// // Determine which -- if any -- of these routines are in use // in sockets project and dump remainder (hopefully whole directory) // this is ancient stuff, most of which has long been superceded // They are actually still used. // #include "local.h" #define malloc(x) RtlAllocateHeap( RtlProcessHeap(), 0, (x) ) #define free(p) RtlFreeHeap( RtlProcessHeap(), 0, (p) ) #define WORK_BUFFER_SIZE 1024 char VTCPPARM[] = "\\Registry\\Machine\\System\\CurrentControlSet\\Services\\Tcp\\VParameters"; char NTCPPARM[] = "\\Registry\\Machine\\System\\CurrentControlSet\\Services\\Tcp\\Parameters"; char TCPPARM[] = "\\Registry\\Machine\\System\\CurrentControlSet\\Services\\Tcpip\\Parameters"; char TTCPPARM[] = "\\Registry\\Machine\\System\\CurrentControlSet\\Services\\Tcpip\\Parameters\\Transient"; #ifdef TRACE void UnicodePrint( PUNICODE_STRING UnicodeString ) /*++ Routine Description: Print a unicode string. Arguments: UnicodeString - pointer to the string. Return Value: None. --*/ { ANSI_STRING ansiString; PUCHAR tempbuffer = (PUCHAR) malloc(WORK_BUFFER_SIZE); ansiString.MaximumLength = WORK_BUFFER_SIZE; ansiString.Length = 0L; ansiString.Buffer = tempbuffer; RtlUnicodeStringToAnsiString(&ansiString, UnicodeString, FALSE); printf("%s", ansiString.Buffer); free(tempbuffer); return; } #endif NTSTATUS SockOpenKey( PHANDLE HandlePtr, PUCHAR KeyName ) /*++ Routine Description: Arguments: Return Value: --*/ { NTSTATUS status; STRING keyString; OBJECT_ATTRIBUTES objectAttributes; UNICODE_STRING unicodeKeyName; RtlInitString(&keyString, KeyName); (VOID)RtlAnsiStringToUnicodeString(&unicodeKeyName, &keyString, TRUE); #ifdef TRACE printf("SockOpenKey = "); UnicodePrint(&unicodeKeyName); printf("\n"); #endif memset(&objectAttributes, 0, sizeof(OBJECT_ATTRIBUTES)); InitializeObjectAttributes(&objectAttributes, &unicodeKeyName, OBJ_CASE_INSENSITIVE, NULL, NULL); status = NtOpenKey(HandlePtr, KEY_READ, &objectAttributes); RtlFreeUnicodeString(&unicodeKeyName); #ifdef TRACE if (!NT_SUCCESS(status)) { printf("Failed NtOpenKey for %s => %x\n", KeyName, status); } #endif return status; } NTSTATUS SockOpenKeyEx( PHANDLE HandlePtr, PUCHAR KeyName1, PUCHAR KeyName2, PUCHAR KeyName3 ) { NTSTATUS status; status = SockOpenKey(HandlePtr, KeyName1); if (NT_SUCCESS(status) || (KeyName2 == NULL && KeyName3 == NULL)) { return status; } status = SockOpenKey(HandlePtr, KeyName2); if (NT_SUCCESS(status) || KeyName3 == NULL) { return status; } return SockOpenKey(HandlePtr, KeyName3); } NTSTATUS SockGetSingleValue( HANDLE KeyHandle, PUCHAR ValueName, PUCHAR ValueData, PULONG ValueType, ULONG ValueLength ) /*++ Routine Description: Arguments: Return Value: --*/ { NTSTATUS status; ULONG resultLength; PKEY_VALUE_FULL_INFORMATION keyValueFullInformation; UNICODE_STRING uValueName; ANSI_STRING aValueName; UNICODE_STRING uValueData; ANSI_STRING aValueData; #ifdef TRACE printf("SockGetSingleValue: %s\n", ValueName); #endif if ((keyValueFullInformation = (PKEY_VALUE_FULL_INFORMATION)malloc(WORK_BUFFER_SIZE)) == NULL) { return(STATUS_NO_MEMORY); } RtlZeroMemory(keyValueFullInformation, WORK_BUFFER_SIZE); uValueName.Length = 0L; uValueName.MaximumLength = WORK_BUFFER_SIZE; if ((uValueName.Buffer = (PWSTR)malloc(WORK_BUFFER_SIZE)) == NULL) { free(keyValueFullInformation); return(STATUS_NO_MEMORY); } aValueName.MaximumLength = WORK_BUFFER_SIZE; aValueName.Length = (USHORT) strlen(ValueName); aValueName.Buffer = (PCHAR)ValueName; RtlAnsiStringToUnicodeString(&uValueName, &aValueName, FALSE); status = NtQueryValueKey(KeyHandle, &uValueName, KeyValueFullInformation, keyValueFullInformation, WORK_BUFFER_SIZE, &resultLength); if (!NT_SUCCESS(status)) { free(uValueName.Buffer); free(keyValueFullInformation); return status; } *ValueType = keyValueFullInformation->Type; if (*ValueType != REG_DWORD && *ValueType != REG_BINARY) { aValueData.Length = 0L; if (*ValueType == REG_EXPAND_SZ) { aValueData.Buffer = (PVOID)uValueName.Buffer; aValueData.MaximumLength = WORK_BUFFER_SIZE; } else { free(uValueName.Buffer); aValueData.Buffer = (PCHAR)ValueData; aValueData.MaximumLength = (USHORT)ValueLength; } uValueData.Length = (USHORT)keyValueFullInformation->DataLength; uValueData.MaximumLength = (USHORT)keyValueFullInformation->DataLength; uValueData.Buffer = (PWSTR)((PCHAR)keyValueFullInformation + keyValueFullInformation->DataOffset); RtlUnicodeStringToAnsiString(&aValueData, &uValueData, FALSE); if (*ValueType == REG_EXPAND_SZ) { resultLength = ExpandEnvironmentStringsA( aValueData.Buffer, ValueData, ValueLength); free(aValueData.Buffer); } } else { *((PULONG)ValueData) = *((PULONG)((PCHAR)keyValueFullInformation + keyValueFullInformation->DataOffset)); free(uValueName.Buffer); } free(keyValueFullInformation); return status; } NTSTATUS SockSetSingleValue( HANDLE KeyHandle, PUCHAR ValueName, PUCHAR ValueData, ULONG ValueType, ULONG ValueLength ) /*++ Routine Description: Arguments: Return Value: --*/ { NTSTATUS status; UNICODE_STRING uValueName; ANSI_STRING aValueName; UNICODE_STRING uData; ANSI_STRING aData; BOOL fallocatedUdata = FALSE; #ifdef TRACE printf("SockSetSingleValue: %s\n", ValueName); #endif uValueName.Length = 0L; uValueName.MaximumLength = WORK_BUFFER_SIZE; // // Convert the key name to unicode. // if ((uValueName.Buffer = (PWSTR)malloc(WORK_BUFFER_SIZE)) == NULL) { return(STATUS_NO_MEMORY); } else { aValueName.MaximumLength = WORK_BUFFER_SIZE; aValueName.Length = (USHORT) strlen(ValueName); aValueName.Buffer = (PCHAR)ValueName; RtlAnsiStringToUnicodeString(&uValueName, &aValueName, FALSE); } if ( ValueType == REG_SZ || ValueType == REG_MULTI_SZ ) { if ((uData.Buffer = (PWSTR)malloc(WORK_BUFFER_SIZE)) == NULL) { free( uValueName.Buffer ); return(STATUS_NO_MEMORY); } fallocatedUdata = TRUE; uData.MaximumLength = WORK_BUFFER_SIZE; // // Need to convert the value data from ASCII to unicode // before writing it to the registry // aData.Length = (USHORT)ValueLength; aData.MaximumLength = aData.Length; aData.Buffer = ValueData; RtlAnsiStringToUnicodeString(&uData, &aData, FALSE); } else { uData.Buffer = (PWCHAR)ValueData; uData.Length = (USHORT)ValueLength; } status = NtSetValueKey(KeyHandle, &uValueName, 0, ValueType, uData.Buffer, uData.Length ); if ( fallocatedUdata ) { free( uData.Buffer ); } free(uValueName.Buffer); return status; } FILE * SockOpenNetworkDataBase( IN char *Database, OUT char *Pathname, IN int PathnameLen, IN char *OpenFlags ) { PUCHAR temp; HANDLE myKey; NTSTATUS status; ULONG myType; // // Try to open both TCP/IP parameters keys, both old stack and new // stack. // status = SockOpenKeyEx(&myKey, VTCPPARM, NTCPPARM, TCPPARM); if (!NT_SUCCESS(status)) { SetLastError( ERROR_CANTOPEN ); return(NULL); } if ((temp=malloc(WORK_BUFFER_SIZE))==NULL) { SetLastError( ERROR_NOT_ENOUGH_MEMORY ); NtClose(myKey); return(NULL); } status = SockGetSingleValue(myKey, "DatabasePath", temp, &myType, WORK_BUFFER_SIZE); NtClose(myKey); if (!NT_SUCCESS(status)) { SetLastError( ERROR_CANTREAD ); free(temp); return(NULL); } if ( ((int) (strlen(temp) + strlen(Database) + 2)) > PathnameLen) { SetLastError( ERROR_INSUFFICIENT_BUFFER ); free(temp); return(NULL); } strcpy(Pathname, temp); strcat(Pathname, "\\"); strcat(Pathname, Database); free(temp); return(fopen(Pathname, OpenFlags)); }