windows-nt/Source/XPSP1/NT/inetsrv/iis/setup/util/dllhell/depends.h
2020-09-26 16:20:57 +08:00

195 lines
6.2 KiB
C++

#include "main.h"
#define MI_MODULE 0
#define MI_DUPLICATE 1
#define MI_EXPORT_ERROR 2
#define MI_DUPLICATE_EXPORT_ERROR 3
#define MI_NOT_FOUND 4
#define MI_ERROR 5
#define FI_IMPORT 0
#define FI_IMPORT_ERROR 1
#define FI_EXPORT 2
#define FI_EXPORT_FORWARD 3
VOID DoKoolShit(LPCTSTR Filename);
LPWSTR MakeWideStrFromAnsi(LPSTR psz);
//******************************************************************************
//***** CFunction
//******************************************************************************
class CFunction {
public:
CFunction *m_pNext;
int m_ordinal;
int m_hint;
DWORD_PTR m_dwAddress;
DWORD_PTR m_dwExtra;
CHAR m_szName[1];
// The m_dwExtra field's purpose is dependent on whether the CFunction
// object is an export or an import. For imports, it is a pointer to the
// associated export in the child module. If the import was not resolved,
// then this value will be NULL. For exports, the m_dwExtra field is a
// pointer to a forward string. If the export has no forward string, then
// this member will be NULL.
inline CFunction* GetAssociatedExport() { return (CFunction*)m_dwExtra; }
inline LPCSTR GetForwardString() { return (LPCSTR)m_dwExtra; }
};
//******************************************************************************
//***** CModuleData
//******************************************************************************
// Every CModule object points to a CModuleData object. There is a single
// CModuleData for every unique module we process. If a module is duplicated in
// in our tree, there will be a CModule object for each instance, but they will
// all point to the same CModuleData object. For each unique module, a CModule
// object and a CModuleData object are created and the module is opened and
// processed. For every duplicate module, just a CModule object is created and
// pointed to the existing CModuleData. Duplicate modules are never opened since
// all the data that would be achieved by processing the file are already stored
// in the CModuleData.
class CModuleData {
public:
// Flag to determine if this module has been processed yet.
BOOL m_fProcessed;
// Filled in by GetFileInfo()
DWORD m_dwTimeStamp;
DWORD m_dwSize;
DWORD m_dwAttributes;
// Filled in by GetModuleInfo()
DWORD m_dwMachine;
DWORD m_dwSubsystem;
DWORD_PTR m_dwBaseAddress;
DWORD m_dwImageVersion;
DWORD m_dwLinkerVersion;
DWORD m_dwOSVersion;
DWORD m_dwSubsystemVersion;
// Filled in by GetVersionInfo()
DWORD m_dwFileVersionMS;
DWORD m_dwFileVersionLS;
DWORD m_dwProductVersionMS;
DWORD m_dwProductVersionLS;
// Build by BuildExports()
CFunction *m_pExports;
// Filled in by CheckForDebugInfo()
BOOL m_fDebug;
// Allocated and filled in by SetModuleError() if an error occurs.
LPSTR m_pszError;
BOOL m_fFileNotFound;
// Allocated and filled in by CreateModule()
LPSTR m_szFile;
CHAR m_szPath[1];
};
//******************************************************************************
//***** CModule
//******************************************************************************
class CModule {
public:
// Our next sibling module.
CModule *m_pNext;
// Head pointer to a list of dependent modules.
CModule *m_pDependents;
// Head pointer to a list of functions that our parent module imports from us.
CFunction *m_pParentImports;
// If we are a duplicate, then this will point to the original CModule.
CModule *m_pModuleOriginal;
// Depth of this module in our tree. Used to catch circular dependencies.
int m_depth;
// Set if any of our parent's imports can't be matched to one of our exports.
BOOL m_fExportError;
// Set if this module was included in the tree because of a forward call.
BOOL m_fForward;
// Set if this module was included via Delay Load import.
BOOL m_fDelayLoad;
// Pointer to the bulk of our module's processed information.
CModuleData *m_pData;
inline int GetImage() {
return ((m_pData->m_fFileNotFound) ? MI_NOT_FOUND :
(m_pData->m_pszError) ? MI_ERROR :
(m_pModuleOriginal && m_fExportError) ? MI_DUPLICATE_EXPORT_ERROR :
(m_fExportError) ? MI_EXPORT_ERROR :
(m_pModuleOriginal) ? MI_DUPLICATE : MI_MODULE);
}
};
class CDepends {
// Internal variables
protected:
// The following 5 members contain information about the currently opened
// module file. We can store them here in our document since there is never
// a time when two files are open at once.
HANDLE m_hFile;
LPVOID m_lpvFile;
PIMAGE_FILE_HEADER m_pIFH;
PIMAGE_OPTIONAL_HEADER m_pIOH;
PIMAGE_SECTION_HEADER m_pISH;
DWORD m_dwMachineType;
// Public variables
public:
CModule *m_pModuleRoot;
BOOL m_fOutOfMemory;
BOOL m_fCircularError;
BOOL m_fMixedMachineError;
int m_cxOrdinal;
int m_cxHint;
int m_cImports;
int m_cExports;
// Public Functions
public:
CDepends();
virtual ~CDepends();
BOOL SetInitialFilename(LPCSTR lpszPathName);
CModule* LoopThruAndPrintLosers(CModule *pModuleCur);
void DeleteContents();
// Internal functions
protected:
CFunction* CreateFunction(int ordinal, int hint, LPCSTR szName, DWORD_PTR dwAddress, LPCSTR szForward = NULL);
CModule* CreateModule(LPCSTR szPath, int depth);
void DeleteModule(CModule *pModule);
CModule* FindModule(CModule *pModuleCur, LPCSTR szPath);
void SetModuleError(CModule *pModule, LPCTSTR szFormat, ...);
BOOL VerifyModule(CModule *pModule);
BOOL GetModuleInfo(CModule *pModule);
BOOL BuildImports(CModule *pModule);
BOOL BuildDelayImports(CModule *pModule);
BOOL WalkIAT(PIMAGE_THUNK_DATA pITDF, PIMAGE_THUNK_DATA pITDA, CModule *pModule, DWORD_PTR dwBase);
BOOL BuildExports(CModule *pModule);
BOOL VerifyParentImports(CModule *pModule);
BOOL ProcessModule(CModule *pModule);
};