reactos/base/system/regsvr32/regsvr32.c

483 lines
14 KiB
C

/*
* ReactOS regsvr32
* Copyright (C) 2004-2006 ReactOS Team
*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS regsvr32.exe
* FILE: base/system/regsvr32/regsvr32.c
* PURPOSE: Register a COM component in the registry
* PROGRAMMER: ShadowFlare (blakflare@hotmail.com)
*/
// Both UNICODE and _UNICODE must be either defined or undefined
// because some headers use UNICODE and others use _UNICODE
#ifdef UNICODE
#ifndef _UNICODE
#define _UNICODE
#endif
#else
#ifdef _UNICODE
#define UNICODE
#endif
#endif
#define WIN32_NO_STATUS
#define _INC_WINDOWS
#define COM_NO_WINDOWS_H
#include <stdarg.h>
#include <windef.h>
#include <winbase.h>
#include <ole2.h>
#include <tchar.h>
typedef HRESULT (WINAPI *DLLREGISTER)(void);
typedef HRESULT (WINAPI *DLLINSTALL)(BOOL bInstall, LPWSTR lpwCmdLine);
#define EXITCODE_SUCCESS 0
#define EXITCODE_PARAMERROR 1
#define EXITCODE_LOADERROR 3
#define EXITCODE_NOENTRY 4
#define EXITCODE_FAILURE 5
LPCSTR szDllRegister = "DllRegisterServer";
LPCSTR szDllUnregister = "DllUnregisterServer";
LPCSTR szDllInstall = "DllInstall";
#ifdef UNICODE
LPCWSTR tszDllRegister = L"DllRegisterServer";
LPCWSTR tszDllUnregister = L"DllUnregisterServer";
LPCWSTR tszDllInstall = L"DllInstall";
#else
#define tszDllRegister szDllRegister
#define tszDllUnregister szDllUnregister
#define tszDllInstall szDllInstall
#endif
#include "resource.h"
LPCTSTR ModuleTitle = _T("RegSvr32");
TCHAR UsageMessage[RC_STRING_MAX_SIZE];
TCHAR NoDllSpecified[RC_STRING_MAX_SIZE];
TCHAR InvalidFlag[RC_STRING_MAX_SIZE];
TCHAR SwitchN_NoI[RC_STRING_MAX_SIZE];
TCHAR DllNotLoaded[RC_STRING_MAX_SIZE];
TCHAR MissingEntry[RC_STRING_MAX_SIZE];
TCHAR FailureMessage[RC_STRING_MAX_SIZE];
TCHAR SuccessMessage[RC_STRING_MAX_SIZE];
// The macro CommandLineToArgv maps to a function that converts
// a command-line string to argc and argv similar to the ones
// in the standard main function. If this code is compiled for
// unicode, the build-in Windows API function is used, otherwise
// a non-unicode non-API version is used for compatibility with
// Windows versions that have no unicode support.
#ifdef UNICODE
#define CommandLineToArgv CommandLineToArgvW
#include <shellapi.h>
#else
#define CommandLineToArgv CommandLineToArgvT
LPTSTR *WINAPI CommandLineToArgvT(LPCTSTR lpCmdLine, int *lpArgc)
{
HGLOBAL hargv;
LPTSTR *argv, lpSrc, lpDest, lpArg;
int argc, nBSlash;
BOOL bInQuotes;
// If null was passed in for lpCmdLine, there are no arguments
if (!lpCmdLine) {
if (lpArgc)
*lpArgc = 0;
return 0;
}
lpSrc = (LPTSTR)lpCmdLine;
// Skip spaces at beginning
while (*lpSrc == _T(' ') || *lpSrc == _T('\t'))
lpSrc++;
// If command-line starts with null, there are no arguments
if (*lpSrc == 0) {
if (lpArgc)
*lpArgc = 0;
return 0;
}
lpArg = lpSrc;
argc = 0;
nBSlash = 0;
bInQuotes = FALSE;
// Count the number of arguments
while (1) {
if (*lpSrc == 0 || ((*lpSrc == _T(' ') || *lpSrc == _T('\t')) && !bInQuotes)) {
// Whitespace not enclosed in quotes signals the start of another argument
argc++;
// Skip whitespace between arguments
while (*lpSrc == _T(' ') || *lpSrc == _T('\t'))
lpSrc++;
if (*lpSrc == 0)
break;
nBSlash = 0;
continue;
}
else if (*lpSrc == _T('\\')) {
// Count consecutive backslashes
nBSlash++;
}
else if (*lpSrc == _T('\"') && !(nBSlash & 1)) {
// Open or close quotes
bInQuotes = !bInQuotes;
nBSlash = 0;
}
else {
// Some other character
nBSlash = 0;
}
lpSrc++;
}
// Allocate space the same way as CommandLineToArgvW for compatibility
hargv = GlobalAlloc(0, argc * sizeof(LPTSTR) + (_tcslen(lpArg) + 1) * sizeof(TCHAR));
argv = (LPTSTR *)GlobalLock(hargv);
if (!argv) {
// Memory allocation failed
if (lpArgc)
*lpArgc = 0;
return 0;
}
lpSrc = lpArg;
lpDest = lpArg = (LPTSTR)(argv + argc);
argc = 0;
nBSlash = 0;
bInQuotes = FALSE;
// Fill the argument array
while (1) {
if (*lpSrc == 0 || ((*lpSrc == _T(' ') || *lpSrc == _T('\t')) && !bInQuotes)) {
// Whitespace not enclosed in quotes signals the start of another argument
// Null-terminate argument
*lpDest++ = 0;
argv[argc++] = lpArg;
// Skip whitespace between arguments
while (*lpSrc == _T(' ') || *lpSrc == _T('\t'))
lpSrc++;
if (*lpSrc == 0)
break;
lpArg = lpDest;
nBSlash = 0;
continue;
}
else if (*lpSrc == _T('\\')) {
*lpDest++ = _T('\\');
lpSrc++;
// Count consecutive backslashes
nBSlash++;
}
else if (*lpSrc == _T('\"')) {
if (!(nBSlash & 1)) {
// If an even number of backslashes are before the quotes,
// the quotes don't go in the output
lpDest -= nBSlash / 2;
bInQuotes = !bInQuotes;
}
else {
// If an odd number of backslashes are before the quotes,
// output a quote
lpDest -= (nBSlash + 1) / 2;
*lpDest++ = _T('\"');
}
lpSrc++;
nBSlash = 0;
}
else {
// Copy other characters
*lpDest++ = *lpSrc++;
nBSlash = 0;
}
}
if (lpArgc)
*lpArgc = argc;
return argv;
}
#endif
// The macro ConvertToWideChar takes a tstring parameter and returns
// a pointer to a unicode string. A conversion is performed if
// necessary. FreeConvertedWideChar string should be used on the
// return value of ConvertToWideChar when the string is no longer
// needed. The original string or the string that is returned
// should not be modified until FreeConvertedWideChar has been called.
#ifdef UNICODE
#define ConvertToWideChar(lptString) (lptString)
#define FreeConvertedWideChar(lpwString) ((void) 0)
#else
LPWSTR ConvertToWideChar(LPCSTR lpString)
{
LPWSTR lpwString;
size_t nStrLen;
nStrLen = strlen(lpString) + 1;
lpwString = (LPWSTR)malloc(nStrLen * sizeof(WCHAR));
MultiByteToWideChar(0,0,lpString,nStrLen,lpwString,nStrLen);
return lpwString;
}
#define FreeConvertedWideChar(lpwString) free(lpwString)
#endif
void DisplayMessage(BOOL bConsole, BOOL bSilent, LPCTSTR lpMessage, LPCTSTR lpTitle, UINT uType)
{
if (!bSilent)
MessageBox(0,lpMessage,lpTitle,uType);
if (bConsole)
_tprintf(_T("%s: %s\n\n"),lpTitle,lpMessage);
}
int WINAPI _tWinMain(
HINSTANCE hInstance,
HINSTANCE hPrevInstance,
LPTSTR lpCmdLine,
int nCmdShow
)
{
int argc;
LPTSTR *argv;
LPTSTR lptDllName,lptDllCmdLine,lptMsgBuffer;
LPCTSTR lptFuncName;
LPCSTR lpFuncName;
LPWSTR lpwDllCmdLine;
BOOL bUnregister,bSilent,bConsole,bInstall,bNoRegister;
UINT nDllCount, fuOldErrorMode;
HMODULE hDll;
DLLREGISTER fnDllRegister;
DLLINSTALL fnDllInstall;
HRESULT hResult;
DWORD dwErr;
int nRetValue,i;
// Get Langues msg
LoadString( GetModuleHandle(NULL), IDS_UsageMessage, (LPTSTR) UsageMessage,RC_STRING_MAX_SIZE);
LoadString( GetModuleHandle(NULL), IDS_NoDllSpecified, (LPTSTR) NoDllSpecified,RC_STRING_MAX_SIZE);
LoadString( GetModuleHandle(NULL), IDS_InvalidFlag, (LPTSTR) InvalidFlag,RC_STRING_MAX_SIZE);
LoadString( GetModuleHandle(NULL), IDS_SwitchN_NoI, (LPTSTR) SwitchN_NoI,RC_STRING_MAX_SIZE);
LoadString( GetModuleHandle(NULL), IDS_DllNotLoaded, (LPTSTR) DllNotLoaded,RC_STRING_MAX_SIZE);
LoadString( GetModuleHandle(NULL), IDS_MissingEntry, (LPTSTR) MissingEntry,RC_STRING_MAX_SIZE);
LoadString( GetModuleHandle(NULL), IDS_FailureMessage, (LPTSTR) FailureMessage,RC_STRING_MAX_SIZE);
LoadString( GetModuleHandle(NULL), IDS_SuccessMessage, (LPTSTR) SuccessMessage,RC_STRING_MAX_SIZE);
// Get command-line in argc-argv format
argv = CommandLineToArgv(GetCommandLine(),&argc);
// Initialize variables
lptFuncName = 0;
lptDllCmdLine = 0;
nDllCount = 0;
bUnregister = FALSE;
bSilent = FALSE;
bConsole = FALSE;
bInstall = FALSE;
bNoRegister = FALSE;
// Find all arguments starting with a slash (/)
for (i = 1; i < argc; i++) {
if (*argv[i] == _T('/') || *argv[i] == '-') {
switch (argv[i][1]) {
case _T('u'):
case _T('U'):
bUnregister = TRUE;
break;
case _T('s'):
case _T('S'):
bSilent = TRUE;
break;
case _T('c'):
case _T('C'):
bConsole = TRUE;
break;
case _T('i'):
case _T('I'):
bInstall = TRUE;
lptDllCmdLine = argv[i];
while (*lptDllCmdLine != 0 && *lptDllCmdLine != _T(':'))
lptDllCmdLine++;
if (*lptDllCmdLine == _T(':'))
lptDllCmdLine++;
break;
case _T('n'):
case _T('N'):
bNoRegister = TRUE;
break;
default:
if (!lptFuncName)
lptFuncName = argv[i];
}
}
else {
nDllCount++;
}
}
// An unrecognized flag was used, display a message and show available options
if (lptFuncName) {
lptMsgBuffer = (LPTSTR)malloc((_tcslen(UsageMessage) - 2 + _tcslen(InvalidFlag) - 2 + _tcslen(lptFuncName) + 1) * sizeof(TCHAR));
_stprintf(lptMsgBuffer + (_tcslen(UsageMessage) - 2),InvalidFlag,lptFuncName);
_stprintf(lptMsgBuffer,UsageMessage,lptMsgBuffer + (_tcslen(UsageMessage) - 2));
DisplayMessage(bConsole,bSilent,lptMsgBuffer,ModuleTitle,MB_ICONEXCLAMATION);
free(lptMsgBuffer);
GlobalFree(argv);
return EXITCODE_PARAMERROR;
}
// /n was used without /i, display a message and show available options
if (bNoRegister && (!bInstall)) {
lptMsgBuffer = (LPTSTR)malloc((_tcslen(UsageMessage) - 2 + _tcslen(SwitchN_NoI) + 1) * sizeof(TCHAR));
_stprintf(lptMsgBuffer,UsageMessage,SwitchN_NoI);
DisplayMessage(bConsole,bSilent,lptMsgBuffer,ModuleTitle,MB_ICONEXCLAMATION);
free(lptMsgBuffer);
GlobalFree(argv);
return EXITCODE_PARAMERROR;
}
// No dll was specified, display a message and show available options
if (nDllCount == 0) {
lptMsgBuffer = (LPTSTR)malloc((_tcslen(UsageMessage) - 2 + _tcslen(NoDllSpecified) + 1) * sizeof(TCHAR));
_stprintf(lptMsgBuffer,UsageMessage,NoDllSpecified);
DisplayMessage(bConsole,bSilent,lptMsgBuffer,ModuleTitle,MB_ICONEXCLAMATION);
free(lptMsgBuffer);
GlobalFree(argv);
return EXITCODE_PARAMERROR;
}
nRetValue = EXITCODE_SUCCESS;
if (!bUnregister) {
lpFuncName = szDllRegister;
lptFuncName = tszDllRegister;
}
else {
lpFuncName = szDllUnregister;
lptFuncName = tszDllUnregister;
}
if (lptDllCmdLine)
lpwDllCmdLine = ConvertToWideChar(lptDllCmdLine);
else
lpwDllCmdLine = 0;
// Initialize OLE32 before attempting to register the
// dll. Some dll's require this to register properly
OleInitialize(0);
// (Un)register every dll whose filename was passed in the command-line string
for (i = 1; i < argc && nRetValue == EXITCODE_SUCCESS; i++) {
// Arguments that do not start with a slash (/) are filenames
if (*argv[i] != _T('/')) {
lptDllName = argv[i];
fuOldErrorMode = SetErrorMode(SEM_FAILCRITICALERRORS);
// Everything is all setup, so load the dll now
hDll = LoadLibraryEx(lptDllName,0,LOAD_WITH_ALTERED_SEARCH_PATH);
if (hDll) {
SetErrorMode(fuOldErrorMode);
if (!bNoRegister) {
// Get the address of DllRegisterServer or DllUnregisterServer
fnDllRegister = (DLLREGISTER)GetProcAddress(hDll,lpFuncName);
if (fnDllRegister) {
// If the function exists, call it
hResult = fnDllRegister();
if (hResult == S_OK) {
// (Un)register succeeded, display a message
lptMsgBuffer = (LPTSTR)malloc((_tcslen(SuccessMessage) - 4 + _tcslen(lptFuncName) + _tcslen(lptDllName) + 1) * sizeof(TCHAR));
_stprintf(lptMsgBuffer,SuccessMessage,lptFuncName,lptDllName);
DisplayMessage(bConsole,bSilent,lptMsgBuffer,ModuleTitle,MB_ICONINFORMATION);
}
else {
// (Un)register failed, display a message
lptMsgBuffer = (LPTSTR)malloc((_tcslen(FailureMessage) + _tcslen(lptFuncName) + _tcslen(lptDllName) + 1) * sizeof(TCHAR));
_stprintf(lptMsgBuffer,FailureMessage,lptFuncName,lptDllName,hResult);
DisplayMessage(bConsole,bSilent,lptMsgBuffer,ModuleTitle,MB_ICONEXCLAMATION);
}
free(lptMsgBuffer);
if (hResult != S_OK)
nRetValue = EXITCODE_FAILURE;
}
else {
FreeLibrary(hDll);
// Dll(Un)register was not found, display an error message
lptMsgBuffer = (LPTSTR)malloc((_tcslen(MissingEntry) - 8 + _tcslen(lptFuncName) * 2 + _tcslen(lptDllName) * 2 + 1) * sizeof(TCHAR));
_stprintf(lptMsgBuffer,MissingEntry,lptDllName,lptFuncName,lptFuncName,lptDllName);
DisplayMessage(bConsole,bSilent,lptMsgBuffer,ModuleTitle,MB_ICONEXCLAMATION);
free(lptMsgBuffer);
nRetValue = EXITCODE_NOENTRY;
}
}
if (bInstall && nRetValue == EXITCODE_SUCCESS) {
// Get the address of DllInstall
fnDllInstall = (DLLINSTALL)GetProcAddress(hDll,szDllInstall);
if (fnDllInstall) {
// If the function exists, call it
if (!bUnregister)
hResult = fnDllInstall(1,lpwDllCmdLine);
else
hResult = fnDllInstall(0,lpwDllCmdLine);
if (hResult == S_OK) {
// (Un)install succeeded, display a message
lptMsgBuffer = (LPTSTR)malloc((_tcslen(SuccessMessage) - 4 + _tcslen(tszDllInstall) + _tcslen(lptDllName) + 1) * sizeof(TCHAR));
_stprintf(lptMsgBuffer,SuccessMessage,tszDllInstall,lptDllName);
DisplayMessage(bConsole,bSilent,lptMsgBuffer,ModuleTitle,MB_ICONINFORMATION);
}
else {
// (Un)install failed, display a message
lptMsgBuffer = (LPTSTR)malloc((_tcslen(FailureMessage) + _tcslen(tszDllInstall) + _tcslen(lptDllName) + 1) * sizeof(TCHAR));
_stprintf(lptMsgBuffer,FailureMessage,tszDllInstall,lptDllName,hResult);
DisplayMessage(bConsole,bSilent,lptMsgBuffer,ModuleTitle,MB_ICONEXCLAMATION);
}
free(lptMsgBuffer);
if (hResult != S_OK)
nRetValue = EXITCODE_FAILURE;
}
else {
// DllInstall was not found, display an error message
lptMsgBuffer = (LPTSTR)malloc((_tcslen(MissingEntry) - 8 + _tcslen(tszDllInstall) * 2 + _tcslen(lptDllName) * 2 + 1) * sizeof(TCHAR));
_stprintf(lptMsgBuffer,MissingEntry,lptDllName,tszDllInstall,tszDllInstall,lptDllName);
DisplayMessage(bConsole,bSilent,lptMsgBuffer,ModuleTitle,MB_ICONEXCLAMATION);
free(lptMsgBuffer);
nRetValue = EXITCODE_NOENTRY;
}
}
// The dll function has finished executing, so unload it
FreeLibrary(hDll);
}
else {
// The dll could not be loaded; display an error message
dwErr = GetLastError();
SetErrorMode(fuOldErrorMode);
lptMsgBuffer = (LPTSTR)malloc((_tcslen(DllNotLoaded) + 2 + _tcslen(lptDllName) + 1) * sizeof(TCHAR));
_stprintf(lptMsgBuffer,DllNotLoaded,lptDllName,dwErr);
DisplayMessage(bConsole,bSilent,lptMsgBuffer,ModuleTitle,MB_ICONEXCLAMATION);
free(lptMsgBuffer);
nRetValue = EXITCODE_LOADERROR;
}
}
}
if (lpwDllCmdLine)
FreeConvertedWideChar(lpwDllCmdLine);
GlobalFree(argv);
OleUninitialize();
return nRetValue;
}