/*++ Copyright (c) 1992 Microsoft Corporation Module Name: errorlog.c Abstract: This module implements the error logging in the rdbss. Author: Manny Weiser (mannyw) 11-Feb-92 Revision History: Joe Linn (joelinn) 23-feb-95 Convert for rdbss --*/ #include "precomp.h" #pragma hdrstop #include #include // // The local debug trace level // #define MIN(__a,__b) (((__a)<=(__b))?(__a):(__b)) static UNICODE_STRING unknownId = { 6, 6, L"???" }; LONG LDWCount = 0; NTSTATUS LDWLastStatus; LARGE_INTEGER LDWLastTime; PVOID LDWContext; VOID RxLogEventWithAnnotation( IN PRDBSS_DEVICE_OBJECT DeviceObject, IN ULONG Id, IN NTSTATUS NtStatus, IN PVOID RawDataBuffer, IN USHORT RawDataLength, IN PUNICODE_STRING Annotations, IN ULONG AnnotationCount ) /*++ Routine Description: This function allocates an I/O error log record, fills it in and writes it to the I/O error log. --*/ { PIO_ERROR_LOG_PACKET ErrorLogEntry; ULONG AnnotationStringLength = 0; ULONG i; PWCHAR Buffer; USHORT PaddedRawDataLength = 0; for ( i = 0; i < AnnotationCount ; i++ ) { AnnotationStringLength += (Annotations[i].Length + sizeof(WCHAR)); } // // pad the raw data buffer so that the insertion string starts // on an even address. // if ( ARGUMENT_PRESENT( RawDataBuffer ) ) { PaddedRawDataLength = (RawDataLength + 1) & ~1; } ErrorLogEntry = IoAllocateErrorLogEntry( (PDEVICE_OBJECT)DeviceObject, (UCHAR)(sizeof(IO_ERROR_LOG_PACKET) + PaddedRawDataLength + AnnotationStringLength) ); if (ErrorLogEntry != NULL) { // // Fill in the error log entry // ErrorLogEntry->ErrorCode = Id; ErrorLogEntry->MajorFunctionCode = 0; ErrorLogEntry->RetryCount = 0; ErrorLogEntry->UniqueErrorValue = 0; ErrorLogEntry->FinalStatus = NtStatus; ErrorLogEntry->IoControlCode = 0; ErrorLogEntry->DeviceOffset.QuadPart = 0; ErrorLogEntry->DumpDataSize = RawDataLength; ErrorLogEntry->StringOffset = (USHORT)(FIELD_OFFSET(IO_ERROR_LOG_PACKET, DumpData) + PaddedRawDataLength); ErrorLogEntry->NumberOfStrings = (USHORT)AnnotationCount; ErrorLogEntry->SequenceNumber = 0; // // Append the extra information. // if ( ARGUMENT_PRESENT( RawDataBuffer ) ) { RtlCopyMemory( ErrorLogEntry->DumpData, RawDataBuffer, RawDataLength ); } Buffer = (PWCHAR)((PCHAR)ErrorLogEntry->DumpData + PaddedRawDataLength); for ( i = 0; i < AnnotationCount ; i++ ) { RtlCopyMemory( Buffer, Annotations[i].Buffer, Annotations[i].Length ); Buffer += (Annotations[i].Length/2); *Buffer++ = L'\0'; } // // Write the entry // IoWriteErrorLogEntry(ErrorLogEntry); } } VOID RxLogEventWithBufferDirect ( IN PRDBSS_DEVICE_OBJECT DeviceObject, IN PUNICODE_STRING OriginatorId, IN ULONG EventId, IN NTSTATUS Status, IN PVOID DataBuffer, IN USHORT DataBufferLength, IN ULONG LineNumber ) { ULONG LocalBuffer[ 20 ]; if( !ARGUMENT_PRESENT( OriginatorId ) || OriginatorId->Length == 0 ) { OriginatorId = &unknownId; } LocalBuffer[0] = Status; LocalBuffer[1] = LineNumber; RtlCopyMemory( &LocalBuffer[2], DataBuffer, MIN( DataBufferLength, sizeof( LocalBuffer ) - 2*sizeof( LocalBuffer[0] ) ) ); RxLogEventWithAnnotation( DeviceObject, EventId, Status, LocalBuffer, (USHORT)MIN( DataBufferLength + sizeof( LocalBuffer[0] ), sizeof( LocalBuffer ) ), OriginatorId, 1 ); } VOID RxLogEventDirect ( IN PRDBSS_DEVICE_OBJECT DeviceObject, IN PUNICODE_STRING OriginatorId, IN ULONG EventId, IN NTSTATUS Status, IN ULONG Line ) /*++ Routine Description: This function logs an error. You should use the 'RdrLogFailure' macro instead of calling this routine directly. Arguments: Status is the status code showing the failure Line is where it happened Return Value: None. --*/ { ULONG LineAndStatus[2]; LineAndStatus[0] = Line; LineAndStatus[1] = Status; if( !ARGUMENT_PRESENT( OriginatorId ) || OriginatorId->Length == 0 ) { OriginatorId = &unknownId; } RxLogEventWithAnnotation( DeviceObject, EventId, Status, &LineAndStatus, sizeof(LineAndStatus), OriginatorId, 1 ); } BOOLEAN RxCcLogError( IN PDEVICE_OBJECT DeviceObject, IN PUNICODE_STRING FileName, IN NTSTATUS Error, IN NTSTATUS DeviceError, IN UCHAR IrpMajorCode, IN PVOID Context ) /*++ Routine Description: This routine writes an eventlog entry to the eventlog. Arguments: DeviceObject - The device object who owns the file where it occurred. FileName - The filename to use in logging the error (usually the DOS-side name) Error - The error to log in the eventlog record DeviceError - The actual error that occured in the device - will be logged as user data Return Value: True if successful, false if internal memory allocation failed --*/ { UCHAR ErrorPacketLength; UCHAR BasePacketLength; ULONG StringLength; PIO_ERROR_LOG_PACKET ErrorLogEntry = NULL; BOOLEAN Result = FALSE; PWCHAR String; PAGED_CODE(); // // Get our error packet, holding the string and status code. Note we log against the // true filesystem if this is available. // // The sizing of the packet is a bit slimy since the dumpdata is already grown by a // ULONG onto the end of the packet. Since NTSTATUS is ULONG, well, we just work in // place. // BasePacketLength = sizeof(IO_ERROR_LOG_PACKET); if ((BasePacketLength + FileName->Length + sizeof(WCHAR)) <= ERROR_LOG_MAXIMUM_SIZE) { ErrorPacketLength = (UCHAR)(BasePacketLength + FileName->Length + sizeof(WCHAR)); } else { ErrorPacketLength = ERROR_LOG_MAXIMUM_SIZE; } if( Error == IO_LOST_DELAYED_WRITE ) { IoRaiseInformationalHardError( STATUS_LOST_WRITEBEHIND_DATA, FileName, NULL ); // Increment the CC counter here! InterlockedIncrement( &LDWCount ); KeQuerySystemTime( &LDWLastTime ); LDWLastStatus = DeviceError; LDWContext = Context; } ErrorLogEntry = (PIO_ERROR_LOG_PACKET) IoAllocateErrorLogEntry( DeviceObject, ErrorPacketLength ); if (ErrorLogEntry) { // // Fill in the nonzero members of the packet. // ErrorLogEntry->MajorFunctionCode = IrpMajorCode; ErrorLogEntry->ErrorCode = Error; ErrorLogEntry->FinalStatus = DeviceError; ErrorLogEntry->DumpDataSize = sizeof(NTSTATUS); RtlCopyMemory( &ErrorLogEntry->DumpData, &DeviceError, sizeof(NTSTATUS) ); // // The filename string is appended to the end of the error log entry. We may // have to smash the middle to fit it in the limited space. // StringLength = ErrorPacketLength - BasePacketLength - sizeof(WCHAR); ASSERT(!(StringLength % sizeof(WCHAR))); String = (PWCHAR) ((PUCHAR)ErrorLogEntry + BasePacketLength); ErrorLogEntry->NumberOfStrings = 1; ErrorLogEntry->StringOffset = BasePacketLength; // // If the name does not fit in the packet, divide the name equally to the // prefix and suffix, with an ellipsis " .. " (4 wide characters) to indicate // the loss. // if (StringLength < FileName->Length) { // // Remember, prefix + " .. " + suffix is the length. Calculate by figuring // the prefix and then get the suffix by whacking the ellipsis and prefix off // the total. // ULONG NamePrefixSegmentLength = ((StringLength/sizeof(WCHAR))/2 - 2)*sizeof(WCHAR); ULONG NameSuffixSegmentLength = StringLength - 4*sizeof(WCHAR) - NamePrefixSegmentLength; ASSERT(!(NamePrefixSegmentLength % sizeof(WCHAR))); ASSERT(!(NameSuffixSegmentLength % sizeof(WCHAR))); RtlCopyMemory( String, FileName->Buffer, NamePrefixSegmentLength ); String = (PWCHAR)((PCHAR)String + NamePrefixSegmentLength); RtlCopyMemory( String, L" .. ", 4*sizeof(WCHAR) ); String += 4; RtlCopyMemory( String, (PUCHAR)FileName->Buffer + FileName->Length - NameSuffixSegmentLength, NameSuffixSegmentLength ); String = (PWCHAR)((PCHAR)String + NameSuffixSegmentLength); } else { RtlCopyMemory( String, FileName->Buffer, FileName->Length ); String += FileName->Length/sizeof(WCHAR); } // // Null terminate the string and send the packet. // *String = L'\0'; IoWriteErrorLogEntry( ErrorLogEntry ); Result = TRUE; } return Result; }