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563 lines
15 KiB
563 lines
15 KiB
/*
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Module Name:
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infdir.c
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Abstract:
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This module implements utility routines to manipulate structures used to
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maintain track INF directories. These directories hold INF files that
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we put parse and put change notifies on to track updates.
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Author:
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Andy Herron Apr 08 1998
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Revision History:
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*/
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#include "binl.h"
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#pragma hdrstop
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#include "netinfp.h"
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BOOLEAN StartedNetInfHandler = FALSE;
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CRITICAL_SECTION NetInfLock;
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LIST_ENTRY NetInfGlobalInfList;
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ULONG
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NetInfStartHandler (
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VOID
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)
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/*++
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Routine Description:
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This function just dereferences the block for the 'alive' reference.
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This may cause it to be deleted.
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Arguments:
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pNetCards - A pointer to NETCARD_INF_BLOCK block allocated. Contains all
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the persistant info required for the netcards.
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Return Value:
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Windows Error.
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--*/
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{
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if (StartedNetInfHandler == FALSE) {
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StartedNetInfHandler = TRUE;
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InitializeCriticalSection( &NetInfLock );
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InitializeListHead(&NetInfGlobalInfList);
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}
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return ERROR_SUCCESS;
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}
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ULONG
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NetInfCloseHandler (
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VOID
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)
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/*++
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Routine Description:
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This function just dereferences the block for the 'alive' reference.
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This may cause it to be deleted.
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Arguments:
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pNetCards - A pointer to NETCARD_INF_BLOCK block allocated. Contains all
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the persistant info required for the netcards.
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Return Value:
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Windows Error.
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--*/
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{
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if (StartedNetInfHandler) {
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EnterCriticalSection( &NetInfLock );
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while (IsListEmpty( &NetInfGlobalInfList ) == FALSE) {
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PNETCARD_INF_BLOCK pEntry;
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PLIST_ENTRY listEntry = RemoveHeadList( &NetInfGlobalInfList );
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pEntry = (PNETCARD_INF_BLOCK) CONTAINING_RECORD(
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listEntry,
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NETCARD_INF_BLOCK,
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InfBlockEntry );
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NetInfCloseNetcardInfo( pEntry );
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}
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StartedNetInfHandler = FALSE;
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LeaveCriticalSection( &NetInfLock );
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DeleteCriticalSection( &NetInfLock );
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}
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return ERROR_SUCCESS;
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}
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ULONG
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NetInfFindNetcardInfo (
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PWCHAR InfDirectory,
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ULONG Architecture,
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ULONG CardInfoVersion,
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NET_CARD_INFO UNALIGNED * CardIdentity,
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PWCHAR *FullDriverBuffer OPTIONAL,
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PNETCARD_RESPONSE_DATABASE *pInfEntry
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)
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/*++
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Routine Description:
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This function searches the drivers we've found and returns a pointer to
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an entry that most closely matches the client's request.
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Arguments:
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InfDirectory - directory that is target client's setup directory that
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contains all INF files for the client's NT installation.
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Architecture - PROCESSOR_ARCHITECTURE_XXXXX
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CardInfoVersion - Version of the structure passed by the client.
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CardIdentity - has the values the app is looking for. we try our best to
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find one that matches.
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FullDriverBuffer - where we put the fully qualified file path specification
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for the driver we find, if they want it.
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pInfEntry - the entry that was found if successful. NULL if in error.
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Return Value:
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ERROR_SUCCESS, ERROR_NOT_ENOUGH_MEMORY, or ERROR_NOT_SUPPORTED
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--*/
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{
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ULONG err = ERROR_NOT_SUPPORTED; // start off with not found
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LONG result;
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PLIST_ENTRY listEntry;
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UNICODE_STRING infDirString;
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PNETCARD_INF_BLOCK pNetCards = NULL;
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WCHAR SetupPath[MAX_PATH];
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PWSTR ArchitectureString;
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*pInfEntry = NULL;
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if (InfDirectory == NULL) {
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return ERROR_NOT_SUPPORTED;
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}
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//
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// we find out what the relative path within the IMIRROR directory is
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// for this client's setup files.
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//
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if ((*InfDirectory != L'\\') ||
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(*(InfDirectory+1) != L'\\') ) {
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useWholePath:
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//
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// Make sure there is room for InfDirectory + '\' (1 byte)
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// + architecture (MAX_ARCHITECTURE_LENGTH bytes) + '\0' (1 byte).
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if (wcslen(InfDirectory) + MAX_ARCHITECTURE_LENGTH + 2 >=
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sizeof(SetupPath) / sizeof(SetupPath[0])) {
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return ERROR_BAD_PATHNAME;
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}
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wcscpy( SetupPath, InfDirectory );
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} else {
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PWCHAR beginRelativePath = InfDirectory + 2; // skip leading slashes
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//
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// skip computer name
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//
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while ((*beginRelativePath != L'\0') &&
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(*beginRelativePath != L'\\')) {
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beginRelativePath++;
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}
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//
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// we should be at the start of the sharename.
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//
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if (*beginRelativePath != L'\\') {
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goto useWholePath;
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}
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beginRelativePath++;
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//
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// skip share name
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//
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while ((*beginRelativePath != L'\0') &&
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(*beginRelativePath != L'\\')) {
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beginRelativePath++;
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}
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//
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// we should be at the start of the relative directory
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//
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if (*beginRelativePath != L'\\') {
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goto useWholePath;
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}
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//
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// Make sure there is room for IntelliMirrorPathW +
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// beginRelativePath + '\' (1 byte) + architecture
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// (MAX_ARCHITECTURE_LENGTH bytes) + '\0' (1 byte).
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//
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if (wcslen(IntelliMirrorPathW) + wcslen(beginRelativePath) + MAX_ARCHITECTURE_LENGTH + 2 >=
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sizeof(SetupPath) / sizeof(SetupPath[0])) {
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return ERROR_BAD_PATHNAME;
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}
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wcscpy( SetupPath, IntelliMirrorPathW );
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wcscat( SetupPath, beginRelativePath );
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}
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RtlInitUnicodeString( &infDirString, SetupPath );
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RtlUpcaseUnicodeString( &infDirString, &infDirString, FALSE );
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// convert the path to uppercase to speed our searches
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switch (Architecture) {
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#if 0
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//
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// obsoleted architectures.
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//
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case PROCESSOR_ARCHITECTURE_ALPHA:
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ArchitectureString = L"\\ALPHA";
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break;
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case PROCESSOR_ARCHITECTURE_ALPHA64:
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ArchitectureString = L"\\AXP64";
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break;
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case PROCESSOR_ARCHITECTURE_MIPS:
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ArchitectureString = L"\\MIPS";
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break;
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case PROCESSOR_ARCHITECTURE_PPC:
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ArchitectureString = L"\\PPC";
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break;
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#endif
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case PROCESSOR_ARCHITECTURE_AMD64:
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ArchitectureString = L"\\amd64";
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break;
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case PROCESSOR_ARCHITECTURE_IA64:
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ArchitectureString = L"\\IA64";
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break;
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case PROCESSOR_ARCHITECTURE_INTEL:
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default:
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ArchitectureString = L"\\I386";
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break;
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}
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wcscat( SetupPath, ArchitectureString );
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RtlInitUnicodeString( &infDirString, SetupPath );
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EnterCriticalSection( &NetInfLock );
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//
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// Find the NETCARD_INF_BLOCK block for this inf directory. If it
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// doesn't exist, try to create the block.
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//
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listEntry = NetInfGlobalInfList.Flink;
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while ( listEntry != &NetInfGlobalInfList ) {
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pNetCards = (PNETCARD_INF_BLOCK) CONTAINING_RECORD(
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listEntry,
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NETCARD_INF_BLOCK,
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InfBlockEntry );
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err = CompareStringW( LOCALE_INVARIANT,
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0,
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SetupPath,
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infDirString.Length / sizeof(WCHAR),
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&pNetCards->InfDirectory[0],
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-1
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);
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if (err == 2) {
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break; // a match was found.
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}
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pNetCards = NULL;
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if (err == 3) {
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break; // it's greater, add it before listEntry
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}
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listEntry = listEntry->Flink;
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}
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if (pNetCards == NULL) {
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// we didn't find one. let's create it and parse the INFs.
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err = NetInfAllocateNetcardInfo( SetupPath,
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Architecture,
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&pNetCards );
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if (err != ERROR_SUCCESS) {
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//
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// log an error here that we couldn't get INF file info.
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//
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PWCHAR strings[2];
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strings[0] = SetupPath;
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strings[1] = NULL;
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BinlReportEventW( ERROR_BINL_ERR_IN_SETUP_PATH,
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EVENTLOG_WARNING_TYPE,
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1,
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sizeof(ULONG),
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strings,
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&err
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);
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BinlAssert( pNetCards == NULL );
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LeaveCriticalSection( &NetInfLock );
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return err;
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}
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BinlAssert( pNetCards != NULL );
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//
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// Now we plop it in the list right in front of listEntry
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//
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// Either listEntry is equal to the head of the list or
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// it's equal to some entry that is larger (sort wise) than the
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// inf path passed in. In either case, we can simply insert
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// this new entry onto the tail of listEntry.
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//
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InsertTailList( listEntry, &pNetCards->InfBlockEntry );
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EnterCriticalSection( &pNetCards->Lock );
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LeaveCriticalSection( &NetInfLock );
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//
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// Fill in the list with the list of cards to support
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//
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err = GetNetCardList( pNetCards );
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pNetCards->StatusFromScan = err;
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if (err != ERROR_SUCCESS) {
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PWCHAR strings[2];
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LeaveCriticalSection( &pNetCards->Lock );
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NetInfCloseNetcardInfo( pNetCards );
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DereferenceNetcardInfo( pNetCards );
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strings[0] = SetupPath;
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strings[1] = NULL;
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BinlReportEventW( ERROR_BINL_ERR_IN_SETUP_PATH,
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EVENTLOG_WARNING_TYPE,
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1,
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sizeof(ULONG),
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strings,
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&err
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);
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return err;
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}
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} else {
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BinlAssert( pNetCards->ReferenceCount > 0 );
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pNetCards->ReferenceCount++;
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LeaveCriticalSection( &NetInfLock );
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EnterCriticalSection( &pNetCards->Lock );
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err = pNetCards->StatusFromScan;
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}
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//
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// if the thread that is scanning the INFs hits an error, then all threads
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// that were waiting on that directory to be scanned should get the same
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// error. we use StatusFromScan to hold this.
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//
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if (err == ERROR_SUCCESS) {
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err = FindNetcardInfo( pNetCards, CardInfoVersion, CardIdentity, pInfEntry );
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}
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LeaveCriticalSection( &pNetCards->Lock );
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if ((err == ERROR_SUCCESS) &&
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(*pInfEntry != NULL) &&
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(FullDriverBuffer != NULL)) {
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ULONG sizeToAllocate;
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//
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// the caller wanted a copy of the fully qualified file name. we
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// have all that info here. Allocate what we need plus two, one for
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// the null, the other for the backslash.
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//
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sizeToAllocate = (wcslen( SetupPath ) + 2) * sizeof(WCHAR);
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sizeToAllocate += wcslen( (*pInfEntry)->DriverName ) * sizeof(WCHAR);
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*FullDriverBuffer = BinlAllocateMemory( sizeToAllocate );
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if (*FullDriverBuffer) {
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if (_snwprintf( *FullDriverBuffer,
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sizeToAllocate/sizeof(WCHAR),
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L"%ws\\%ws",
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SetupPath,
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(*pInfEntry)->DriverName ) < 0) {
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BinlFreeMemory( *FullDriverBuffer );
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*FullDriverBuffer = NULL;
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err = ERROR_NOT_ENOUGH_SERVER_MEMORY;
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} else {
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*FullDriverBuffer[sizeToAllocate-1] = L'\0';
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}
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}
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}
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DereferenceNetcardInfo( pNetCards );
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return err;
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}
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ULONG
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NetInfEnumFiles (
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PWCHAR FlatDirectory,
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ULONG Architecture,
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LPVOID Context,
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PNETINF_CALLBACK CallBack
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)
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/*++
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Routine Description:
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This function searches the drivers we've found and returns a pointer to
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an entry that most closely matches the client's request.
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Arguments:
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FlatDirectory - directory that is target client's setup directory that
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contains all INF files for the client's NT installation.
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Architecture - PROCESSOR_ARCHITECTURE_XXXXX
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CallBack - function to call with names of files
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Return Value:
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ERROR_SUCCESS, ERROR_NOT_ENOUGH_MEMORY, or ERROR_NOT_SUPPORTED
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--*/
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{
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ULONG err = ERROR_NOT_SUPPORTED; // start off with not found
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UNICODE_STRING infDirString;
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PNETCARD_INF_BLOCK pNetCards = NULL;
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WCHAR SetupPath[MAX_PATH];
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//
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// this entrypoint can purposely be called from another context than
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// BINLSVC. so initialize debugging if that's the case.
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//
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DebugInitialize();
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if (FlatDirectory == NULL) {
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err = ERROR_NOT_SUPPORTED;
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goto Exit;
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}
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if (wcslen(FlatDirectory) > MAX_PATH - 1) {
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err = ERROR_INVALID_PARAMETER;
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goto Exit;
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}
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wcscpy( SetupPath, FlatDirectory );
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RtlInitUnicodeString( &infDirString, SetupPath );
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RtlUpcaseUnicodeString( &infDirString, &infDirString, FALSE );
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if (StartedNetInfHandler == FALSE) {
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err = NetInfStartHandler();
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if (err != ERROR_SUCCESS) {
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goto Exit;
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}
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}
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err = NetInfAllocateNetcardInfo( SetupPath,
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Architecture,
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&pNetCards );
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if (err != ERROR_SUCCESS) {
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goto Exit;
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}
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BinlAssert( pNetCards != NULL );
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pNetCards->FileListCallbackFunction = CallBack;
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pNetCards->FileListCallbackContext = Context;
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//
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// Fill in the list with the list of cards to support
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//
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err = GetNetCardList( pNetCards );
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DereferenceNetcardInfo( pNetCards ); // one for dereference
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DereferenceNetcardInfo( pNetCards ); // and one to delete it.
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//
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// note that we won't bother to call NetInfCloseHandler here because
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// we have no idea if the caller on another thread has setup any
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// other NETCARD_INF_BLOCKs. So rather than corrupt the list and AV,
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// we'll just leak the lock. Not a big deal in RIPREP since it doesn't
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// handle more than one. Not an issue for BINL processing INF files.
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//
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Exit:
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//
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// this entrypoint can purposely be called from another context than
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// BINLSVC. debugging will be uninitialize in process detach when we're
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// done.
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//
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return err;
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}
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// infdir.c eof
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