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263 lines
8.8 KiB
263 lines
8.8 KiB
/*++
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Copyright (c) 1991-1993 Microsoft Corporation
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Module Name:
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SvcEnum.c
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Abstract:
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This file contains the RpcXlate code to handle the Service APIs.
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Author:
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John Rogers (JohnRo) 13-Sep-1991
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Environment:
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Portable to any flat, 32-bit environment. (Uses Win32 typedefs.)
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Requires ANSI C extensions: slash-slash comments, long external names.
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Revision History:
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13-Sep-1991 JohnRo
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Created.
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18-Sep-1991 JohnRo
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Handle ERROR_MORE_DATA.
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21-Nov-1991 JohnRo
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Removed NT dependencies to reduce recompiles.
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25-Nov-1991 JohnRo
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Assert to check for possible infinite loop.
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07-Feb-1992 JohnRo
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Use NetApiBufferAllocate() instead of private version.
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27-Jan-1993 JohnRo
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RAID 8926: NetConnectionEnum to downlevel: memory leak on error.
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Also prevent possible infinite loop.
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--*/
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// These must be included first:
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#include <windef.h> // IN, DWORD, etc.
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#include <lmcons.h> // DEVLEN, NET_API_STATUS, etc.
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// These may be included in any order:
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#include <apinums.h> // API_ equates.
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#include <lmapibuf.h> // NetApiBufferFree().
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#include <lmerr.h> // ERROR_ and NERR_ equates.
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#include <lmsvc.h> // API's data structures.
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#include <netdebug.h> // NetpAssert().
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#include <netlib.h> // NetpAdjustPreferredMaximum().
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#include <prefix.h> // PREFIX_ equates.
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#include <rap.h> // LPDESC.
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#include <remdef.h> // REM16_, REM32_, REMSmb_ equates.
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#include <rx.h> // RxRemoteApi().
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#include <rxp.h> // RxpFatalErrorCode().
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#include <rxsvc.h> // My prototype(s).
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#include <strucinf.h> // NetpServiceStructureInfo().
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#define SERVICE_ARRAY_OVERHEAD_SIZE 0
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NET_API_STATUS
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RxNetServiceEnum (
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IN LPTSTR UncServerName,
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IN DWORD Level,
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OUT LPBYTE *BufPtr,
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IN DWORD PreferedMaximumSize,
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OUT LPDWORD EntriesRead,
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OUT LPDWORD TotalEntries,
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IN OUT LPDWORD ResumeHandle OPTIONAL
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)
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/*++
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Routine Description:
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RxNetServiceEnum performs the same function as NetServiceEnum,
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except that the server name is known to refer to a downlevel server.
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Arguments:
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(Same as NetServiceEnum, except UncServerName must not be null, and
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must not refer to the local computer.)
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Return Value:
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(Same as NetServiceEnum.)
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--*/
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{
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LPDESC DataDesc16;
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LPDESC DataDesc32;
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LPDESC DataDescSmb;
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DWORD EntriesToAllocate;
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LPVOID InfoArray = NULL;
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DWORD InfoArraySize;
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DWORD MaxEntrySize;
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NET_API_STATUS Status;
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LPSERVICE_INFO_2 serviceInfo2;
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LPSERVICE_INFO_1 serviceInfo1;
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DWORD i;
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UNREFERENCED_PARAMETER(ResumeHandle);
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// Make sure caller didn't mess up.
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NetpAssert(UncServerName != NULL);
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if (BufPtr == NULL) {
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return (ERROR_INVALID_PARAMETER);
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}
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// Assume something might go wrong, and make error paths easier to
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// code. Also, check for a bad pointer before we do anything.
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*BufPtr = NULL;
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Status = NetpServiceStructureInfo (
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Level,
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PARMNUM_ALL, // want all fields.
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TRUE, // want native sizes.
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& DataDesc16,
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& DataDesc32,
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& DataDescSmb,
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& MaxEntrySize, // API buffer size 32
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NULL, // don't need fixed size
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NULL // don't need string size
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);
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if (Status != NERR_Success) {
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*BufPtr = NULL;
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return (Status);
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}
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//
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// Downlevel servers don't support resume handles, and we don't
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// have a way to say "close this resume handle" even if we wanted to
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// emulate them here. Therefore we have to do everthing in one shot.
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// So, the first time around, we'll try using the caller's prefered
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// maximum, but we will enlarge that until we can get everything in one
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// buffer.
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//
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// First time: try caller's prefered maximum.
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NetpAdjustPreferedMaximum (
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PreferedMaximumSize, // caller's request
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MaxEntrySize, // byte count per array element
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SERVICE_ARRAY_OVERHEAD_SIZE,// num bytes overhead to show array end
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NULL, // we'll compute byte counts ourselves.
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& EntriesToAllocate); // num of entries we can get.
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//
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// Loop until we have enough memory or we die for some other reason.
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//
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do {
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//
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// Figure out how much memory we need, within the protocol limit.
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//
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InfoArraySize = (EntriesToAllocate * MaxEntrySize)
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+ SERVICE_ARRAY_OVERHEAD_SIZE;
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if (InfoArraySize > MAX_TRANSACT_RET_DATA_SIZE) {
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InfoArraySize = MAX_TRANSACT_RET_DATA_SIZE;
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}
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//
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// Remote the API, which will allocate the array for us.
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//
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Status = RxRemoteApi(
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API_WServiceEnum, // api number
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UncServerName, // \\servername
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REMSmb_NetServiceEnum_P, // parm desc (SMB version)
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DataDesc16,
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DataDesc32,
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DataDescSmb,
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NULL, // no aux desc 16
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NULL, // no aux desc 32
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NULL, // no aux desc SMB
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ALLOCATE_RESPONSE, // flags: not a null session API
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// rest of API's arguments in 32-bit LM 2.x format:
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Level, // sLevel: info level
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& InfoArray, // Buffer: array (alloc for us)
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InfoArraySize, // Buffer: array size in bytes
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EntriesRead, // pcEntriesRead
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TotalEntries); // pcTotalAvail
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//
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// If the server returned ERROR_MORE_DATA, free the buffer and try
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// again. (Actually, if we already tried 64K, then forget it.)
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//
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NetpAssert( InfoArraySize <= MAX_TRANSACT_RET_DATA_SIZE );
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if (Status != ERROR_MORE_DATA) {
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break;
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} else if (InfoArraySize == MAX_TRANSACT_RET_DATA_SIZE) {
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NetpKdPrint(( PREFIX_NETAPI
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"RxNetServiceEnum: "
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"**WARNING** protocol limit reached (64KB).\n" ));
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break;
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}
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(void) NetApiBufferFree( InfoArray );
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InfoArray = NULL;
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NetpAssert( EntriesToAllocate < *TotalEntries );
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EntriesToAllocate = *TotalEntries;
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} while (Status == ERROR_MORE_DATA);
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if (! RxpFatalErrorCode(Status)) {
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DWORD installState;
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*BufPtr = InfoArray;
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if (Level == 2) {
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//
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// Make the DisplayName pointer point to the service name.
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//
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serviceInfo2 = (LPSERVICE_INFO_2)InfoArray;
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for (i=0;i<*EntriesRead ;i++) {
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(serviceInfo2[i]).svci2_display_name = (serviceInfo2[i]).svci2_name;
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//
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// if INSTALL or UNINSTALL is PENDING, then force the upper
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// bits to 0. This is to prevent the upper bits of the wait
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// hint from getting accidentally set. Downlevel should never
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// use more than FF for waithint.
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//
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installState = (serviceInfo2[i]).svci2_status & SERVICE_INSTALL_STATE;
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if ((installState == SERVICE_INSTALL_PENDING) ||
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(installState == SERVICE_UNINSTALL_PENDING)) {
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(serviceInfo2[i]).svci2_code &= SERVICE_RESRV_MASK;
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}
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}
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}
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if (Level == 1) {
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serviceInfo1 = (LPSERVICE_INFO_1)InfoArray;
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for (i=0;i<*EntriesRead ;i++) {
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//
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// if INSTALL or UNINSTALL is PENDING, then force the upper
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// bits to 0. This is to prevent the upper bits of the wait
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// hint from getting accidentally set. Downlevel should never
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// use more than FF for waithint.
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//
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installState = (serviceInfo1[i]).svci1_status & SERVICE_INSTALL_STATE;
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if ((installState == SERVICE_INSTALL_PENDING) ||
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(installState == SERVICE_UNINSTALL_PENDING)) {
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(serviceInfo1[i]).svci1_code &= SERVICE_RESRV_MASK;
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}
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}
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}
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} else {
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if (InfoArray != NULL) {
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(VOID) NetApiBufferFree( InfoArray );
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}
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NetpAssert( *BufPtr == NULL );
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}
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return (Status);
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} // RxNetServiceEnum
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