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455 lines
12 KiB
455 lines
12 KiB
//
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// REGQVAL.C
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//
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// Copyright (C) Microsoft Corporation, 1995
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//
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// Implementation of RegQueryValue, RegQueryValueEx and supporting functions.
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//
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#include "pch.h"
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//
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// RgLookupValueByName
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// (BIGKEY aware)
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//
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// Searches for the value with the specified name and returns a pointer to its
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// KEY_RECORD and VALUE_RECORD.
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//
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// This locks the datablock associated with the KEY_RECORD and VALUE_RECORD.
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// This is always hKey->BigKeyLockedBlockIndex
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// It is the callers responsibility to unlock the datablock.
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//
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int
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INTERNAL
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RgLookupValueByName(
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HKEY hKey,
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LPCSTR lpValueName,
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LPKEY_RECORD FAR* lplpKeyRecord,
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LPVALUE_RECORD FAR* lplpValueRecord
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)
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{
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int ErrorCode;
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HKEY hKeyExtent;
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UINT Index;
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LPSTR ExtentKeyName;
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DWORD cbExtentKeyName;
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hKey-> BigKeyLockedBlockIndex = hKey-> BlockIndex;
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ErrorCode = RgLookupValueByNameStd(hKey, lpValueName, lplpKeyRecord, lplpValueRecord);
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// If this is a big key and we couldn't find it in the first key extent, then
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// try the remaining extents.
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if (ErrorCode == ERROR_CANTREAD16_FILENOTFOUND32 && (hKey->Flags & KEYF_BIGKEYROOT)) {
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if (IsNullPtr(ExtentKeyName = RgSmAllocMemory(MAXIMUM_SUB_KEY_LENGTH)))
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return ERROR_OUTOFMEMORY;
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Index = 0;
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do {
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cbExtentKeyName = MAXIMUM_SUB_KEY_LENGTH;
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if (RgLookupKeyByIndex(hKey, Index++, ExtentKeyName, &cbExtentKeyName, LK_BIGKEYEXT) != ERROR_SUCCESS) {
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ErrorCode = ERROR_CANTREAD16_FILENOTFOUND32;
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goto lFreeKeyName;
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}
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if (RgLookupKey(hKey, ExtentKeyName, &hKeyExtent, LK_OPEN | LK_BIGKEYEXT) != ERROR_SUCCESS) {
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ErrorCode = ERROR_CANTREAD16_FILENOTFOUND32;
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goto lFreeKeyName;
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}
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hKey-> BigKeyLockedBlockIndex = hKeyExtent-> BlockIndex;
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ErrorCode = RgLookupValueByNameStd(hKeyExtent, lpValueName,
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lplpKeyRecord, lplpValueRecord);
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RgDestroyKeyHandle(hKeyExtent);
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} while (ErrorCode == ERROR_CANTREAD16_FILENOTFOUND32);
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lFreeKeyName:
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RgSmFreeMemory(ExtentKeyName);
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}
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return ErrorCode;
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}
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//
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// RgLookupValueByNameStd
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//
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// Searches for the value with the specified name and returns a pointer to its
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// KEY_RECORD and VALUE_RECORD.
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//
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// This locks the datablock associated with the KEY_RECORD and VALUE_RECORD.
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// This is always hKey->BlockIndex.
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// It is the callers responsibility to unlock the datablock.
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//
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int
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INTERNAL
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RgLookupValueByNameStd(
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HKEY hKey,
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LPCSTR lpValueName,
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LPKEY_RECORD FAR* lplpKeyRecord,
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LPVALUE_RECORD FAR* lplpValueRecord
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)
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{
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int ErrorCode;
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LPKEY_RECORD lpKeyRecord;
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UINT ValueNameLength;
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LPVALUE_RECORD lpValueRecord;
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UINT ValuesRemaining;
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// Handle Win95 registries that don't have a key record for the root key.
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if (IsNullBlockIndex(hKey-> BlockIndex))
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return ERROR_CANTREAD16_FILENOTFOUND32;
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if ((ErrorCode = RgLockKeyRecord(hKey-> lpFileInfo, hKey-> BlockIndex,
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hKey-> KeyRecordIndex, &lpKeyRecord)) == ERROR_SUCCESS) {
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ValueNameLength = (IsNullPtr(lpValueName) ? 0 : (UINT)
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StrLen(lpValueName));
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lpValueRecord = (LPVALUE_RECORD) ((LPBYTE) &lpKeyRecord-> Name +
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lpKeyRecord-> NameLength + lpKeyRecord-> ClassLength);
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ValuesRemaining = lpKeyRecord-> ValueCount;
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// Should probably do more sanity checking on lpValueRecord
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while (ValuesRemaining) {
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if (lpValueRecord-> NameLength == ValueNameLength &&
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(ValueNameLength == 0 || RgStrCmpNI(lpValueName, lpValueRecord->
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Name, ValueNameLength) == 0)) {
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*lplpKeyRecord = lpKeyRecord;
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*lplpValueRecord = lpValueRecord;
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return ERROR_SUCCESS;
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}
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lpValueRecord = (LPVALUE_RECORD) ((LPBYTE) &lpValueRecord->
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Name + lpValueRecord-> NameLength + lpValueRecord->
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DataLength);
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ValuesRemaining--;
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}
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RgUnlockDatablock(hKey-> lpFileInfo, hKey-> BlockIndex, FALSE);
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ErrorCode = ERROR_CANTREAD16_FILENOTFOUND32;
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}
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return ErrorCode;
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}
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//
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// RgCopyFromValueRecord
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//
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// Shared routine for RegQueryValue and RegEnumValue. Copies the information
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// from the VALUE_RECORD to the user-provided buffers. All parameters should
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// have already been validated.
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//
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// Because all parameters have been validated, if lpData is valid, then
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// lpcbData MUST be valid.
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//
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int
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INTERNAL
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RgCopyFromValueRecord(
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HKEY hKey,
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LPVALUE_RECORD lpValueRecord,
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LPSTR lpValueName,
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LPDWORD lpcbValueName,
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LPDWORD lpType,
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LPBYTE lpData,
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LPDWORD lpcbData
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)
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{
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int ErrorCode;
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UINT BytesToTransfer;
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#ifdef WANT_DYNKEY_SUPPORT
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PINTERNAL_PROVIDER pProvider;
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PPVALUE pProviderValue;
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struct val_context ValueContext;
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#endif
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#ifdef WANT_DYNKEY_SUPPORT
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if (IsDynDataKey(hKey)) {
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pProvider = hKey-> pProvider;
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if (IsNullPtr(pProvider))
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return ERROR_CANTOPEN;
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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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if (!IsNullPtr(lpType))
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*lpType = pProviderValue-> pv_type;
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if (!(hKey-> Flags & KEYF_PROVIDERHASVALUELENGTH)) {
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BytesToTransfer = pProviderValue-> pv_valuelen;
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if (IsNullPtr(lpData))
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goto ValueDataNotNeeded;
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if (BytesToTransfer > *lpcbData) {
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*lpcbData = BytesToTransfer;
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return ERROR_MORE_DATA;
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}
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// Win95 compatibility: now that we know the required number of
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// bytes, validate the data buffer.
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if (IsBadHugeWritePtr(lpData, BytesToTransfer))
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return ERROR_INVALID_PARAMETER;
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}
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ValueContext.value_context = pProviderValue-> pv_value_context;
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if (!IsNullPtr(lpcbData)) {
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// Zero *lpcbData, if we aren't actually copying any data back to
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// the user's buffer. This keeps some providers from stomping on
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// lpData.
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if (IsNullPtr(lpData))
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*lpcbData = 0;
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if ((ErrorCode = (int) pProvider-> ipi_R0_1val(pProvider->
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ipi_key_context, &ValueContext, 1, lpData, lpcbData, 0)) !=
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ERROR_SUCCESS) {
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// Win95 compatibility: the old code ignored any errors if
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// lpData is NULL. The below ASSERT will verify that we aren't
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// dropping errors.
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if (!IsNullPtr(lpData))
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return ErrorCode;
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ASSERT((ErrorCode == ERROR_SUCCESS) || (ErrorCode ==
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ERROR_MORE_DATA));
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}
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}
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goto CopyValueName;
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}
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#endif
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if (!IsNullPtr(lpType))
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*lpType = lpValueRecord-> DataType;
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BytesToTransfer = lpValueRecord-> DataLength;
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// The terminating null is not stored in the value record.
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if (lpValueRecord-> DataType == REG_SZ)
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BytesToTransfer++;
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//
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// Win32 compatibilty: lpData must be filled in before lpValueName. Word
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// NT and Excel NT broke when we validated lpValueName and failed the call
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// before filling in lpData which was valid. Don't rearrange this code!
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//
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if (!IsNullPtr(lpData)) {
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ErrorCode = ERROR_SUCCESS;
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if (BytesToTransfer > *lpcbData) {
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*lpcbData = BytesToTransfer;
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return ERROR_MORE_DATA;
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}
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// Win95 compatibility: now that we know the required number of bytes,
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// validate the data buffer.
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else if (IsBadHugeWritePtr(lpData, BytesToTransfer))
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return ERROR_INVALID_PARAMETER;
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else {
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MoveMemory(lpData, &lpValueRecord-> Name + lpValueRecord->
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NameLength, lpValueRecord-> DataLength);
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if (lpValueRecord-> DataType == REG_SZ)
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lpData[lpValueRecord-> DataLength] = '\0';
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}
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}
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#ifdef WANT_DYNKEY_SUPPORT
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ValueDataNotNeeded:
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#endif
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if (!IsNullPtr(lpcbData))
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*lpcbData = BytesToTransfer;
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#ifdef WANT_DYNKEY_SUPPORT
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CopyValueName:
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#endif
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if (!IsNullPtr(lpValueName)) {
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ErrorCode = ERROR_SUCCESS;
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if (*lpcbValueName <= lpValueRecord-> NameLength) {
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// Although we will not touch the lpData buffer if it's too small
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// to hold the value data, we will partially fill lpValueName if
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// it's too small.
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ErrorCode = ERROR_MORE_DATA;
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if (*lpcbValueName == 0)
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return ErrorCode;
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BytesToTransfer = (UINT) *lpcbValueName - 1;
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}
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else
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BytesToTransfer = lpValueRecord-> NameLength;
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MoveMemory(lpValueName, &lpValueRecord-> Name, BytesToTransfer);
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lpValueName[BytesToTransfer] = '\0';
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// Does not include terminating null.
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*lpcbValueName = BytesToTransfer;
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return ErrorCode;
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}
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return ERROR_SUCCESS;
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}
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//
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// VMMRegQueryValueEx
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//
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// See Win32 documentation of RegQueryValueEx.
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//
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LONG
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REGAPI
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VMMRegQueryValueEx(
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HKEY hKey,
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LPCSTR lpValueName,
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LPDWORD lpReserved,
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LPDWORD lpType,
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LPBYTE lpData,
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LPDWORD lpcbData
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)
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{
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int ErrorCode;
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LPKEY_RECORD lpKeyRecord;
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LPVALUE_RECORD lpValueRecord;
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if (IsBadOptionalStringPtr(lpValueName, (UINT) -1))
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return ERROR_INVALID_PARAMETER;
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if (IsBadHugeOptionalWritePtr(lpType, sizeof(DWORD)))
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return ERROR_INVALID_PARAMETER;
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if (!IsNullPtr(lpType))
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*lpType = 0; // assume unknown data type
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if (IsNullPtr(lpcbData)) {
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if (!IsNullPtr(lpData))
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return ERROR_INVALID_PARAMETER;
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}
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else {
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// Win95 compatibility: don't validate lpData is of size *lpcbData.
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// Instead of validating the entire buffer, we'll validate just the
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// required buffer length in RgCopyFromValueRecord.
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if (IsBadHugeWritePtr(lpcbData, sizeof(DWORD)))
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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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if ((ErrorCode = RgLookupValueByName(hKey, lpValueName, &lpKeyRecord,
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&lpValueRecord)) == ERROR_SUCCESS) {
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ErrorCode = RgCopyFromValueRecord(hKey, lpValueRecord, NULL, NULL,
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lpType, lpData, lpcbData);
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RgUnlockDatablock(hKey-> lpFileInfo, hKey-> BigKeyLockedBlockIndex, FALSE);
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}
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else if (ErrorCode == ERROR_CANTREAD16_FILENOTFOUND32) {
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//
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// Windows 95 compatibility problem. If the "value
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// record" didn't exist in Windows 3.1, then it acted like it was
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// really a null byte REG_SZ string. This should have only been
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// done in RegQueryValue, but we're stuck with it now...
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//
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if (IsNullPtr(lpValueName) || *lpValueName == '\0') {
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if (!IsNullPtr(lpType))
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*lpType = REG_SZ;
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if (!IsNullPtr(lpData) && *lpcbData > 0)
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*lpData = 0;
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if (!IsNullPtr(lpcbData))
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*lpcbData = sizeof(char);
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ErrorCode = ERROR_SUCCESS;
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}
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}
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}
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RgUnlockRegistry();
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return ErrorCode;
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UNREFERENCED_PARAMETER(lpReserved);
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}
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//
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// VMMRegQueryValue
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//
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// See Win32 documentation of RegQueryValue.
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//
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LONG
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REGAPI
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VMMRegQueryValue(
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HKEY hKey,
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LPCSTR lpSubKey,
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LPBYTE lpData,
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LPDWORD lpcbData
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)
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{
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LONG ErrorCode;
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HKEY hSubKey;
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if ((ErrorCode = RgCreateOrOpenKey(hKey, lpSubKey, &hSubKey, LK_OPEN)) ==
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ERROR_SUCCESS) {
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ErrorCode = VMMRegQueryValueEx(hSubKey, NULL, NULL, NULL, lpData,
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lpcbData);
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VMMRegCloseKey(hSubKey);
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}
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return ErrorCode;
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}
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