//++ // // Copyright (C) Microsoft Corporation, 1987 - 1999 // // Module Name: // // regutil.c // // Abstract: // // Queries into network drivers // // Author: // // Anilth - 4-20-1998 // // Environment: // // User mode only. // Contains NT-specific code. // // Revision History: // //-- #include "precomp.h" #include "ipcfg.h" //Registry Reading functions, should be able to be replaced by HrReg... standard routines BOOL ReadRegistryString(HKEY Key, LPCTSTR ParameterName, LPTSTR String, LPDWORD Length) { LONG err; DWORD valueType; *String = '\0'; err = RegQueryValueEx(Key, ParameterName, NULL, // reserved &valueType, (LPBYTE)String, Length ); if (err == ERROR_SUCCESS) { ASSERT(valueType == REG_SZ || valueType == REG_MULTI_SZ); DEBUG_PRINT(("ReadRegistryString(%s): val = \"%s\", type = %d, len = %d\n", ParameterName, String, valueType, *Length )); } else { DEBUG_PRINT(("ReadRegistryString(%s): err = %d\n", ParameterName, err)); } return ((err == ERROR_SUCCESS) && (*Length > sizeof('\0'))); } BOOL ReadRegistryIpAddrString(HKEY Key, LPCTSTR ParameterName, PIP_ADDR_STRING IpAddr) { LONG err; DWORD valueLength = 0; DWORD valueType; LPBYTE valueBuffer; UINT stringCount; LPTSTR stringPointer; LPTSTR stringAddress[MAX_STRING_LIST_LENGTH + 1]; UINT i; err = RegQueryValueEx(Key, ParameterName, NULL, // reserved &valueType, NULL, &valueLength ); if ((err == ERROR_SUCCESS)) { if((valueLength > 1) && (valueType == REG_SZ) || (valueLength > 2) && (valueType == REG_MULTI_SZ) ) { valueBuffer = Malloc(valueLength); if( NULL == valueBuffer) { DebugMessage("Out of Memory!"); err = ERROR_NOT_ENOUGH_MEMORY; goto Error; } err = RegQueryValueEx(Key, ParameterName, NULL, // reserved &valueType, valueBuffer, &valueLength ); if ((err == ERROR_SUCCESS) && (valueLength > 1)) { stringPointer = valueBuffer; DEBUG_PRINT(("ReadRegistryIpAddrString(%s): \"%s\", len = %d\n", ParameterName, valueBuffer, valueLength )); if( REG_SZ == valueType ) { stringPointer += strspn(stringPointer, STRING_ARRAY_DELIMITERS); stringAddress[0] = stringPointer; stringCount = 1; while (stringPointer = strpbrk(stringPointer, STRING_ARRAY_DELIMITERS)) { *stringPointer++ = '\0'; stringPointer += strspn(stringPointer, STRING_ARRAY_DELIMITERS); stringAddress[stringCount] = stringPointer; if (*stringPointer) { ++stringCount; } } for (i = 0; i < stringCount; ++i) { AddIpAddressString(IpAddr, stringAddress[i], ""); } } else if( REG_MULTI_SZ == valueType ) { stringCount = 0; while(strlen(stringPointer)) { AddIpAddressString(IpAddr, stringPointer, ""); stringPointer += 1+strlen(stringPointer); stringCount ++; } if( 0 == stringCount ) err = ERROR_PATH_NOT_FOUND; } else { err = ERROR_PATH_NOT_FOUND; } } else { DEBUG_PRINT(("ReadRegistryIpAddrString(%s): err = %d, len = %d\n", ParameterName, err, valueLength )); err = ERROR_PATH_NOT_FOUND; } Free(valueBuffer); } else { DEBUG_PRINT(("ReadRegistryIpAddrString(%s): err = %d, type = %d, len = %d\n", ParameterName, err, valueType, valueLength )); err = ERROR_PATH_NOT_FOUND; } } Error: return (err == ERROR_SUCCESS); } BOOL ReadRegistryOemString(HKEY Key, LPWSTR ParameterName, LPTSTR String, LPDWORD Length) { LONG err; DWORD valueType; DWORD valueLength; // // first, get the length of the string // *String = '\0'; err = RegQueryValueExW(Key, ParameterName, NULL, // reserved &valueType, NULL, &valueLength ); if ((err == ERROR_SUCCESS) && (valueType == REG_SZ)) { if ((valueLength <= *Length) && (valueLength > sizeof(L'\0'))) { UNICODE_STRING unicodeString; OEM_STRING oemString; LPWSTR str = (LPWSTR)Malloc(valueLength); if(NULL == str) { assert(FALSE); DebugMessage("Out of memory!\n"); err = ERROR_NOT_ENOUGH_MEMORY; goto Error; } // // read the UNICODE string into allocated memory // err = RegQueryValueExW(Key, ParameterName, NULL, &valueType, (LPBYTE)str, &valueLength ); if (err == ERROR_SUCCESS) { // // convert the UNICODE string to OEM character set // RtlInitUnicodeString(&unicodeString, str); if ( RtlUnicodeStringToOemString(&oemString, &unicodeString, TRUE) == STATUS_SUCCESS) { if (oemString.Buffer != NULL) { strcpy(String, oemString.Buffer); DEBUG_PRINT(("ReadRegistryOemString(%ws): val = \"%s\", len = %d\n", ParameterName, String, valueLength )); } RtlFreeOemString(&oemString); } } else { DEBUG_PRINT(("ReadRegistryOemString(%ws): err = %d, type = %d, len = %d\n", ParameterName, err, valueType, valueLength )); } Free(str); } else { DEBUG_PRINT(("ReadRegistryOemString(%ws): err = %d, type = %d, len = %d\n", ParameterName, err, valueType, valueLength )); err = !ERROR_SUCCESS; } } else { DEBUG_PRINT(("ReadRegistryOemString(%ws): err = %d, type = %d, len = %d\n", ParameterName, err, valueType, valueLength )); err = !ERROR_SUCCESS; } Error: return (err == ERROR_SUCCESS); } BOOL ReadRegistryDword(HKEY Key, LPCTSTR ParameterName, LPDWORD Value) { LONG err; DWORD valueLength; DWORD valueType; valueLength = sizeof(*Value); err = RegQueryValueEx(Key, ParameterName, NULL, // reserved &valueType, (LPBYTE)Value, &valueLength ); if ((err == ERROR_SUCCESS) && (valueType == REG_DWORD) && (valueLength == sizeof(DWORD))) { DEBUG_PRINT(("ReadRegistryDword(%s): val = %d, type = %d, len = %d\n", ParameterName, *Value, valueType, valueLength )); } else { DEBUG_PRINT(("ReadRegistryDword(%d,%s): err = %d\n", Key, ParameterName, err)); err = !ERROR_SUCCESS; } return (err == ERROR_SUCCESS); } BOOL OpenAdapterKey( const LPTSTR AdapterName, PHKEY Key ) { LONG err; CHAR keyName[MAX_ADAPTER_NAME_LENGTH + sizeof(TCPIP_PARAMS_INTER_KEY)]; HKEY ServicesKey; if (NULL == AdapterName) { DEBUG_PRINT("No Adapter Name"); return FALSE; } // // open the handle to this adapter's TCPIP parameter key // strcpy(keyName, TCPIP_PARAMS_INTER_KEY ); strcat(keyName, AdapterName); err = RegOpenKey(HKEY_LOCAL_MACHINE,SERVICES_KEY,&ServicesKey); if (err != ERROR_SUCCESS) { DEBUG_PRINT("Opening Services key failed!\n"); return FALSE; } err = RegOpenKey(ServicesKey, keyName, Key ); if( err != ERROR_SUCCESS ){ DEBUG_PRINT(("OpenAdapterKey: RegOpenKey ServicesKey %s, err=%d\n", keyName, GetLastError() )); }else{ TRACE_PRINT(("Exit OpenAdapterKey: %s ok\n", keyName )); } return (err == ERROR_SUCCESS); }