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627 lines
19 KiB
627 lines
19 KiB
/*++
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Copyright (c) 1990 Microsoft Corporation
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Module Name:
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strucsup.c
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Abstract:
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Library routines for dumping data structures given a meta level descrioption
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Author:
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Balan Sethu Raman (SethuR) 11-May-1994
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Notes:
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Revision History:
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11-Nov-1994 SethuR Created
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--*/
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#include "rxovride.h" //common compile flags
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#include <ntos.h>
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#include <nturtl.h>
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#include "ntverp.h"
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#include <windows.h>
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#include <wdbgexts.h>
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#include <stdlib.h>
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#include <string.h>
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#include <stdio.h>
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#include <kdextlib.h>
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#include <dav2kd.h>
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#include <ntrxdef.h>
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#include <rxtypes.h>
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#include <rxlog.h>
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//need this for unaligned smbget macros
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#include <smbgtpt.h>
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extern WINDBG_EXTENSION_APIS ExtensionApis;
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//EXT_API_VERSION ApiVersion = { 3, 5, EXT_API_VERSION_NUMBER, 0 };
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#define ERRPRT dprintf
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#define PRINTF dprintf
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#define NL 1
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#define NONL 0
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BOOLEAN
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wGetData( ULONG_PTR dwAddress, PVOID ptr, ULONG size, IN PSZ type);
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//
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// No. of columns used to display struct fields;
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//
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ULONG s_MaxNoOfColumns = 3;
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#ifndef RXKD_2col
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ULONG s_NoOfColumns = 1;
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#else
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ULONG s_NoOfColumns = 2;
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#endif
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/*
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* Displays all the fields of a given struct. This is the driver routine that is called
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* with the appropriate descriptor array to display all the fields in a given struct.
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*/
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char *NewLine = "\n";
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char *FieldSeparator = " ";
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#define NewLineForFields(FieldNo) \
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((((FieldNo) % s_NoOfColumns) == 0) ? NewLine : FieldSeparator)
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#define FIELD_NAME_LENGTH 30
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/*
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* Print out an optional message, a UNICODE_STRING, and maybe a new-line
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*/
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BOOL
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wPrintStringU( IN LPSTR PrefixMsg OPTIONAL, IN PUNICODE_STRING puStr, IN LPSTR SuffixMsg OPTIONAL )
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{
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PWCHAR StringData;
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UNICODE_STRING UnicodeString;
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ULONG BytesRead;
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if (PrefixMsg == NULL) {
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PrefixMsg = "";
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}
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if (SuffixMsg == NULL) {
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SuffixMsg = "";
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}
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StringData = (PWCHAR)LocalAlloc( LPTR, puStr->Length + sizeof(UNICODE_NULL));
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if( StringData == NULL ) {
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dprintf( "Out of memory!\n" );
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return FALSE;
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}
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UnicodeString.Buffer = StringData; //puStr->Buffer;
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UnicodeString.Length = puStr->Length;
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UnicodeString.MaximumLength = puStr->MaximumLength;
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ReadMemory( (ULONG_PTR)puStr->Buffer,
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StringData,
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puStr->Length,
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&BytesRead);
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if (BytesRead) {
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dprintf("%s%wZ%s", PrefixMsg, &UnicodeString, SuffixMsg );
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} else {
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dprintf("MEMORYREAD FAILED %s%s",PrefixMsg,SuffixMsg);
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}
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LocalFree( (HLOCAL)StringData );
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return BytesRead;
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}
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VOID
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SetFlagString(
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ULONG Value,
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PCHAR FlagString
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)
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{
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ULONG i,t,mask;
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*FlagString = '('; FlagString++;
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for (i=t=0,mask=1;i<32;i++,mask<<=1) {
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//PRINTF("hithere %08lx %08lx %08lx\n",Value,mask,i);
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if (i==t+10) {
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*FlagString = ':'; FlagString++;
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t=t+10;
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}
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if (Value&mask) {
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*FlagString = '0'+(UCHAR)(i-t); FlagString++;
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}
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}
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*FlagString = ')'; FlagString++;
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*FlagString = 0;
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}
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VOID
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PrintStructFields( ULONG_PTR dwAddress, VOID *ptr, FIELD_DESCRIPTOR *pFieldDescriptors )
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{
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int i;
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// Display the fields in the struct.
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for( i=0; pFieldDescriptors->Name; i++, pFieldDescriptors++ ) {
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// Indentation to begin the struct display.
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PRINTF( " " );
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if( strlen( pFieldDescriptors->Name ) > FIELD_NAME_LENGTH ) {
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PRINTF( "%-17s...%s ", pFieldDescriptors->Name, pFieldDescriptors->Name+strlen(pFieldDescriptors->Name)-10 );
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} else {
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PRINTF( "%-30s ", pFieldDescriptors->Name );
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}
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switch( pFieldDescriptors->FieldType ) {
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case FieldTypeByte:
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case FieldTypeChar:
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PRINTF( "%-16X%s",
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*(BYTE *)(((char *)ptr) + pFieldDescriptors->Offset ),
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NewLineForFields(i) );
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break;
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case FieldTypeBoolean:
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PRINTF( "%-16s%s",
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*(BOOLEAN *)(((char *)ptr) + pFieldDescriptors->Offset ) ? "TRUE" : "FALSE",
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NewLineForFields(i));
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break;
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case FieldTypeBool:
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PRINTF( "%-16s%s",
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*(BOOLEAN *)(((char *)ptr) + pFieldDescriptors->Offset ) ? "TRUE" : "FALSE",
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NewLineForFields(i));
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break;
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case FieldTypePointer:
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PRINTF( "%-16X%s",
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*(ULONG *)(((char *)ptr) + pFieldDescriptors->Offset ),
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NewLineForFields(i) );
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break;
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case FieldTypeULong:
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case FieldTypeLong:
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PRINTF( "%-16X%s",
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*(ULONG *)(((char *)ptr) + pFieldDescriptors->Offset ),
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NewLineForFields(i) );
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break;
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case FieldTypeULongUnaligned:
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case FieldTypeLongUnaligned:
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PRINTF( "%-16X%s",
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SmbGetUlong( (BYTE *)(((char *)ptr) + pFieldDescriptors->Offset ) ),
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NewLineForFields(i) );
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break;
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case FieldTypeShort:
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PRINTF( "%-16X%s",
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*(SHORT *)(((char *)ptr) + pFieldDescriptors->Offset ),
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NewLineForFields(i) );
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break;
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case FieldTypeUShort:
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PRINTF( "%-16X%s",
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*(USHORT *)(((char *)ptr) + pFieldDescriptors->Offset ),
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NewLineForFields(i) );
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break;
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case FieldTypeUShortUnaligned:
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PRINTF( "%-16X%s",
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SmbGetUshort( (BYTE *)(((char *)ptr) + pFieldDescriptors->Offset ) ),
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NewLineForFields(i) );
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break;
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case FieldTypeULongFlags:{ULONG Value; char FlagString[60];
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Value = *(ULONG *)(((char *)ptr) + pFieldDescriptors->Offset );
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SetFlagString(Value,FlagString);
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PRINTF( "%-16X%s%s", Value, FlagString,
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NewLineForFields(i) );
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break;}
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case FieldTypeUShortFlags:{USHORT Value; char FlagString[60];
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Value = *(USHORT *)(((char *)ptr) + pFieldDescriptors->Offset ),
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SetFlagString(Value,FlagString);
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PRINTF( "%-16X%s%s", Value, FlagString,
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NewLineForFields(i) );
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break;}
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case FieldTypeUnicodeString:
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wPrintStringU( NULL, (UNICODE_STRING *)(((char *)ptr) + pFieldDescriptors->Offset ), NULL );
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PRINTF( NewLine );
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break;
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//case FieldTypeAnsiString:
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// //PrintStringA( NULL, (ANSI_STRING *)(((char *)ptr) + pFieldDescriptors->Offset ), NONL );
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// //PRINTF( NewLine );
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// PRINTF( NewLine );
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// break;
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case FieldTypeSymbol:
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{
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UCHAR SymbolName[ 200 ];
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ULONG_PTR Displacement;
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PVOID sym = (PVOID)(*(ULONG_PTR *)(((char *)ptr) + pFieldDescriptors->Offset ));
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GetSymbol( sym, SymbolName, &Displacement );
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PRINTF( "%-16s%s",
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SymbolName,
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NewLineForFields(i) );
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}
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break;
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case FieldTypeEnum:
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{
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ULONG EnumValue;
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ENUM_VALUE_DESCRIPTOR *pEnumValueDescr;
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// Get the associated numericla value.
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EnumValue = *((ULONG *)((BYTE *)ptr + pFieldDescriptors->Offset));
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if ((pEnumValueDescr = pFieldDescriptors->AuxillaryInfo.pEnumValueDescriptor)
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!= NULL) {
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//
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// An auxilary textual description of the value is
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// available. Display it instead of the numerical value.
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//
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LPSTR pEnumName = NULL;
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while (pEnumValueDescr->EnumName != NULL) {
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if (EnumValue == pEnumValueDescr->EnumValue) {
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pEnumName = pEnumValueDescr->EnumName;
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break;
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}
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}
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if (pEnumName != NULL) {
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PRINTF( "%-16s ", pEnumName );
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} else {
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PRINTF( "%-4d (%-10s) ", EnumValue,"@$#%^&*");
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}
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} else {
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//
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// No auxilary information is associated with the ehumerated type
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// print the numerical value.
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//
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PRINTF( "%-16d",EnumValue);
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}
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}
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break;
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case FieldTypeStruct:
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PRINTF( "@%-15X%s",
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(dwAddress + pFieldDescriptors->Offset ),
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NewLineForFields(i) );
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break;
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case FieldTypeLargeInteger:
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case FieldTypeFileTime:
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default:
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ERRPRT( "Unrecognized field type %c for %s\n", pFieldDescriptors->FieldType, pFieldDescriptors->Name );
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break;
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}
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}
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}
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DECLARE_API( columns )
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{
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ULONG NoOfColumns;
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int i;
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//SETCALLBACKS();
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//sscanf(lpArgumentString,"%ld",&NoOfColumns);
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sscanf(args,"%ld",&NoOfColumns);
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if (NoOfColumns > s_MaxNoOfColumns) {
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// PRINTF( "No. Of Columns exceeds maximum(%ld) -- directive Ignored\n", s_MaxNoOfColumns );
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} else {
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s_NoOfColumns = NoOfColumns;
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}
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PRINTF("Not Yet Implemented\n");
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return;
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}
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#define NAME_DELIMITER '@'
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#define NAME_DELIMITERS "@"
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#define INVALID_INDEX 0xffffffff
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#define MIN(x,y) ((x) < (y) ? (x) : (y))
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ULONG SearchStructs(LPSTR lpArgument)
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{
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ULONG i = 0;
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STRUCT_DESCRIPTOR *pStructs = Structs;
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ULONG NameIndex = INVALID_INDEX;
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ULONG ArgumentLength = strlen(lpArgument);
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BOOLEAN fAmbigous = FALSE;
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while ((pStructs->StructName != 0)) {
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int Result = _strnicmp(lpArgument,
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pStructs->StructName,
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MIN(strlen(pStructs->StructName),ArgumentLength));
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if (Result == 0) {
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if (NameIndex != INVALID_INDEX) {
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// We have encountered duplicate matches. Print out the
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// matching strings and let the user disambiguate.
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fAmbigous = TRUE;
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break;
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} else {
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NameIndex = i;
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}
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}
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pStructs++;i++;
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}
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if (fAmbigous) {
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PRINTF("Ambigous Name Specification -- The following structs match\n");
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PRINTF("%s\n",Structs[NameIndex].StructName);
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PRINTF("%s\n",Structs[i].StructName);
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while (pStructs->StructName != 0) {
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if (_strnicmp(lpArgument,
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pStructs->StructName,
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MIN(strlen(pStructs->StructName),ArgumentLength)) == 0) {
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PRINTF("%s\n",pStructs->StructName);
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}
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pStructs++;
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}
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PRINTF("Dumping Information for %s\n",Structs[NameIndex].StructName);
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}
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return(NameIndex);
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}
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VOID DisplayStructs()
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{
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STRUCT_DESCRIPTOR *pStructs = Structs;
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PRINTF("The following structs are handled .... \n");
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while (pStructs->StructName != 0) {
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PRINTF("\t%s\n",pStructs->StructName);
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pStructs++;
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}
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}
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PPERSISTENT_RDR2KD_INFO
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LocatePersistentInfoFromView()
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/*
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the purpose of this routine is to allocate or find the named section that holds the
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data we expect to find across calls. the way that we make this persitent is that we
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do not close the handle used to create the view. it will go away when the process does.
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*/
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{
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BYTE SectionName[128];
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DWORD SectionSize;
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DWORD ProcessId;
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HANDLE h;
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BOOLEAN CreatedSection = FALSE;
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PPERSISTENT_RDR2KD_INFO p;
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ProcessId = GetCurrentProcessId();
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SectionSize = sizeof(PERSISTENT_RDR2KD_INFO);
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sprintf(SectionName,"Rdr2KdSection_%08lx",ProcessId);
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//PRINTF("sectionname=%s, size=%x\n",SectionName,SectionSize);
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h = OpenFileMappingA(
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FILE_MAP_WRITE, //DWORD dwDesiredAccess, // access mode
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FALSE, //BOOL bInheritHandle, // inherit flag
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SectionName //LPCTSTR lpName // address of name of file-mapping object
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);
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if (h==NULL) {
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h = CreateFileMappingA(
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(HANDLE)IntToPtr(0xFFFFFFFF), // HANDLE hFile, // handle of file to map
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NULL, //LPSECURITY_ATTRIBUTES lpFileMappingAttributes, // optional security attributes
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PAGE_READWRITE, //DWORD flProtect, // protection for mapping object
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0, //DWORD dwMaximumSizeHigh, // high-order 32 bits of object size
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SectionSize, //DWORD dwMaximumSizeLow, // low-order 32 bits of object size
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SectionName //LPCTSTR lpName // name of file-mapping object
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);
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if (h==NULL) {
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return(FALSE);
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}
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CreatedSection = TRUE;
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}
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//now we have a filemapping....get a view.....
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p = MapViewOfFile(h,FILE_MAP_WRITE,0,0,0);
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if (p==NULL) {
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CloseHandle(h);
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return(NULL);
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}
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if (CreatedSection) {
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//zero the stuff that needs to be zeroed....
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ULONG i;
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p->IdOfLastDump = 0;
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for (i=0;i<100;i++) {
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p->LastAddressDumped[i] = 0;
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}
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p->OpenCount = 100;
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} else {
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CloseHandle(h);
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p->OpenCount++;
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}
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//PRINTF("Opencount for persistent section = %08lx\n",p->OpenCount);
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return(p);
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}
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VOID
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FreePersistentInfoView (
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PPERSISTENT_RDR2KD_INFO p
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)
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{
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UnmapViewOfFile(p);
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}
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VOID
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DumpAStruct (
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ULONG_PTR dwAddress,
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STRUCT_DESCRIPTOR *pStruct
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)
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{
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DWORD Index = (DWORD)(pStruct - Structs);
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DWORD SizeToRead = min(pStruct->StructSize,2048);
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PPERSISTENT_RDR2KD_INFO p;
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p = LocatePersistentInfoFromView();
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PRINTF("top @ %lx and %lx for %s(%d,%d)\n",dwAddress,p,pStruct->StructName,Index,p->IdOfLastDump);
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if (!p) {
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PRINTF("Couldn't allocate perstistent info buffer...sorry...\n");
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return;
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}
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if ((dwAddress==0) &&(Index<100)) {
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dwAddress = p->LastAddressDumped[Index];
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PRINTF("setting @ %lx and %lx for %s\n",dwAddress,p->LastAddressDumped[Index],pStruct->StructName);
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}
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if (wGetData(dwAddress,&p->StructDumpBuffer[0],SizeToRead,pStruct->StructName)) {
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p->LastAddressDumped[Index] = dwAddress;
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p->IdOfLastDump = pStruct->EnumManifest;
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p->IndexOfLastDump = Index;
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PRINTF("++++++++++++++++ %s(%d/%d)@%lx ---+++++++++++++\n",
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pStruct->StructName,
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p->IdOfLastDump,p->IndexOfLastDump,
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dwAddress);
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PrintStructFields(
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dwAddress,
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&p->StructDumpBuffer[0],
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pStruct->FieldDescriptors);
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PRINTF("---------------- %s@%lx ----------------\n",
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pStruct->StructName,
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dwAddress);
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}
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if (p!= NULL) FreePersistentInfoView(p);
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return;
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}
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DECLARE_API( dump )
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{
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ULONG_PTR dwAddress;
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//SETCALLBACKS();
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if( args && *args ) {
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// Parse the argument string to determine the structure to be displayed.
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// Scan for the NAME_DELIMITER ( '@' ).
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LPSTR lpName = (PSTR)args;
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LPSTR lpArgs = strpbrk(args, NAME_DELIMITERS);
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ULONG Index;
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if (lpArgs) {
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//
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// The specified command is of the form
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// dump <name>@<address expr.>
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//
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// Locate the matching struct for the given name. In the case
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// of ambiguity we seek user intervention for disambiguation.
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//
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// We do an inplace modification of the argument string to
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// facilitate matching.
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//
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*lpArgs = '\0';
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for (;*lpName==' ';) { lpName++; } //skip leading blanks
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Index = SearchStructs(lpName);
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//
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// Let us restore the original value back.
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//
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*lpArgs = NAME_DELIMITER;
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if (INVALID_INDEX != Index) {
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BYTE DataBuffer[512];
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dwAddress = GetExpression( ++lpArgs );
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DumpAStruct(dwAddress,&Structs[Index]);
|
|
//if (wGetData(dwAddress,DataBuffer,Structs[Index].StructSize,"..structure")) {
|
|
//
|
|
// PRINTF(
|
|
// "++++++++++++++++ %s@%lx ++++++++++++++++\n",
|
|
// Structs[Index].StructName,
|
|
// dwAddress);
|
|
// PrintStructFields(
|
|
// dwAddress,
|
|
// &DataBuffer,
|
|
// Structs[Index].FieldDescriptors);
|
|
// PRINTF(
|
|
// "---------------- %s@%lx ----------------\n",
|
|
// Structs[Index].StructName,
|
|
// dwAddress);
|
|
//} else {
|
|
// PRINTF("Error reading Memory @ %lx\n",dwAddress);
|
|
//}
|
|
} else {
|
|
// No matching struct was found. Display the list of
|
|
// structs currently handled.
|
|
|
|
DisplayStructs();
|
|
}
|
|
} else {
|
|
#if 0
|
|
//
|
|
// The command is of the form
|
|
// dump <name>
|
|
//
|
|
// Currently we do not handle this. In future we will map it to
|
|
// the name of a global variable and display it if required.
|
|
//
|
|
|
|
DisplayStructs();
|
|
#endif
|
|
//
|
|
// here we try to figure out what to display based on the context....whoa, nellie!
|
|
//
|
|
USHORT Tag;
|
|
STRUCT_DESCRIPTOR *pStructs = Structs;
|
|
ULONG NameIndex = INVALID_INDEX;
|
|
BYTE DataBuffer[512];
|
|
//ULONG ArgumentLength = strlen(lpArgument);
|
|
//BOOLEAN fAmbigous = FALSE;
|
|
|
|
|
|
|
|
dwAddress = GetExpression( args );
|
|
if (!wGetData(dwAddress,&Tag,sizeof(Tag),"..structure TAG")) return;
|
|
|
|
PRINTF("here's the tag: %04lx\n",Tag);
|
|
|
|
//look thru the table for matching structs
|
|
|
|
while ((pStructs->StructName != 0)) {
|
|
int Result = (Tag&pStructs->MatchMask)==pStructs->MatchValue;
|
|
|
|
if (Result != 0) {
|
|
|
|
DumpAStruct(dwAddress,pStructs);
|
|
break;
|
|
}
|
|
|
|
|
|
pStructs++;
|
|
}
|
|
|
|
}
|
|
} else {
|
|
DisplayStructs();
|
|
}
|
|
|
|
return;
|
|
}
|
|
|
|
|
|
DECLARE_API( ddd )
|
|
{
|
|
dump( hCurrentProcess,
|
|
hCurrentThread,
|
|
dwCurrentPc,
|
|
dwProcessor,
|
|
args
|
|
);
|
|
}
|
|
|