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362 lines
13 KiB
362 lines
13 KiB
#include "pch.h"
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// Register Definitions for National ChipSets
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#define REG_CR0 0x00
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#define REG_CR1 0x01
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#define REG_CR2 0x02
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#define REG_CR3 0x03
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#define REG_CR4 0x04
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#define REG_CR5 0x05
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#define REG_CR6 0x06
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#define REG_CR7 0x07
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#define REG_CR8 0x08
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// National Chip ID's
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#define PC87303 0x30
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#define PC87306 0x70
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#define PC87307 0xC0
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#define PC87308 0xA0
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#define PC87323 0x20
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#define PC87332 0x10
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#define PC87334 0x50
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#define PC87336 0x90
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#define PC87338 0xB0
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#define PC873xx 0x60
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// Additional definitions for National PC87307 and PC87308
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#define PC873_LOGICAL_DEV_REG 0x07
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#define PC873_PP_LDN 0x04
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#define PC873_DEVICE_ID 0x20
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#define PC873_PP_MODE_REG 0xF0
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#define PC873_ECP_MODE 0xF2
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#define PC873_EPP_MODE 0x62
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#define PC873_SPP_MODE 0x92
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#define PC873_BASE_IO_ADD_MSB 0x60
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#define PC873_BASE_IO_ADD_LSB 0x61
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NTSTATUS
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PptFindNatChip(
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IN PFDO_EXTENSION Fdx
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)
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/*++
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Routine Description:
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This routine finds out if there is a National Semiconductor IO chip on
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this machine. If it finds a National chip it then determines if this
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instance of Parport is using this chips paralle port IO address.
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Arguments:
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Fdx - Supplies the device extension.
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Return Value:
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STATUS_SUCCESS - if we were able to check for the parallel chip.
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STATUS_UNSUCCESSFUL - if we were not able to check for the parallel chip.
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Updates:
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Fdx->
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NationalChecked
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NationalChipFound
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--*/
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{
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BOOLEAN found = FALSE; // return code, assumed value
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BOOLEAN OkToLook = FALSE;
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BOOLEAN Conflict;
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PUCHAR ChipAddr[4] = { (PUCHAR)0x398, (PUCHAR)0x26e, (PUCHAR)0x15c, (PUCHAR)0x2e }; // list of valid chip addresses
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PUCHAR AddrList[4] = { (PUCHAR)0x378, (PUCHAR)0x3bc, (PUCHAR)0x278, (PUCHAR)0x00 }; // List of valid Parallel Port addresses
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PUCHAR PortAddr; // Chip Port Address
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ULONG_PTR Port; // Chip Port Read Value
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UCHAR SaveIdx; // Save the index register value
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UCHAR cr; // config register value
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UCHAR ii; // loop index
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NTSTATUS Status; // Status of success
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ULONG ResourceDescriptorCount;
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ULONG ResourcesSize;
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PCM_RESOURCE_LIST Resources;
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ULONG NationalChecked = 0;
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ULONG NationalChipFound = 0;
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//
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// Quick exit if we already know the answer
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//
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if ( Fdx->NationalChecked == TRUE ) {
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return STATUS_SUCCESS;
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}
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//
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// Mark extension so that we can quick exit the next time we are asked this question
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//
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Fdx->NationalChecked = TRUE;
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//
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// Check the registry - we should only need to check this once per installation
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//
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PptRegGetDeviceParameterDword(Fdx->PhysicalDeviceObject, (PWSTR)L"NationalChecked", &NationalChecked);
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if( NationalChecked ) {
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//
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// We previously performed the NatSemi Check - extract result from registry
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//
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PptRegGetDeviceParameterDword(Fdx->PhysicalDeviceObject, (PWSTR)L"NationalChipFound", &NationalChipFound);
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if( NationalChipFound ) {
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Fdx->NationalChipFound = TRUE;
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} else {
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Fdx->NationalChipFound = FALSE;
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}
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return STATUS_SUCCESS;
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}
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//
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// This is our first, and hopefully last time that we need to make this check
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// for this installation
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//
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//
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// Allocate a block of memory for constructing a resource descriptor
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//
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// number of partial descriptors
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ResourceDescriptorCount = sizeof(ChipAddr)/sizeof(ULONG);
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// size of resource descriptor list + space for (n-1) more partial descriptors
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// (resource descriptor list includes one partial descriptor)
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ResourcesSize = sizeof(CM_RESOURCE_LIST) +
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(ResourceDescriptorCount - 1) * sizeof(CM_PARTIAL_RESOURCE_DESCRIPTOR);
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Resources = (PCM_RESOURCE_LIST)ExAllocatePool(NonPagedPool, ResourcesSize);
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if (Resources == NULL) {
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// Error out
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return(STATUS_UNSUCCESSFUL);
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}
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// zero out memory block as a precaution
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RtlZeroMemory(Resources, ResourcesSize);
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//
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// Build the Resource List
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//
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Status = PptBuildResourceList( Fdx,
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sizeof(ChipAddr)/sizeof(ULONG),
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&ChipAddr[0],
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Resources
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);
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// Check to see if it was successful
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if ( !NT_SUCCESS( Status ) ) {
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ExFreePool( Resources );
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return ( Status );
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}
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//
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// check to see if we can use the io addresses where
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// national chipsets are located
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//
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Status = IoReportResourceUsage( NULL,
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Fdx->DriverObject,
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Resources,
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sizeof(Resources),
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Fdx->DeviceObject,
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NULL,
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0,
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FALSE,
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&Conflict
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);
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// done with resource list
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ExFreePool( Resources );
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// Check to see if IoReportResourceUsage was successful
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if( !NT_SUCCESS( Status ) ) {
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return Status;
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}
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// Check to see if it was successful
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if ( Conflict ) {
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return STATUS_UNSUCCESSFUL;
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}
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// Was successful so now we check each of the addresses that we have
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// the resources for
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//
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// the following for loop is a state machine that checks modes and
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// port addresses.
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//
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// state 0: check for Pc873 at primary port address
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// state 1: check for Pc873 at secondary port address
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// state 2: check for Pc873 at Ter port address
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// state 3: check for Pc873 at Quad port address
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for ( ii = 0; !found && ii < 4; ii++ ) {
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PortAddr = (PUCHAR)ChipAddr[ii];
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// After power up the index register will read back an 0xAA one time only.
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// So we'll check for that first.
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// Then it should read back a 0 or a valid register number
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if(( P5ReadPortUchar( PortAddr ) == 0x88 )
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&& ( P5ReadPortUchar( PortAddr ) < 0x20 )) {
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OkToLook = TRUE;
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} else {
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// Or it could read back a 0 or a valid register number
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P5ReadPortUchar( PortAddr ); // may read back 0 here
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cr = P5ReadPortUchar( PortAddr ); // valid register no.
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// is it really valid?
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// if( cr < 0x20 ) { - dvdr
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if( cr != 0xff ) {
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// does it read back the same?
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if( P5ReadPortUchar( PortAddr ) == cr)
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OkToLook = TRUE;
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}
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} // end else
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// take a closer look by writing to the chip
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if ( OkToLook ) {
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OkToLook = FALSE;
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// setup for ID reg
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P5WritePortUchar( PortAddr, REG_CR8 );
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// read it back
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cr = P5ReadPortUchar( PortAddr );
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// does it read back the same?
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if( cr == REG_CR8 ) {
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// get the ID number.
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cr = (UCHAR)( P5ReadPortUchar( PortAddr + 1 ) & 0xf0 );
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// if the up. nib. is 1,3,5,6,7,9,A,B,C
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if( cr == PC87332 || cr == PC87334 || cr == PC87306 || cr == PC87303 ||
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cr == PC87323 || cr == PC87336 || cr == PC87338 || cr == PC873xx ) {
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// we found a national chip
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found = TRUE;
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// setup for Address reg
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P5WritePortUchar( PortAddr, REG_CR1 );
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// read it back
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Port = P5ReadPortUchar( PortAddr + 1 ) & 0x03;
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// Check the base address
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if ( Fdx->PortInfo.Controller == (PUCHAR)AddrList[ Port ] ) {
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//
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// it is using the same address that Parport is using
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// so we set the flag to not use generic ECP and EPP
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//
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Fdx->NationalChipFound = TRUE;
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}
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}
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} // reads back ok
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} // end OkToLook
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// check to see if we found it
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if ( !found ) {
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// Check for the 307/308 chips
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SaveIdx = P5ReadPortUchar( PortAddr );
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// Setup for SID Register
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P5WritePortUchar( PortAddr, PC873_DEVICE_ID );
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// Zero the ID register to start and because it is read only it will
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// let us know whether it is this chip
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P5WritePortUchar( PortAddr + 1, REG_CR0 );
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// get the ID number.
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cr = (UCHAR)( P5ReadPortUchar( PortAddr + 1 ) & 0xf8 );
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if ( (cr == PC87307) || (cr == PC87308) ) {
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// we found a new national chip
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found = TRUE;
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// Set the logical device
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P5WritePortUchar( PortAddr, PC873_LOGICAL_DEV_REG );
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P5WritePortUchar( PortAddr+1, PC873_PP_LDN );
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// set up for the base address MSB register
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P5WritePortUchar( PortAddr, PC873_BASE_IO_ADD_MSB );
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// get the MSB of the base address
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Port = (ULONG_PTR)((P5ReadPortUchar( PortAddr + 1 ) << 8) & 0xff00);
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// Set up for the base address LSB register
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P5WritePortUchar( PortAddr, PC873_BASE_IO_ADD_LSB );
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// Get the LSBs of the base address
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Port |= P5ReadPortUchar( PortAddr + 1 );
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// Check the base address
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if ( Fdx->PortInfo.Controller == (PUCHAR)Port ) {
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//
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// it is using the same address that Parport is using
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// so we set the flag to not use generic ECP and EPP
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//
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Fdx->NationalChipFound = TRUE;
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}
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} else {
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P5WritePortUchar( PortAddr, SaveIdx );
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}
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}
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} // end of for ii...
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//
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// Check for NatSemi chip is complete - save results in registry so that we never
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// have to make this check again for this port
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//
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{
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PDEVICE_OBJECT pdo = Fdx->PhysicalDeviceObject;
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NationalChecked = 1;
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NationalChipFound = Fdx->NationalChipFound ? 1 : 0;
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// we ignore status here because there is nothing we can do if the calls fail
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PptRegSetDeviceParameterDword(pdo, (PWSTR)L"NationalChecked", &NationalChecked);
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PptRegSetDeviceParameterDword(pdo, (PWSTR)L"NationalChipFound", &NationalChipFound);
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}
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//
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// release the io addresses where we checked for the national chipsets
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// we do this by calling IoReportResourceUsage with all NULL parameters
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//
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Status = IoReportResourceUsage( NULL,
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Fdx->DriverObject,
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NULL,
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0,
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Fdx->DeviceObject,
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NULL,
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0,
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FALSE,
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&Conflict
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);
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DD((PCE)Fdx,DDT,"ParMode::PptFindNatChip: return isFound [%x]\n",Fdx->NationalChipFound);
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return ( Status );
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} // end of ParFindNat()
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