256 lines
7.7 KiB
C
256 lines
7.7 KiB
C
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//
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// REGQMVAL.C
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//
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// Copyright (C) Microsoft Corporation, 1995
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//
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// Implementation of RegQueryMultipleValues and supporting functions.
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//
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#include "pch.h"
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#ifdef VXD
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#pragma VxD_RARE_CODE_SEG
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#endif
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#ifdef IS_32
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//
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// VMMRegQueryMultipleValues
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//
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// See Win32 documentation of RegQueryMultipleValues. However, the Win95
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// implementation breaks many of the rules that are described in the
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// documentation:
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// * num_vals is a count of VALENT structures, not a size in bytes.
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// * data is not DWORD aligned in lpValueBuffer.
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// * if lpValueBuffer is too small, lpValueBuffer is not filled to the
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// size specified by lpdwTotalSize.
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//
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// All of this plus dynamic keys makes this an extremely ugly routine, but
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// every attempt was made to be compatible with the Win95 semantics.
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//
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LONG
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REGAPI
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VMMRegQueryMultipleValues(
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HKEY hKey,
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PVALENT val_list,
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DWORD num_vals,
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LPSTR lpValueBuffer,
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LPDWORD lpdwTotalSize
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)
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{
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int ErrorCode;
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PVALENT pCurrentValent;
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DWORD Counter;
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DWORD BufferSize;
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DWORD RequiredSize;
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LPKEY_RECORD lpKeyRecord;
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LPVALUE_RECORD lpValueRecord;
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LPSTR lpCurrentBuffer;
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#ifdef WANT_DYNKEY_SUPPORT
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PVALCONTEXT pValueContext;
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PINTERNAL_PROVIDER pProvider;
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PPVALUE pProviderValue;
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#endif
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if (IsBadHugeReadPtr(val_list, sizeof(VALENT) * num_vals))
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return ERROR_INVALID_PARAMETER;
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if (IsBadHugeWritePtr(lpdwTotalSize, sizeof(DWORD)))
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return ERROR_INVALID_PARAMETER;
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if (IsBadHugeWritePtr(lpValueBuffer, *lpdwTotalSize))
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return ERROR_INVALID_PARAMETER;
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for (Counter = num_vals, pCurrentValent = val_list; Counter > 0; Counter--,
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pCurrentValent++) {
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if (IsBadStringPtr(pCurrentValent-> ve_valuename, (UINT) -1))
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return ERROR_INVALID_PARAMETER;
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}
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if (!RgLockRegistry())
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return ERROR_LOCK_FAILED;
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if ((ErrorCode = RgValidateAndConvertKeyHandle(&hKey)) != ERROR_SUCCESS)
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goto ReturnErrorCode;
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#ifdef WANT_DYNKEY_SUPPORT
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// Check if this a dynamic key that has a "get all" atomic callback. If
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// the dynamic key just has "get one" callback, then we'll fall into the
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// non-dynamic case.
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if ((hKey-> PredefinedKeyIndex == INDEX_DYN_DATA) && !IsNullPtr(hKey->
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pProvider-> ipi_R0_allvals)) {
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pProvider = hKey-> pProvider;
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pValueContext = RgSmAllocMemory(sizeof(struct val_context) * num_vals);
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if (IsNullPtr(pValueContext)) {
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ErrorCode = ERROR_OUTOFMEMORY;
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goto ReturnErrorCode;
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}
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//
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// Compute the required buffer size to hold all the value data and
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// check it against the provided buffer size.
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//
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RequiredSize = 0;
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for (Counter = 0, pCurrentValent = val_list; Counter < num_vals;
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Counter++, pCurrentValent++) {
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if ((ErrorCode = RgLookupValueByName(hKey, pCurrentValent->
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ve_valuename, &lpKeyRecord, &lpValueRecord)) != ERROR_SUCCESS)
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goto ReturnErrorCode;
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// The value data contains only part of a PROVIDER structure.
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pProviderValue = CONTAINING_RECORD(&lpValueRecord-> Name +
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lpValueRecord-> NameLength, PVALUE, pv_valuelen);
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pValueContext[Counter].value_context = pProviderValue->
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pv_value_context;
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pCurrentValent-> ve_type = pProviderValue-> pv_type;
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if (hKey-> Flags & KEYF_PROVIDERHASVALUELENGTH) {
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// Must zero it so that some providers don't try to stomp on
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// lpData.
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pCurrentValent-> ve_valuelen = 0;
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ErrorCode = pProvider-> ipi_R0_1val(pProvider-> ipi_key_context,
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&pValueContext[Counter], 1, NULL, &(pCurrentValent->
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ve_valuelen), 0);
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// Providers should really be returning either of these errors
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// to us.
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ASSERT((ErrorCode == ERROR_SUCCESS) || (ErrorCode ==
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ERROR_MORE_DATA));
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}
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else {
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pCurrentValent-> ve_valuelen = pProviderValue-> pv_valuelen;
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}
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RgUnlockDatablock(hKey-> lpFileInfo, hKey-> BlockIndex, FALSE);
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pCurrentValent-> ve_valueptr = (DWORD) NULL;
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RequiredSize += pCurrentValent-> ve_valuelen;
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}
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BufferSize = *lpdwTotalSize;
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*lpdwTotalSize = RequiredSize;
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if (BufferSize < RequiredSize)
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ErrorCode = ERROR_MORE_DATA;
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else if (pProvider-> ipi_R0_allvals(pProvider-> ipi_key_context,
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pValueContext, num_vals, lpValueBuffer, lpdwTotalSize, 0) !=
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ERROR_SUCCESS)
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ErrorCode = ERROR_CANTREAD;
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else {
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ErrorCode = ERROR_SUCCESS;
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// Copy the pointers to the value data back to the user's buffer.
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// Don't ask me why, but the Win95 code copies the value length
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// back again if the provider is maintaining it.
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for (Counter = 0, pCurrentValent = val_list; Counter < num_vals;
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Counter++, pCurrentValent++) {
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pCurrentValent-> ve_valueptr = (DWORD)
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pValueContext[Counter].val_buff_ptr;
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if (hKey-> Flags & KEYF_PROVIDERHASVALUELENGTH)
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pCurrentValent-> ve_valuelen = pValueContext[Counter].valuelen;
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}
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}
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RgSmFreeMemory(pValueContext);
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goto ReturnErrorCode;
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}
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#endif
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//
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// First pass over the value names checks for the existence of the value
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// and its size. We check the total size against the provided buffer size
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// and bail out if necessary.
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//
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RequiredSize = 0;
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for (Counter = num_vals, pCurrentValent = val_list; Counter > 0; Counter--,
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pCurrentValent++) {
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if ((ErrorCode = RgLookupValueByName(hKey, pCurrentValent->
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ve_valuename, &lpKeyRecord, &lpValueRecord)) != ERROR_SUCCESS)
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goto ReturnErrorCode;
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ErrorCode = RgCopyFromValueRecord(hKey, lpValueRecord, NULL, NULL,
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&(pCurrentValent-> ve_type), NULL, &(pCurrentValent-> ve_valuelen));
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RgUnlockDatablock(hKey-> lpFileInfo, hKey-> BlockIndex, FALSE);
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if (ErrorCode != ERROR_SUCCESS)
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goto ReturnErrorCode;
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pCurrentValent-> ve_valueptr = (DWORD) NULL;
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RequiredSize += pCurrentValent-> ve_valuelen;
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}
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BufferSize = *lpdwTotalSize;
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*lpdwTotalSize = RequiredSize;
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if (BufferSize < RequiredSize) {
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ErrorCode = ERROR_MORE_DATA;
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goto ReturnErrorCode;
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}
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//
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// Second pass copies the value data back to the user's buffer now that we
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// know the buffer is large enough to contain the data.
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//
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lpCurrentBuffer = lpValueBuffer;
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for (Counter = num_vals, pCurrentValent = val_list; Counter > 0; Counter--,
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pCurrentValent++) {
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if ((ErrorCode = RgLookupValueByName(hKey, pCurrentValent->
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ve_valuename, &lpKeyRecord, &lpValueRecord)) != ERROR_SUCCESS)
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goto ReturnErrorReading;
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ErrorCode = RgCopyFromValueRecord(hKey, lpValueRecord, NULL, NULL, NULL,
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lpCurrentBuffer, &(pCurrentValent-> ve_valuelen));
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RgUnlockDatablock(hKey-> lpFileInfo, hKey-> BlockIndex, FALSE);
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if (ErrorCode != ERROR_SUCCESS) {
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ReturnErrorReading:
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TRAP(); // Registry is internally inconsistent?
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ErrorCode = ERROR_CANTREAD;
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goto ReturnErrorCode;
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}
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pCurrentValent-> ve_valueptr = (DWORD) lpCurrentBuffer;
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lpCurrentBuffer += pCurrentValent-> ve_valuelen;
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}
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ErrorCode = ERROR_SUCCESS;
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ReturnErrorCode:
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RgUnlockRegistry();
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return ErrorCode;
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}
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#endif
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