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/* Copyright (C) 2021 Free Software Foundation, Inc.
Contributed by Oracle.
This file is part of GNU Binutils.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
#ifndef _HEAPDATA_H
#define _HEAPDATA_H
#include "gp-defs.h"
#include "gp-time.h"
#include "vec.h"
#include "data_pckts.h"
#include "Histable.h"
#define TOTAL_HEAPNAME NTXT("<Total>")
#define TOTAL_STACK_ID 0
#define _1KB 1024
#define _8KB 8192
#define _32KB 32768
#define _128KB 131072
#define _256KB 262144
#define _512KB 524288
#define _1000KB 1048576
#define _10MB 10485760
#define _100MB 104857600
#define _1GB 1073741824
#define _10GB 10737418240
#define _100GB 107374182400
#define _1TB 1099511627776
#define _10TB 10995116277760
class HeapData : public Histable
{
friend class HeapActivity;
public:
HeapData (char *sName);
HeapData (HeapData *hData);
~HeapData ();
char *get_raw_name (Histable::NameFormat nfmt);
void init ();
void setStackName (char* sName);
void setPeakMemUsage (int64_t pmu, uint64_t sId, hrtime_t ts, int procId, int uei);
virtual char *get_name (Histable::NameFormat nfmt);
virtual void set_name (char * _name);
virtual Histable *convertto (Histable_type, Histable* = NULL);
virtual Histable_type
get_type ()
{
return histType;
}
virtual uint64_t
get_addr ()
{
return stackId;
}
uint64_t
get_index ()
{
return stackId;
}
char *
getStackName ()
{
return stackName;
}
void
addAllocEvent (uint64_t nb)
{
allocBytes += nb;
allocCnt++;
}
uint64_t
getAllocBytes ()
{
return allocBytes;
}
int32_t
getAllocCnt ()
{
return allocCnt;
}
void
addLeakEvent (uint64_t nb)
{
leakBytes += nb;
leakCnt++;
}
uint64_t
getLeakBytes ()
{
return leakBytes;
}
int32_t
getLeakCnt ()
{
return leakCnt;
}
void
setStackId (uint64_t sId)
{
stackId = sId;
}
uint64_t
getStackId ()
{
return stackId;
}
void
setTimestamp (hrtime_t ts)
{
timestamp = ts;
}
hrtime_t
getTimestamp ()
{
return timestamp;
}
void
setHistType (Histable::Type hType)
{
histType = hType;
}
Histable::Type
getHistType ()
{
return histType;
}
int64_t
getPeakMemUsage ()
{
return peakMemUsage;
}
Vector<uint64_t> *
getPeakStackIds ()
{
return peakStackIds;
}
Vector<hrtime_t> *
getPeakTimestamps ()
{
return peakTimestamps;
}
void
setPid (int procId)
{
pid = procId;
}
int
getPid ()
{
return pid;
}
void
setUserExpId (int uei)
{
userExpId = uei;
}
int
getUserExpId ()
{
return userExpId;
}
void setAllocStat (int64_t nb);
int64_t
getASmallestBytes ()
{
return aSmallestBytes;
}
int64_t
getALargestBytes ()
{
return aLargestBytes;
}
int32_t
getA0KB1KBCnt ()
{
return a0KB1KBCnt;
}
int32_t
getA1KB8KBCnt ()
{
return a1KB8KBCnt;
}
int32_t
getA8KB32KBCnt ()
{
return a8KB32KBCnt;
}
int32_t
getA32KB128KBCnt ()
{
return a32KB128KBCnt;
}
int32_t
getA128KB256KBCnt ()
{
return a128KB256KBCnt;
}
int32_t
getA256KB512KBCnt ()
{
return a256KB512KBCnt;
}
int32_t
getA512KB1000KBCnt ()
{
return a512KB1000KBCnt;
}
int32_t
getA1000KB10MBCnt ()
{
return a1000KB10MBCnt;
}
int32_t
getA10MB100MBCnt ()
{
return a10MB100MBCnt;
}
int32_t
getA100MB1GBCnt ()
{
return a100MB1GBCnt;
}
int32_t
getA1GB10GBCnt ()
{
return a1GB10GBCnt;
}
int32_t
getA10GB100GBCnt ()
{
return a10GB100GBCnt;
}
int32_t
getA100GB1TBCnt ()
{
return a100GB1TBCnt;
}
int32_t
getA1TB10TBCnt ()
{
return a1TB10TBCnt;
}
void setLeakStat (int64_t nb);
int64_t
getLSmallestBytes ()
{
return lSmallestBytes;
}
int64_t
getLLargestBytes ()
{
return lLargestBytes;
}
int32_t
getL0KB1KBCnt ()
{
return l0KB1KBCnt;
}
int32_t
getL1KB8KBCnt ()
{
return l1KB8KBCnt;
}
int32_t
getL8KB32KBCnt ()
{
return l8KB32KBCnt;
}
int32_t
getL32KB128KBCnt ()
{
return l32KB128KBCnt;
}
int32_t
getL128KB256KBCnt ()
{
return l128KB256KBCnt;
}
int32_t
getL256KB512KBCnt ()
{
return l256KB512KBCnt;
}
int32_t
getL512KB1000KBCnt ()
{
return l512KB1000KBCnt;
}
int32_t
getL1000KB10MBCnt ()
{
return l1000KB10MBCnt;
}
int32_t
getL10MB100MBCnt ()
{
return l10MB100MBCnt;
}
int32_t
getL100MB1GBCnt ()
{
return l100MB1GBCnt;
}
int32_t
getL1GB10GBCnt ()
{
return l1GB10GBCnt;
}
int32_t
getL10GB100GBCnt ()
{
return l10GB100GBCnt;
}
int32_t
getL100GB1TBCnt ()
{
return l100GB1TBCnt;
}
int32_t
getL1TB10TBCnt ()
{
return l1TB10TBCnt;
}
private:
char *stackName; // stack name
uint64_t allocBytes; // The total bytes allocated
uint64_t leakBytes; // The total bytes leaked
int32_t allocCnt; // The alloc count
int32_t leakCnt; // The leak count
Histable::Type histType; // The Histable type: HEAPCALLSTACK
int64_t peakMemUsage; // Keep track of peak memory usage
uint64_t stackId;
Vector<uint64_t> *peakStackIds; // The peak memory usage stack ids
hrtime_t timestamp;
Vector<hrtime_t> *peakTimestamps; // The peak data
int pid; // The process id
int userExpId; // The experiment id
int64_t aSmallestBytes;
int64_t aLargestBytes;
int32_t a0KB1KBCnt;
int32_t a1KB8KBCnt;
int32_t a8KB32KBCnt;
int32_t a32KB128KBCnt;
int32_t a128KB256KBCnt;
int32_t a256KB512KBCnt;
int32_t a512KB1000KBCnt;
int32_t a1000KB10MBCnt;
int32_t a10MB100MBCnt;
int32_t a100MB1GBCnt;
int32_t a1GB10GBCnt;
int32_t a10GB100GBCnt;
int32_t a100GB1TBCnt;
int32_t a1TB10TBCnt;
int64_t lSmallestBytes;
int64_t lLargestBytes;
int32_t l0KB1KBCnt;
int32_t l1KB8KBCnt;
int32_t l8KB32KBCnt;
int32_t l32KB128KBCnt;
int32_t l128KB256KBCnt;
int32_t l256KB512KBCnt;
int32_t l512KB1000KBCnt;
int32_t l1000KB10MBCnt;
int32_t l10MB100MBCnt;
int32_t l100MB1GBCnt;
int32_t l1GB10GBCnt;
int32_t l10GB100GBCnt;
int32_t l100GB1TBCnt;
int32_t l1TB10TBCnt;
};
#endif
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