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414 lines
11 KiB
414 lines
11 KiB
/*++
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Copyright (c) 1998 Microsoft Corporation
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Module Name:
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regmain.c
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Abstract:
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Main module. Data definitions.
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Author:
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Dragos C. Sambotin (dragoss) 30-Dec-1998
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Revision History:
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--*/
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#include "chkreg.h"
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// check the hive structure.
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BOOLEAN CheckHive = TRUE;
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// compact the hive.
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BOOLEAN CompactHive = FALSE;
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// check for lost space (marked as used but not reffered).
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BOOLEAN LostSpace = FALSE;
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// repair damaged hives.
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BOOLEAN FixHive = FALSE;
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// repair damaged hives.
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BOOLEAN SpaceUsage = FALSE;
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// maximum level to dump
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ULONG MaxLevel = 0;
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// bin to examine space display
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LONG BinIndex = -1;
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// the hive file name
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TCHAR *Hive = NULL;
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// the root of the hive
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HCELL_INDEX RootCell;
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// Usage string
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char *Usage="\
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Checks a hive file and perform repairs, compacts or displays a status report.\n\n\
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CHKREG /F <filename[.<LOG>]> [/H] [/D [<level>] [/S [<bin>]] [/C] [/L] [/R]\n\n\
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<filename> FileName of hive to be analyzed\n\
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/H This manual\n\
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/D [<level>] Dump subkeys up to level <level>. If level is not\n\
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specified, dumps the entire hive. No checks are done\n\
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when dumping.\n\
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/S [<bin>] Displays space usage for the bin <bin>. When bin is\n\
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not specified, displays usage for the entire hive.\n\
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/C Compacts the hive. Bad hives cannot be compacted.\n\
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The compacted hive will be written to <filename>.BAK\n\
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/L Lost space detection.\n\
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/R Repair the hive.\n\
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";
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// Lost Space Warning
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char *LostSpaceWarning="\n\
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WARNING : Lost space detection may take a while. Are you sure you want this (y/n)?";
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// Starting address of the in-memory maped hive image
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PUCHAR Base;
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// LostCells list used for lost space detection
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UNKNOWN_LIST LostCells[FRAGMENTATION];
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// OutputFile : future changes may use it to write the results to a file rather than to stdout
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FILE *OutputFile;
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#define NAME_BUFFERSIZE 2000
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UNICODE_STRING KeyName;
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WCHAR NameBuffer[NAME_BUFFERSIZE];
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// Miscelaneous variables used fo data statistics
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ULONG TotalKeyNode=0;
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ULONG TotalKeyValue=0;
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ULONG TotalKeyIndex=0;
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ULONG TotalKeySecurity=0;
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ULONG TotalValueIndex=0;
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ULONG TotalUnknown=0;
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ULONG CountKeyNode=0;
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ULONG CountKeyValue=0;
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ULONG CountKeyIndex=0;
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ULONG CountKeySecurity=0;
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ULONG CountValueIndex=0;
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ULONG CountUnknown=0;
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ULONG CountKeyNodeCompacted=0;
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ULONG TotalFree=0;
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ULONG FreeCount=0;
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ULONG TotalUsed=0;
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PHBIN FirstBin;
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PHBIN MaxBin;
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ULONG HiveLength;
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#define OPTION_MODE 0
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#define FILE_MODE 1
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#define LEVEL_MODE 2
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#define BIN_MODE 3
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VOID
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ChkDumpLogFile( PHBASE_BLOCK BaseBlock,ULONG Length );
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VOID
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ParseArgs (
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int argc,
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char *argv[]
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)
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{
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char *p;
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int i;
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// specified what should we expect from the command line
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int iMode = OPTION_MODE;
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for(i=0;i<argc;i++) {
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p = argv[i];
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if ( *p == '/' || *p == '-' ) {
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// option mode
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p++;
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iMode = OPTION_MODE;
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while ((*p != '\0') && (*p != ' ')) {
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switch (*p) {
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case 'h':
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case 'H':
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case '?':
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fprintf(stderr, "%s\n", Usage);
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ExitProcess(1);
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break;
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case 'f':
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case 'F':
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iMode = FILE_MODE;
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break;
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case 'd':
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case 'D':
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iMode = LEVEL_MODE;
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// when not specified, dump at least 100 levels
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MaxLevel = 100;
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CheckHive = FALSE;
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break;
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case 's':
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case 'S':
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SpaceUsage = TRUE;
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iMode = BIN_MODE;
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break;
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case 'c':
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case 'C':
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p++;
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CompactHive = TRUE;
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break;
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case 'l':
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case 'L':
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p++;
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LostSpace = TRUE;
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break;
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case 'r':
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case 'R':
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p++;
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FixHive = TRUE;
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break;
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default:
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break;
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}
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if( iMode != OPTION_MODE ) {
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// break the loop; ignore the rest of the current argv
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break;
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}
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} // while
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} else {
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switch(iMode) {
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case FILE_MODE:
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Hive = argv[i];
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break;
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case LEVEL_MODE:
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MaxLevel = (ULONG) atol(argv[i]);
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break;
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case BIN_MODE:
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BinIndex = (LONG) atol(argv[i]);
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break;
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default:
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break;
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}
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}
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}
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}
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__cdecl
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main(
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int argc,
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char *argv[]
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)
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{
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ULONG FileIndex;
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HANDLE myFileHandle, myMMFHandle;
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LPBYTE myMMFViewHandle;
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BYTE lowChar, hiChar, modVal;
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DWORD dwFileSize;
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ULONG Index,Index2;
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PHBASE_BLOCK PHBaseBlock;
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PHBIN NewBins;
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ULONG Offset;
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ULONG CellCount;
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ULONG SizeCount;
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REG_USAGE TotalUsage;
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DWORD dwHiveFileAccess = GENERIC_READ;
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DWORD flHiveViewProtect = PAGE_READONLY;
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DWORD dwHiveViewAccess = FILE_MAP_READ;
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ParseArgs( argc, argv );
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if (!Hive) {
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fprintf(stderr, "\nMust provide a hive name !!!\n\n");
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fprintf(stderr, "%s\n", Usage);
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ExitProcess(-1);
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}
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if(LostSpace) {
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// are you sure you want lost cells detection? It may take a while!
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int chLost;
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fprintf(stdout, "%s",LostSpaceWarning);
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fflush(stdin);
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chLost = getchar();
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if( (chLost != 'y') && (chLost != 'Y') ) {
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// he changed his mind
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LostSpace = FALSE;
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}
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fprintf(stderr, "\n");
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}
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if( FixHive ) {
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dwHiveFileAccess |= GENERIC_WRITE;
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flHiveViewProtect = PAGE_READWRITE;
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dwHiveViewAccess = FILE_MAP_WRITE;
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}
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/* Create temporary file for mapping. */
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if ((myFileHandle = CreateFile (Hive, dwHiveFileAccess,
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0 , NULL, OPEN_EXISTING,
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FILE_ATTRIBUTE_NORMAL,
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NULL))
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== (HANDLE) INVALID_HANDLE_VALUE) /* Bad handle */ {
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fprintf(stderr,"Could not create file %s\n", Hive);
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exit(-1);
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}
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// Get the size of the file. I am assuming here that the
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// file is smaller than 4 GB.
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dwFileSize = GetFileSize(myFileHandle, NULL);
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/* If we get here, we managed to name and create a temp file. Now we need
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to create a mapping */
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myMMFHandle = CreateFileMapping (myFileHandle, NULL, flHiveViewProtect,
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0, dwFileSize, NULL);
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if (myMMFHandle == (HANDLE) INVALID_HANDLE_VALUE) {
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fprintf(stderr,"Could not map file %s\n", Hive);
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exit(-1);
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}
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/* So we've mapped the file. Now try to map a view */
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myMMFViewHandle = (LPBYTE) MapViewOfFile (myMMFHandle, dwHiveViewAccess, 0, 0, dwFileSize);
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if (!myMMFViewHandle) {
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fprintf(stderr,"Could not map view of file %s error = %lx\n", Hive,(ULONG)GetLastError());
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exit(-1);
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}
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/* Now we have a view. Read through it */
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PHBaseBlock = (PHBASE_BLOCK) myMMFViewHandle;
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if( strstr(Hive,".LOG") != NULL ) {
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// dumping log file
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ChkDumpLogFile(PHBaseBlock,MaxLevel);
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} else {
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/*
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if (PHBaseBlock->Minor < 4) {
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fprintf(stderr,"Hive version %d is too old, must be 3 or later\n", PHBaseBlock->Minor);
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ExitProcess(-1);
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}
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*/
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// Initialization stuff
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for(Index =0;Index<FRAGMENTATION;Index++) {
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LostCells[Index].Count = 0;
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for(Index2 = 0;Index2<SUBLISTS;Index2++) {
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LostCells[Index].List[Index2] = NULL;
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}
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}
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RootCell = PHBaseBlock->RootCell;
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OutputFile = stdout;
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Base = (PUCHAR)(PHBaseBlock) + HBLOCK_SIZE;
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Offset=HBLOCK_SIZE;
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HiveLength = PHBaseBlock->Length;
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MaxBin= (PHBIN) (Base + HiveLength);
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FirstBin = (PHBIN) (Base);
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KeyName.Buffer = NameBuffer;
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KeyName.MaximumLength = NAME_BUFFERSIZE;
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ChkBaseBlock(PHBaseBlock,dwFileSize);
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ChkSecurityDescriptors();
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ChkPhysicalHive();
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if (MaxLevel) {
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fprintf(stdout,"%6s,%6s,%7s,%10s, %s\n",
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"Keys",
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"Values",
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"Cells",
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"Size",
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"SubKeys");
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}
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DumpChkRegistry(0, 0, PHBaseBlock->RootCell,HCELL_NIL,&TotalUsage);
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if(LostSpace) {
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// clear the dirt on the screen
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fprintf(OutputFile,"\r \n");
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}
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DumpUnknownList();
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FreeUnknownList();
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fprintf(OutputFile,"\nSUMMARY: \n");
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fprintf(OutputFile,"%15s,%15s, %s\n",
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"Cells",
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"Size",
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"Category");
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fprintf(OutputFile,"%15lu,%15lu, Keys\n",
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CountKeyNode,
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TotalKeyNode
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);
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fprintf(OutputFile,"%15lu,%15lu, Values\n",
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CountKeyValue,
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TotalKeyValue
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);
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fprintf(OutputFile,"%15lu,%15lu, Key Index\n",
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CountKeyIndex,
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TotalKeyIndex
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);
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fprintf(OutputFile,"%15lu,%15lu, Value Index\n",
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CountValueIndex,
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TotalValueIndex
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);
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fprintf(OutputFile,"%15lu,%15lu, Security\n",
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CountKeySecurity,
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TotalKeySecurity
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);
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fprintf(OutputFile,"%15lu,%15lu, Data\n",
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CountUnknown - CountValueIndex,
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TotalUnknown - TotalValueIndex
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);
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fprintf(OutputFile,"%15lu,%15lu, Free\n",
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FreeCount,
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TotalFree
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);
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CellCount = CountKeyNode +
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CountKeyValue +
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CountKeyIndex +
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CountKeySecurity +
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CountUnknown +
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FreeCount;
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SizeCount = TotalKeyNode +
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TotalKeyValue +
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TotalKeyIndex +
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TotalKeySecurity +
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TotalUnknown +
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TotalFree;
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fprintf(OutputFile,"%15lu,%15lu, %s\n",
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CellCount,
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SizeCount,
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"Total Hive");
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fprintf(OutputFile,"\n%15lu compacted keys (all related cells in the same view)\n",CountKeyNodeCompacted);
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}
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UnmapViewOfFile(myMMFViewHandle);
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CloseHandle(myMMFHandle);
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CloseHandle(myFileHandle);
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if(CompactHive) {
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DoCompactHive();
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}
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return(0);
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}
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