/* 'File Association Manager'-Plugin for Miranda IM Copyright (C) 2005-2007 H. Herkenrath This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program (AssocMgr-License.txt); if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "common.h" extern HINSTANCE hInst; #ifdef _DEBUG /* Debug: Ensure all registry calls do succeed and have valid parameters. * Shows a details message box otherwise. */ static __inline LONG regchk(LONG res, const char *pszFunc, const void *pszInfo, BOOL fInfoUnicode, const char *pszFile, unsigned int nLine) { if (res != ERROR_SUCCESS && res != ERROR_FILE_NOT_FOUND && res != ERROR_NO_MORE_ITEMS) { TCHAR szMsg[1024], *pszInfo2; char *pszErr; pszErr = GetWinErrorDescription(res); pszInfo2 = s2t(pszInfo, fInfoUnicode, FALSE); /* does NULL check */ mir_sntprintf(szMsg, SIZEOF(szMsg), TranslateT("Access failed:\n%.64hs(%.128s)\n%.250hs(%u)\n%.256hs (%u)"), pszFunc, pszInfo2, pszFile, nLine, pszErr, res); MessageBox(NULL, szMsg, TranslateT("Registry Warning"), MB_OK | MB_ICONINFORMATION | MB_SETFOREGROUND | MB_TOPMOST | MB_TASKMODAL); if (pszErr != NULL) LocalFree(pszErr); mir_free(pszInfo2); /* does NULL check */ } return res; } #undef RegCloseKey #define RegCloseKey(hKey) \ regchk(RegCloseKey(hKey),"RegCloseKey",NULL,FALSE,__FILE__,__LINE__) #undef RegOpenKeyExA #define RegOpenKeyExA(hKey,szSubkey,opt,rights,phKey) \ regchk(RegOpenKeyExA(hKey,szSubkey,opt,rights,phKey),"RegOpenKeyExA",szSubkey,FALSE,__FILE__,__LINE__) #undef RegCreateKeyExA #define RegCreateKeyExA(hKey,szSubkey,x,y,opt,rights,sec,phKey,pDisp) \ regchk(RegCreateKeyExA(hKey,szSubkey,x,y,opt,rights,sec,phKey,pDisp),"RegCreateKeyExA",szSubkey,FALSE,__FILE__,__LINE__) #undef RegDeleteKeyA #define RegDeleteKeyA(hKey,szName) \ regchk(RegDeleteKeyA(hKey,szName),"RegDeleteKeyA",szName,FALSE,__FILE__,__LINE__) #undef RegSetValueExA #define RegSetValueExA(hSubKey,szName,x,type,pVal,size) \ regchk(RegSetValueExA(hSubKey,szName,x,type,pVal,size),"RegSetValueExA",szName,FALSE,__FILE__,__LINE__) #undef RegQueryValueExA #define RegQueryValueExA(hKey,szName,x,pType,pVal,pSize) \ regchk(RegQueryValueExA(hKey,szName,x,pType,pVal,pSize),"RegQueryValueExA",szName,FALSE,__FILE__,__LINE__) #undef RegQueryInfoKeyA #define RegQueryInfoKeyA(hKey,x,y,z,pnKeys,pnKeyLen,a,pnVals,pnNames,pnValLen,sec,pTime) \ regchk(RegQueryInfoKeyA(hKey,x,y,z,pnKeys,pnKeyLen,a,pnVals,pnNames,pnValLen,sec,pTime),"RegQueryInfoKeyA",NULL,FALSE,__FILE__,__LINE__) #undef RegEnumKeyExA #define RegEnumKeyExA(hKey,idx,pName,pnName,x,y,z,pTime) \ regchk(RegEnumKeyExA(hKey,idx,pName,pnName,x,y,z,pTime),"RegEnumKeyExA",NULL,FALSE,__FILE__,__LINE__) #undef RegDeleteValueA #define RegDeleteValueA(hKey,szName) \ regchk(RegDeleteValueA(hKey,szName),"RegDeleteValueA",szName,FALSE,__FILE__,__LINE__) #undef RegOpenKeyExW #define RegOpenKeyExW(hKey,szSubkey,x,sam,phKey) \ regchk(RegOpenKeyExW(hKey,szSubkey,x,sam,phKey),"RegOpenKeyExW",szSubkey,TRUE,__FILE__,__LINE__) #undef RegCreateKeyExW #define RegCreateKeyExW(hKey,szSubkey,x,y,z,rights,p,phKey,q) \ regchk(RegCreateKeyExW(hKey,szSubkey,x,y,z,rights,p,phKey,q),"RegCreateKeyExW",szSubkey,TRUE,__FILE__,__LINE__) #undef RegDeleteKeyW #define RegDeleteKeyW(hKey,szName) \ regchk(RegDeleteKeyW(hKey,szName),"RegDeleteKeyW",szName,TRUE,__FILE__,__LINE__) #undef RegSetValueExW #define RegSetValueExW(hSubKey,szName,x,type,pVal,size) \ regchk(RegSetValueExW(hSubKey,szName,x,type,pVal,size),"RegSetValueExW",szName,TRUE,__FILE__,__LINE__) #undef RegQueryValueExW #define RegQueryValueExW(hKey,szName,x,pType,pVal,pSize) \ regchk(RegQueryValueExW(hKey,szName,x,pType,pVal,pSize),"RegQueryValueExW",szName,TRUE,__FILE__,__LINE__) #undef RegQueryInfoKeyW #define RegQueryInfoKeyW(hKey,x,y,z,pnKeys,pnKeyLen,a,pnVals,pnNames,pnValLen,sec,pTime) \ regchk(RegQueryInfoKeyW(hKey,x,y,z,pnKeys,pnKeyLen,a,pnVals,pnNames,pnValLen,sec,pTime),"RegQueryInfoKeyW",NULL,TRUE,__FILE__,__LINE__) #undef RegEnumKeyExW #define RegEnumKeyExW(hKey,idx,pName,pnName,x,y,z,pTime) \ regchk(RegEnumKeyExW(hKey,idx,pName,pnName,x,y,z,pTime),"RegEnumKeyExW",NULL,TRUE,__FILE__,__LINE__) #undef RegDeleteValueW #define RegDeleteValueW(hKey,szName) \ regchk(RegDeleteValueW(hKey,szName),"RegDeleteValueW",szName,TRUE,__FILE__,__LINE__) #endif // _DEBUG /************************* Strings ********************************/ // mir_free() the return value char *MakeFileClassName(const char *pszFileExt) { char *pszClass; pszClass=(char*)mir_alloc((lstrlenA(pszFileExt)+12)*sizeof(TCHAR)); if (pszClass!=NULL) /* using correctly formated PROGID */ wsprintfA(pszClass,"miranda%sfile",pszFileExt); /* includes dot, buffer safe */ return pszClass; } // mir_free() the return value char *MakeUrlClassName(const char *pszUrl) { char *pszClass; pszClass=mir_strdup(pszUrl); if (pszClass!=NULL) /* remove trailing : */ pszClass[lstrlenA(pszClass)-1]=0; return pszClass; } static BOOL IsFileClassName(char *pszClassName, char **ppszFileExt) { *ppszFileExt = strchr(pszClassName,'.'); return *ppszFileExt!=NULL; } // mir_free() the return value TCHAR *MakeRunCommand(BOOL fMirExe,BOOL fFixedDbProfile) { TCHAR szDbFile[MAX_PATH], szExe[MAX_PATH], *pszFmt; if (fFixedDbProfile) { if ( CallService(MS_DB_GETPROFILENAMET, SIZEOF(szDbFile), (LPARAM)szDbFile)) return NULL; TCHAR *p = _tcsrchr(szDbFile, '.'); if (p) *p = 0; } else lstrcpy(szDbFile, _T("%1")); /* buffer safe */ if ( !GetModuleFileName(fMirExe ? NULL : hInst, szExe, SIZEOF(szExe))) return NULL; if (fMirExe) /* run command for miranda32.exe */ pszFmt = _T("\"%s\" \"/profile:%s\""); else { /* run command for rundll32.exe calling WaitForDDE */ pszFmt = _T("rundll32.exe %s,WaitForDDE \"/profile:%s\""); /* ensure the command line is not too long */ GetShortPathName(szExe, szExe, SIZEOF(szExe)); /* surround by quotes if failed */ DWORD len = lstrlen(szExe); if ( _tcschr(szExe,_T(' ')) != NULL && (len+2) < SIZEOF(szExe)) { MoveMemory(szExe, szExe+1, (len+1)*sizeof(TCHAR)); szExe[len+2] = szExe[0] = _T('\"'); szExe[len+3] = 0; } } TCHAR tszBuffer[1024]; mir_sntprintf(tszBuffer, SIZEOF(tszBuffer), pszFmt, szExe, szDbFile); return mir_tstrdup(tszBuffer); } static BOOL IsValidRunCommand(const TCHAR *pszRunCmd) { TCHAR *buf,*pexe,*pargs; TCHAR szFullExe[MAX_PATH],*pszFilePart; buf=lstrcpy((TCHAR*)_alloca((lstrlen(pszRunCmd)+1)*sizeof(TCHAR)),pszRunCmd); /* split into executable path and arguments */ if (buf[0]==_T('\"')) { pargs=_tcschr(&buf[1],_T('\"')); if (pargs!=NULL) *(pargs++)=0; pexe=&buf[1]; if (*pargs==_T(' ')) ++pargs; } else { pargs=_tcschr(buf,_T(' ')); if (pargs!=NULL) *pargs=0; pexe=buf; } if (SearchPath(NULL,pexe,_T(".exe"),SIZEOF(szFullExe),szFullExe,&pszFilePart)) { if (pszFilePart!=NULL) if (!lstrcmpi(pszFilePart,_T("rundll32.exe")) || !lstrcmpi(pszFilePart,_T("rundll.exe"))) { /* split into dll path and arguments */ if (pargs[0]==_T('\"')) { ++pargs; pexe=_tcschr(&pargs[1],_T('\"')); if (pexe!=NULL) *pexe=0; } else { pexe=_tcschr(pargs,_T(',')); if (pexe!=NULL) *pexe=0; } return SearchPath(NULL,pargs,_T(".dll"),0,NULL,NULL)!=0; } return TRUE; } return FALSE; } // mir_free() the return value TCHAR *MakeIconLocation(HMODULE hModule,WORD nIconResID) { TCHAR szModule[MAX_PATH],*pszIconLoc=NULL; int cch; if ((cch=GetModuleFileName(hModule,szModule,SIZEOF(szModule)))!=0) { pszIconLoc=(TCHAR*)mir_alloc((cch+=8)*sizeof(TCHAR)); if (pszIconLoc!=NULL) wsprintf(pszIconLoc,_T("%s,%i"),szModule,-(int)nIconResID); /* id may be 0, buffer safe */ } return pszIconLoc; } // mir_free() the return value TCHAR *MakeAppFileName(BOOL fMirExe) { TCHAR szExe[MAX_PATH],*psz; if (GetModuleFileName(fMirExe?NULL:hInst,szExe,SIZEOF(szExe))) { psz=_tcsrchr(szExe,_T('\\')); if (psz!=NULL) ++psz; else psz=szExe; return mir_tstrdup(psz); } return NULL; } /************************* Helpers ********************************/ static LONG DeleteRegSubTree(HKEY hKey,const TCHAR *pszSubKey) { LONG res; DWORD nMaxSubKeyLen,cchSubKey; TCHAR *pszSubKeyBuf; HKEY hSubKey; if ((res=RegOpenKeyEx(hKey,pszSubKey,0,KEY_QUERY_VALUE|KEY_ENUMERATE_SUB_KEYS|DELETE,&hSubKey))==ERROR_SUCCESS) { if ((res=RegQueryInfoKey(hSubKey,NULL,NULL,NULL,NULL,&nMaxSubKeyLen,NULL,NULL,NULL,NULL,NULL,NULL))==ERROR_SUCCESS) { pszSubKeyBuf=(TCHAR*)mir_alloc((nMaxSubKeyLen+1)*sizeof(TCHAR)); if (pszSubKeyBuf==NULL) res=ERROR_NOT_ENOUGH_MEMORY; while(!res) { cchSubKey=nMaxSubKeyLen+1; if ((res=RegEnumKeyEx(hSubKey,0,pszSubKeyBuf,&cchSubKey,NULL,NULL,NULL,NULL))==ERROR_SUCCESS) res=DeleteRegSubTree(hSubKey,pszSubKeyBuf); /* recursion */ } mir_free(pszSubKeyBuf); /* does NULL check */ if (res==ERROR_NO_MORE_ITEMS) res=ERROR_SUCCESS; } RegCloseKey(hSubKey); } if (!res) res=RegDeleteKey(hKey,pszSubKey); return res; } // hMainKey must have been opened with KEY_CREATE_SUB_KEY access right static LONG SetRegSubKeyStrDefValue(HKEY hMainKey,const TCHAR *pszSubKey,const TCHAR *pszVal) { HKEY hSubKey; LONG res; res=RegCreateKeyEx(hMainKey,pszSubKey,0,NULL,0,KEY_SET_VALUE|KEY_QUERY_VALUE,NULL,&hSubKey,NULL); if (!res) { res=RegSetValueEx(hSubKey,NULL,0,REG_SZ,(BYTE*)pszVal,(lstrlen(pszVal)+1)*sizeof(TCHAR)); RegCloseKey(hSubKey); } return res; } // hKey must have been opened with KEY_SET_VALUE access right static void SetRegStrPrefixValue(HKEY hKey,const TCHAR *pszValPrefix,const TCHAR *pszVal) { TCHAR *pszStr; DWORD dwSize; dwSize=(lstrlen(pszVal)+lstrlen(pszValPrefix)+1)*sizeof(TCHAR); pszStr=(TCHAR*)mir_alloc(dwSize); if (pszStr==NULL) return; lstrcat(lstrcpy(pszStr,pszValPrefix),pszVal); /* buffer safe */ RegSetValueEx(hKey,NULL,0,REG_SZ,(BYTE*)pszStr,dwSize); mir_free(pszStr); } // hKey must have been opened with KEY_QUERY_VALUE access right // mir_free() the return value static TCHAR *GetRegStrValue(HKEY hKey,const TCHAR *pszValName) { TCHAR *pszVal,*pszVal2; DWORD dwSize,dwType; /* get size */ if (!RegQueryValueEx(hKey,pszValName,NULL,NULL,NULL,&dwSize) && dwSize>sizeof(TCHAR)) { pszVal=(TCHAR*)mir_alloc(dwSize+sizeof(TCHAR)); if (pszVal!=NULL) { /* get value */ if (!RegQueryValueEx(hKey,pszValName,NULL,&dwType,(BYTE*)pszVal,&dwSize)) { pszVal[dwSize/sizeof(TCHAR)]=0; if (dwType==REG_EXPAND_SZ) { dwSize=MAX_PATH; pszVal2=(TCHAR*)mir_alloc(dwSize*sizeof(TCHAR)); if (ExpandEnvironmentStrings(pszVal,pszVal2,dwSize)) { mir_free(pszVal); return pszVal2; } mir_free(pszVal2); } else if (dwType==REG_SZ) return pszVal; } mir_free(pszVal); } } return NULL; } // hKey must have been opened with KEY_QUERY_VALUE access right static BOOL IsRegStrValue(HKEY hKey,const TCHAR *pszValName,const TCHAR *pszCmpVal) { BOOL fSame=FALSE; TCHAR *pszVal; pszVal=GetRegStrValue(hKey,pszValName); if (pszVal!=NULL) { fSame=!lstrcmp(pszVal,pszCmpVal); mir_free(pszVal); } return fSame; } // hKey must have been opened with KEY_QUERY_VALUE access right static BOOL IsRegStrValueA(HKEY hKey,const TCHAR *pszValName,const char *pszCmpVal) { BOOL fSame=FALSE; TCHAR *pszVal; char *pszValA; pszVal=GetRegStrValue(hKey,pszValName); if (pszVal!=NULL) { pszValA=t2a(pszVal); if (pszValA!=NULL) fSame=!lstrcmpA(pszValA,pszCmpVal); mir_free(pszValA); /* does NULL check */ mir_free(pszVal); } return fSame; } /************************* Backup to DB ***************************/ #define REGF_ANSI 0x80000000 /* this bit is set in dwType for ANSI registry data */ // pData must always be Unicode data, registry supports Unicode even on Win95 static void WriteDbBackupData(const char *pszSetting,DWORD dwType,BYTE *pData,DWORD cbData) { size_t cbLen = cbData + sizeof(DWORD); PBYTE buf = (PBYTE)mir_alloc(cbLen); if (buf) { *(DWORD*)buf = dwType; CopyMemory(buf+sizeof(DWORD), pData, cbData); db_set_blob(NULL, "AssocMgr", pszSetting, buf, cbLen); mir_free(buf); } } // mir_free() the value returned in ppData static BOOL ReadDbBackupData(const char *pszSetting,DWORD *pdwType,BYTE **ppData,DWORD *pcbData) { DBVARIANT dbv; if (!db_get(0, "AssocMgr", pszSetting, &dbv)) { if (dbv.type==DBVT_BLOB && dbv.cpbVal>=sizeof(DWORD)) { *pdwType=*(DWORD*)dbv.pbVal; *ppData=dbv.pbVal; *pcbData=dbv.cpbVal-sizeof(DWORD); MoveMemory(*ppData,*ppData+sizeof(DWORD),*pcbData); return TRUE; } db_free(&dbv); } return FALSE; } struct BackupRegTreeParam { char **ppszDbPrefix; DWORD *pdwDbPrefixSize; int level; }; static void BackupRegTree_Worker(HKEY hKey,const char *pszSubKey,struct BackupRegTreeParam *param) { LONG res; DWORD nMaxSubKeyLen,nMaxValNameLen,nMaxValSize; DWORD index,cchName,dwType,cbData; BYTE *pData; char *pszName; register TCHAR *ptszName; DWORD nDbPrefixLen; if ((res=RegOpenKeyExA(hKey,pszSubKey,0,KEY_QUERY_VALUE|KEY_ENUMERATE_SUB_KEYS,&hKey))==ERROR_SUCCESS) { if ((res=RegQueryInfoKey(hKey,NULL,NULL,NULL,NULL,&nMaxSubKeyLen,NULL,NULL,&nMaxValNameLen,&nMaxValSize,NULL,NULL))==ERROR_SUCCESS) { if (nMaxSubKeyLen>nMaxValNameLen) nMaxValNameLen=nMaxSubKeyLen; /* prepare buffer */ nDbPrefixLen=(DWORD)lstrlenA(*param->ppszDbPrefix)+lstrlenA(pszSubKey)+1; cchName=nDbPrefixLen+nMaxValNameLen+3; if (cchName>*param->pdwDbPrefixSize) { pszName=(char*)mir_realloc(*param->ppszDbPrefix,cchName); if (pszName==NULL) return; *param->ppszDbPrefix=pszName; *param->pdwDbPrefixSize=cchName; } lstrcatA(lstrcatA(*param->ppszDbPrefix,pszSubKey),"\\"); /* buffer safe */ /* enum values */ pszName=(char*)mir_alloc(nMaxValNameLen+1); if (nMaxValSize==0) nMaxValSize=1; pData=(BYTE*)mir_alloc(nMaxValSize); if (pszName!=NULL && pData!=NULL) { index=0; while(!res) { cchName=nMaxValNameLen+1; cbData=nMaxValSize; if ((res=RegEnumValueA(hKey,index++,pszName,&cchName,NULL,NULL,NULL,NULL))==ERROR_SUCCESS) { (*param->ppszDbPrefix)[nDbPrefixLen]=0; lstrcatA(*param->ppszDbPrefix,pszName); /* buffer safe */ ptszName=a2t(pszName); if (ptszName!=NULL) { if (!RegQueryValueEx(hKey,ptszName,NULL,&dwType,pData,&cbData)) { WriteDbBackupData(*param->ppszDbPrefix,dwType,pData,cbData); } mir_free(ptszName); } } } if (res==ERROR_NO_MORE_ITEMS) res=ERROR_SUCCESS; } mir_free(pData); /* does NULL check */ /* enum subkeys */ if (param->level<32 && pszName!=NULL) { ++param->level; /* can be max 32 levels deep (after prefix), restriction of RegCreateKeyEx() */ index=0; while(!res) { cchName=nMaxSubKeyLen+1; if ((res=RegEnumKeyExA(hKey,index++,pszName,&cchName,NULL,NULL,NULL,NULL))==ERROR_SUCCESS) { (*param->ppszDbPrefix)[nDbPrefixLen]=0; BackupRegTree_Worker(hKey,pszName,param); /* recursion */ } } } if (res==ERROR_NO_MORE_ITEMS) res=ERROR_SUCCESS; mir_free(pszName); /* does NULL check */ } RegCloseKey(hKey); } } static void BackupRegTree(HKEY hKey,const char *pszSubKey,const char *pszDbPrefix) { struct BackupRegTreeParam param; DWORD dwDbPrefixSize; param.level=0; param.pdwDbPrefixSize=&dwDbPrefixSize; param.ppszDbPrefix=(char**)&pszDbPrefix; pszDbPrefix=mir_strdup(pszDbPrefix); if (pszDbPrefix!=NULL) { dwDbPrefixSize=lstrlenA(pszDbPrefix)+1; BackupRegTree_Worker(hKey,pszSubKey,¶m); mir_free((char*)pszDbPrefix); } } static LONG RestoreRegTree(HKEY hKey,const char *pszSubKey,const char *pszDbPrefix) { char **ppszSettings,*pszSuffix,*pszPrefixWithSubKey; int nSettingsCount,i,nDbPrefixLen,nPrefixWithSubKeyLen; char *pslash=NULL,*pnext,*pkeys; char *pszValName; WCHAR *pwszValName; HKEY hSubKey; DWORD dwType,cbData; BYTE *pData; LONG res; nDbPrefixLen=lstrlenA(pszDbPrefix); nPrefixWithSubKeyLen=nDbPrefixLen+lstrlenA(pszSubKey)+1; pszPrefixWithSubKey=(char*)mir_alloc(nPrefixWithSubKeyLen+1); if (pszPrefixWithSubKey==NULL) return ERROR_OUTOFMEMORY; lstrcatA(lstrcatA(lstrcpyA(pszPrefixWithSubKey,pszDbPrefix),pszSubKey),"\\"); /* buffer safe */ res=ERROR_NO_MORE_ITEMS; if (pszPrefixWithSubKey!=NULL) { if (EnumDbPrefixSettings("AssocMgr",pszPrefixWithSubKey,&ppszSettings,&nSettingsCount)) { for(i=0;i