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899 lines
28 KiB
899 lines
28 KiB
/*++
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Copyright (C) Microsoft Corporation, 1993 - 1999
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Module Name:
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ieee1284.c
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Abstract:
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This module contains the code to do ieee 1284 negotiation and termination.
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Author:
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Timothy T. Wells (v-timtw) 13 Mar 97
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Robbie Harris (Hewlett-Packard) 21 May 98. Added enough comments to the
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Negotation proc to keep any developer happy.
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Environment:
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Kernel mode
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Revision History :
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--*/
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#include "pch.h"
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VOID
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IeeeTerminate1284Mode(
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IN PPDO_EXTENSION Pdx
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);
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NTSTATUS
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IeeeEnter1284Mode(
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IN PPDO_EXTENSION Pdx,
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IN UCHAR Extensibility
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);
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//
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// Definition of the Forward and Reverse Protocol Arrays
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//
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extern FORWARD_PTCL afpForward[] = {
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//
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// Bounded ECP (Hardware)
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//
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PptIsBecpSupported,
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PptEnterBecpMode,
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PptTerminateBecpMode,
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ParEcpHwSetAddress,
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ParEcpEnterForwardPhase, // Enter Forward
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ParEcpHwExitForwardPhase, // Exit Forward
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ParEcpHwWrite,
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BOUNDED_ECP,
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FAMILY_BECP,
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//
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// ECP Hardware
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//
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ParIsEcpHwSupported, // This is resued for both read/write
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ParEnterEcpHwMode,
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ParTerminateHwEcpMode,
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ParEcpHwSetAddress,
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ParEcpEnterForwardPhase, // Enter Forward
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ParEcpHwExitForwardPhase, // Exit Forward
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ParEcpHwWrite,
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ECP_HW_NOIRQ,
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FAMILY_ECP,
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//
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// Epp Hardware
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//
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ParIsEppHwSupported,
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ParEnterEppHwMode,
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ParTerminateEppHwMode,
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ParEppSetAddress,
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NULL, // Enter Forward
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NULL, // Exit Forward
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ParEppHwWrite,
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EPP_HW,
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FAMILY_EPP,
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//
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// Epp Software
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//
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ParIsEppSwWriteSupported,
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ParEnterEppSwMode,
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ParTerminateEppSwMode,
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ParEppSetAddress,
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NULL, // Enter Forward
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NULL, // Exit Forward
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ParEppSwWrite,
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EPP_SW,
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FAMILY_EPP,
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//
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// Ecp Software
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//
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ParIsEcpSwWriteSupported,
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ParEnterEcpSwMode,
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ParTerminateEcpMode,
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ParEcpSetAddress,
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NULL, // Enter Forward
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NULL, // Exit Forward
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ParEcpSwWrite,
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ECP_SW,
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FAMILY_ECP,
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//
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// IEEE Centronics
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//
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NULL,
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ParEnterSppMode,
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ParTerminateSppMode,
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NULL,
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NULL, // Enter Forward
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NULL, // Exit Forward
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SppIeeeWrite,
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IEEE_COMPATIBILITY,
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FAMILY_NONE,
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//
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// Centronics
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//
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NULL,
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ParEnterSppMode,
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ParTerminateSppMode,
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NULL,
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NULL, // Enter Forward
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NULL, // Exit Forward
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SppWrite,
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CENTRONICS,
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FAMILY_NONE,
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//
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// None...
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//
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NULL,
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NULL,
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NULL,
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NULL,
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NULL, // Enter Forward
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NULL, // Exit Forward
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NULL,
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NONE,
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FAMILY_NONE
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};
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extern REVERSE_PTCL arpReverse[] = {
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//
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// Bounded Ecp Mode
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//
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PptIsBecpSupported,
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PptEnterBecpMode,
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PptTerminateBecpMode,
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NULL, // Violates IEEE 1284.3 to set Reverse address for BECP
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PptEcpHwEnterReversePhase, // Enter Reverse
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PptBecpExitReversePhase, // Exit Reverse
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PptEcpHwDrainShadowBuffer, // A read from Cached data
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PptEcpHwHaveReadData, // Quick peek to see if Periph has reverse data without flipping the bus
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// NOTE: This is crucial since it violates the 1284.3 BECP to flip
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// blindly into reverse if the peripheral doesn't have data.
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PptBecpRead,
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BOUNDED_ECP,
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FAMILY_BECP,
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//
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// Hardware Ecp Mode
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//
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ParIsEcpHwSupported, // This is resued for both read/write
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ParEnterEcpHwMode,
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ParTerminateHwEcpMode,
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ParEcpHwSetAddress, // Reuse the one in ecp.c
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PptEcpHwEnterReversePhase, // Enter Reverse
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ParEcpHwExitReversePhase, // Exit Reverse
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PptEcpHwDrainShadowBuffer, // A read from Cached data
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PptEcpHwHaveReadData, // Quick peek to see if Periph has reverse data without flipping the bus
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ParEcpHwRead,
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ECP_HW_NOIRQ,
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FAMILY_ECP,
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//
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// Epp Hardware
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//
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ParIsEppHwSupported, // This is resued for both read/write
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ParEnterEppHwMode,
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ParTerminateEppHwMode,
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ParEppSetAddress,
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NULL, // Enter Reverse
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NULL, // Exit Reverse
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NULL, // A read from Cached data
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NULL, // Quick peek to see if Periph has reverse data without flipping the bus
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ParEppHwRead,
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EPP_HW,
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FAMILY_EPP,
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//
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// Epp Software Mode
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//
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ParIsEppSwReadSupported,
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ParEnterEppSwMode,
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ParTerminateEppSwMode,
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ParEppSetAddress,
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NULL, // Enter Reverse
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NULL, // Exit Reverse
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NULL, // A read from Cached data
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NULL, // Quick peek to see if Periph has reverse data without flipping the bus
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ParEppSwRead,
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EPP_SW,
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FAMILY_EPP,
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//
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// Ecp Software Mode
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//
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ParIsEcpSwReadSupported,
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ParEnterEcpSwMode,
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ParTerminateEcpMode,
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ParEcpSetAddress,
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ParEcpForwardToReverse, // Enter Reverse
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ParEcpReverseToForward, // Exit Reverse
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NULL, // A read from Cached data
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ParEcpHaveReadData, // Quick peek to see if Periph has reverse data without flipping the bus
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ParEcpSwRead,
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ECP_SW,
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FAMILY_ECP,
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//
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// Byte Mode
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//
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ParIsByteSupported,
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ParEnterByteMode,
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ParTerminateByteMode,
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NULL,
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NULL, // Enter Reverse
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NULL, // Exit Reverse
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NULL, // A read from Cached data
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NULL, // Quick peek to see if Periph has reverse data without flipping the bus
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ParByteModeRead,
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BYTE_BIDIR,
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FAMILY_REVERSE_BYTE,
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//
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// Nibble Mode
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//
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ParIsNibbleSupported,
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ParEnterNibbleMode,
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ParTerminateNibbleMode,
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NULL,
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NULL, // Enter Reverse
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NULL, // Exit Reverse
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NULL, // A read from Cached data
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NULL, // Quick peek to see if Periph has reverse data without flipping the bus
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ParNibbleModeRead,
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NIBBLE,
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FAMILY_REVERSE_NIBBLE,
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//
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// Channelized Nibble Mode
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//
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ParIsChannelizedNibbleSupported,
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ParEnterChannelizedNibbleMode,
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ParTerminateNibbleMode,
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NULL,
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NULL, // Enter Reverse
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NULL, // Exit Reverse
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NULL, // A read from Cached data
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NULL, // Quick peek to see if Periph has reverse data without flipping the bus
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ParNibbleModeRead,
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CHANNEL_NIBBLE,
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FAMILY_REVERSE_NIBBLE,
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//
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// None...
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//
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NULL,
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NULL,
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NULL,
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NULL,
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NULL, // Enter Reverse
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NULL, // Exit Reverse
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NULL, // A read from Cached data
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NULL, // Quick peek to see if Periph has reverse data without flipping the bus
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NULL,
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NONE,
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FAMILY_NONE
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};
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VOID
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IeeeTerminate1284Mode(
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IN PPDO_EXTENSION Pdx
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)
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/*++
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Routine Description:
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This routine terminates the interface back to compatibility mode.
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Arguments:
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Controller - Supplies the parallel port's controller address.
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Return Value:
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None.
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--*/
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{
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PUCHAR Controller;
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PUCHAR wPortDCR;
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UCHAR dcr, dsrMask, dsrValue;
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BOOLEAN bXFlag;
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BOOLEAN bUseXFlag = FALSE;
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Controller = Pdx->Controller;
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wPortDCR = Controller + OFFSET_DCR;
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dcr = P5ReadPortUchar(wPortDCR);
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if( PHASE_TERMINATE == Pdx->CurrentPhase ) {
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// We are already terminated. This will fail if we don't
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// just bypass this mess.
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goto Terminate_ExitLabel;
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}
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// Keep Negotiated XFLAG to use for termination.
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// xFlag, // Technically we should have
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// cached this value from state
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// 6 of nego. This peripheral's XFlag
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// at pre state 22 should be the
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// same as state 6.
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bXFlag = P5ReadPortUchar(Controller + OFFSET_DSR) & 0x10;
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// REVISIT: Do we need to ensure the preceeding state is a valid
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// state to terminate from. In other words, is there there
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// a black bar on the 1284 line for that state?
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// =============== Host State 22 Termination ===============8
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// DIR = Don't Care (Possibly Low)
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// IRQEN = Don't Care (Possibly Low)
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// 1284/SelectIn = Low (Signals state 22)
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// nReverseReq/**(ECP only) = Don't Care (High for ECP, otherwise unused)
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// HostAck/HostBusy/nAutoFeed = High
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// HostClk/nStrobe = High
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//
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Pdx->CurrentEvent = 22;
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dcr = P5ReadPortUchar(wPortDCR);
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dcr = UPDATE_DCR(dcr, DONT_CARE, DONT_CARE, INACTIVE, DONT_CARE, ACTIVE, ACTIVE);
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//
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// Some devices start working if we add a delay here - no idea why
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// this works
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//
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// Make the delay configurable via registry setting so that devices that
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// don't need this delay aren't penalized
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//
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if( Pdx->Event22Delay != 0 ) {
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if( Pdx->Event22Delay > 1000 ) {
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Pdx->Event22Delay = 1000;
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}
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KeStallExecutionProcessor( Pdx->Event22Delay );
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}
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P5WritePortUchar(wPortDCR, dcr);
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// Clear data lines so we don't have any random spew.
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P5WritePortUchar(Controller + OFFSET_DATA, 0);
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// *************** Periph State 23/24 Termination ***************8
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// PeriphAck/PtrBusy = High (Signals state 23 for ECP
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// otherwise already high)
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// PeriphClk/PtrClk = Low (Signals state 24 for ecp
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// Signals state 23 for Nibble)
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// nAckRev/AckDataReq/PE = Don't Care
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// XFlag = Low (ECP and Byte) (State 24)
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// = High (Nibble) (State 24)
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// = Low (All DeviceID Requests including Nibble) (State 24)
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// = Undefined (EPP)
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// nPeriphReq/nDataAvail = High
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// Don't check nPeriphReq/nDataAvail
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// Since it was in a "Don't Care"
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// state (ie. Double bar in the spec)
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// until state 23 for ECP mode.
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if( Pdx->CurrentPhase == PHASE_REVERSE_IDLE || Pdx->CurrentPhase == PHASE_REVERSE_XFER) {
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// We must be in Nibble Reverse. Let's double check!!!
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if( FAMILY_REVERSE_NIBBLE == arpReverse[Pdx->IdxReverseProtocol].ProtocolFamily ||
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FAMILY_REVERSE_BYTE == arpReverse[Pdx->IdxReverseProtocol].ProtocolFamily )
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bUseXFlag = TRUE; // We're in Nibble or Byte
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else
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bUseXFlag = FALSE; // Don't know what mode we are in?
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} else {
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if (FAMILY_BECP == afpForward[Pdx->IdxForwardProtocol].ProtocolFamily ||
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FAMILY_ECP == afpForward[Pdx->IdxForwardProtocol].ProtocolFamily )
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bUseXFlag = TRUE; // We're in an ECP Flavor
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else
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bUseXFlag = FALSE; // Don't know what mode we are in?
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}
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if( bUseXFlag ) {
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dsrMask = DSR_TEST_MASK( DONT_CARE, INACTIVE, DONT_CARE, bXFlag ? INACTIVE : ACTIVE, DONT_CARE );
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dsrValue = DSR_TEST_VALUE( DONT_CARE, INACTIVE, DONT_CARE, bXFlag ? INACTIVE : ACTIVE, DONT_CARE );
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} else {
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dsrMask = DSR_TEST_MASK( DONT_CARE, INACTIVE, DONT_CARE, DONT_CARE, DONT_CARE );
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dsrValue = DSR_TEST_VALUE( DONT_CARE, INACTIVE, DONT_CARE, DONT_CARE, DONT_CARE );
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}
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Pdx->CurrentEvent = 23;
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if( !CheckPort(Controller + OFFSET_DSR, dsrMask, dsrValue, IEEE_MAXTIME_TL)) {
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// We couldn't negotiate back to compatibility mode.
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// just terminate.
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DD((PCE)Pdx,DDW,"IeeeTerminate1284Mode:State 23/24 Failed: Controller %x dsr %x dcr %x\n",
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Controller, P5ReadPortUchar(Controller + OFFSET_DSR), dcr);
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goto Terminate_ExitLabel;
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}
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// =============== Host State 25 Termination ===============8
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// DIR = Don't Care (Possibly Low)
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// IRQEN = Don't Care (Possibly Low)
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// 1284/SelectIn = Low
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// nReverseReq/**(ECP only) = Don't Care (Possibly High)
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// HostAck/HostBusy/nAutoFeed = Low (Signals State 25)
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// HostClk/nStrobe = High
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//
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Pdx->CurrentEvent = 25;
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dcr = UPDATE_DCR(dcr, DONT_CARE, DONT_CARE, INACTIVE, DONT_CARE, INACTIVE, ACTIVE);
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P5WritePortUchar(wPortDCR, dcr);
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// =============== State 26 Termination ===============8
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// Do nothing for state 26
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// =============== Periph State 27 Termination ===============8
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// PeriphAck/PtrBusy = High
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// PeriphClk/PtrClk = High (Signals State 27)
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// nAckRev/AckDataReq/PE = Don't Care (Invalid from State 23)
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// XFlag = Don't Care (All Modes) (Invlaid at State 27)
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// nPeriphReq/nDataAvial = Don't Care (Invalid from State 26)
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// dvrh 6/16/97
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Pdx->CurrentEvent = 27;
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if( !CHECK_DSR(Controller, ACTIVE, ACTIVE, DONT_CARE, DONT_CARE, DONT_CARE, IEEE_MAXTIME_TL) ) {
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DD((PCE)Pdx,DDW,"IeeeTerminate1284Mode:State 27 Failed: Controller %x dsr %x dcr %x\n",
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Controller, P5ReadPortUchar(Controller + OFFSET_DSR), dcr);
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}
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Terminate_ExitLabel:
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// =============== Host State 28 Termination ===============8
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// DIR = Don't Care (Possibly Low)
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// IRQEN = Don't Care (Possibly Low)
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// 1284/SelectIn = Low
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// nReverseReq/**(ECP only) = Don't Care (Possibly High)
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// HostAck/HostBusy/nAutoFeed = High (Signals State 28)
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// HostClk/nStrobe = High
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//
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Pdx->CurrentEvent = 28;
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dcr = UPDATE_DCR(dcr, DONT_CARE, DONT_CARE, INACTIVE, DONT_CARE, ACTIVE, ACTIVE);
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P5WritePortUchar(wPortDCR, dcr);
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// We are now back in compatibility mode.
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P5SetPhase( Pdx, PHASE_TERMINATE );
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Pdx->Connected = FALSE;
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Pdx->IsIeeeTerminateOk = FALSE;
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DD((PCE)Pdx,DDT,"IeeeTerminate1284Mode - exit - dcr=%x\n", dcr);
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return;
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}
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NTSTATUS
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IeeeEnter1284Mode(
|
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IN PPDO_EXTENSION Pdx,
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IN UCHAR Extensibility
|
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)
|
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|
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/*++
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Routine Description:
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This routine performs 1284 negotiation with the peripheral to the
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nibble mode protocol.
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Arguments:
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Controller - Supplies the port address.
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DeviceIdRequest - Supplies whether or not this is a request for a device
|
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id.
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Return Value:
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STATUS_SUCCESS - Successful negotiation.
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otherwise - Unsuccessful negotiation.
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--*/
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|
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{
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PUCHAR wPortDCR;
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PUCHAR Controller;
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UCHAR dcr;
|
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const USHORT sPeriphResponseTime = 35;
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Controller = Pdx->Controller;
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wPortDCR = Controller + OFFSET_DCR;
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/* =============== Host Prep for Pre State 0 ===============8
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Set the following just in case someone didn't
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put the port in compatibility mode before we got it.
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DIR = Don't Care
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IRQEN = Don't Care
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1284/SelectIn = Low
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nReverseReq/ (ECP only)= High for ECP / Don't Care for Nibble
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I will do ahead and set it to high
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since Nibble doesn't care.
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HostAck/HostBusy = High
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HostClk/nStrobe = Don't Care
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============================================================ */
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dcr = P5ReadPortUchar(wPortDCR); // Get content of DCR.
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dcr = UPDATE_DCR(dcr, DONT_CARE, DONT_CARE, INACTIVE, ACTIVE, ACTIVE, DONT_CARE);
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P5WritePortUchar(wPortDCR, dcr);
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KeStallExecutionProcessor(2);
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|
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/* =============== Host Pre State 0 Negotiation ===============8
|
|
DIR = Low ( Don't Care by spec )
|
|
IRQEN = Low ( Don't Care by spec )
|
|
1284/SelectIn = Low
|
|
nReverseReq/ (ECP only)= High ( Don't Care by spec )
|
|
HostAck/HostBusy = High
|
|
HostClk/nStrobe = High
|
|
============================================================ */
|
|
|
|
dcr = UPDATE_DCR(dcr, INACTIVE, INACTIVE, INACTIVE, ACTIVE, ACTIVE, ACTIVE);
|
|
P5WritePortUchar(wPortDCR, dcr);
|
|
KeStallExecutionProcessor(2);
|
|
/* =============== Host State 0 Negotiation ===============8
|
|
Place the extensibility request value on the data bus - state 0.
|
|
|
|
============================================================ */
|
|
Pdx->CurrentEvent = 0;
|
|
P5WritePortUchar(Controller + DATA_OFFSET, Extensibility);
|
|
KeStallExecutionProcessor(2);
|
|
|
|
/* =========== Host State 1 Negotiation Phase ===========8
|
|
DIR = Don't Care
|
|
IRQEN = Don't Care
|
|
1284/SelectIn = High (Signals State 1)
|
|
nReverseReq/ (ECP only)= Don't Care
|
|
HostAck/HostBusy = Low (Signals state 1)
|
|
HostClk/nStrobe = High
|
|
|
|
============================================================ */
|
|
Pdx->CurrentEvent = 1;
|
|
dcr = UPDATE_DCR(dcr, DONT_CARE, DONT_CARE, ACTIVE, DONT_CARE, INACTIVE, ACTIVE);
|
|
P5WritePortUchar(wPortDCR, dcr);
|
|
|
|
/* =============== Periph State 2 Negotiation ===============8
|
|
PeriphAck/PtrBusy = Don't Care
|
|
PeriphClk/PtrClk = low Signals State 2
|
|
nAckReverse/AckDataReq = high Signals State 2
|
|
XFlag = high Signals State 2
|
|
**Note: It is high at state 2
|
|
for both ecp and nibble
|
|
nPeriphReq/nDataAvail = high Signals State 2
|
|
============================================================ */
|
|
Pdx->CurrentEvent = 2;
|
|
if (!CHECK_DSR(Controller, DONT_CARE, INACTIVE, ACTIVE, ACTIVE, ACTIVE,
|
|
sPeriphResponseTime)) {
|
|
KeStallExecutionProcessor(2);
|
|
dcr = UPDATE_DCR(dcr, DONT_CARE, DONT_CARE, INACTIVE, DONT_CARE, ACTIVE, DONT_CARE);
|
|
P5WritePortUchar(wPortDCR, dcr);
|
|
|
|
DD((PCE)Pdx,DDW,"IeeeEnter1284Mode - controller=%x - extensibility=%x, FAIL - TIMEOUT on Event 2\n",
|
|
Pdx->Controller, Extensibility);
|
|
|
|
P5SetPhase( Pdx, PHASE_UNKNOWN );
|
|
Pdx->Connected = FALSE;
|
|
Pdx->IsIeeeTerminateOk = FALSE;
|
|
return STATUS_INVALID_DEVICE_REQUEST;
|
|
}
|
|
|
|
/* =============== Host State 3 Negotiation ===============8
|
|
DIR = Don't Care
|
|
IRQEN = Don't Care
|
|
1284/SelectIn = High
|
|
nReverseReq/ (ECP only)= Don't Care
|
|
HostAck/HostBusy = Low
|
|
HostClk/nStrobe = Low (signals State 3)
|
|
|
|
NOTE: Strobe the Extensibility byte
|
|
============================================================ */
|
|
Pdx->CurrentEvent = 3;
|
|
dcr = UPDATE_DCR(dcr, DONT_CARE, DONT_CARE, ACTIVE, DONT_CARE, INACTIVE, INACTIVE);
|
|
P5WritePortUchar(wPortDCR, dcr);
|
|
|
|
// HostClk must be help low for at least .5 microseconds.
|
|
//
|
|
KeStallExecutionProcessor(2);
|
|
|
|
/* =============== Host State 4 Negotiation ===============8
|
|
DIR = Don't Care
|
|
IRQEN = Don't Care
|
|
1284/SelectIn = High
|
|
nReverseReq/ (ECP only)= Don't Care
|
|
HostAck/HostBusy = High (signals State 4)
|
|
HostClk/nStrobe = High (signals State 4)
|
|
|
|
NOTE: nReverseReq should be high in ECP, but this line is only
|
|
valid for ECP. Since it isn't used for signaling
|
|
anything in negotiation, let's just ignore it for now.
|
|
============================================================ */
|
|
Pdx->CurrentEvent = 4;
|
|
dcr = UPDATE_DCR(dcr, DONT_CARE, DONT_CARE, ACTIVE, DONT_CARE, ACTIVE, ACTIVE);
|
|
P5WritePortUchar(wPortDCR, dcr);
|
|
|
|
/* ============== Periph State 5/6 Negotiation ===============
|
|
PeriphAck/PtrBusy = Don't Care. low (ECP) / Don't Care (Nibble)
|
|
Since this line differs based on Protocol
|
|
Let's not check the line.
|
|
PeriphClk/PtrClk = high (Signals State 6)
|
|
nAckReverse/AckDataReq = Don't Care. low (ECP) / high (Nibble)
|
|
Since this line differs based on Protocol
|
|
Let's not check the line.
|
|
XFlag = Don't Care. high (ECP) / low (Nibble)
|
|
Since this line differs based on Protocol
|
|
Let's not check the line.
|
|
nPeriphReq/nDataAvail = Don't Care. high (ECP) / low (Nibble)
|
|
Since this line differs based on Protocol
|
|
Let's not check the line.
|
|
============== Periph State 5/6 Negotiation ==============8
|
|
|
|
NOTES:
|
|
- It's ok to lump states 5 and 6 together. In state 5 Nibble,
|
|
the periph will set XFlag low and nPeriphReq/nDataAvail low.
|
|
The periph will then hold for .5ms then set PeriphClk/PtrClk
|
|
high. In ECP, state 5 is nAckReverse/AckDataReq going low and
|
|
PeriphAck/PtrBusy going low. Followed by a .5ms pause.
|
|
Followed by PeriphClk/PtrClk going high.
|
|
============================================================ */
|
|
Pdx->CurrentEvent = 5;
|
|
if (!CHECK_DSR(Controller, DONT_CARE, ACTIVE, DONT_CARE, DONT_CARE, DONT_CARE,
|
|
sPeriphResponseTime)) {
|
|
|
|
dcr = UPDATE_DCR(dcr, DONT_CARE, DONT_CARE, INACTIVE, DONT_CARE, DONT_CARE, DONT_CARE);
|
|
P5WritePortUchar(wPortDCR, dcr);
|
|
|
|
DD((PCE)Pdx,DDW,"IeeeEnter1284Mode- controller=%x - extensibility=%x, FAIL - TIMEOUT on Events 5/6\n",
|
|
Pdx->Controller, Extensibility);
|
|
|
|
P5SetPhase( Pdx, PHASE_UNKNOWN );
|
|
Pdx->Connected = FALSE;
|
|
Pdx->IsIeeeTerminateOk = FALSE;
|
|
return STATUS_INVALID_DEVICE_REQUEST;
|
|
}
|
|
KeStallExecutionProcessor(2);
|
|
|
|
P5SetPhase( Pdx, PHASE_NEGOTIATION );
|
|
Pdx->Connected = TRUE;
|
|
return STATUS_SUCCESS;
|
|
}
|
|
|
|
VOID
|
|
IeeeDetermineSupportedProtocols(
|
|
IN PPDO_EXTENSION Pdx
|
|
)
|
|
/*++
|
|
|
|
Routine Description:
|
|
|
|
This routine walks the list of all ieee1284 modes, and
|
|
flags each of the ones the peripheral supports in
|
|
Pdx->ProtocolModesSupported. This proc is called from
|
|
external IOCTL.
|
|
|
|
Arguments:
|
|
|
|
Pdx - The parallel device extension
|
|
|
|
Return Value:
|
|
|
|
--*/
|
|
{
|
|
REVERSE_MODE rm;
|
|
FORWARD_MODE fm;
|
|
|
|
// Take CENTRONICS as a given since it is not a
|
|
// mode we can neogitate to.
|
|
//
|
|
// n.b.
|
|
// Let's go ahead and mark IEEE_COMPATIBILITY since we
|
|
// cannot negotiate into it. But if the someone sets
|
|
// IEEE_COMPATIBILITY and the peripheral does not support
|
|
// IEEE 1284 compliant compatibility mode then we're gonna
|
|
// create one very unhappy peripheral. -- dvrh
|
|
Pdx->ProtocolModesSupported = CENTRONICS | IEEE_COMPATIBILITY;
|
|
|
|
//
|
|
// Unlikely that we would be connected, but...
|
|
//
|
|
|
|
ParTerminate(Pdx);
|
|
|
|
for (fm = FORWARD_FASTEST; fm < FORWARD_NONE; fm++) {
|
|
|
|
if (afpForward[fm].fnIsModeSupported)
|
|
afpForward[fm].fnIsModeSupported(Pdx);
|
|
}
|
|
|
|
for (rm = REVERSE_FASTEST; rm < REVERSE_NONE; rm++) {
|
|
|
|
if (arpReverse[rm].fnIsModeSupported)
|
|
arpReverse[rm].fnIsModeSupported(Pdx);
|
|
}
|
|
|
|
return;
|
|
}
|
|
|
|
NTSTATUS
|
|
IeeeNegotiateBestMode(
|
|
IN PPDO_EXTENSION Pdx,
|
|
IN USHORT usReadMask,
|
|
IN USHORT usWriteMask
|
|
)
|
|
/*++
|
|
|
|
Routine Description:
|
|
|
|
This routine walks the list of supported modes, looking for the best
|
|
(fastest) mode. It will skip any mode(s) mask passed in.
|
|
|
|
Arguments:
|
|
|
|
Pdx - The parallel device extension
|
|
|
|
Return Value:
|
|
|
|
STATUS_SUCCESS - Successful negotiation.
|
|
|
|
otherwise - Unsuccessful negotiation.
|
|
|
|
--*/
|
|
{
|
|
REVERSE_MODE rm;
|
|
FORWARD_MODE fm;
|
|
|
|
//
|
|
// A USHORT is provided in the extension so that each of the protocols
|
|
// can decide whether they need to negotiate each time we go through this
|
|
// process...
|
|
//
|
|
|
|
//
|
|
// Unlikely that we would be connected, but...
|
|
//
|
|
|
|
DD((PCE)Pdx,DDT,"IeeeNegotiateBestMode - skipping Fwd=%x, Rev=%x\n",usWriteMask, usReadMask);
|
|
|
|
ParTerminate(Pdx);
|
|
|
|
Pdx->IdxForwardProtocol = FORWARD_NONE;
|
|
Pdx->IdxReverseProtocol = REVERSE_NONE;
|
|
|
|
for (fm = FORWARD_FASTEST; fm < FORWARD_NONE; fm++) {
|
|
|
|
if (!(afpForward[fm].Protocol & usWriteMask)) {
|
|
|
|
if (afpForward[fm].fnIsModeSupported) {
|
|
|
|
if (afpForward[fm].fnIsModeSupported(Pdx)) {
|
|
Pdx->IdxForwardProtocol = (USHORT)fm;
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
for (rm = REVERSE_FASTEST; rm < REVERSE_NONE; rm++) {
|
|
|
|
if (!(arpReverse[rm].Protocol & usReadMask)) {
|
|
|
|
if (arpReverse[rm].fnIsModeSupported) {
|
|
|
|
if (arpReverse[rm].fnIsModeSupported(Pdx)) {
|
|
Pdx->IdxReverseProtocol = (USHORT)rm;
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
Pdx->fnRead = arpReverse[Pdx->IdxReverseProtocol].fnRead;
|
|
Pdx->fnWrite = afpForward[Pdx->IdxForwardProtocol].fnWrite;
|
|
|
|
DD((PCE)Pdx,DDT,"IeeeNegotiateBestMode - exit - Fwd=%x, Rev=%x\n",fm,rm);
|
|
|
|
return STATUS_SUCCESS;
|
|
}
|
|
|
|
|
|
NTSTATUS
|
|
IeeeNegotiateMode(
|
|
IN PPDO_EXTENSION Pdx,
|
|
IN USHORT usReadMask,
|
|
IN USHORT usWriteMask
|
|
)
|
|
|
|
/*++
|
|
|
|
Routine Description:
|
|
|
|
This routine walks the list of supported modes, looking for the best
|
|
(fastest) mode which is also in the mode mask passed in.
|
|
|
|
Arguments:
|
|
|
|
Pdx - The parallel device extension
|
|
|
|
Return Value:
|
|
|
|
STATUS_SUCCESS - Successful negotiation.
|
|
|
|
otherwise - Unsuccessful negotiation.
|
|
|
|
--*/
|
|
|
|
{
|
|
|
|
REVERSE_MODE rm;
|
|
FORWARD_MODE fm;
|
|
|
|
//
|
|
// A USHORT is provided in the extension so that each of the protocols
|
|
// can decide whether they need to negotiate each time we go through this
|
|
// process...
|
|
//
|
|
|
|
//
|
|
// Unlikely that we would be connected, but...
|
|
//
|
|
|
|
ParTerminate(Pdx);
|
|
|
|
Pdx->IdxForwardProtocol = FORWARD_NONE;
|
|
Pdx->IdxReverseProtocol = REVERSE_NONE;
|
|
|
|
for (fm = FORWARD_FASTEST; fm < FORWARD_NONE; fm++) {
|
|
|
|
if (afpForward[fm].Protocol & usWriteMask) {
|
|
|
|
if (afpForward[fm].fnIsModeSupported) {
|
|
|
|
if (afpForward[fm].fnIsModeSupported(Pdx)) {
|
|
Pdx->IdxForwardProtocol = (USHORT)fm;
|
|
break;
|
|
}
|
|
|
|
} else {
|
|
|
|
Pdx->IdxForwardProtocol = (USHORT)fm;
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
for (rm = REVERSE_FASTEST; rm < REVERSE_NONE; rm++) {
|
|
|
|
if (arpReverse[rm].Protocol & usReadMask) {
|
|
|
|
if (arpReverse[rm].fnIsModeSupported) {
|
|
|
|
if (arpReverse[rm].fnIsModeSupported(Pdx)) {
|
|
Pdx->IdxReverseProtocol = (USHORT)rm;
|
|
break;
|
|
}
|
|
|
|
} else {
|
|
|
|
Pdx->IdxReverseProtocol = (USHORT)rm;
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
DD((PCE)Pdx,DDT,"IeeeNegotiateMode - Fwd=%x, Rev=%x\n",fm,rm);
|
|
|
|
Pdx->fnRead = arpReverse[Pdx->IdxReverseProtocol].fnRead;
|
|
Pdx->fnWrite = afpForward[Pdx->IdxForwardProtocol].fnWrite;
|
|
|
|
return STATUS_SUCCESS;
|
|
}
|