336 lines
8.1 KiB
C
336 lines
8.1 KiB
C
/*++
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Copyright (c) 1997-2000 Microsoft Corporation
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Module Name:
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wmiguidapi.c
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Abstract:
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Data structures and functions that generate GUID.
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--*/
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#include <ntos.h>
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#define MAX_CACHED_UUID_TIME 10000 // 10 seconds
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#define WMI_UUID_TIME_HIGH_MASK 0x0FFF
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#define WMI_UUID_VERSION 0x1000
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typedef long WMI_STATUS;
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#define WMI_ENTRY __stdcall
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#define WMI_S_OUT_OF_MEMORY 14
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#define WMI_S_OK 0
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#define WMI_S_UUID_LOCAL_ONLY 1824L
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//#define RPC_RAND_UUID_VERSION 0x4000
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#define WMI_UUID_RESERVED 0x80
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#define WMI_UUID_CLOCK_SEQ_HI_MASK 0x3F
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extern WmipSleep(unsigned long dwMilliseconds);
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typedef struct _WMI_UUID_GENERATE
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{
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unsigned long TimeLow;
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unsigned short TimeMid;
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unsigned short TimeHiAndVersion;
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unsigned char ClockSeqHiAndReserved;
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unsigned char ClockSeqLow;
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unsigned char NodeId[6];
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} WMI_UUID_GENERATE;
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typedef struct _UUID_CACHED_VALUES_STRUCT
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{
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ULARGE_INTEGER Time; // Time of last uuid allocation
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long AllocatedCount; // Number of UUIDs allocated
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unsigned char ClockSeqHiAndReserved;
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unsigned char ClockSeqLow;
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unsigned char NodeId[6];
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} UUID_CACHED_VALUES_STRUCT;
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UUID_CACHED_VALUES_STRUCT UuidCachedValues;
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WMI_STATUS
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WmipUuidGetValues(
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OUT UUID_CACHED_VALUES_STRUCT *Values
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)
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/*++
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Routine Description:
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This routine allocates a block of uuids for UuidCreate to handout.
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Arguments:
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Values - Set to contain everything needed to allocate a block of uuids.
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The following fields will be updated here:
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NextTimeLow - Together with LastTimeLow, this denotes the boundaries
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of a block of Uuids. The values between NextTimeLow
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and LastTimeLow are used in a sequence of Uuids returned
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by UuidCreate().
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LastTimeLow - See NextTimeLow.
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ClockSequence - Clock sequence field in the uuid. This is changed
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when the clock is set backward.
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Return Value:
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WMI_S_OK - We successfully allocated a block of uuids.
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WMI_S_OUT_OF_MEMORY - As needed.
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--*/
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{
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NTSTATUS NtStatus;
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ULARGE_INTEGER Time;
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ULONG Range;
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ULONG Sequence;
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int Tries = 0;
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do {
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NtStatus = NtAllocateUuids(&Time, &Range, &Sequence, (char *) &Values->NodeId[0]);
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if (NtStatus == STATUS_RETRY)
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{
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WmipSleep(1);
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}
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Tries++;
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if (Tries == 20)
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{
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#ifdef DEBUGRPC
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PrintToDebugger("Rpc: NtAllocateUuids retried 20 times!\n");
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ASSERT(Tries < 20);
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#endif
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NtStatus = STATUS_UNSUCCESSFUL;
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}
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} while(NtStatus == STATUS_RETRY);
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if (!NT_SUCCESS(NtStatus))
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{
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return(WMI_S_OUT_OF_MEMORY);
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}
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// NtAllocateUuids keeps time in SYSTEM_TIME format which is 100ns ticks since
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// Jan 1, 1601. UUIDs use time in 100ns ticks since Oct 15, 1582.
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// 17 Days in Oct + 30 (Nov) + 31 (Dec) + 18 years and 5 leap days.
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Time.QuadPart += (unsigned __int64) (1000*1000*10) // seconds
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* (unsigned __int64) (60 * 60 * 24) // days
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* (unsigned __int64) (17+30+31+365*18+5); // # of days
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ASSERT(Range);
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Values->ClockSeqHiAndReserved =
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WMI_UUID_RESERVED | (((unsigned char) (Sequence >> 8))
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& (unsigned char) WMI_UUID_CLOCK_SEQ_HI_MASK);
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Values->ClockSeqLow = (unsigned char) (Sequence & 0x00FF);
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// The order of these assignments is important
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Values->Time.QuadPart = Time.QuadPart + (Range - 1);
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Values->AllocatedCount = Range;
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/*if ((Values->NodeId[0] & 0x80) == 0)
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{*/
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return(WMI_S_OK);
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/*}
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return (WMI_S_UUID_LOCAL_ONLY);*/
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}
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WMI_STATUS WMI_ENTRY
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WmipUuidCreateSequential (
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OUT UUID * Uuid
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)
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/*++
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Routine Description:
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This routine will create a new UUID (or GUID) which is unique in
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time and space. We will try to guarantee that the UUID (or GUID)
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we generate is unique in time and space. This means that this
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routine may fail if we can not generate one which we can guarantee
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is unique in time and space.
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Arguments:
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Uuid - Returns the generated UUID (or GUID).
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Return Value:
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WMI_S_OK - The operation completed successfully.
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RPC_S_UUID_NO_ADDRESS - We were unable to obtain the ethernet or
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token ring address for this machine.
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WMI_S_UUID_LOCAL_ONLY - On NT & Chicago if we can't get a
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network address. This is a warning to the user, the
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UUID is still valid, it just may not be unique on other machines.
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WMI_S_OUT_OF_MEMORY - Returned as needed.
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--*/
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{
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WMI_UUID_GENERATE * WmiUuid = (WMI_UUID_GENERATE *) Uuid;
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WMI_STATUS Status = WMI_S_OK;
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ULARGE_INTEGER Time;
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long Delta;
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static unsigned long LastTickCount = 0;
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if (NtGetTickCount()-LastTickCount > MAX_CACHED_UUID_TIME)
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{
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UuidCachedValues.AllocatedCount = 0;
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LastTickCount = NtGetTickCount();
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}
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for(;;)
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{
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Time.QuadPart = UuidCachedValues.Time.QuadPart;
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// Copy the static info into the UUID. We can't do this later
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// because the clock sequence could be updated by another thread.
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*(unsigned long *)&WmiUuid->ClockSeqHiAndReserved =
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*(unsigned long *)&UuidCachedValues.ClockSeqHiAndReserved;
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*(unsigned long *)&WmiUuid->NodeId[2] =
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*(unsigned long *)&UuidCachedValues.NodeId[2];
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Delta = InterlockedDecrement(&UuidCachedValues.AllocatedCount);
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if (Time.QuadPart != UuidCachedValues.Time.QuadPart)
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{
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// If our captured time doesn't match the cache then another
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// thread already took the lock and updated the cache. We'll
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// just loop and try again.
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continue;
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}
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if (Delta >= 0)
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{
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break;
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}
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//
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// Allocate block of Uuids.
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//
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Status = WmipUuidGetValues( &UuidCachedValues );
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/* if (Status == WMI_S_OK)
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{
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UuidCacheValid = CACHE_VALID;
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}
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else
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{
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UuidCacheValid = CACHE_LOCAL_ONLY;
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}*/
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if (Status != WMI_S_OK)
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{
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#ifdef DEBUGRPC
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if (Status != WMI_S_OUT_OF_MEMORY)
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PrintToDebugger("RPC: UuidGetValues returned or raised: %x\n", Status);
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#endif
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ASSERT( (Status == WMI_S_OUT_OF_MEMORY) );
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return Status;
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}
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// Loop
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}
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Time.QuadPart -= Delta;
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WmiUuid->TimeLow = (unsigned long) Time.LowPart;
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WmiUuid->TimeMid = (unsigned short) (Time.HighPart & 0x0000FFFF);
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WmiUuid->TimeHiAndVersion = (unsigned short)
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(( (unsigned short)(Time.HighPart >> 16)
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& WMI_UUID_TIME_HIGH_MASK ) | WMI_UUID_VERSION);
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// ASSERT( Status == WMI_S_OK
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// || Status == WMI_S_UUID_LOCAL_ONLY);
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/* if (UuidCacheValid == CACHE_LOCAL_ONLY)
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{
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return WMI_S_UUID_LOCAL_ONLY;
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}*/
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return(Status);
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}
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NTSTATUS
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WmipUuidCreate(
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OUT UUID *Uuid
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)
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{
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return (NTSTATUS)WmipUuidCreateSequential (Uuid );
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}
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ULONG WmipUnicodeToAnsi(
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LPCWSTR pszW,
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LPSTR * ppszA,
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ULONG *AnsiSizeInBytes OPTIONAL
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){
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ANSI_STRING DestinationString;
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UNICODE_STRING SourceString;
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NTSTATUS Status;
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RtlInitAnsiString(&DestinationString,(PCHAR)ppszA);
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RtlInitUnicodeString(&SourceString,(PWSTR)pszW);
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Status = RtlUnicodeStringToAnsiString( &DestinationString, &SourceString, (ppszA == NULL) );
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if(ppszA != NULL ){
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memcpy(ppszA,DestinationString.Buffer,DestinationString.Length);
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}
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if (AnsiSizeInBytes != NULL){
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*AnsiSizeInBytes = DestinationString.Length;
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}
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return Status;
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}
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ULONG WmipAnsiToUnicode(
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LPCSTR pszA,
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LPWSTR * ppszW
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){
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UNICODE_STRING DestinationString;
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ANSI_STRING SourceString;
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NTSTATUS Status;
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RtlInitUnicodeString(&DestinationString,(PWSTR)ppszW);
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RtlInitAnsiString(&SourceString,(PCHAR)pszA);
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Status = RtlAnsiStringToUnicodeString( &DestinationString, &SourceString, (ppszW == NULL) );
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if(ppszW != NULL ){
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memcpy(ppszW,DestinationString.Buffer,DestinationString.Length);
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}
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return Status;
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}
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