/** @file
  * Trace reporting for the Dp utility.
  *
  * Copyright (c) 2009-2010, Intel Corporation. All rights reserved.<BR>
  * This program and the accompanying materials
  * are licensed and made available under the terms and conditions of the BSD License
  * which accompanies this distribution.  The full text of the license may be found at
  * http://opensource.org/licenses/bsd-license.php
  *
  * THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
  * WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
**/

#include <Library/BaseLib.h>
#include <Library/BaseMemoryLib.h>
#include <Library/MemoryAllocationLib.h>
#include <Library/DebugLib.h>
#include <Library/UefiBootServicesTableLib.h>
#include <Library/TimerLib.h>
#include <Library/PeCoffGetEntryPointLib.h>
#include <Library/PerformanceLib.h>
#include <Library/PrintLib.h>
#include <Library/HiiLib.h>
#include <Library/PcdLib.h>

#include <Guid/Performance.h>

#include "Dp.h"
#include "Literals.h"
#include "DpInternal.h"

/** Collect verbose statistics about the logged performance measurements.
  *
  * General Summary information for all Trace measurements is gathered and
  * stored within the SummaryData structure.  This information is both
  * used internally by subsequent reporting functions, and displayed
  * at the end of verbose reports.
  *
  * @pre  The SummaryData and CumData structures must be initialized
  *       prior to calling this function.
  *
  * @post The SummaryData and CumData structures contain statistics for the
  *       current performance logs.
**/
VOID
GatherStatistics(
  VOID
)
{
  MEASUREMENT_RECORD        Measurement;
  UINT64                    Duration;
  UINTN                     LogEntryKey;
  UINTN                     TIndex;

  LogEntryKey = 0;
  while ((LogEntryKey = GetPerformanceMeasurement (
                        LogEntryKey,
                        &Measurement.Handle,
                        &Measurement.Token,
                        &Measurement.Module,
                        &Measurement.StartTimeStamp,
                        &Measurement.EndTimeStamp)) != 0)
  {
    ++SummaryData.NumTrace;           // Count the number of TRACE Measurement records
    if (Measurement.EndTimeStamp == 0) {
      ++SummaryData.NumIncomplete;    // Count the incomplete records
      continue;
    }

    if (Measurement.Handle != NULL) {
      ++SummaryData.NumHandles;       // Count the number of measurements with non-NULL handles
    }

    if (IsPhase( &Measurement)) {
      ++SummaryData.NumSummary;       // Count the number of major phases
    }
    else {  // !IsPhase(...
      if(Measurement.Handle == NULL) {
        ++SummaryData.NumGlobal;
      }
    }

    if (AsciiStrnCmp (Measurement.Token, ALit_PEIM, PERF_TOKEN_LENGTH) == 0) {
      ++SummaryData.NumPEIMs;         // Count PEIM measurements
    }

    Duration = GetDuration (&Measurement);
    TIndex = GetCumulativeItem (&Measurement);
    if (TIndex >= 0) {
      CumData[TIndex].Duration += Duration;
      CumData[TIndex].Count++;
      if ( Duration < CumData[TIndex].MinDur ) {
        CumData[TIndex].MinDur = Duration;
      }
      if ( Duration > CumData[TIndex].MaxDur ) {
        CumData[TIndex].MaxDur = Duration;
      }
    }
  }
}

/** Gather and print ALL Trace Records.
  *
  * Displays all "interesting" Trace measurements in order.<BR>
  * The number of records displayed is controlled by:
  *   - records with a duration less than mInterestThreshold microseconds are not displayed.
  *   - No more than Limit records are displayed.  A Limit of zero will not limit the output.
  *   - If the ExcludeFlag is TRUE, records matching entries in the CumData array are not
  *     displayed.
  *
  * @pre    The mInterestThreshold global variable is set to the shortest duration to be printed.
  *         The mGaugeString and mUnicodeToken global arrays are used for temporary string storage.
  *         They must not be in use by a calling function.
  *
  * @param[in]    Limit       The number of records to print.  Zero is ALL.
  * @param[in]    ExcludeFlag TRUE to exclude individual Cumulative items from display.
  *
**/
VOID
DumpAllTrace(
  IN UINTN             Limit,
  IN BOOLEAN           ExcludeFlag
  )
{
  MEASUREMENT_RECORD        Measurement;
  UINT64                    ElapsedTime;
  UINT64                    Duration;
  const CHAR16              *IncFlag;
  UINTN                     LogEntryKey;
  UINTN                     Count;
  UINTN                     Index;
  UINTN                     TIndex;

  EFI_HANDLE                *HandleBuffer;
  UINTN                     Size;
  EFI_HANDLE                TempHandle;
  EFI_STATUS                Status;

  IncFlag = HiiGetString (gHiiHandle, STRING_TOKEN (STR_DP_SECTION_ALL), NULL);
  PrintToken( STRING_TOKEN (STR_DP_SECTION_HEADER),
              (IncFlag == NULL) ? ALit_UNKNOWN: IncFlag);

  // Get Handle information
  //
  Size = 0;
  HandleBuffer = NULL;
  Status  = gBS->LocateHandle (AllHandles, NULL, NULL, &Size, &TempHandle);
  if (Status == EFI_BUFFER_TOO_SMALL) {
    HandleBuffer = AllocatePool (Size);
    ASSERT (HandleBuffer != NULL);
    Status  = gBS->LocateHandle (AllHandles, NULL, NULL, &Size, HandleBuffer);
  }
  if (EFI_ERROR (Status)) {
    PrintToken (STRING_TOKEN (STR_DP_HANDLES_ERROR), Status);
  }
  else {
    // We have successfully populated the HandleBuffer
    // Display ALL Measurement Records
    //    Up to Limit lines displayed
    //    Display only records with Elapsed times >= mInterestThreshold
    //    Display driver names in Module field for records with Handles.
    //
    PrintToken (STRING_TOKEN (STR_DP_ALL_HEADR) );
    PrintToken (STRING_TOKEN (STR_DP_DASHES) );

    LogEntryKey = 0;
    Count = 0;
    Index = 0;
    while ( WITHIN_LIMIT(Count, Limit) &&
            ((LogEntryKey = GetPerformanceMeasurement (
                            LogEntryKey,
                            &Measurement.Handle,
                            &Measurement.Token,
                            &Measurement.Module,
                            &Measurement.StartTimeStamp,
                            &Measurement.EndTimeStamp)) != 0)
          )
    {
      ++Index;    // Count every record.  First record is 1.
      ElapsedTime = 0;
      if (Measurement.EndTimeStamp != 0) {
        Duration = GetDuration (&Measurement);
        ElapsedTime = DurationInMicroSeconds ( Duration );
        IncFlag = STR_DP_COMPLETE;
      }
      else {
        IncFlag = STR_DP_INCOMPLETE;  // Mark incomplete records
      }
      if ((ElapsedTime < mInterestThreshold)                 ||
          ((ExcludeFlag) && (GetCumulativeItem(&Measurement) >= 0))
         ) {      // Ignore "uninteresting" or excluded records
        continue;
      }
      if (Measurement.EndTimeStamp == 0) {
        ElapsedTime = Measurement.StartTimeStamp;
      }
      ++Count;    // Count the number of records printed

      // If Handle is non-zero, see if we can determine a name for the driver
      AsciiStrToUnicodeStr (Measurement.Module, mGaugeString); // Use Module by default
      AsciiStrToUnicodeStr (Measurement.Token, mUnicodeToken);
      if (Measurement.Handle != NULL) {
        // See if the Handle is in the HandleBuffer
        for (TIndex = 0; TIndex < (Size / sizeof(HandleBuffer[0])); TIndex++) {
          if (Measurement.Handle == HandleBuffer[TIndex]) {
            GetNameFromHandle (HandleBuffer[TIndex]);
            break;
          }
        }
      }
      // Ensure that the argument strings are not too long.
      mGaugeString[31] = 0;
      mUnicodeToken[18] = 0;

      PrintToken( STRING_TOKEN (STR_DP_ALL_STATS),
        Index,      // 1 based, Which measurement record is being printed
        IncFlag,
        Measurement.Handle,
        mGaugeString,
        mUnicodeToken,
        ElapsedTime
      );
    }
  }
  FreePool (HandleBuffer);
}

/** Gather and print Raw Trace Records.
  *
  * All Trace measurements with a duration greater than or equal to
  * mInterestThreshold are printed without interpretation.
  *
  * The number of records displayed is controlled by:
  *   - records with a duration less than mInterestThreshold microseconds are not displayed.
  *   - No more than Limit records are displayed.  A Limit of zero will not limit the output.
  *   - If the ExcludeFlag is TRUE, records matching entries in the CumData array are not
  *     displayed.
  *
  * @pre    The mInterestThreshold global variable is set to the shortest duration to be printed.
  *
  * @param[in]    Limit       The number of records to print.  Zero is ALL.
  * @param[in]    ExcludeFlag TRUE to exclude individual Cumulative items from display.
  *
**/
VOID
DumpRawTrace(
  IN UINTN          Limit,
  IN BOOLEAN        ExcludeFlag
  )
{
  MEASUREMENT_RECORD        Measurement;
  UINT64                    ElapsedTime;
  UINT64                    Duration;
  UINTN                     LogEntryKey;
  UINTN                     Count;
  UINTN                     Index;

  EFI_STRING    StringPtr;

  StringPtr = HiiGetString (gHiiHandle, STRING_TOKEN (STR_DP_SECTION_RAWTRACE), NULL);
  PrintToken( STRING_TOKEN (STR_DP_SECTION_HEADER),
              (StringPtr == NULL) ? ALit_UNKNOWN: StringPtr);

  PrintToken (STRING_TOKEN (STR_DP_RAW_HEADR) );
  PrintToken (STRING_TOKEN (STR_DP_RAW_DASHES) );

  LogEntryKey = 0;
  Count = 0;
  Index = 0;
  while ( WITHIN_LIMIT(Count, Limit) &&
          ((LogEntryKey = GetPerformanceMeasurement (
                          LogEntryKey,
                          &Measurement.Handle,
                          &Measurement.Token,
                          &Measurement.Module,
                          &Measurement.StartTimeStamp,
                          &Measurement.EndTimeStamp)) != 0)
        )
  {
    ++Index;    // Count every record.  First record is 1.
    ElapsedTime = 0;
    if (Measurement.EndTimeStamp != 0) {
      Duration = GetDuration (&Measurement);
      ElapsedTime = DurationInMicroSeconds ( Duration );
    }
    if ((ElapsedTime < mInterestThreshold)                 ||
        ((ExcludeFlag) && (GetCumulativeItem(&Measurement) >= 0))
        ) { // Ignore "uninteresting" or Excluded records
      continue;
    }
    ++Count;    // Count the number of records printed
    PrintToken (STRING_TOKEN (STR_DP_RAW_VARS),
      Index,      // 1 based, Which measurement record is being printed
      Measurement.Handle,
      Measurement.StartTimeStamp,
      Measurement.EndTimeStamp,
      Measurement.Token,
      Measurement.Module
    );
  }
}

/** Gather and print Major Phase metrics.
  *
  * @param[in]    Ticker      The timer value for the END of Shell phase
  *
**/
VOID
ProcessPhases(
  UINT64            Ticker
  )
{
  MEASUREMENT_RECORD        Measurement;
  UINT64                    BdsTimeoutValue = 0;
  UINT64                    SecTime         = 0;
  UINT64                    PeiTime         = 0;
  UINT64                    DxeTime         = 0;
  UINT64                    BdsTime         = 0;
  UINT64                    ShellTime       = 0;
  UINT64                    ElapsedTime;
  UINT64                    Duration;
  UINT64                    Total;
  EFI_STRING                StringPtr;
  UINTN                     LogEntryKey;

  //
  // Get Execution Phase Statistics
  //
  StringPtr = HiiGetString (gHiiHandle, STRING_TOKEN (STR_DP_SECTION_PHASES), NULL);
  PrintToken( STRING_TOKEN (STR_DP_SECTION_HEADER),
              (StringPtr == NULL) ? ALit_UNKNOWN: StringPtr);

  LogEntryKey = 0;
  while ((LogEntryKey = GetPerformanceMeasurement (
                          LogEntryKey,
                          &Measurement.Handle,
                          &Measurement.Token,
                          &Measurement.Module,
                          &Measurement.StartTimeStamp,
                          &Measurement.EndTimeStamp)) != 0)
  {
    if (AsciiStrnCmp (Measurement.Token, ALit_SHELL, PERF_TOKEN_LENGTH) == 0) {
      Measurement.EndTimeStamp = Ticker;
    }
    if (Measurement.EndTimeStamp == 0) { // Skip "incomplete" records
      continue;
    }
    Duration = GetDuration (&Measurement);
    if (   Measurement.Handle != NULL
        && (AsciiStrnCmp (Measurement.Token, ALit_BdsTO, PERF_TOKEN_LENGTH) == 0)
       )
    {
      BdsTimeoutValue = Duration;
    } else if (AsciiStrnCmp (Measurement.Token, ALit_SEC, PERF_TOKEN_LENGTH) == 0) {
      SecTime     = Duration;
    } else if (AsciiStrnCmp (Measurement.Token, ALit_PEI, PERF_TOKEN_LENGTH) == 0) {
      PeiTime     = Duration;
    } else if (AsciiStrnCmp (Measurement.Token, ALit_DXE, PERF_TOKEN_LENGTH) == 0) {
      DxeTime      = Duration;
    } else if (AsciiStrnCmp (Measurement.Token, ALit_BDS, PERF_TOKEN_LENGTH) == 0) {
      BdsTime      = Duration;
    } else if (AsciiStrnCmp (Measurement.Token, ALit_SHELL, PERF_TOKEN_LENGTH) == 0) {
      ShellTime    = Duration;
    }
  }

  Total = 0;

  // print SEC phase duration time
  //
  if (SecTime > 0) {
    ElapsedTime = DurationInMicroSeconds ( SecTime );     // Calculate elapsed time in microseconds
    Total += DivU64x32 (ElapsedTime, 1000);   // Accumulate time in milliseconds
    PrintToken (STRING_TOKEN (STR_DP_SEC_PHASE), ElapsedTime);
  }

  // print PEI phase duration time
  //
  if (PeiTime > 0) {
    ElapsedTime = DivU64x32 (
                    PeiTime,
                    (UINT32)TimerInfo.Frequency
                    );
    Total += ElapsedTime;
    PrintToken (STRING_TOKEN (STR_DP_PHASE_DURATION), ALit_PEI, ElapsedTime);
  }

  // print DXE phase duration time
  //
  if (DxeTime > 0) {
    ElapsedTime = DivU64x32 (
                    DxeTime,
                    (UINT32)TimerInfo.Frequency
                    );
    Total += ElapsedTime;
    PrintToken (STRING_TOKEN (STR_DP_PHASE_DURATION), ALit_DXE, ElapsedTime);
  }

  // print BDS phase duration time
  //
  if (BdsTime > 0) {
    ElapsedTime = DivU64x32 (
                    BdsTime,
                    (UINT32)TimerInfo.Frequency
                    );
    Total += ElapsedTime;
    PrintToken (STRING_TOKEN (STR_DP_PHASE_DURATION), ALit_BDS, ElapsedTime);
  }

  if (BdsTimeoutValue > 0) {
    ElapsedTime = DivU64x32 (
                    BdsTimeoutValue,
                    (UINT32)TimerInfo.Frequency
                    );
    PrintToken (STRING_TOKEN (STR_DP_PHASE_BDSTO), ALit_BdsTO, ElapsedTime);
  }

  // print SHELL phase duration time
  //
  if (ShellTime > 0) {
    ElapsedTime = DivU64x32 (
                    ShellTime,
                    (UINT32)TimerInfo.Frequency
                    );
    Total += ElapsedTime;
    PrintToken (STRING_TOKEN (STR_DP_PHASE_DURATION), ALit_SHELL, ElapsedTime);
  }

  PrintToken (STRING_TOKEN (STR_DP_TOTAL_DURATION), Total);
}

/** Gather and print Handle data.
  *
  * @param[in]    ExcludeFlag   TRUE to exclude individual Cumulative items from display.
  *
  * @return       Status from a call to gBS->LocateHandle().
**/
EFI_STATUS
ProcessHandles(
  IN BOOLEAN      ExcludeFlag
  )
{
  MEASUREMENT_RECORD        Measurement;
  UINT64                    ElapsedTime;
  UINT64                    Duration;
  EFI_HANDLE                *HandleBuffer;
  EFI_STRING                StringPtr;
  UINTN                     Index;
  UINTN                     LogEntryKey;
  UINTN                     Count;
  UINTN                     Size;
  EFI_HANDLE                TempHandle;
  EFI_STATUS                Status;

  StringPtr = HiiGetString (gHiiHandle, STRING_TOKEN (STR_DP_SECTION_DRIVERS), NULL);
  PrintToken( STRING_TOKEN (STR_DP_SECTION_HEADER),
              (StringPtr == NULL) ? ALit_UNKNOWN: StringPtr);

  Size = 0;
  HandleBuffer = NULL;
  Status  = gBS->LocateHandle (AllHandles, NULL, NULL, &Size, &TempHandle);
  if (Status == EFI_BUFFER_TOO_SMALL) {
    HandleBuffer = AllocatePool (Size);
    ASSERT (HandleBuffer != NULL);
    Status  = gBS->LocateHandle (AllHandles, NULL, NULL, &Size, HandleBuffer);
  }
  if (EFI_ERROR (Status)) {
    PrintToken (STRING_TOKEN (STR_DP_HANDLES_ERROR), Status);
  }
  else {
#if DP_DEBUG == 2
    Print (L"There are %,d Handles defined.\n", (Size / sizeof(HandleBuffer[0])));
#endif

    PrintToken (STRING_TOKEN (STR_DP_HANDLE_GUID) );
    PrintToken (STRING_TOKEN (STR_DP_DASHES) );

    LogEntryKey = 0;
    Count   = 0;
    while ((LogEntryKey = GetPerformanceMeasurement (
                            LogEntryKey,
                            &Measurement.Handle,
                            &Measurement.Token,
                            &Measurement.Module,
                            &Measurement.StartTimeStamp,
                            &Measurement.EndTimeStamp)) != 0)
    {
      Count++;
      Duration = GetDuration (&Measurement);
      ElapsedTime = DurationInMicroSeconds ( Duration );
      if ((ElapsedTime < mInterestThreshold)                 ||
          (Measurement.EndTimeStamp == 0)                    ||
          (Measurement.Handle == NULL)                       ||
          ((ExcludeFlag) && (GetCumulativeItem(&Measurement) >= 0))
         ) { // Ignore "uninteresting" or excluded records
        continue;
      }
      mGaugeString[0] = 0;    // Empty driver name by default
      AsciiStrToUnicodeStr (Measurement.Token, mUnicodeToken);
      // See if the Handle is in the HandleBuffer
      for (Index = 0; Index < (Size / sizeof(HandleBuffer[0])); Index++) {
        if (Measurement.Handle == HandleBuffer[Index]) {
          GetNameFromHandle (HandleBuffer[Index]); // Name is put into mGaugeString
          break;
        }
      }
      // Ensure that the argument strings are not too long.
      mGaugeString[31] = 0;
      mUnicodeToken[18] = 0;
      if (mGaugeString[0] != 0) {
        // Display the record if it has a valid handle.
        PrintToken (
          STRING_TOKEN (STR_DP_HANDLE_VARS),
          Count,      // 1 based, Which measurement record is being printed
          Index + 1,  // 1 based, Which handle is being printed
          mGaugeString,
          mUnicodeToken,
          ElapsedTime
        );
      }
    }
  }
  FreePool (HandleBuffer);
  return Status;
}

/** Gather and print PEIM data.
  *
  * Only prints complete PEIM records
  *
**/
VOID
ProcessPeims(
  VOID
)
{
  MEASUREMENT_RECORD        Measurement;
  UINT64                    Duration;
  UINT64                    ElapsedTime;
  EFI_STRING                StringPtr;
  UINTN                     LogEntryKey;
  UINTN                     TIndex;


  StringPtr = HiiGetString (gHiiHandle, STRING_TOKEN (STR_DP_SECTION_PEIMS), NULL);
  PrintToken( STRING_TOKEN (STR_DP_SECTION_HEADER),
              (StringPtr == NULL) ? ALit_UNKNOWN: StringPtr);

  PrintToken (STRING_TOKEN (STR_DP_PEIM_SECTION));
  PrintToken (STRING_TOKEN (STR_DP_DASHES));
  TIndex  = 0;
  LogEntryKey = 0;
  while ((LogEntryKey = GetPerformanceMeasurement (
                          LogEntryKey,
                          &Measurement.Handle,
                          &Measurement.Token,
                          &Measurement.Module,
                          &Measurement.StartTimeStamp,
                          &Measurement.EndTimeStamp)) != 0)
  {
    TIndex++;
    if ((Measurement.EndTimeStamp == 0) ||
        (AsciiStrnCmp (Measurement.Token, ALit_PEIM, PERF_TOKEN_LENGTH) != 0)
       ) {
      continue;
    }

    Duration = GetDuration (&Measurement);
    ElapsedTime = DurationInMicroSeconds ( Duration );  // Calculate elapsed time in microseconds
    if (ElapsedTime >= mInterestThreshold) {
      GetNameFromHandle (Measurement.Handle);           // Name placed in mGaugeString
      PrintToken (STRING_TOKEN (STR_DP_PEIM_STAT2),
            TIndex,   // 1 based, Which measurement record is being printed
            Measurement.Handle,
            mGaugeString,
            ElapsedTime
      );
    }
  }
}

/** Gather and print global data.
  *
  * Strips out incomplete or "Execution Phase" records
  * Only prints records where Handle is NULL
  * Increment TIndex for every record, even skipped ones, so that we have an
  * indication of every measurement record taken.
  *
  *
**/
VOID
ProcessGlobal(
  VOID
)
{
  MEASUREMENT_RECORD        Measurement;
  UINT64                    Duration;
  UINT64                    ElapsedTime;
  EFI_STRING                StringPtr;
  UINTN                     LogEntryKey;
  UINTN                     Index;        // Index, or number, of the measurement record being processed

  StringPtr = HiiGetString (gHiiHandle, STRING_TOKEN (STR_DP_SECTION_GENERAL), NULL);
  PrintToken( STRING_TOKEN (STR_DP_SECTION_HEADER),
              (StringPtr == NULL) ? ALit_UNKNOWN: StringPtr);

  PrintToken (STRING_TOKEN (STR_DP_GLOBAL_SECTION));
  PrintToken (STRING_TOKEN (STR_DP_DASHES));

  Index = 1;
  LogEntryKey = 0;

  while ((LogEntryKey = GetPerformanceMeasurement (
                          LogEntryKey,
                          &Measurement.Handle,
                          &Measurement.Token,
                          &Measurement.Module,
                          &Measurement.StartTimeStamp,
                          &Measurement.EndTimeStamp)) != 0)
  {
    AsciiStrToUnicodeStr (Measurement.Module, mGaugeString);
    AsciiStrToUnicodeStr (Measurement.Token, mUnicodeToken);
    if ( ! ( IsPhase( &Measurement)  ||
        (Measurement.Handle != NULL)      ||
        (Measurement.EndTimeStamp == 0)
        ))
    {
      Duration = GetDuration (&Measurement);
      ElapsedTime = DurationInMicroSeconds ( Duration );
      if (ElapsedTime >= mInterestThreshold) {
        PrintToken (
          STRING_TOKEN (STR_DP_FOUR_VARS_2),
          Index,
          mGaugeString,
          mUnicodeToken,
          ElapsedTime
          );
      }
    }
    Index++;
  }
}

/** Gather and print cumulative data.
  *
  * Traverse the measurement records and:<BR>
  * For each record with a Token listed in the CumData array:<BR>
  *   - Update the instance count and the total, minimum, and maximum durations.
  * Finally, print the gathered cumulative statistics.
  *
**/
VOID
ProcessCumulative(
  VOID
)
{
  UINT64                    avgval;         // the computed average duration
  EFI_STRING                StringPtr;
  UINTN                     TIndex;


  StringPtr = HiiGetString (gHiiHandle, STRING_TOKEN (STR_DP_SECTION_CUMULATIVE), NULL);
  PrintToken( STRING_TOKEN (STR_DP_SECTION_HEADER),
              (StringPtr == NULL) ? ALit_UNKNOWN: StringPtr);

  PrintToken (STRING_TOKEN (STR_DP_CUMULATIVE_SECT_1));
  PrintToken (STRING_TOKEN (STR_DP_CUMULATIVE_SECT_2));
  PrintToken (STRING_TOKEN (STR_DP_DASHES));

  for ( TIndex = 0; TIndex < NumCum; ++TIndex) {
    avgval = DivU64x32 (CumData[TIndex].Duration, CumData[TIndex].Count);
    PrintToken (STRING_TOKEN (STR_DP_CUMULATIVE_STATS),
                CumData[TIndex].Name,
                CumData[TIndex].Count,
                DurationInMicroSeconds(CumData[TIndex].Duration),
                DurationInMicroSeconds(avgval),
                DurationInMicroSeconds(CumData[TIndex].MinDur),
                DurationInMicroSeconds(CumData[TIndex].MaxDur)
               );
  }
}