windows-nt/Source/XPSP1/NT/drivers/parallel/parport2/hwepp.c

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2020-09-26 03:20:57 -05:00
/*++
Copyright (C) Microsoft Corporation, 1993 - 1999
Module Name:
epp.c
Abstract:
This module contains the code to perform all Hardware EPP related tasks.
Author:
Don Redford - July 30, 1998
Environment:
Kernel mode
Revision History :
--*/
#include "pch.h"
BOOLEAN
ParIsEppHwSupported(
IN PPDO_EXTENSION Pdx
)
/*++
Routine Description:
This routine determines whether or not HW EPP mode is suported
for either direction by negotiating when asked.
Arguments:
Pdx - The device extension.
Return Value:
BOOLEAN.
--*/
{
NTSTATUS Status;
DD((PCE)Pdx,DDT,"ParIsEppHwWriteSupported: Entering\n");
// Check to see if the hardware is capable
if (!(Pdx->HardwareCapabilities & PPT_EPP_PRESENT)) {
DD((PCE)Pdx,DDT,"ParIsEppHwWriteSupported: Hardware Not Supported Leaving\n");
return FALSE;
}
if (Pdx->BadProtocolModes & EPP_HW) {
DD((PCE)Pdx,DDT,"ParIsEppHwWriteSupported: Bad Protocol Not Supported Leaving\n");
return FALSE;
}
if (Pdx->ProtocolModesSupported & EPP_HW) {
DD((PCE)Pdx,DDT,"ParIsEppHwWriteSupported: Already Checked Supported Leaving\n");
return TRUE;
}
// Must use HWEPP Enter and Terminate for this test.
// Internel state machines will fail otherwise. --dvrh
Status = ParEnterEppHwMode (Pdx, FALSE);
ParTerminateEppHwMode (Pdx);
if (NT_SUCCESS(Status)) {
DD((PCE)Pdx,DDT,"ParIsEppHwWriteSupported: Negotiated Supported Leaving\n");
Pdx->ProtocolModesSupported |= EPP_HW;
return TRUE;
}
DD((PCE)Pdx,DDT,"ParIsEppHwWriteSupported: Not Negotiated Not Supported Leaving\n");
return FALSE;
}
NTSTATUS
ParEnterEppHwMode(
IN PPDO_EXTENSION Pdx,
IN BOOLEAN DeviceIdRequest
)
/*++
Routine Description:
This routine performs 1284 negotiation with the peripheral to the
EPP mode protocol.
Arguments:
Controller - Supplies the port address.
DeviceIdRequest - Supplies whether or not this is a request for a device
id.
Return Value:
STATUS_SUCCESS - Successful negotiation.
otherwise - Unsuccessful negotiation.
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
DD((PCE)Pdx,DDT,"ParEnterEppHwMode: Entering\n");
if ( Pdx->ModeSafety == SAFE_MODE ) {
if (DeviceIdRequest) {
DD((PCE)Pdx,DDT,"ParEnterEppHwMode: Calling IeeeEnter1284Mode with DEVICE_ID_REQUEST\n");
Status = IeeeEnter1284Mode (Pdx, EPP_EXTENSIBILITY | DEVICE_ID_REQ);
} else {
DD((PCE)Pdx,DDT,"ParEnterEppHwMode: Calling IeeeEnter1284Mode\n");
Status = IeeeEnter1284Mode (Pdx, EPP_EXTENSIBILITY);
}
} else {
DD((PCE)Pdx,DDT,"ParEnterEppHwMode: In UNSAFE_MODE.\n");
Pdx->Connected = TRUE;
}
if (NT_SUCCESS(Status)) {
Status = Pdx->TrySetChipMode ( Pdx->PortContext, ECR_EPP_PIO_MODE );
if (NT_SUCCESS(Status)) {
DD((PCE)Pdx,DDT,"ParEnterEppHwMode: IeeeEnter1284Mode returned success\n");
P5SetPhase( Pdx, PHASE_FORWARD_IDLE );
Pdx->IsIeeeTerminateOk = TRUE;
} else {
DD((PCE)Pdx,DDT,"ParEnterEppHwMode: TrySetChipMode returned unsuccessful\n");
ParTerminateEppHwMode ( Pdx );
P5SetPhase( Pdx, PHASE_UNKNOWN );
Pdx->IsIeeeTerminateOk = FALSE;
}
} else {
DD((PCE)Pdx,DDT,"ParEnterEppHwMode: IeeeEnter1284Mode returned unsuccessful\n");
P5SetPhase( Pdx, PHASE_UNKNOWN );
Pdx->IsIeeeTerminateOk = FALSE;
}
DD((PCE)Pdx,DDT,"ParEnterEppHwMode: Leaving with Status : %x \n", Status);
return Status;
}
VOID
ParTerminateEppHwMode(
IN PPDO_EXTENSION Pdx
)
/*++
Routine Description:
This routine terminates the interface back to compatibility mode.
Arguments:
Pdx - The Device Extension which has the parallel port's controller address.
Return Value:
None.
--*/
{
DD((PCE)Pdx,DDT,"ParTerminateEppMode: Entering\n");
Pdx->ClearChipMode( Pdx->PortContext, ECR_EPP_PIO_MODE );
if ( Pdx->ModeSafety == SAFE_MODE ) {
IeeeTerminate1284Mode ( Pdx );
} else {
DD((PCE)Pdx,DDT,"ParTerminateEppMode: In UNSAFE_MODE.\n");
Pdx->Connected = FALSE;
}
DD((PCE)Pdx,DDT,"ParTerminateEppMode: Leaving\n");
return;
}
NTSTATUS
ParEppHwWrite(
IN PPDO_EXTENSION Pdx,
IN PVOID Buffer,
IN ULONG BufferSize,
OUT PULONG BytesTransferred
)
/*++
Routine Description:
Writes data to the peripheral using the EPP using Hardware flow control.
Arguments:
Pdx - Supplies the device extension.
Buffer - Supplies the buffer to write from.
BufferSize - Supplies the number of bytes in the buffer.
BytesTransferred - Returns the number of bytes transferred.
Return Value:
None.
--*/
{
PUCHAR wPortEPP;
PUCHAR pBuffer;
ULONG ulongSize = 0; // represents how many ULONG's we are transfering if enabled
DD((PCE)Pdx,DDT,"ParEppHwWrite: Entering\n");
wPortEPP = Pdx->Controller + EPP_OFFSET;
pBuffer = Buffer;
P5SetPhase( Pdx, PHASE_FORWARD_XFER );
// Check to see if hardware supports 32 bit reads and writes
if ( Pdx->HardwareCapabilities & PPT_EPP_32_PRESENT ) {
if ( !(BufferSize % 4) )
ulongSize = BufferSize >> 2;
}
// ulongSize != 0 so EPP 32 bit is enabled and Buffersize / 4
if ( ulongSize ) {
WRITE_PORT_BUFFER_ULONG( (PULONG)wPortEPP,
(PULONG)pBuffer,
ulongSize );
} else {
P5WritePortBufferUchar( wPortEPP,
(PUCHAR)pBuffer,
BufferSize );
}
P5SetPhase( Pdx, PHASE_FORWARD_IDLE );
*BytesTransferred = BufferSize;
DD((PCE)Pdx,DDT,"ParEppHwWrite: Leaving with %i Bytes Transferred\n", BufferSize);
return STATUS_SUCCESS;
}
NTSTATUS
ParEppHwRead(
IN PPDO_EXTENSION Pdx,
IN PVOID Buffer,
IN ULONG BufferSize,
OUT PULONG BytesTransferred
)
/*++
Routine Description:
This routine performs a 1284 EPP mode read under software control
into the given buffer for no more than 'BufferSize' bytes.
Arguments:
Pdx - Supplies the device extension.
Buffer - Supplies the buffer to read into.
BufferSize - Supplies the number of bytes in the buffer.
BytesTransferred - Returns the number of bytes transferred.
--*/
{
PUCHAR wPortEPP;
PUCHAR pBuffer;
ULONG ulongSize = 0; // represents how many ULONG's we are transfering if enabled
DD((PCE)Pdx,DDT,"ParEppHwRead: Entering\n");
wPortEPP = Pdx->Controller + EPP_OFFSET;
pBuffer = Buffer;
P5SetPhase( Pdx, PHASE_REVERSE_XFER );
// Check to see if hardware supports 32 bit reads and writes
if ( Pdx->HardwareCapabilities & PPT_EPP_32_PRESENT ) {
if ( !(BufferSize % 4) )
ulongSize = BufferSize >> 2;
}
// ulongSize != 0 so EPP 32 bit is enabled and Buffersize / 4
if ( ulongSize ) {
READ_PORT_BUFFER_ULONG( (PULONG)wPortEPP,
(PULONG)pBuffer,
ulongSize );
} else {
P5ReadPortBufferUchar( wPortEPP,
(PUCHAR)pBuffer,
BufferSize );
}
P5SetPhase( Pdx, PHASE_FORWARD_IDLE );
*BytesTransferred = BufferSize;
DD((PCE)Pdx,DDT,"ParEppHwRead: Leaving with %i Bytes Transferred\n", BufferSize);
return STATUS_SUCCESS;
}