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540 lines
13 KiB
540 lines
13 KiB
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/*++
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Copyright (c) 1991 Microsoft Corporation
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Module Name:
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vrnetb.c
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Abstract:
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Contains Netbios function handlers for Vdm Int5c support. This module
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contains the following Vr (VdmRedir) routines:
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VrNetbios5c
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VrNetbios5cInterrupt
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Private (Vrp) routines:
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Netbios32Post
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ResetLana
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VrNetbios5cInitialize
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IsPmNcbAtQueueHead
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Author:
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Colin Watson (colinw) 09-Dec-1991
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Environment:
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Any 32-bit flat address space
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Notes:
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Revision History:
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09-Dec-1991 ColinW
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Created
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--*/
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#include <nt.h>
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#include <ntrtl.h> // ASSERT, DbgPrint
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#include <nturtl.h>
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#include <windows.h>
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#include <softpc.h> // x86 virtual machine definitions
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#include <vrdlctab.h>
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#include <vdmredir.h> // common Vdm Redir stuff
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#include <vrinit.h> // VrQueueCompletionHandler
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#include <smbgtpt.h> // Macros for misaligned data
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#include <dlcapi.h> // Official DLC API definition
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#include <ntdddlc.h> // IOCTL commands
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#include <dlcio.h> // Internal IOCTL API interface structures
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#include <vrdlc.h> // DLC prototypes
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#include <nb30.h> // NCB
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#include <netb.h> // NCBW
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#include <mvdm.h> // STOREWORD
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#include "vrdebug.h"
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#define BOOL // kludge for mips build
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#include <insignia.h> // Required for ica.h
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#include <xt.h> // Required for ica.h
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#include <ica.h>
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#include <vrica.h> // call_ica_hw_interrupt
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CRITICAL_SECTION PostCrit; // protects PostWorkQueue.
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LIST_ENTRY PostWorkQueue; // queue to 16 bit code.
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BYTE LanaReset[MAX_LANA+1];
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//
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// private routine prototypes
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//
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VOID
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Netbios32Post(
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PNCB pncb
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);
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UCHAR
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ResetLana(
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UCHAR Adapter
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);
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//
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// Vdm Netbios support routines
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//
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VOID
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VrNetbios5c(
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VOID
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)
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/*++
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Routine Description:
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Creates a copy of the NCB to submit to Netbios.
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Performs address translation from the registers provided by the 16 bit
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application and translates all the addresses in the NCB.
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Using a copy of the NCB also solves alignment problems.
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Arguments:
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None. All arguments are extracted from 16-bit context descriptor
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Return Value:
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None. Returns values in VDM Ax register
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--*/
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{
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PNCB pncb;
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PNCBW pncbw;
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BOOLEAN protectMode = (BOOLEAN)(getMSW() & MSW_PE);
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BOOLEAN isAsyncCommand;
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UCHAR command;
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USHORT es = getES();
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USHORT bx = getBX();
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//
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// es:bx is the 16 bit address of the NCB. Can be in real- or protect-mode
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// 16-bit memory
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//
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pncb = (PNCB)CONVERT_ADDRESS(es, bx, sizeof(NCB), protectMode);
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command = pncb->ncb_command;
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isAsyncCommand = command & ASYNCH;
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command &= ~ASYNCH;
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pncbw = RtlAllocateHeap(
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RtlProcessHeap(), 0,
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sizeof(NCBW));
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#if DBG
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IF_DEBUG(NETBIOS) {
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DBGPRINT("VrNetbios5c: NCB @ %04x:%04x Command=%02x pncbw=%08x\n",
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es,
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bx,
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pncb->ncb_command,
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pncbw
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);
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}
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#endif
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if ( pncbw == NULL ) {
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pncb->ncb_retcode = NRC_NORES;
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pncb->ncb_cmd_cplt = NRC_NORES;
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setAL( NRC_NORES );
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return;
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}
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//
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// Do not need a valid lana number for an ncb enum. If the lana mumber is out
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// of range let the driver handle it.
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//
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if ((command != NCBENUM) &&
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( pncb->ncb_lana_num <= MAX_LANA ) &&
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( LanaReset[pncb->ncb_lana_num] == FALSE )) {
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UCHAR result;
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//
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// Do a reset on the applications behalf. Most dos applications assume that the
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// redirector has reset the card already.
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//
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// Use default sessions. If application wants more sessions then it must execute
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// a reset itself. This will be very rare so executing this reset plus the
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// applications will not be a significant overhead.
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//
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result = ResetLana(pncb->ncb_lana_num);
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if (result != NRC_GOODRET) {
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pncb->ncb_retcode = result;
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pncb->ncb_cmd_cplt = result;
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setAL( result );
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return;
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}
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LanaReset[pncb->ncb_lana_num] = TRUE;
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}
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//
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// safe to use RtlCopyMemory - 16-bit memory and process heap don't overlap
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//
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RtlCopyMemory(
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pncbw,
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pncb,
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sizeof(NCB));
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pncbw->ncb_event = 0;
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// Fill in mvdm data fields
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pncbw->ncb_es = es;
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pncbw->ncb_bx = bx;
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pncbw->ncb_original_ncb = pncb;
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// Update all 16 bit pointers to 32 bit pointers
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pncbw->ncb_buffer = CONVERT_ADDRESS((ULONG)pncbw->ncb_buffer >> 16,
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(ULONG)pncbw->ncb_buffer & 0x0ffff,
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pncbw->ncb_length
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? pncbw->ncb_length
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: (command == NCBCANCEL)
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? sizeof(NCB)
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: 0,
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protectMode
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);
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//
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// if this is a NCB.CANCEL, then the ncb_buffer field should point at the
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// NCB we are cancelling. We stored the address of the 32-bit NCB in the
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// reserved field of the original 16-bit NCB
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//
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if (command == NCBCANCEL) {
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pncbw->ncb_buffer = (PUCHAR)READ_DWORD(&((PNCB)pncbw->ncb_buffer)->ncb_reserve);
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} else if ((command == NCBCHAINSEND) || (command == NCBCHAINSENDNA)) {
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pncbw->cu.ncb_chain.ncb_buffer2 =
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CONVERT_ADDRESS(
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(ULONG)pncbw->cu.ncb_chain.ncb_buffer2 >> 16,
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(ULONG)pncbw->cu.ncb_chain.ncb_buffer2 & 0x0ffff,
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pncbw->cu.ncb_chain.ncb_length2,
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protectMode
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);
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} else if ( command == NCBRESET ) {
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//
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// If it is a reset then modify the new NCB to the protect mode parameters
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//
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pncbw->cu.ncb_callname[0] = (pncb->ncb_lsn == 0) ? 6 : pncb->ncb_lsn;
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pncbw->cu.ncb_callname[1] = (pncb->ncb_num == 0) ? 12 : pncb->ncb_num;
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pncbw->cu.ncb_callname[2] = 16;
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pncbw->cu.ncb_callname[3] = 1;
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//
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// DOS always allocates resources on RESET: set ncb_lsn to 0 to indicate
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// this fact to Netbios (else it will free resources, causing us pain)
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//
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pncbw->ncb_lsn = 0;
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}
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//
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// we are about to submit the NCB. Store the address of the 32-bit structure
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// in the reserved field of the 16-bit structure for use in NCB.CANCEL
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//
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WRITE_DWORD(&pncb->ncb_reserve, pncbw);
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if ( !isAsyncCommand ) {
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setAL( Netbios( (PNCB)pncbw ) );
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// Copy back the fields that might have changed during the call.
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STOREWORD(pncb->ncb_length, pncbw->ncb_length);
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if (( command == NCBLISTEN ) ||
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( command == NCBDGRECV ) ||
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( command == NCBDGRECVBC )) {
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RtlCopyMemory( pncb->ncb_callname, pncbw->cu.ncb_callname, NCBNAMSZ );
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}
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pncb->ncb_retcode = pncbw->ncb_retcode;
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pncb->ncb_lsn = pncbw->ncb_lsn;
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pncb->ncb_num = pncbw->ncb_num;
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pncb->ncb_cmd_cplt = pncbw->ncb_cmd_cplt;
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RtlFreeHeap( RtlProcessHeap(), 0, pncbw );
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} else {
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//
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// This is an asynchronous call. Netbios32Post will free pncbw
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// We also note which (virtual) processor mode was in effect when we
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// received the call. This is used later to determine who should handle
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// the completion - the real-mode handler, or the new protect-mode
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// version
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//
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pncbw->ProtectModeNcb = (DWORD)protectMode;
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pncbw->ncb_post = Netbios32Post;
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pncb->ncb_retcode = NRC_PENDING;
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pncb->ncb_cmd_cplt = NRC_PENDING;
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setAL( Netbios( (PNCB)pncbw ) );
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}
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}
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VOID
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Netbios32Post(
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PNCB pncb
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)
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/*++
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Routine Description:
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This routine is called every time a 32 bit NCB completes. It examines the NCB.
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If the caller provided a POST routine then it queues the NCB to the 16 bit routine.
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Arguments:
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PNCB pncb - Supplies a 32 bit pointer to the NCB
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Return Value:
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None.
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--*/
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{
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PNCBW pncbw = (PNCBW) pncb;
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PNCB pdosNcb = pncbw->ncb_original_ncb;
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#if DBG
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IF_DEBUG(NETBIOS) {
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DBGPRINT("Netbios32Post: NCB @ %04x:%04x Command=%02x ANR=%08x. pncbw @ %08x\n",
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pncbw->ncb_es,
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pncbw->ncb_bx,
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pncbw->ncb_command,
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READ_DWORD(&pdosNcb->ncb_post),
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pncbw
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);
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}
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#endif
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if ( READ_DWORD(&pdosNcb->ncb_post) ) {
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//
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// Pretend we have a network card on IRQL NETWORK_LINE. Queue the NCB
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// completion to the NETWORK_LINE interrupt handler so that it will
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// call the 16 bit post routine.
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//
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EnterCriticalSection( &PostCrit );
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InsertTailList( &PostWorkQueue, &pncbw->u.ncb_next );
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LeaveCriticalSection( &PostCrit );
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VrQueueCompletionHandler(VrNetbios5cInterrupt);
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VrRaiseInterrupt();
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} else {
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//
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// Copy back the fields that might have changed during the call.
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//
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STOREWORD(pdosNcb->ncb_length, pncbw->ncb_length);
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if ((( pncbw->ncb_command & ~ASYNCH ) == NCBLISTEN ) ||
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(( pncbw->ncb_command & ~ASYNCH ) == NCBDGRECV ) ||
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(( pncbw->ncb_command & ~ASYNCH ) == NCBDGRECVBC )) {
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RtlCopyMemory( pdosNcb->ncb_callname, pncbw->cu.ncb_callname, NCBNAMSZ );
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}
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pdosNcb->ncb_retcode = pncbw->ncb_retcode;
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pdosNcb->ncb_lsn = pncbw->ncb_lsn;
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pdosNcb->ncb_num = pncbw->ncb_num;
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pdosNcb->ncb_cmd_cplt = pncbw->ncb_cmd_cplt;
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RtlFreeHeap( RtlProcessHeap(), 0, pncbw );
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}
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}
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VOID
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VrNetbios5cInterrupt(
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VOID
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)
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/*++
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Routine Description:
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If there is a completed asynchronous DLC CCB then complete it else
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Retrieves an NCB from the PostWorkQueue and returns it to the 16 bit code
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to call the post routine specified by the application.
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Arguments:
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None.
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Return Value:
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None. Returns values in VDM Ax, Es and Bx registers.
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--*/
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{
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#if DBG
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IF_DEBUG(NETBIOS) {
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DBGPRINT("Netbios5cInterrupt\n");
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}
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#endif
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EnterCriticalSection( &PostCrit );
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if (!IsListEmpty(&PostWorkQueue)) {
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PLIST_ENTRY entry;
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PNCBW pncbw;
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PNCB pncb;
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entry = RemoveHeadList(&PostWorkQueue);
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LeaveCriticalSection( &PostCrit );
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pncbw = CONTAINING_RECORD( entry, NCBW, u.ncb_next );
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pncb = pncbw->ncb_original_ncb;
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#if DBG
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IF_DEBUG(NETBIOS) {
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DBGPRINT("Netbios5cInterrupt returning pncbw: %lx, 16-bit NCB: %04x:%04x Command=%02x\n",
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pncbw,
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pncbw->ncb_es,
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pncbw->ncb_bx,
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pncbw->ncb_command
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);
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}
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#endif
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// Copy back the fields that might have changed during the call.
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STOREWORD(pncb->ncb_length, pncbw->ncb_length);
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if ((( pncbw->ncb_command & ~ASYNCH ) == NCBLISTEN ) ||
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(( pncbw->ncb_command & ~ASYNCH ) == NCBDGRECV ) ||
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(( pncbw->ncb_command & ~ASYNCH ) == NCBDGRECVBC )) {
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RtlCopyMemory( pncb->ncb_callname, pncbw->cu.ncb_callname, NCBNAMSZ );
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}
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pncb->ncb_retcode = pncbw->ncb_retcode;
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pncb->ncb_lsn = pncbw->ncb_lsn;
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pncb->ncb_num = pncbw->ncb_num;
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pncb->ncb_cmd_cplt = pncbw->ncb_cmd_cplt;
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setES( pncbw->ncb_es );
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setBX( pncbw->ncb_bx );
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setAL(pncbw->ncb_retcode);
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//
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// use flags to indicate to hardware interrupt routine that there is
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// NetBios post processing to do
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//
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SET_CALLBACK_NETBIOS();
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RtlFreeHeap( RtlProcessHeap(), 0, pncbw );
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} else {
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LeaveCriticalSection( &PostCrit );
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//
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// use flags to indicate there is no post processing to do
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//
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SET_CALLBACK_NOTHING();
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}
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}
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UCHAR
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ResetLana(
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UCHAR Adapter
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)
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/*++
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Routine Description:
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Reset the adapter on the applications behalf.
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Arguments:
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UCHAR Adapter - Supplies the lana number to reset.
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Return Value:
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Result of the reset.
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--*/
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{
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NCB ResetNcb;
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RtlZeroMemory( &ResetNcb, sizeof(NCB) );
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ResetNcb.ncb_command = NCBRESET;
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ResetNcb.ncb_lana_num = Adapter;
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ResetNcb.ncb_callname[0] = 64;
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ResetNcb.ncb_callname[1] = 128;
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ResetNcb.ncb_callname[2] = 16;
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ResetNcb.ncb_callname[3] = 1;
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Netbios( &ResetNcb );
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return ResetNcb.ncb_retcode;
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}
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VOID
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VrNetbios5cInitialize(
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VOID
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)
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/*++
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Routine Description:
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Initialize the global structures used to return post routine calls back to the application.
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Arguments:
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None.
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Return Value:
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None.
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--*/
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{
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int index;
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InitializeCriticalSection( &PostCrit );
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InitializeListHead( &PostWorkQueue );
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for ( index = 0; index <= MAX_LANA ; index++ ) {
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LanaReset[index] = FALSE;
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}
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}
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BOOLEAN
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IsPmNcbAtQueueHead(
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VOID
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)
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/*++
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Routine Description:
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Returns TRUE if the NCBW at the head of the PostWorkQueue originated in
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protect mode, else FALSE
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Arguments:
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None.
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Return Value:
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BOOLEAN
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TRUE - head of queue represents protect mode NCB
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FALSE - head of queue is real-mode NCB
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--*/
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{
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return (BOOLEAN)((CONTAINING_RECORD(PostWorkQueue.Flink, NCBW, u.ncb_next))->ProtectModeNcb);
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}
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