}
break;
default:
;
} // end switch( PartialResourceDescriptor->Type )
} // end for(... ; i < PartialResourceList->Count ; ...)
} // end if( FullResourceDescriptor )
if( (portResourceDescriptorCount > 2) || (TRUE == largePortRangeFound) ) {
// looks like PCI
return TRUE;
} else {
// does not look like PCI
return FALSE;
}
}
NTSTATUS
PptPnpStartScanCmResourceList(
IN PFDO_EXTENSION Fdx,
IN PIRP Irp,
OUT PBOOLEAN FoundPort,
OUT PBOOLEAN FoundIrq,
OUT PBOOLEAN FoundDma
)
/*++dvdf3
Routine Description:
This function is a helper function called by PptPnpStartDevice().
This function scans the CM_RESOURCE_LIST supplied with the Pnp
IRP_MN_START_DEVICE IRP, extracts the resources from the list,
and saves them in the device Fdx.
Arguments:
Fdx - The device extension of the target of the START IRP
Irp - The IRP
FoundPort - Did we find a Port resource?
FoundIrq - Did we find an IRQ resource?
FoundDma - Did we find a DMA resource?
Return Value:
STATUS_SUCCESS - if we were given a resource list,
STATUS_INSUFFICIENT_RESOURCES - otherwise
--*/
{
NTSTATUS status = STATUS_SUCCESS;
PIO_STACK_LOCATION irpStack = IoGetCurrentIrpStackLocation( Irp );
PCM_RESOURCE_LIST ResourceList;
PCM_FULL_RESOURCE_DESCRIPTOR FullResourceDescriptor;
PCM_PARTIAL_RESOURCE_LIST PartialResourceList;
PCM_PARTIAL_RESOURCE_DESCRIPTOR PartialResourceDescriptor;
ULONG i;
PHYSICAL_ADDRESS start;
ULONG length;
BOOLEAN isPci = FALSE;
*FoundPort = FALSE;
*FoundIrq = FALSE;
*FoundDma = FALSE;
ResourceList = irpStack->Parameters.StartDevice.AllocatedResourcesTranslated;
if (ResourceList == NULL) {
// we weren't given any resources, bail out
DD((PCE)Fdx,DDT,"START - FAIL - No Resources - AllocatedResourcesTranslated == NULL\n");
status = STATUS_INSUFFICIENT_RESOURCES;
goto targetExit;
}
if( TRUE == PptIsPci( Fdx, Irp ) ) {
// This appears to be a PCI card
status = PptPnpStartScanPciCardCmResourceList(Fdx, Irp, FoundPort, FoundIrq, FoundDma);
isPci=TRUE;
goto targetExit;
}
//
// Device appears to be traditional / non-PCI card parallel port
//
FullResourceDescriptor = &ResourceList->List[0];
if (FullResourceDescriptor) {
Fdx->InterfaceType = FullResourceDescriptor->InterfaceType;
PartialResourceList = &FullResourceDescriptor->PartialResourceList;
for (i = 0; i < PartialResourceList->Count; i++) {
PartialResourceDescriptor = &PartialResourceList->PartialDescriptors[i];
switch (PartialResourceDescriptor->Type) {
case CmResourceTypePort:
start = PartialResourceDescriptor->u.Port.Start;
length = PartialResourceDescriptor->u.Port.Length;
DD((PCE)Fdx,DDT,"pnp::PptPnpStartScanCmResourceList - start= %I64x , length=%x\n",start, length);
*FoundPort = TRUE;
if ((Fdx->PortInfo.OriginalController.LowPart == 0) &&
(Fdx->PortInfo.OriginalController.HighPart == 0)) {
DD((PCE)Fdx,DDT,"pnp::PptPnpStartScanCmResourceList - assuming Controller\n");
Fdx->PortInfo.OriginalController = PartialResourceDescriptor->u.Port.Start;
Fdx->PortInfo.SpanOfController = PartialResourceDescriptor->u.Port.Length;
Fdx->PortInfo.Controller = (PUCHAR)(ULONG_PTR)Fdx->PortInfo.OriginalController.QuadPart;
Fdx->AddressSpace = PartialResourceDescriptor->Flags;
} else if ((Fdx->PnpInfo.OriginalEcpController.LowPart == 0) &&
(Fdx->PnpInfo.OriginalEcpController.HighPart == 0) &&
(IsNotNEC_98)) {
if ((PartialResourceDescriptor->u.Port.Start.LowPart < Fdx->PortInfo.OriginalController.LowPart) &&
(PartialResourceDescriptor->u.Port.Start.HighPart < Fdx->PortInfo.OriginalController.HighPart)) {
//
// Swapping address spaces
//
DD((PCE)Fdx,DDT,"pnp::PptPnpStartScanCmResourceList - assuming Controller - Swapping Controller/EcpController\n");
Fdx->PnpInfo.OriginalEcpController = Fdx->PortInfo.OriginalController;
Fdx->PnpInfo.SpanOfEcpController = Fdx->PortInfo.SpanOfController;
Fdx->PnpInfo.EcpController = Fdx->PortInfo.Controller;
Fdx->EcpAddressSpace = Fdx->AddressSpace;
Fdx->PortInfo.OriginalController = PartialResourceDescriptor->u.Port.Start;
Fdx->PortInfo.SpanOfController = PartialResourceDescriptor->u.Port.Length;
Fdx->PortInfo.Controller = (PUCHAR)(ULONG_PTR)Fdx->PortInfo.OriginalController.QuadPart;
Fdx->AddressSpace = PartialResourceDescriptor->Flags;
} else {
DD((PCE)Fdx,DDT,"pnp::PptPnpStartScanCmResourceList - assuming EcpController\n");
Fdx->PnpInfo.OriginalEcpController = PartialResourceDescriptor->u.Port.Start;
Fdx->PnpInfo.SpanOfEcpController = PartialResourceDescriptor->u.Port.Length;
Fdx->PnpInfo.EcpController = (PUCHAR)(ULONG_PTR)Fdx->PnpInfo.OriginalEcpController.QuadPart;
Fdx->EcpAddressSpace = PartialResourceDescriptor->Flags;
}
}
break;
case CmResourceTypeBusNumber:
Fdx->BusNumber = PartialResourceDescriptor->u.BusNumber.Start;
break;
case CmResourceTypeInterrupt:
*FoundIrq = TRUE;
Fdx->FoundInterrupt = TRUE;
Fdx->InterruptLevel = (KIRQL)PartialResourceDescriptor->u.Interrupt.Level;
Fdx->InterruptVector = PartialResourceDescriptor->u.Interrupt.Vector;
Fdx->InterruptAffinity = PartialResourceDescriptor->u.Interrupt.Affinity;
if (PartialResourceDescriptor->Flags & CM_RESOURCE_INTERRUPT_LATCHED) {
Fdx->InterruptMode = Latched;
} else {
Fdx->InterruptMode = LevelSensitive;
}
break;
case CmResourceTypeDma:
// we don't do anything with DMA - fall through to default case
default:
break;
} // end switch( PartialResourceDescriptor->Type )
} // end for(... ; i < PartialResourceList->Count ; ...)
} // end if( FullResourceDescriptor )
targetExit:
if( FALSE == isPci ) {
// we scanned the resources - dump what we found
DD((PCE)Fdx,DDT,"pnp::PptPnpStartScanCmResourceList - done, found:\n");
DD((PCE)Fdx,DDT," OriginalEcpController= %I64x\n", Fdx->PnpInfo.OriginalEcpController);
DD((PCE)Fdx,DDT," EcpController = %p\n", Fdx->PnpInfo.EcpController);
DD((PCE)Fdx,DDT," SpanOfEcpController = %x\n", Fdx->PnpInfo.SpanOfEcpController);
}
return status;
}
NTSTATUS
PptPnpStartValidateResources(
IN PDEVICE_OBJECT DeviceObject,
IN BOOLEAN FoundPort,
IN BOOLEAN FoundIrq,
IN BOOLEAN FoundDma
)
/*++dvdf3
Routine Description:
This function is a helper function called by PptPnpStartDevice().
This function does a sanity check of the resources saved in our
extension by PptPnpStartScanCmResourceList() to determine
if those resources appear to be valid. Checks for for Irq
and Dma resource validity are anticipated in a future version.
Arguments:
DeviceObject - The target of the START IRP
FoundPort - Did we find a Port resource?
FoundIrq - Did we find an IRQ resource?
FoundDma - Did we find a DMA resource?
Return Value:
STATUS_SUCCESS - on success,
STATUS_NO_SUCH_DEVICE - if we weren't given a port resource,
STATUS_NONE_MAPPED - if we were given a port resource but our
port address is NULL
--*/
{
PFDO_EXTENSION fdx = DeviceObject->DeviceExtension;
NTSTATUS status = STATUS_SUCCESS;
UNREFERENCED_PARAMETER( FoundIrq ); // future use
UNREFERENCED_PARAMETER( FoundDma ); // future use
if( !FoundPort ) {
status = STATUS_NO_SUCH_DEVICE;
} else {
// fdx->PortInfo.Controller = (PUCHAR)(ULONG_PTR)fdx->PortInfo.OriginalController.LowPart;
fdx->PortInfo.Controller = (PUCHAR)(ULONG_PTR)fdx->PortInfo.OriginalController.QuadPart;
if(!fdx->PortInfo.Controller) {
// ( Controller == NULL ) is invalid
PptLogError(DeviceObject->DriverObject, DeviceObject,
fdx->PortInfo.OriginalController, PhysicalZero, 0, 0, 0, 10,
STATUS_SUCCESS, PAR_REGISTERS_NOT_MAPPED);
status = STATUS_NONE_MAPPED;
}
}
return status;
}
BOOLEAN
PptPnpFilterExistsNonIrqResourceList(
IN PIO_RESOURCE_REQUIREMENTS_LIST ResourceRequirementsList
)
/*++dvdf8
Routine Description:
This function is a helper function called by
PptPnpFilterResourceRequirements().
This function scans the IO_RESOURCE_REQUIREMENTS_LIST to determine
whether there exists any resource alternatives that do NOT contain
an IRQ resource descriptor. The method used to filter out IRQ
resources may differ based on whether or not there exists a
resource alternative that does not contain an IRQ resource
descriptor.
Arguments:
ResourceRequirementsList - The list to scan.
Return Value:
TRUE - There exists at least one resource alternative in the list that
does not contain an IRQ resource descriptor.
FALSE - Otherwise.
--*/
{
ULONG listCount = ResourceRequirementsList->AlternativeLists;
PIO_RESOURCE_LIST curList;
ULONG i;
i=0;
curList = ResourceRequirementsList->List;
while( i < listCount ) {
DD(NULL,DDT,"Searching List i=%d for an IRQ, curList= %x\n", i,curList);
{
ULONG remain = curList->Count;
PIO_RESOURCE_DESCRIPTOR curDesc = curList->Descriptors;
BOOLEAN foundIrq = FALSE;
while( remain ) {
DD(NULL,DDT," curDesc= %x , remain=%d\n", curDesc, remain);
if(curDesc->Type == CmResourceTypeInterrupt) {
DD(NULL,DDT," Found IRQ - skip to next list\n");
foundIrq = TRUE;
break;
}
++curDesc;
--remain;
}
if( foundIrq == FALSE ) {
//
// We found a resource list that does not contain an IRQ resource.
// Our search is over.
//
DD(NULL,DDT," Found a list with NO IRQ - return TRUE from PptPnpFilterExistsNonIrqResourceList\n");
return TRUE;
}
}
//
// The next list starts immediately after the last descriptor of the current list.
//
curList = (PIO_RESOURCE_LIST)(curList->Descriptors + curList->Count);
++i;
}
//
// All resource alternatives contain at least one IRQ resource descriptor.
//
DD(NULL,DDT,"all lists contain IRQs - return FALSE from PptPnpFilterExistsNonIrqResourceList\n");
return FALSE;
}
VOID
PptPnpFilterRemoveIrqResourceLists(
PIO_RESOURCE_REQUIREMENTS_LIST ResourceRequirementsList
)
/*++dvdf8
Routine Description:
This function is a helper function called by
PptPnpFilterResourceRequirements().
This function removes all resource alternatives (IO_RESOURCE_LISTs)
that contain IRQ resources from the IO_RESOURCE_REQUIREMENTS_LIST
Arguments:
ResourceRequirementsList - The list to process.
Return Value:
none.
--*/
{
ULONG listCount = ResourceRequirementsList->AlternativeLists;
PIO_RESOURCE_LIST curList;
PIO_RESOURCE_LIST nextList;
ULONG i;
PCHAR currentEndOfResourceRequirementsList;
LONG bytesToMove;
DD(NULL,DDT,"Enter PptPnpFilterRemoveIrqResourceLists() - AlternativeLists= %d\n", listCount);
//
// We use the end of the list to compute the size of the memory
// block to move when we remove a resource alternative from the
// list of lists.
//
currentEndOfResourceRequirementsList = PptPnpFilterGetEndOfResourceRequirementsList(ResourceRequirementsList);
i=0;
curList = ResourceRequirementsList->List;
//
// Walk through the IO_RESOURCE_LISTs.
//
while( i < listCount ) {
if( PptPnpListContainsIrqResourceDescriptor(curList) ) {
//
// The current list contains IRQ, remove it by shifting the
// remaining lists into its place and decrementing the list count.
//
DD(NULL,DDT,"list contains an IRQ - Removing List\n");
//
// Get a pointer to the start of the next list.
//
nextList = (PIO_RESOURCE_LIST)(curList->Descriptors + curList->Count);
//
// compute the number of bytes to move
//
bytesToMove = (LONG)(currentEndOfResourceRequirementsList - (PCHAR)nextList);
//
// if (currentEndOfResourceRequirementsList == next list),
// then this is the last list so there is nothing to move.
//
if( bytesToMove > 0 ) {
//
// More lists remain - shift them into the hole.
//
RtlMoveMemory(curList, nextList, bytesToMove);
//
// Adjust the pointer to the end of of the
// IO_RESOURCE_REQUIREMENTS_LIST (list of lists) due to the shift.
//
currentEndOfResourceRequirementsList -= ( (PCHAR)nextList - (PCHAR)curList );
}
//
// Note that we removed an IO_RESOURCE_LIST from the IO_RESOURCE_REQUIREMENTS_LIST.
//
--listCount;
} else {
//
// The current list does not contain an IRQ resource, advance to next list.
//
DD(NULL,DDT,"list does not contain an IRQ - i=%d listCount=%d curList= %#x\n", i,listCount,curList);
curList = (PIO_RESOURCE_LIST)(curList->Descriptors + curList->Count);
++i;
}
}
//
// Note the post filtered list count in the ResourceRequirementsList.
//
ResourceRequirementsList->AlternativeLists = listCount;
DD(NULL,DDT,"Leave PptPnpFilterRemoveIrqResourceLists() - AlternativeLists= %d\n", listCount);
return;
}
PVOID
PptPnpFilterGetEndOfResourceRequirementsList(
IN PIO_RESOURCE_REQUIREMENTS_LIST ResourceRequirementsList
)
/*++dvdf8
Routine Description:
This function is a helper function called by PptPnpFilterRemoveIrqResourceLists()
This function finds the end of an IO_RESOURCE_REQUIREMENTS_LIST
(list of IO_RESOURCE_LISTs).
Arguments:
ResourceRequirementsList - The list to scan.
Return Value:
Pointer to the next address past the end of the IO_RESOURCE_REQUIREMENTS_LIST.
--*/
{
ULONG listCount = ResourceRequirementsList->AlternativeLists;
PIO_RESOURCE_LIST curList;
ULONG i;
i=0;
curList = ResourceRequirementsList->List;
while( i < listCount ) {
//
// Pointer arithmetic based on the size of an IO_RESOURCE_DESCRIPTOR.
//
curList = (PIO_RESOURCE_LIST)(curList->Descriptors + curList->Count);
++i;
}
return (PVOID)curList;
}
VOID
PptPnpFilterNukeIrqResourceDescriptorsFromAllLists(
PIO_RESOURCE_REQUIREMENTS_LIST ResourceRequirementsList
)
/*++dvdf8
Routine Description:
This function is a helper function called by
PptPnpFilterResourceRequirements().
This function "nukes" all IRQ resources descriptors
in the IO_RESOURCE_REQUIREMENTS_LIST by changing the descriptor
types from CmResourceTypeInterrupt to CmResourceTypeNull.
Arguments:
ResourceRequirementsList - The list to process.
Return Value:
none.
--*/
{
ULONG listCount = ResourceRequirementsList->AlternativeLists;
ULONG i = 0;
PIO_RESOURCE_LIST curList = ResourceRequirementsList->List;
DD(NULL,DDT,"Enter PptPnpFilterNukeIrqResourceDescriptorsFromAllLists() - AlternativeLists= %d\n", listCount);
//
// Walk through the list of IO_RESOURCE_LISTs in the IO_RESOURCE_REQUIREMENTS list.
//
while( i < listCount ) {
DD(NULL,DDT,"Nuking IRQs from List i=%d, curList= %x\n", i,curList);
//
// Nuke all IRQ resources from the current IO_RESOURCE_LIST.
//
PptPnpFilterNukeIrqResourceDescriptors( curList );
curList = (PIO_RESOURCE_LIST)(curList->Descriptors + curList->Count);
++i;
}
}
VOID
PptPnpFilterNukeIrqResourceDescriptors(
PIO_RESOURCE_LIST IoResourceList
)
/*++dvdf8
Routine Description:
This function is a helper function called by
PptPnpFilterNukeIrqResourceDescriptorsFromAllLists().
This function "nukes" all IRQ resources descriptors
in the IO_RESOURCE_LIST by changing the descriptor
types from CmResourceTypeInterrupt to CmResourceTypeNull.
Arguments:
IoResourceList - The list to process.
Return Value:
none.
--*/
{
PIO_RESOURCE_DESCRIPTOR pIoResourceDescriptorIn = IoResourceList->Descriptors;
ULONG i;
//
// Scan the descriptor list for Interrupt descriptors.
//
for (i = 0; i < IoResourceList->Count; ++i) {
if (pIoResourceDescriptorIn->Type == CmResourceTypeInterrupt) {
//
// Found one - change resource type from Interrupt to Null.
//
pIoResourceDescriptorIn->Type = CmResourceTypeNull;
DD(NULL,DDT," - giving up IRQ resource - MinimumVector: %d MaximumVector: %d\n",
pIoResourceDescriptorIn->u.Interrupt.MinimumVector,
pIoResourceDescriptorIn->u.Interrupt.MaximumVector);
}
++pIoResourceDescriptorIn;
}
}
BOOLEAN
PptPnpListContainsIrqResourceDescriptor(
IN PIO_RESOURCE_LIST List
)
{
ULONG i;
PIO_RESOURCE_DESCRIPTOR curDesc = List->Descriptors;
for(i=0; i<List->Count; ++i) {
if(curDesc->Type == CmResourceTypeInterrupt) {
return TRUE;
} else {
++curDesc;
}
}
return FALSE;
}
NTSTATUS
PptPnpBounceAndCatchPnpIrp(
PFDO_EXTENSION Fdx,
PIRP Irp
)
/*++
Pass a PnP IRP down the stack to our parent and catch it on the way back
up after it has been handled by the drivers below us in the driver stack.
--*/
{
NTSTATUS status;
KEVENT event;
PDEVICE_OBJECT parentDevObj = Fdx->ParentDeviceObject;
DD((PCE)Fdx,DDT,"PptBounceAndCatchPnpIrp()\n");
// setup
KeInitializeEvent(&event, NotificationEvent, FALSE);
IoCopyCurrentIrpStackLocationToNext(Irp);
IoSetCompletionRoutine(Irp, PptSynchCompletionRoutine, &event, TRUE, TRUE, TRUE);
// send
status = IoCallDriver(parentDevObj, Irp);
// wait for completion routine to signal that it has caught the IRP on
// its way back out
KeWaitForSingleObject(&event, Suspended, KernelMode, FALSE, NULL);
if (status == STATUS_PENDING) {
// If IoCallDriver returned STATUS_PENDING, then we must
// extract the "real" status from the IRP
status = Irp->IoStatus.Status;
}
return status;
}
NTSTATUS
PptPnpPassThroughPnpIrpAndReleaseRemoveLock(
IN PFDO_EXTENSION Fdx,
IN PIRP Irp
)
/*++
Pass a PnP IRP down the stack to our parent,
release RemoveLock, and return status from IoCallDriver.
--*/
{
NTSTATUS status;
IoSkipCurrentIrpStackLocation(Irp);
status = IoCallDriver(Fdx->ParentDeviceObject, Irp);
PptReleaseRemoveLock(&Fdx->RemoveLock, Irp);
return status;
}
VOID
P4DestroyPdo(
IN PDEVICE_OBJECT Pdo
)
{
PPDO_EXTENSION pdx = Pdo->DeviceExtension;
PDEVICE_OBJECT fdo = pdx->Fdo;
PFDO_EXTENSION fdx = fdo->DeviceExtension;
DD((PCE)pdx,DDT,"P4DestroyPdo\n");
//
// Remove registry entry under HKLM\HARDWARE\DEVICEMAP\PARALLEL PORTS
//
if( pdx->PdoName ) {
NTSTATUS status = RtlDeleteRegistryValue( RTL_REGISTRY_DEVICEMAP, (PWSTR)L"PARALLEL PORTS", pdx->PdoName );
if( status != STATUS_SUCCESS ) {
DD((PCE)pdx,DDW,"P4DestroyPdo - Failed to Delete DEVICEMAP registry entry - status=%x\n",status);
}
}
//
// remove self from FDO's DevDeletionListHead list
//
if( !IsListEmpty( &fdx->DevDeletionListHead ) ) {
BOOLEAN done = FALSE;
PLIST_ENTRY first = NULL;
while( !done ) {
// look for self on list - remove if found
PLIST_ENTRY current = RemoveHeadList( &fdx->DevDeletionListHead );
if( CONTAINING_RECORD( current, PDO_EXTENSION, DevDeletionList ) != pdx ) {
// this is not the entry that we are looking for
if( !first ) {
// note the first entry so we can stop if we search the entire list and don't find self
first = current;
InsertTailList( &fdx->DevDeletionListHead, current );
} else {
// have we searched the entire list?
if( first == current ) {
// we searched the entire list and didn't find self - we must not be on the list
// put entry back on front of list, then we're done with search
DD((PCE)pdx,DDT,"P4DestroyPdo - searched entire list - we're not on it - done with search\n");
InsertHeadList( &fdx->DevDeletionListHead, current );
done = TRUE;
} else {
// not the entry that we're looking for - place at end of list - continue search
InsertTailList( &fdx->DevDeletionListHead, current );
}
}
} else {
// found self - self removed from list - done with search
DD((PCE)pdx,DDT,"P4DestroyPdo - found self on FDO's DevDeletionListHead and removed self - done with search\n");
done = TRUE;
}
} // end while( !done )
} // endif( !IsListEmpty... )
//
// clean up any ShadowBuffer queue used by hardware ECP modes
//
if( pdx->bShadowBuffer ) {
BOOLEAN queueDeleted = Queue_Delete( &(pdx->ShadowBuffer) );
if( !queueDeleted ) {
PptAssertMsg( "Failed to delete queue?!?", FALSE );
}
pdx->bShadowBuffer = FALSE;
}
PptAssert( NULL == pdx->ShadowBuffer.theArray );
//
// clean up symbolic link - unless it has been previously cleaned up elsewhere
//
if( pdx->SymLinkName ) {
P5DeletePdoSymLink( Pdo );
}
//
// clean up other device extension pool allocations
//
if( pdx->Mfg ) {
DD((PCE)pdx,DDT,"P4DestroyPdo - clean up Mfg <%s>\n", pdx->Mfg);
ExFreePool( pdx->Mfg );
pdx->Mfg = NULL;
}
if( pdx->Mdl ) {
DD((PCE)pdx,DDT,"P4DestroyPdo - clean up Mdl <%s>\n", pdx->Mdl);
ExFreePool( pdx->Mdl );
pdx->Mdl = NULL;
}
if( pdx->Cid ) {
DD((PCE)pdx,DDT,"P4DestroyPdo - clean up Cid <%s>\n", pdx->Cid);
ExFreePool( pdx->Cid );
pdx->Cid = NULL;
}
if( pdx->DeviceInterface.Buffer ) {
DD((PCE)pdx,DDT,"P4DestroyPdo - clean up DeviceInterface <%S>\n", pdx->PdoName);
RtlFreeUnicodeString( &pdx->DeviceInterface );
pdx->DeviceInterfaceState = FALSE;
}
if( pdx->PdoName ) {
DD((PCE)pdx,DDT,"P4DestroyPdo - clean up PdoName <%S>\n", pdx->PdoName);
ExFreePool( pdx->PdoName );
pdx->PdoName = NULL;
}
if( pdx->Location ) {
DD((PCE)pdx,DDT,"P4DestroyPdo - clean up Location <%s>\n", pdx->Location);
ExFreePool( pdx->Location );
pdx->Location = NULL;
}
//
// delete device object
//
IoDeleteDevice( Pdo );
}
VOID
P4SanitizeId(
IN OUT PWSTR DeviceId
)
/*++
Routine Description:
This routine parses the UNICODE_NULL terminated string and replaces any invalid
characters with an underscore character.
Invalid characters are:
c <= 0x20 (L' ')
c > 0x7F
c == 0x2C (L',')
Arguments:
DeviceId - specifies a device id string (or part of one), must be
UNICODE_NULL terminated.
Return Value:
None.
--*/
{
PWCHAR p;
for( p = DeviceId; *p; ++p ) {
if( (*p <= L' ') || (*p > (WCHAR)0x7F) || (*p == L',') ) {
*p = L'_';
}
}
}
NTSTATUS
P4InitializePdo(
IN PDEVICE_OBJECT Fdo,
IN PDEVICE_OBJECT Pdo,
IN enum _PdoType PdoType,
IN UCHAR DaisyChainId, // Ignored unless PdoTypeDaisyChain == PdoType
IN PCHAR Ieee1284Id, // NULL if none
IN PWSTR PdoName,
IN PWSTR SymLinkName
)
{
PFDO_EXTENSION fdx = Fdo->DeviceExtension;
PPDO_EXTENSION pdx = Pdo->DeviceExtension;
// we do buffered IO rather than direct IO
Pdo->Flags |= DO_BUFFERED_IO;
// DO_POWER_PAGABLE should be set same as parent FDO
Pdo->Flags |= ( Fdo->Flags & DO_POWER_PAGABLE );
// need to be able to forward Irps to parent
Pdo->StackSize = Fdo->StackSize + 1;
RtlZeroMemory( pdx, sizeof(PDO_EXTENSION) );
// used by debugger extension
pdx->Signature1 = PARPORT_TAG;
pdx->Signature2 = PARPORT_TAG;
// frequently need to know what type of PDO we have in order to do special case handling
pdx->PdoType = PdoType;
// Save name used in call to IoCreateDevice (for debugging use)
pdx->PdoName = PdoName;
// Save name used in call to IoCreateUnprotectedSymbolicLink for later call to IoDeleteSymbolicLink
pdx->SymLinkName = SymLinkName;
// initialize Mfg, Mdl, and Cid
if( Ieee1284Id ) {
//
// Extract Mfg, Mdl, and Cid from Ieee1284Id and save in extension
//
// ParPnpFindDeviceIdKeys modifies deviceID passed in so make
// a copy of the 1284 ID and pass in a pointer to the copy
PCHAR tmpBuffer;
ULONG tmpBufLen = strlen(Ieee1284Id) + sizeof(CHAR);
DD((PCE)fdx,DDT,"P4InitializePdo - have Ieee1284Id\n");
tmpBuffer = ExAllocatePool( PagedPool, tmpBufLen );
if( tmpBuffer ) {
PCHAR mfg, mdl, cls, des, aid, cid;
RtlZeroMemory( tmpBuffer, tmpBufLen );
strcpy( tmpBuffer, Ieee1284Id );
DD((PCE)fdx,DDT,"P4InitializePdo - calling ParPnpFindDeviceIdKeys\n");
ParPnpFindDeviceIdKeys( &mfg, &mdl, &cls, &des, &aid, &cid, tmpBuffer );
if( mfg ) {
PCHAR buffer;
ULONG bufLen = strlen(mfg) + sizeof(CHAR);
DD((PCE)fdx,DDT,"P4InitializePdo - found mfg - <%s>\n",mfg);
buffer = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, bufLen );
if( buffer ) {
RtlZeroMemory( buffer, bufLen );
strcpy( buffer, mfg );
pdx->Mfg = buffer;
}
}
if( mdl ) {
PCHAR buffer;
ULONG bufLen = strlen(mdl) + sizeof(CHAR);
DD((PCE)fdx,DDT,"P4InitializePdo - found mdl - <%s>\n",mdl);
buffer = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, bufLen );
if( buffer ) {
RtlZeroMemory( buffer, bufLen );
strcpy( buffer, mdl );
pdx->Mdl = buffer;
}
}
if( cid ) {
PCHAR buffer;
ULONG bufLen = strlen(cid) + sizeof(CHAR);
DD((PCE)fdx,DDT,"P4InitializePdo - found cid - <%s>\n",cid);
buffer = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, bufLen );
if( buffer ) {
RtlZeroMemory( buffer, bufLen );
strcpy( buffer, cid );
pdx->Cid = buffer;
}
} else {
DD((PCE)fdx,DDT,"P4InitializePdo - no cid found\n");
}
ExFreePool( tmpBuffer );
} else {
DD((PCE)fdx,DDT,"P4InitializePdo - out of pool\n");
}
} else {
//
// PdoType doesn't have a Mfg, Mdl, or Cid, make up Mfg and Mdl, no Cid
//
const CHAR rawPortMfg[] = "Microsoft";
const CHAR rawPortMdl[] = "RawPort";
const CHAR legacyZipMfg[] = "IMG";
const CHAR legacyZipMdl[] = "VP0";
PCHAR mfgStr;
ULONG mfgLen;
PCHAR mdlStr;
ULONG mdlLen;
PCHAR buffer;
if( PdoTypeRawPort == PdoType ) {
mfgStr = (PCHAR)rawPortMfg;
mfgLen = sizeof(rawPortMfg);
mdlStr = (PCHAR)rawPortMdl;
mdlLen = sizeof(rawPortMdl);
} else {
// PdoTypeLegacyZip
PptAssert( PdoTypeLegacyZip == PdoType );
mfgStr = (PCHAR)legacyZipMfg;
mfgLen = sizeof(legacyZipMfg);
mdlStr = (PCHAR)legacyZipMdl;
mdlLen = sizeof(legacyZipMdl);
}
buffer = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, mfgLen );
if( buffer ) {
RtlZeroMemory( buffer, mfgLen );
strcpy( buffer, mfgStr );
pdx->Mfg = buffer;
}
buffer = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, mdlLen );
if( buffer ) {
RtlZeroMemory( buffer, mdlLen );
strcpy( buffer, mdlStr );
pdx->Mdl = buffer;
}
pdx->Cid = NULL;
}
// initialize Location information - LPTx or LPTx.y
PptAssert( fdx->PnpInfo.PortName &&
( (0 == wcscmp(fdx->PnpInfo.PortName, L"LPT1") ) ||
(0 == wcscmp(fdx->PnpInfo.PortName, L"LPT2") ) ||
(0 == wcscmp(fdx->PnpInfo.PortName, L"LPT3") ) ) );
switch( PdoType ) {
PCHAR buffer;
ULONG bufLen;
case PdoTypeRawPort :
bufLen = sizeof("LPTx");
buffer = ExAllocatePool( NonPagedPool, bufLen );
if( buffer ) {
RtlZeroMemory( buffer, bufLen );
_snprintf( buffer, bufLen, "%S", fdx->PnpInfo.PortName );
pdx->Location = buffer;
} else {
DD((PCE)fdx,DDT,"P4InitializePdo - out of pool");
}
break;
case PdoTypeDaisyChain :
bufLen = sizeof("LPTx.y");
buffer = ExAllocatePool( NonPagedPool, bufLen );
if( buffer ) {
PptAssert( DaisyChainId >= 0 && DaisyChainId < 4 );
RtlZeroMemory( buffer, bufLen );
_snprintf( buffer, bufLen, "%S.%1d", fdx->PnpInfo.PortName, DaisyChainId );
pdx->Location = buffer;
} else {
DD((PCE)fdx,DDT,"P4InitializePdo - out of pool");
}
break;
case PdoTypeEndOfChain :
bufLen = sizeof("LPTx.y");
buffer = ExAllocatePool( NonPagedPool, bufLen );
if( buffer ) {
RtlZeroMemory( buffer, bufLen );
_snprintf( buffer, bufLen, "%S.4", fdx->PnpInfo.PortName );
pdx->Location = buffer;
} else {
DD((PCE)fdx,DDT,"P4InitializePdo - out of pool");
}
break;
case PdoTypeLegacyZip :
bufLen = sizeof("LPTx.y");
buffer = ExAllocatePool( NonPagedPool, bufLen );
if( buffer ) {
RtlZeroMemory( buffer, bufLen );
_snprintf( buffer, bufLen, "%S.5", fdx->PnpInfo.PortName );
pdx->Location = buffer;
} else {
DD((PCE)fdx,DDT,"P4InitializePdo - out of pool");
}
break;
default :
PptAssert(!"Invalid PdoType");
}
// initialize synchronization and list mechanisms
ExInitializeFastMutex( &pdx->OpenCloseMutex );
InitializeListHead( &pdx->WorkQueue );
KeInitializeSemaphore( &pdx->RequestSemaphore, 0, MAXLONG );
KeInitializeEvent( &pdx->PauseEvent, NotificationEvent, TRUE );
// general info
pdx->DeviceObject = Pdo;
pdx->DevType = DevTypePdo;
pdx->EndOfChain = (PdoTypeEndOfChain == PdoType) ? TRUE : FALSE; // override later if this is a
pdx->Ieee1284_3DeviceId = (PdoTypeDaisyChain == PdoType) ? DaisyChainId : 0; // 1284.3 Daisy Chain device
pdx->IsPdo = TRUE; // really means !FDO
pdx->Fdo = Fdo;
pdx->ParClassFdo = Fdo; // depricated - use Fdo field on prev line
pdx->PortDeviceObject = Fdo; // depricated - use Fdo field 2 lines up - modify functions to use it
pdx->BusyDelay = 0;
pdx->BusyDelayDetermined = FALSE;
// timing constants
pdx->TimerStart = PAR_WRITE_TIMEOUT_VALUE;
pdx->AbsoluteOneSecond.QuadPart = 10*1000*1000;
pdx->IdleTimeout.QuadPart = - 250*10*1000; // 250 ms
pdx->OneSecond.QuadPart = - pdx->AbsoluteOneSecond.QuadPart;
// init IEEE 1284 protocol settings
ParInitializeExtension1284Info( pdx );
pdx->DeviceType = PAR_DEVTYPE_PDO; // deprecated - use DevType in common extension
if( Ieee1284Id ) {
ULONG length = strlen(Ieee1284Id) + 1;
PCHAR copyOfIeee1284Id = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, length );
if( copyOfIeee1284Id ) {
RtlZeroMemory( copyOfIeee1284Id, length );
strcpy( copyOfIeee1284Id, Ieee1284Id );
ParDetectDot3DataLink( pdx, Ieee1284Id );
ExFreePool( copyOfIeee1284Id );
}
}
// RMT - doug - need to put this back in - ParCheckParameters(DevObj->DeviceExtension); // Check the registry for parameter overrides
// Write symbolic link map info to the registry.
{
NTSTATUS status = RtlWriteRegistryValue( RTL_REGISTRY_DEVICEMAP,
(PWSTR)L"PARALLEL PORTS",
pdx->PdoName,
REG_SZ,
pdx->SymLinkName,
wcslen(pdx->SymLinkName)*sizeof(WCHAR) + sizeof(WCHAR) );
if( NT_SUCCESS( status ) ) {
DD((PCE)fdx,DDT,"Created DEVICEMAP registry entry - %S -> %S\n",pdx->PdoName,pdx->SymLinkName);
} else {
DD((PCE)fdx,DDT,"Failed to create DEVICEMAP registry entry - status = %x\n", status);
}
}
Pdo->Flags &= ~DO_DEVICE_INITIALIZING; // Tell the IO system that we are ready to receive IRPs
return STATUS_SUCCESS;
}
PWSTR
P4MakePdoSymLinkName(
IN PWSTR LptName,
IN enum _PdoType PdoType,
IN UCHAR DaisyChainId, // ignored unless PdoType == PdoTypeDaisyChain
IN UCHAR RetryNumber
)
/*
Generate \DosDevices\LPTx or \DosDevices\LPTx.y PdoSymbolicLinkName from LPTx Name
In: LPTx
Out: \DosDevices\LPTx or \DosDevices\LPTx.y depending on PdoType
examples:
LPT1 PdoTypeEndOfChain -> \DosDevices\LPT1.4
LPT2 PdoTypeDaisyChain DaisyChainId==3 -> \DosDevices\LPT2.3
LPT3 PdoTypeRawPort -> \DosDevices\LPT3
returns - pointer to pool allocation containing PdoSymbolicLinkName on success (caller frees), or
- NULL on error
*/
{
const UCHAR maxDaisyChainSuffix = 3;
const UCHAR endOfChainSuffix = 4;
const UCHAR legacyZipSuffix = 5;
const ULONG maxSymLinkNameLength = sizeof(L"\\DosDevices\\LPTx.y-z");
UCHAR suffix = 0;
PWSTR buffer;
if( !LptName ) {
PptAssert( !"NULL LptName" );
return NULL;
}
DD(NULL,DDT,"P4MakePdoSymLinkName - LptName = %S\n",LptName);
switch( PdoType ) {
case PdoTypeDaisyChain :
if( DaisyChainId > maxDaisyChainSuffix ) {
PptAssert( !"DaisyChainId > maxDaisyChainSuffix" );
return NULL;
}
suffix = DaisyChainId;
break;
case PdoTypeEndOfChain :
suffix = endOfChainSuffix;
break;
case PdoTypeLegacyZip :
suffix = legacyZipSuffix;
break;
case PdoTypeRawPort :
break; // no suffix
default :
PptAssert( !"Unrecognised PdoType" );
return NULL;
}
if( 0 == RetryNumber ) {
buffer = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, maxSymLinkNameLength );
if( buffer ) {
RtlZeroMemory( buffer, maxSymLinkNameLength );
if( PdoTypeRawPort == PdoType ) {
swprintf( buffer, L"\\DosDevices\\%s\0", LptName );
} else {
swprintf( buffer, L"\\DosDevices\\%s.%d\0", LptName, suffix );
}
}
} else if( RetryNumber <= 9 ) {
buffer = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, maxSymLinkNameLength );
if( buffer ) {
RtlZeroMemory( buffer, maxSymLinkNameLength );
if( PdoTypeRawPort == PdoType ) {
swprintf( buffer, L"\\DosDevices\\%s-%1d\0", LptName, RetryNumber );
} else {
swprintf( buffer, L"\\DosDevices\\%s.%d-%1d\0", LptName, suffix, RetryNumber );
}
}
} else {
buffer = NULL;
}
return buffer;
}
PWSTR
P4MakePdoDeviceName(
IN PWSTR LptName,
IN enum _PdoType PdoType,
IN UCHAR DaisyChainId, // ignored unless PdoType == PdoTypeDaisyChain
IN UCHAR RetryNumber // used if we had a name collision on IoCreateDevice
)
/*
Generate \Device\Parallely or \Device\Parallely.z PDO DeviceName from LPTx Name
In: LPTx
Out: \Device\Parallely or \Device\Parallely.z depending on PdoType
y == (x-1), optional .z suffix is based on type of Pdo
examples:
LPT1 PdoTypeEndOfChain -> \Device\Parallel0.4
LPT2 PdoTypeDaisyChain DaisyChainId==3 -> \Device\Parallel1.3
LPT3 PdoTypeRawPort -> \Device\Parallel2
returns - pointer to pool allocation containing PdoDeviceName on success (caller frees), or
- NULL on error
*/
{
const UCHAR maxDaisyChainSuffix = 3;
const UCHAR endOfChainSuffix = 4;
const UCHAR legacyZipSuffix = 5;
ULONG maxDeviceNameLength;
UCHAR lptNumber;
UCHAR suffix = 0;
PWSTR buffer = NULL;
DD(NULL,DDT,"P4MakePdoDeviceName - LptName=<%S>, PdoType=%d, DaisyChainId=%d\n",LptName,PdoType,DaisyChainId);
if( !LptName ) {
PptAssert( !"NULL LptName" );
return NULL;
}
switch( PdoType ) {
case PdoTypeDaisyChain :
if( DaisyChainId > maxDaisyChainSuffix ) {
PptAssert( !"DaisyChainId > maxDaisyChainSuffix" );
return NULL;
}
suffix = DaisyChainId;
break;
case PdoTypeEndOfChain :
suffix = endOfChainSuffix;
break;
case PdoTypeLegacyZip :
suffix = legacyZipSuffix;
break;
case PdoTypeRawPort :
break; // no suffix
default :
PptAssert( !"Unrecognised PdoType" );
return NULL;
}
if ( 0 == wcscmp( (PCWSTR)L"LPT1", LptName ) ) { lptNumber = 1; }
else if( 0 == wcscmp( (PCWSTR)L"LPT2", LptName ) ) { lptNumber = 2; }
else if( 0 == wcscmp( (PCWSTR)L"LPT3", LptName ) ) { lptNumber = 3; }
else {
PptAssert( !"LptName not of the form LPTx where 1 <= x <= 3" );
return NULL;
}
DD(NULL,DDT,"P4MakePdoDeviceName - suffix=%d\n",suffix);
if( 0 == RetryNumber ) {
maxDeviceNameLength = sizeof(L"\\Device\\Parallelx.y");
buffer = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, maxDeviceNameLength );
if( buffer ) {
RtlZeroMemory( buffer, maxDeviceNameLength );
if( PdoTypeRawPort == PdoType ) {
swprintf( buffer, L"\\Device\\Parallel%d\0", lptNumber-1 );
} else {
swprintf( buffer, L"\\Device\\Parallel%d.%d\0", lptNumber-1, suffix );
}
}
} else {
if( RetryNumber <= 9 ) {
maxDeviceNameLength = sizeof(L"\\Device\\Parallelx.y-z");
buffer = ExAllocatePool( PagedPool | POOL_COLD_ALLOCATION, maxDeviceNameLength );
if( buffer ) {
RtlZeroMemory( buffer, maxDeviceNameLength );
if( PdoTypeRawPort == PdoType ) {
swprintf( buffer, L"\\Device\\Parallel%d-%1d\0", lptNumber-1, RetryNumber );
} else {
swprintf( buffer, L"\\Device\\Parallel%d.%d-%1d\0", lptNumber-1, suffix, RetryNumber );
}
}
}
}
if( buffer ) {
DD(NULL,DDT,"P4MakePdoDeviceName <%S>\n",buffer);
}
return buffer;
}
PDEVICE_OBJECT
P4CreatePdo(
IN PDEVICE_OBJECT Fdo,
IN enum _PdoType PdoType,
IN UCHAR DaisyChainId, // ignored unless PdoType == PdoTypeDaisyChain
IN PCHAR Ieee1284Id // NULL if device does not report IEEE 1284 Device ID
)
{
PFDO_EXTENSION fdx = Fdo->DeviceExtension;
PWSTR lptName = fdx->PnpInfo.PortName;
NTSTATUS status = STATUS_UNSUCCESSFUL;
PDEVICE_OBJECT pdo = NULL;
PWSTR wstrDeviceName = NULL;
PWSTR wstrSymLinkName = NULL;
BOOLEAN createdSymLink = FALSE;
UCHAR retryNumber = 0;
UNICODE_STRING deviceName;
UNICODE_STRING symLinkName;
DD((PCE)fdx,DDT,"P4CreatePdo - enter - PdoType= %d, DaisyChainId=%d, Ieee1284Id=<%s>\n", PdoType, DaisyChainId, Ieee1284Id);
__try {
if( !lptName ) {
DD((PCE)fdx,DDT,"P4CreatePdo - no lptName\n");
__leave;
}
DD((PCE)fdx,DDT,"P4CreatePdo - lptName = %S\n",lptName);
targetRetryDeviceName:
wstrDeviceName = P4MakePdoDeviceName( lptName, PdoType, DaisyChainId, retryNumber );
if( !wstrDeviceName ) {
DD((PCE)fdx,DDT,"P4MakePdoDeviceName FAILED\n");
__leave;
}
DD((PCE)fdx,DDT,"P4CreatePdo - wstrDeviceName = %S\n",wstrDeviceName);
RtlInitUnicodeString( &deviceName, wstrDeviceName );
status = IoCreateDevice( fdx->DriverObject,
sizeof(PDO_EXTENSION),
&deviceName,
FILE_DEVICE_PARALLEL_PORT,
FILE_DEVICE_SECURE_OPEN,
TRUE,
&pdo );
if( STATUS_SUCCESS != status ) {
DD((PCE)fdx,DDT,"P4CreatePdo - FAILED\n");
pdo = NULL; // just to make sure that we don't try to use this later
if( STATUS_OBJECT_NAME_COLLISION == status ) {
// try again with another name
DD(NULL,DDE,"P4CreatePdo - STATUS_OBJECT_NAME_COLLISION on %S\n",wstrDeviceName);
ExFreePool( wstrDeviceName );
++retryNumber;
goto targetRetryDeviceName;
}
__leave;
}
retryNumber = 0;
targetRetrySymLink:
wstrSymLinkName = P4MakePdoSymLinkName( lptName, PdoType, DaisyChainId, retryNumber );
if( !wstrSymLinkName ) {
DD((PCE)fdx,DDT,"P4MakePdoSymLinkName FAILED\n");
__leave;
}
RtlInitUnicodeString( &symLinkName, wstrSymLinkName );
status = IoCreateUnprotectedSymbolicLink( &symLinkName , &deviceName );
if( STATUS_SUCCESS != status ) {
if( STATUS_OBJECT_NAME_COLLISION == status ) {
DD(NULL,DDE,"P4CreatePdo - STATUS_OBJECT_NAME_COLLISION on %S\n", wstrSymLinkName);
ExFreePool( wstrSymLinkName );
++retryNumber;
goto targetRetrySymLink;
}
DD((PCE)fdx,DDT,"P4CreatePdo - create SymLink FAILED\n");
__leave;
} else {
createdSymLink = TRUE;
}
if( (NULL == Ieee1284Id) && (PdoTypeDaisyChain == PdoType) ) {
// SCM Micro device?
PPDO_EXTENSION pdx = pdo->DeviceExtension;
PPARALLEL_PORT_INFORMATION PortInfo = &fdx->PortInfo;
BOOLEAN bBuildStlDeviceId;
ULONG DeviceIdSize;
pdx->Controller = PortInfo->Controller;
bBuildStlDeviceId = ParStlCheckIfStl( pdx, DaisyChainId ) ;
if( TRUE == bBuildStlDeviceId ) {
Ieee1284Id = ParStlQueryStlDeviceId( pdx, NULL, 0, &DeviceIdSize, FALSE );
}
pdx->OriginalController = PortInfo->OriginalController;
P4InitializePdo( Fdo, pdo, PdoType, DaisyChainId, Ieee1284Id, wstrDeviceName, wstrSymLinkName );
if (Ieee1284Id) {
ExFreePool (Ieee1284Id);
Ieee1284Id = NULL;
}
} else {
P4InitializePdo( Fdo, pdo, PdoType, DaisyChainId, Ieee1284Id, wstrDeviceName, wstrSymLinkName );
}
} // __try
__finally {
if( STATUS_SUCCESS != status ) {
// failure - do cleanup
if( createdSymLink ) {
IoDeleteSymbolicLink( &symLinkName );
}
if( pdo ) {
IoDeleteDevice( pdo );
pdo = NULL;
}
if( wstrDeviceName ) {
ExFreePool( wstrDeviceName );
}
if( wstrSymLinkName ) {
ExFreePool( wstrSymLinkName );
}
}
} // __finally
return pdo;
}
VOID
P4SanitizeMultiSzId(
IN OUT PWSTR WCharBuffer,
IN ULONG BufWCharCount
)
// BufWCharCount == number of WCHARs (not bytes) in the string
//
// Sanitize the MULTI_SZ (HardwareID or CompatibleID) for PnP:
// 1) Leave UNICODE_NULLs (L'\0') alone, otherwise
// 2) Convert illegal characters to underscores (L'_')
// illegal characters are ( == L',' ) || ( <= L' ' ) || ( > (WCHAR)0x7F )
{
PWCHAR p = WCharBuffer;
ULONG i;
for( i = 0; i < BufWCharCount ; ++i, ++p ) {
if( L'\0'== *p ) {
continue;
} else if( (*p <= L' ') || (*p > (WCHAR)0x7F) || (L',' == *p) ) {
*p = L'_';
}
}
}