#include "stdafx.h" #define MIGRATEINF ".\\migrate.inf" #define INITIALBUFFERSIZE 1024 #define MIGINF_NOCREATE FALSE #define MIGINF_CREATE TRUE typedef struct tagMIGOBJECT MIGOBJECT, *PMIGOBJECT; struct tagMIGOBJECT { PSTR Key; PSTR Value; PMIGOBJECT Next; }; typedef struct tagMIGSECTION MIGSECTION, * PMIGSECTION; struct tagMIGSECTION { PSTR Name; PMIGOBJECT Items; PMIGSECTION Next; }; PMIGSECTION g_MigrationInf; POOLHANDLE g_Pool = NULL; static PCSTR pGetTypeAsString ( IN MIGTYPE Type ) { // // Note: Strings must be in the same order as the // corresponding types in the MIGTYPE enumeration above. // static PCHAR typeStrings[] = { "FIRST - Invalid", "File", "Path", "Registry", "Message - Invalid", "LAST - Invalid" }; assert(Type > MIG_FIRSTTYPE && Type < MIG_LASTTYPE); return typeStrings[Type]; } static PMIGSECTION pFindSection ( IN PCSTR SectionString, IN BOOL CreateIfNotExist ) { PMIGSECTION rSection; // // We assume that SectionString is not null. // assert(SectionString); rSection = g_MigrationInf; while (rSection && (_mbsicmp((const unsigned char *) rSection -> Name,(const unsigned char *) SectionString) != 0)) { // // Continue looking. // rSection = rSection -> Next; } if (!rSection && CreateIfNotExist) { // // No section was found matching this name. Make a new section and add it // to the list. // rSection = (PMIGSECTION) PoolMemGetMemory(g_Pool,sizeof(MIGSECTION)); if (rSection) { ZeroMemory(rSection,sizeof(MIGSECTION)); rSection -> Name = PoolMemDuplicateStringA(g_Pool,SectionString); rSection -> Next = g_MigrationInf; g_MigrationInf = rSection; if (!rSection -> Name) { // // Something went wrong when we tried to duplicate the SectionString. // NULL out the rSection so that the caller doesn't get back a // malformed section object. // rSection = NULL; } } } return rSection; } static BOOL pPathIsInPath( IN PCSTR SubPath, IN PCSTR ParentPath ) { DWORD parentLength; BOOL rInPath; // // This function assumes both parameters are non-NULL. // assert(SubPath); assert(ParentPath); parentLength = _mbslen((const unsigned char *) ParentPath); // // A path is considered "in" another path if the path is in the ParentPath // or a subdirectory of it. // rInPath = !_mbsnicmp((const unsigned char *) SubPath,(const unsigned char *) ParentPath,parentLength); if (rInPath) { rInPath = SubPath[parentLength] == 0 || SubPath[parentLength] == '\\'; } return rInPath; } static DWORD pGetMbsSize ( IN LPCSTR String ) { DWORD rLength; //rLength = (DWORD) _mbschr((const unsigned char *) String,0) - (DWORD) String + 1; rLength = strlen(String + 1); return rLength; } static LPSTR pEscapeString ( IN MIGTYPE Type, OUT LPSTR EscapedString, IN LPCSTR String ) { LPSTR stringStart; static CHAR exclusions[] = "[]~,;%\""; INT currentChar; // // We assume that all parameters are valid. // assert(EscapedString && String); stringStart = EscapedString; while (*String) { currentChar = _mbsnextc ((const unsigned char *) String); if (Type == MIG_REGKEY) { // // Registry keys require more complex escaping than do normal INF strings. // if (!_ismbcprint (currentChar) || _mbschr ((const unsigned char *) exclusions, currentChar)) { // // Escape unprintable or excluded character // wsprintfA (EscapedString, "~%X~", currentChar); EscapedString = (LPSTR) _mbschr ((const unsigned char *) EscapedString, 0); String = (LPCSTR) _mbsinc((const unsigned char *) String); } else { // // Copy multibyte character // if (isleadbyte (*String)) { *EscapedString = *String; EscapedString++; String++; } *EscapedString = *String; EscapedString++; String++; } } else { // // Escaping is pretty simple for non-registry keys. All we do is double up // quotes and percents. // if (*String == '\"' || *String == '%') { *EscapedString = *String; EscapedString++; } // // Copy multibyte character // if (isleadbyte (*String)) { *EscapedString = *String; EscapedString++; String++; } *EscapedString = *String; EscapedString++; String++; } } // // Ensure that returned string is NULL terminated. // *EscapedString = 0; return stringStart; } static PSTR pGetValueString ( IN MIGTYPE ObjectType, IN LPCSTR StringOne, IN LPCSTR StringTwo ) { static PSTR buffer; static DWORD bufferSize; DWORD maxLength; PSTR bufferEnd; // // This function assumes that StringOne exists. // assert(StringOne); if (ObjectType == MIG_REGKEY) { // // Size: size of both strings, plus the size of the quotes, plus the size of the brackets // for the value, * 6. This is the maximum size one of these could grow to, if every // character had to be escaped out. // maxLength = (pGetMbsSize(StringOne) + (StringTwo ? pGetMbsSize(StringTwo) + 2 : 0)) * 6 + 2; } else { // // Size: size of the string * 2 (The max size if every char was a '%' or '"' plus the quotes. // maxLength = pGetMbsSize(StringOne) * 2 + 2; } if (maxLength > bufferSize) { // // Initialize our buffer, or create a larger one. // bufferSize = (maxLength > INITIALBUFFERSIZE) ? maxLength : INITIALBUFFERSIZE; buffer = PoolMemCreateStringA(g_Pool,bufferSize); } if (buffer != NULL) { // // Insert initial quote. // *buffer = '"'; // // Massage the string to ensure it is a valid INF file string. // pEscapeString(ObjectType,(char *) _mbsinc((const unsigned char *) buffer),StringOne); // // If this is a REGISTRY entry, then we also need to add the value part of the string, // if one was specified (In StringTwo) // if (ObjectType == MIG_REGKEY && StringTwo) { // // Add the opening bracket. // bufferEnd = (PSTR) _mbschr((const unsigned char *) buffer,0); if (bufferEnd) { *bufferEnd = '['; // // Add the value string in, again making sure the string is valid for an INF file. // pEscapeString(ObjectType,(char *) _mbsinc((const unsigned char *) bufferEnd),StringTwo); // // Now, add the closing braket. // bufferEnd = (PSTR) _mbschr((const unsigned char *) buffer,0); if (bufferEnd) { *bufferEnd = ']'; // // Terminate the string. // bufferEnd = (PSTR) _mbsinc((const unsigned char *) bufferEnd); if (bufferEnd) {*bufferEnd = 0;} } } } // // Add the final quote. // bufferEnd = (PSTR) _mbschr((const unsigned char *) buffer,0); if (bufferEnd) {*bufferEnd = '"';} bufferEnd = (PSTR) _mbsinc((const unsigned char *) bufferEnd); if (bufferEnd) {*bufferEnd = 0;} } return buffer; } static BOOL pCreateMigObject ( IN MIGTYPE ObjectType, IN PCSTR ParamOne, IN PCSTR ParamTwo, IN PMIGSECTION Section ) { BOOL rSuccess = FALSE; PMIGOBJECT newObject = NULL; PSTR pTemp = NULL; // // pCreateMigObject uses a set of hueristics to correctly assemble an object. // These hueristics are based on the ObjectType and the contents of ParamTwo. // // ObjectType ParamTwo Key Value // ------------------------------------------------------------------------- // MIG_REGKEY ParamOne[ParamTwo] Registry // NULL ParamOne // non-NULL ParamOne ParamTwo // // if (Section) { // // First, create an object... // newObject = (PMIGOBJECT) PoolMemGetMemory(g_Pool,sizeof(MIGOBJECT)); if (newObject) { if (ObjectType == MIG_REGKEY) { pTemp = pGetValueString(ObjectType,ParamOne,ParamTwo); if (pTemp) {newObject -> Key = PoolMemDuplicateStringA(g_Pool,pTemp);} else { // out of memory goto pCreateMigObject_Exit; } newObject -> Value = PoolMemDuplicateStringA(g_Pool,pGetTypeAsString(ObjectType)); } else { pTemp = pGetValueString(ObjectType,ParamOne,NULL); if (pTemp) {newObject -> Key = PoolMemDuplicateStringA(g_Pool,pTemp);} else { // out of memory goto pCreateMigObject_Exit; } if (ParamTwo) { pTemp = pGetValueString(ObjectType,ParamTwo,NULL); if (pTemp) {newObject -> Value = PoolMemDuplicateStringA(g_Pool,pTemp);} else { // out of memory goto pCreateMigObject_Exit; } } else { newObject -> Value = PoolMemDuplicateStringA(g_Pool,pGetTypeAsString(ObjectType)); } } } } if (newObject) { if (newObject -> Key && newObject -> Value) { // // The object has been successfully created. Link it into the section. // newObject -> Next = Section -> Items; Section -> Items = newObject; rSuccess = TRUE; } else { rSuccess = FALSE; } } else { rSuccess = FALSE; } pCreateMigObject_Exit: return rSuccess; } static BOOL pWriteInfSectionToDisk ( IN PMIGSECTION Section ) { PMIGOBJECT curObject; BOOL rSuccess = TRUE; if (Section) { curObject = Section -> Items; while (curObject && rSuccess) { if (Section -> Name && curObject -> Key && curObject -> Value) { rSuccess = WritePrivateProfileString( Section -> Name, curObject -> Key, curObject -> Value, MIGRATEINF ); } curObject = curObject -> Next; } } else { rSuccess = FALSE; } return rSuccess; } static BOOL pBuildListFromSection ( IN PCSTR SectionString ) { HINF infHandle; PMIGSECTION section; PMIGOBJECT currentObject; INFCONTEXT ic; DWORD size; BOOL rSuccess = TRUE; // // This function assumes that Section is non-NULL. // assert(SectionString); currentObject = NULL; // // First find the section specified. // section = pFindSection(SectionString,MIGINF_CREATE); if (section) { infHandle = SetupOpenInfFileA(MIGRATEINF,NULL,INF_STYLE_WIN4,NULL); if (infHandle != INVALID_HANDLE_VALUE) { if (SetupFindFirstLine(infHandle,SectionString,NULL,&ic)) { do { // // Create the object. // currentObject = (PMIGOBJECT) PoolMemGetMemory(g_Pool,sizeof(MIGOBJECT)); if (!currentObject) { rSuccess = FALSE; break; } // // Get the size of the string. // if (!SetupGetLineTextA(&ic,NULL,NULL,NULL,NULL,0,&size)) { rSuccess = FALSE; break; } // // Create a string large enough. // currentObject -> Key = PoolMemCreateStringA(g_Pool,size); if (!currentObject -> Key) { rSuccess = FALSE; break; } // // Get the string. // if (!SetupGetLineTextA(&ic,NULL,NULL,NULL,currentObject -> Key,size,NULL)) { rSuccess = FALSE; break; } // // Successfully retrieved the line. // currentObject -> Value = (PSTR) pGetTypeAsString(MIG_FILE); currentObject -> Next = section -> Items; section -> Items = currentObject; } while(SetupFindNextLine(&ic,&ic)); } SetupCloseInfFile(infHandle); } } else { rSuccess = FALSE; } return rSuccess; } BOOL WINAPI MigInf_Initialize( VOID ) { // // First, initialize our pool and Zero out the structure. // g_Pool = PoolMemInitPool(); if (g_Pool) { // // Now, read in the migration paths and excluded paths sections. // if (!pBuildListFromSection(SECTION_MIGRATIONPATHS) || !pBuildListFromSection(SECTION_EXCLUDEDPATHS)) { // // Something went wrong (i.e. out of memory. Destroy and NULL our pool. // PoolMemDestroyPool(g_Pool); g_Pool = NULL; } } // // If our memory pool initialized successfully, return TRUE. // return (g_Pool != NULL); } VOID WINAPI MigInf_CleanUp ( VOID ) { // // Only thing we need to do is clean out pool mem. We'll NULL out the list header to make // sure it isn't usable. // if (g_Pool) { PoolMemDestroyPool(g_Pool); g_Pool = NULL; } g_MigrationInf = NULL; } BOOL WINAPI MigInf_AddObject ( IN MIGTYPE ObjectType, IN PCSTR SectionString, IN PCSTR ParamOne, IN PCSTR ParamTwo ) { return pCreateMigObject( ObjectType, ParamOne, ParamTwo, pFindSection(SectionString,MIGINF_CREATE) ); } BOOL WINAPI MigInf_FirstInSection( IN PCSTR SectionName, OUT PMIGINFSECTIONENUM Enum ) { PMIGSECTION section; // // We assume that Enum is valid. // assert(Enum); section = pFindSection(SectionName,MIGINF_NOCREATE); if (section) { Enum -> EnumKey = (PVOID) section -> Items; } return MigInf_NextInSection(Enum); } BOOL WINAPI MigInf_NextInSection( IN OUT PMIGINFSECTIONENUM Enum ) { BOOL rSuccess = FALSE; // // We assume that the Enum is valid. // assert(Enum); if (Enum -> EnumKey) { Enum -> Key = ((PMIGOBJECT) (Enum -> EnumKey)) -> Key; Enum -> Value = ((PMIGOBJECT) (Enum -> EnumKey)) -> Value; Enum -> EnumKey = ((PVOID) ((PMIGOBJECT) (Enum -> EnumKey)) -> Next); rSuccess = TRUE; } return rSuccess; } BOOL WINAPI MigInf_WriteInfToDisk ( VOID ) { BOOL rSuccess = TRUE; PMIGSECTION curSection; // // Simply loop through all of the sections, writing each of them to disk. // As long as WriteSectionToDisk works, we work. // curSection = g_MigrationInf; while (curSection && rSuccess) { // // We skip the [Excluded Paths] and [Migration Paths] sections. // if (_mbsicmp((const unsigned char *) curSection -> Name,(const unsigned char *) SECTION_EXCLUDEDPATHS) && _mbsicmp((const unsigned char *) curSection -> Name,(const unsigned char *) SECTION_MIGRATIONPATHS)) { rSuccess = pWriteInfSectionToDisk(curSection); } curSection = curSection -> Next; } return rSuccess; } BOOL WINAPI MigInf_PathIsExcluded ( IN PCSTR Path ) { PMIGOBJECT curExcluded; PMIGSECTION section; BOOL rIsExcluded = FALSE; // // We assume Path is valid. // assert(Path); section = pFindSection(SECTION_EXCLUDEDPATHS,MIGINF_NOCREATE); if (section) { curExcluded = section -> Items; while (curExcluded && !rIsExcluded) { rIsExcluded = pPathIsInPath(Path,curExcluded -> Key); curExcluded = curExcluded -> Next; } } return rIsExcluded; } PCSTR WINAPI MigInf_GetNewSectionName ( VOID ) { static CHAR sectionName[20]; static DWORD seedNum=0; sprintf(sectionName,"msg%0.7u",seedNum++); return sectionName; } BOOL IsUpgradeTargetSupportIIS(LPCSTR szMyAnswerFile) { BOOL bReturn = TRUE; char szPlatformString[_MAX_PATH]; if (GetPrivateProfileString("Version", "SetupSKU", _T(""), szPlatformString, _MAX_PATH, szMyAnswerFile)) { if (*szPlatformString) { iisDebugOut(_T("[%s] [Version] SetupSKU=%s"), szMyAnswerFile,szPlatformString); if (0 == _mbsicmp((const unsigned char *) szPlatformString,(const unsigned char *) "Personal")) { bReturn = FALSE; } } } if (TRUE == bReturn) { // check a different key if (GetPrivateProfileString("Version", "SetupPlatform", _T(""), szPlatformString, _MAX_PATH, szMyAnswerFile)) { if (*szPlatformString) { iisDebugOut(_T("[%s] [Version] SetupPlatform=%s"), szMyAnswerFile,szPlatformString); if (0 == _mbsicmp((const unsigned char *) szPlatformString,(const unsigned char *) "Personal")) { bReturn = FALSE; } } } } return bReturn; }