/*++
Copyright (C) 1996-2000 Microsoft Corporation
Module Name:
EXPORT.CPP
Abstract:
Exporting
History:
--*/
#include "precomp.h"
#include "Time.h"
#include "WbemCli.h"
#include "DbRep.h"
#include "Export.h"
#include "WbemUtil.h"
void CRepExporter::DumpInstanceString(INSTDEF* pInstDef, const wchar_t *wszKey, const wchar_t *pszClass)
{
if (wszKey)
{
//Dump an instance block header
DWORD dwSize = 0;
DWORD adwBuffer[2];
adwBuffer[0] = REP_EXPORT_INST_STR_TAG;
adwBuffer[1] = (wcslen(wszKey) + 1) * sizeof (wchar_t);
if ((WriteFile(g_hFile, adwBuffer, 8, &dwSize, NULL) == 0) || (dwSize != 8))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write instance %S for class %S header.\n", wszKey, pszClass));
throw FAILURE_WRITE;
}
if ((WriteFile(g_hFile, wszKey, (wcslen(wszKey) + 1) * sizeof (wchar_t), &dwSize, NULL) == 0) || (dwSize != (wcslen(wszKey) + 1) * sizeof (wchar_t)))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write instance %S for class %S.\n", wszKey, pszClass));
throw FAILURE_WRITE;
}
}
{
//Dump the block
DWORD dwSize = 0;
DWORD *pdwObjectStream = Fixup((DWORD*)pInstDef->m_poObjectStream);
DWORD dwCurSize = *(pdwObjectStream - 1);
dwCurSize -= GetMMFBlockOverhead();
if ((WriteFile(g_hFile, &dwCurSize, 4, &dwSize, NULL) == 0) || (dwSize != 4))
{
if (wszKey)
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write data header of instance %S for class %S.\n", wszKey, pszClass));
}
else
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write data header of class definition for class %S.\n", pszClass));
}
throw FAILURE_WRITE;
}
if ((WriteFile(g_hFile, pdwObjectStream, dwCurSize, &dwSize, NULL) == 0) || (dwSize != dwCurSize))
{
if (wszKey)
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write instance %S for class %S.\n", wszKey, pszClass));
}
else
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write class definition for class %S.\n", pszClass));
}
throw FAILURE_WRITE;
}
}
}
void CRepExporter::DumpInstanceInt(INSTDEF* pInstDef, INT_PTR nKey, const wchar_t *pszClass)
{
{
//Dump an instance block header
DWORD dwSize = 0;
DWORD dwBuffer;
dwBuffer = REP_EXPORT_INST_INT_TAG;
if ((WriteFile(g_hFile, &dwBuffer, 4, &dwSize, NULL) == 0) || (dwSize != 8))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write instance %d for class %S object and header.\n", nKey, pszClass));
throw FAILURE_WRITE;
}
if ((WriteFile(g_hFile, &nKey, sizeof(INT_PTR), &dwSize, NULL) == 0) || (dwSize != 8))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write instance %d for class %S object and header.\n", nKey, pszClass));
throw FAILURE_WRITE;
}
}
{
//Dump the block
DWORD dwSize = 0;
DWORD *pObjectStream = Fixup((DWORD*)pInstDef->m_poObjectStream);
DWORD dwCurSize = *(pObjectStream - 1);
dwCurSize -= GetMMFBlockOverhead();
if ((WriteFile(g_hFile, &dwCurSize, 4, &dwSize, NULL) == 0) || (dwSize != 4))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write data header of instance %%d for class %S.\n", nKey, pszClass));
throw FAILURE_WRITE;
}
if ((WriteFile(g_hFile, pObjectStream, dwCurSize, &dwSize, NULL) == 0) || (dwSize != dwCurSize))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write instance %d for class %S.\n", nKey, pszClass));
throw FAILURE_WRITE;
}
}
}
void CRepExporter::IterateKeyTree(const wchar_t *wszClassName, CLASSDEF *pOwningClass, AVLNode *pInstNode, BOOL bStringKey)
{
if (pInstNode->poLeft)
{
IterateKeyTree(wszClassName, pOwningClass, Fixup(pInstNode->poLeft), bStringKey);
}
//If this is a top-level class then we dump the class, otherwise the class dump will get child classes...
INSTDEF *pInstDef = Fixup((INSTDEF*)pInstNode->poData);
if (Fixup(pInstDef->m_poOwningClass) == pOwningClass)
{
if (bStringKey)
DumpInstanceString(pInstDef, Fixup((wchar_t*)pInstNode->nKey), wszClassName);
else
DumpInstanceInt(pInstDef, pInstNode->nKey, wszClassName);
}
if (pInstNode->poRight)
{
IterateKeyTree(wszClassName, pOwningClass, Fixup(pInstNode->poRight), bStringKey);
}
}
void CRepExporter::DumpClass(CLASSDEF* pClassDef, const wchar_t *wszClassName)
{
DWORD dwSize = 0;
DWORD adwBuffer[6];
adwBuffer[0] = REP_EXPORT_CLASS_TAG;
adwBuffer[1] = (wcslen(wszClassName) + 1) * sizeof (wchar_t);
if ((WriteFile(g_hFile, adwBuffer, 8, &dwSize, NULL) == 0) || (dwSize != 8))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write clas %S header.\n", wszClassName));
throw FAILURE_WRITE;
}
if ((WriteFile(g_hFile, wszClassName, (wcslen(wszClassName) + 1) * sizeof (wchar_t), &dwSize, NULL) == 0) || (dwSize != (wcslen(wszClassName) + 1) * sizeof (wchar_t)))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write clas %S class name.\n", wszClassName));
throw FAILURE_WRITE;
}
DumpInstanceString(Fixup(pClassDef->m_poClassDef), NULL, wszClassName);
//Dump the children classes...
AVLNode *pTreeNode = Fixup((AVLNode*)(((DWORD_PTR*)Fixup(Fixup(pClassDef->m_poOwningNs)->m_poClassTree))[0]));
IterateClassNodes(pTreeNode, Fixdown(pClassDef));
//Special cases! We do not dump instances for the following classes...
if ((_wcsicmp(wszClassName, L"__CIMOMIdentification") != 0))
{
//If we own the key tree, then we need to iterate through this...
if (pClassDef->m_poKeyTree)
{
DWORD_PTR dwTreeNode = (((DWORD*)Fixup(pClassDef->m_poKeyTree))[0]);
if (dwTreeNode)
{
AVLNode *pTreeNode2 = Fixup((AVLNode*)dwTreeNode);
int keyType = GetAvlTreeNodeType(Fixup(pClassDef->m_poKeyTree));
IterateKeyTree(wszClassName, pClassDef, pTreeNode2, (keyType == 0x1f));
}
}
}
adwBuffer[0] = REP_EXPORT_CLASS_END_TAG;
adwBuffer[1] = REP_EXPORT_END_TAG_SIZE;
memset(&(adwBuffer[2]), REP_EXPORT_END_TAG_MARKER, REP_EXPORT_END_TAG_SIZE);
if ((WriteFile(g_hFile, adwBuffer, 24, &dwSize, NULL) == 0) || (dwSize != 24))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write class %S end marker.\n", wszClassName));
throw FAILURE_WRITE;
}
}
void CRepExporter::IterateClassNodes(AVLNode *pClassNode, CLASSDEF *poParentClass)
{
if (pClassNode->poLeft)
{
IterateClassNodes(Fixup((AVLNode *)pClassNode->poLeft), poParentClass);
}
//If this is a top-level class then we dump the class, otherwise the class dump will get child classes...
CLASSDEF *pClassDef = Fixup((CLASSDEF*)pClassNode->poData);
if (pClassDef->m_poSuperclass == poParentClass)
{
DumpClass(pClassDef, Fixup((wchar_t*)pClassNode->nKey));
}
if (pClassNode->poRight)
{
IterateClassNodes(Fixup((AVLNode *)pClassNode->poRight), poParentClass);
}
}
void CRepExporter::IterateChildNamespaceTree(AVLNode *pNsNode)
{
if (pNsNode->poLeft)
{
IterateChildNamespaceTree(Fixup((AVLNode *)pNsNode->poLeft));
}
//If this is a top-level class then we dump the class, otherwise the class dump will get child classes...
NSREP *pNsDef = Fixup((NSREP*)pNsNode->poData);
DumpNamespace(pNsDef);
if (pNsNode->poRight)
{
IterateChildNamespaceTree(Fixup((AVLNode *)pNsNode->poRight));
}
}
void CRepExporter::IterateChildNamespaces(RepCollection *childNamespaces)
{
DWORD dwType;
DWORD dwSize;
DWORD_PTR dwItems;
dwType = ((DWORD*)childNamespaces)[0];
dwSize = ((DWORD*)childNamespaces)[1];
dwItems = ((DWORD*)childNamespaces)[2];
if ((dwType == 0) || (dwSize == 0))
return;
else if (dwType == 1)
{
//This is a pointer to a RepCollectionItem!
RepCollectionItem *pRepCollectionItem = Fixup((RepCollectionItem*)dwItems);
DumpNamespace(Fixup((NSREP*)pRepCollectionItem->poItem));
}
else if (dwType == 2)
{
CDbArray *pDbArray = Fixup((CDbArray*)dwItems);
RepCollectionItem** apNsRepItem;
apNsRepItem = Fixup((RepCollectionItem**)(((DWORD_PTR*)pDbArray)[3]));
for (DWORD i = 0; i != dwSize; i++)
{
DumpNamespace(Fixup((NSREP*)(Fixup(apNsRepItem[i])->poItem)));
}
}
else if (dwType == 3)
{
//This is a tree
AVLNode *pTreeNode = Fixup((AVLNode*)(((DWORD_PTR*)Fixup(dwItems))[0]));
IterateChildNamespaceTree(pTreeNode);
}
else
{
//this is a bug!
}
}
void CRepExporter::DumpNamespace(NSREP *pNsRep)
{
wchar_t *pszCurNs = Fixup(pNsRep->m_poName);
DWORD dwSize = 0;
DWORD dwBuffer[6];
dwBuffer[0] = REP_EXPORT_NAMESPACE_TAG;
dwBuffer[1] = (wcslen(pszCurNs) + 1) * sizeof(wchar_t);
if ((WriteFile(g_hFile, dwBuffer, 8, &dwSize, NULL) == 0) || (dwSize != 8))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write namespace %S header.\n", pszCurNs));
throw FAILURE_WRITE;
}
if ((WriteFile(g_hFile, pszCurNs, (wcslen(pszCurNs) + 1) * sizeof(wchar_t), &dwSize, NULL) == 0) || (dwSize != (wcslen(pszCurNs) + 1) * sizeof(wchar_t)))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write namespace %S.\n", pszCurNs));
throw FAILURE_WRITE;
}
DumpNamespaceSecurity(pNsRep);
AVLNode *pTreeNode = Fixup((AVLNode*)(((DWORD_PTR*)Fixup(pNsRep->m_poClassTree))[0]));
IterateClassNodes(pTreeNode, 0);
IterateChildNamespaces(Fixup(pNsRep->m_poNamespaces));
dwBuffer[0] = REP_EXPORT_NAMESPACE_END_TAG;
dwBuffer[1] = REP_EXPORT_END_TAG_SIZE;
memset(&(dwBuffer[2]), REP_EXPORT_END_TAG_MARKER, REP_EXPORT_END_TAG_SIZE);
if ((WriteFile(g_hFile, dwBuffer, 24, &dwSize, NULL) == 0) || (dwSize != 24))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write namespace %S end marker.\n", pszCurNs));
throw FAILURE_WRITE;
}
}
void CRepExporter::DumpNamespaceSecurity(NSREP *pNsRep)
{
//Default version does not have a security descriptor, so we need to
//just dump a blank entry.
DWORD dwSize = 0;
DWORD dwBuffer[2];
dwBuffer[0] = REP_EXPORT_NAMESPACE_SEC_TAG;
dwBuffer[1] = dwSize;
if ((WriteFile(g_hFile, dwBuffer, 8, &dwSize, NULL) == 0) || (dwSize != 8))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write namespace security, %S.\n", Fixup(pNsRep->m_poName)));
throw FAILURE_WRITE;
}
}
void CRepExporter::DumpRootBlock(DBROOT *pRootBlock)
{
if (pRootBlock->m_dwFlags & DB_ROOT_INUSE)
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write file header block.\n"));
throw FAILURE_DIRTY;
}
char *pBuffer = REP_EXPORT_FILE_START_TAG;
DWORD dwSizeBuffer = strlen(pBuffer);
DWORD dwSize = 0;
if ((WriteFile(g_hFile, pBuffer, dwSizeBuffer, &dwSize, NULL) == 0) || (dwSize != dwSizeBuffer))
{
throw(FAILURE_WRITE);
}
DumpNamespace(Fixup((NSREP*)pRootBlock->m_poRootNs));
DWORD dwBuffer[6];
dwBuffer[0] = REP_EXPORT_FILE_END_TAG;
dwBuffer[1] = REP_EXPORT_END_TAG_SIZE;
memset(&(dwBuffer[2]), REP_EXPORT_END_TAG_MARKER, REP_EXPORT_END_TAG_SIZE);
if ((WriteFile(g_hFile, dwBuffer, 24, &dwSize, NULL) == 0) || (dwSize != 24))
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to write file trailer block.\n"));
throw FAILURE_WRITE;
}
}
void CRepExporter::DumpMMFHeader()
{
MMF_ARENA_HEADER *pMMFHeader = m_pDbArena->GetMMFHeader();
DumpRootBlock(Fixup((DBROOT*)pMMFHeader->m_dwRootBlock));
}
int CRepExporter::Export(CMMFArena2 *pDbArena, const TCHAR *pszFilename)
{
DWORD dwVersion = NULL;
HMODULE hModule = NULL;
const char *pszDllName = NULL;
int nRet = 0;
m_pDbArena = pDbArena;
g_hFile = CreateFile(pszFilename, GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL);
if (g_hFile != INVALID_HANDLE_VALUE)
{
try
{
DumpMMFHeader();
CloseHandle(g_hFile);
}
catch (int dProblem)
{
switch(dProblem)
{
case FAILURE_DIRTY:
DEBUGTRACE((LOG_WBEMCORE, "Repository is marked as corrupt, therefore cannot export it.\n"));
break;
case FAILURE_WRITE:
DEBUGTRACE((LOG_WBEMCORE, "Failure writing to the export file. May be out of disk space, or may not have write access to this directory.\n"));
break;
default:
DEBUGTRACE((LOG_WBEMCORE, "An unknown problem happened while traversing the repository.\n"));
break;
}
CloseHandle(g_hFile);
nRet = 1;
}
catch (...)
{
DEBUGTRACE((LOG_WBEMCORE, "Traversal of repository file failed. It may be corrupt.\n"));
CloseHandle(g_hFile);
DeleteFile(pszFilename);
nRet = 1;
}
}
else
{
DEBUGTRACE((LOG_WBEMCORE, "Failed to create file %s to export the repository.\n", pszFilename));
nRet = 1;
}
return nRet;
}
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