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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. */
#include "config.h"
#include "CallStack.h"
#include "DbeSession.h"
#include "Exp_Layout.h"
#include "Experiment.h"
#include "Function.h"
#include "Table.h"
#include "dbe_types.h"
#include "util.h"
/*
* PrUsage is a class which wraps access to the values of prusage
* system structure. It was expanded to 64 bit entities in 2.7
* (experiment version 6 & 7).
*/
PrUsage::PrUsage ()
{
pr_tstamp = pr_create = pr_term = pr_rtime = (hrtime_t) 0;
pr_utime = pr_stime = pr_ttime = pr_tftime = pr_dftime = (hrtime_t) 0;
pr_kftime = pr_ltime = pr_slptime = pr_wtime = pr_stoptime = (hrtime_t) 0;
pr_minf = pr_majf = pr_nswap = pr_inblk = pr_oublk = 0;
pr_msnd = pr_mrcv = pr_sigs = pr_vctx = pr_ictx = pr_sysc = pr_ioch = 0;
}
/*
* Resource usage. /proc/<pid>/usage /proc/<pid>/lwp/<lwpid>/lwpusage
*/
struct timestruc_32
{ /* v8 timestruc_t */
uint32_t tv_sec; /* seconds */
uint32_t tv_nsec; /* and nanoseconds */
};
typedef struct ana_prusage
{
id_t pr_lwpid; /* lwp id. 0: process or defunct */
int pr_count; /* number of contributing lwps */
timestruc_32 pr_tstamp; /* current time stamp */
timestruc_32 pr_create; /* process/lwp creation time stamp */
timestruc_32 pr_term; /* process/lwp termination time stamp */
timestruc_32 pr_rtime; /* total lwp real (elapsed) time */
timestruc_32 pr_utime; /* user level cpu time */
timestruc_32 pr_stime; /* system call cpu time */
timestruc_32 pr_ttime; /* other system trap cpu time */
timestruc_32 pr_tftime; /* text page fault sleep time */
timestruc_32 pr_dftime; /* data page fault sleep time */
timestruc_32 pr_kftime; /* kernel page fault sleep time */
timestruc_32 pr_ltime; /* user lock wait sleep time */
timestruc_32 pr_slptime; /* all other sleep time */
timestruc_32 pr_wtime; /* wait-cpu (latency) time */
timestruc_32 pr_stoptime; /* stopped time */
timestruc_32 filltime[6]; /* filler for future expansion */
uint32_t pr_minf; /* minor page faults */
uint32_t pr_majf; /* major page faults */
uint32_t pr_nswap; /* swaps */
uint32_t pr_inblk; /* input blocks */
uint32_t pr_oublk; /* output blocks */
uint32_t pr_msnd; /* messages sent */
uint32_t pr_mrcv; /* messages received */
uint32_t pr_sigs; /* signals received */
uint32_t pr_vctx; /* voluntary context switches */
uint32_t pr_ictx; /* involuntary context switches */
uint32_t pr_sysc; /* system calls */
uint32_t pr_ioch; /* chars read and written */
uint32_t filler[10]; /* filler for future expansion */
} raw_prusage_32;
uint64_t
PrUsage::bind32Size ()
{
uint64_t bindSize = sizeof (raw_prusage_32);
return bindSize;
}
#define timestruc2hr(x) ((hrtime_t)(x).tv_sec*NANOSEC + (hrtime_t)(x).tv_nsec)
PrUsage *
PrUsage::bind32 (void *p, bool need_swap_endian)
{
if (p == NULL)
return NULL;
raw_prusage_32 pu, *tmp = (raw_prusage_32*) p;
if (need_swap_endian)
{
pu = *tmp;
tmp = &pu;
SWAP_ENDIAN (pu.pr_tstamp.tv_sec);
SWAP_ENDIAN (pu.pr_tstamp.tv_nsec);
SWAP_ENDIAN (pu.pr_create.tv_sec);
SWAP_ENDIAN (pu.pr_create.tv_nsec);
SWAP_ENDIAN (pu.pr_term.tv_sec);
SWAP_ENDIAN (pu.pr_term.tv_nsec);
SWAP_ENDIAN (pu.pr_rtime.tv_sec);
SWAP_ENDIAN (pu.pr_rtime.tv_nsec);
SWAP_ENDIAN (pu.pr_utime.tv_sec);
SWAP_ENDIAN (pu.pr_utime.tv_nsec);
SWAP_ENDIAN (pu.pr_stime.tv_sec);
SWAP_ENDIAN (pu.pr_stime.tv_nsec);
SWAP_ENDIAN (pu.pr_ttime.tv_sec);
SWAP_ENDIAN (pu.pr_ttime.tv_nsec);
SWAP_ENDIAN (pu.pr_tftime.tv_sec);
SWAP_ENDIAN (pu.pr_tftime.tv_nsec);
SWAP_ENDIAN (pu.pr_dftime.tv_sec);
SWAP_ENDIAN (pu.pr_dftime.tv_nsec);
SWAP_ENDIAN (pu.pr_kftime.tv_sec);
SWAP_ENDIAN (pu.pr_kftime.tv_nsec);
SWAP_ENDIAN (pu.pr_ltime.tv_sec);
SWAP_ENDIAN (pu.pr_ltime.tv_nsec);
SWAP_ENDIAN (pu.pr_slptime.tv_sec);
SWAP_ENDIAN (pu.pr_slptime.tv_nsec);
SWAP_ENDIAN (pu.pr_wtime.tv_sec);
SWAP_ENDIAN (pu.pr_wtime.tv_nsec);
SWAP_ENDIAN (pu.pr_stoptime.tv_sec);
SWAP_ENDIAN (pu.pr_stoptime.tv_nsec);
SWAP_ENDIAN (pu.pr_minf);
SWAP_ENDIAN (pu.pr_majf);
SWAP_ENDIAN (pu.pr_nswap);
SWAP_ENDIAN (pu.pr_inblk);
SWAP_ENDIAN (pu.pr_oublk);
SWAP_ENDIAN (pu.pr_msnd);
SWAP_ENDIAN (pu.pr_mrcv);
SWAP_ENDIAN (pu.pr_sigs);
SWAP_ENDIAN (pu.pr_vctx);
SWAP_ENDIAN (pu.pr_ictx);
SWAP_ENDIAN (pu.pr_sysc);
SWAP_ENDIAN (pu.pr_ioch);
}
pr_tstamp = timestruc2hr (tmp->pr_tstamp);
pr_create = timestruc2hr (tmp->pr_create);
pr_term = timestruc2hr (tmp->pr_term);
pr_rtime = timestruc2hr (tmp->pr_rtime);
pr_utime = timestruc2hr (tmp->pr_utime);
pr_stime = timestruc2hr (tmp->pr_stime);
pr_ttime = timestruc2hr (tmp->pr_ttime);
pr_tftime = timestruc2hr (tmp->pr_tftime);
pr_dftime = timestruc2hr (tmp->pr_dftime);
pr_kftime = timestruc2hr (tmp->pr_kftime);
pr_ltime = timestruc2hr (tmp->pr_ltime);
pr_slptime = timestruc2hr (tmp->pr_slptime);
pr_wtime = timestruc2hr (tmp->pr_wtime);
pr_stoptime = timestruc2hr (tmp->pr_stoptime);
pr_minf = tmp->pr_minf;
pr_majf = tmp->pr_majf;
pr_nswap = tmp->pr_nswap;
pr_inblk = tmp->pr_inblk;
pr_oublk = tmp->pr_oublk;
pr_msnd = tmp->pr_msnd;
pr_mrcv = tmp->pr_mrcv;
pr_sigs = tmp->pr_sigs;
pr_vctx = tmp->pr_vctx;
pr_ictx = tmp->pr_ictx;
pr_sysc = tmp->pr_sysc;
pr_ioch = tmp->pr_ioch;
return this;
}
struct timestruc_64
{ /* 64-bit timestruc_t */
uint64_t tv_sec; /* seconds */
uint64_t tv_nsec; /* and nanoseconds */
};
typedef struct
{
id_t pr_lwpid; /* lwp id. 0: process or defunct */
int pr_count; /* number of contributing lwps */
timestruc_64 pr_tstamp; /* current time stamp */
timestruc_64 pr_create; /* process/lwp creation time stamp */
timestruc_64 pr_term; /* process/lwp termination time stamp */
timestruc_64 pr_rtime; /* total lwp real (elapsed) time */
timestruc_64 pr_utime; /* user level cpu time */
timestruc_64 pr_stime; /* system call cpu time */
timestruc_64 pr_ttime; /* other system trap cpu time */
timestruc_64 pr_tftime; /* text page fault sleep time */
timestruc_64 pr_dftime; /* data page fault sleep time */
timestruc_64 pr_kftime; /* kernel page fault sleep time */
timestruc_64 pr_ltime; /* user lock wait sleep time */
timestruc_64 pr_slptime; /* all other sleep time */
timestruc_64 pr_wtime; /* wait-cpu (latency) time */
timestruc_64 pr_stoptime; /* stopped time */
timestruc_64 filltime[6]; /* filler for future expansion */
uint64_t pr_minf; /* minor page faults */
uint64_t pr_majf; /* major page faults */
uint64_t pr_nswap; /* swaps */
uint64_t pr_inblk; /* input blocks */
uint64_t pr_oublk; /* output blocks */
uint64_t pr_msnd; /* messages sent */
uint64_t pr_mrcv; /* messages received */
uint64_t pr_sigs; /* signals received */
uint64_t pr_vctx; /* voluntary context switches */
uint64_t pr_ictx; /* involuntary context switches */
uint64_t pr_sysc; /* system calls */
uint64_t pr_ioch; /* chars read and written */
uint64_t filler[10]; /* filler for future expansion */
} raw_prusage_64;
uint64_t
PrUsage::bind64Size ()
{
uint64_t bindSize = sizeof (raw_prusage_64);
return bindSize;
}
PrUsage *
PrUsage::bind64 (void *p, bool need_swap_endian)
{
if (p == NULL)
{
return NULL;
}
raw_prusage_64 pu, *tmp = (raw_prusage_64*) p;
if (need_swap_endian)
{
pu = *tmp;
tmp = &pu;
SWAP_ENDIAN (pu.pr_tstamp.tv_sec);
SWAP_ENDIAN (pu.pr_tstamp.tv_nsec);
SWAP_ENDIAN (pu.pr_create.tv_sec);
SWAP_ENDIAN (pu.pr_create.tv_nsec);
SWAP_ENDIAN (pu.pr_term.tv_sec);
SWAP_ENDIAN (pu.pr_term.tv_nsec);
SWAP_ENDIAN (pu.pr_rtime.tv_sec);
SWAP_ENDIAN (pu.pr_rtime.tv_nsec);
SWAP_ENDIAN (pu.pr_utime.tv_sec);
SWAP_ENDIAN (pu.pr_utime.tv_nsec);
SWAP_ENDIAN (pu.pr_stime.tv_sec);
SWAP_ENDIAN (pu.pr_stime.tv_nsec);
SWAP_ENDIAN (pu.pr_ttime.tv_sec);
SWAP_ENDIAN (pu.pr_ttime.tv_nsec);
SWAP_ENDIAN (pu.pr_tftime.tv_sec);
SWAP_ENDIAN (pu.pr_tftime.tv_nsec);
SWAP_ENDIAN (pu.pr_dftime.tv_sec);
SWAP_ENDIAN (pu.pr_dftime.tv_nsec);
SWAP_ENDIAN (pu.pr_kftime.tv_sec);
SWAP_ENDIAN (pu.pr_kftime.tv_nsec);
SWAP_ENDIAN (pu.pr_ltime.tv_sec);
SWAP_ENDIAN (pu.pr_ltime.tv_nsec);
SWAP_ENDIAN (pu.pr_slptime.tv_sec);
SWAP_ENDIAN (pu.pr_slptime.tv_nsec);
SWAP_ENDIAN (pu.pr_wtime.tv_sec);
SWAP_ENDIAN (pu.pr_wtime.tv_nsec);
SWAP_ENDIAN (pu.pr_stoptime.tv_sec);
SWAP_ENDIAN (pu.pr_stoptime.tv_nsec);
SWAP_ENDIAN (pu.pr_minf);
SWAP_ENDIAN (pu.pr_majf);
SWAP_ENDIAN (pu.pr_nswap);
SWAP_ENDIAN (pu.pr_inblk);
SWAP_ENDIAN (pu.pr_oublk);
SWAP_ENDIAN (pu.pr_msnd);
SWAP_ENDIAN (pu.pr_mrcv);
SWAP_ENDIAN (pu.pr_sigs);
SWAP_ENDIAN (pu.pr_vctx);
SWAP_ENDIAN (pu.pr_ictx);
SWAP_ENDIAN (pu.pr_sysc);
SWAP_ENDIAN (pu.pr_ioch);
}
pr_tstamp = timestruc2hr (tmp->pr_tstamp);
pr_create = timestruc2hr (tmp->pr_create);
pr_term = timestruc2hr (tmp->pr_term);
pr_rtime = timestruc2hr (tmp->pr_rtime);
pr_utime = timestruc2hr (tmp->pr_utime);
pr_stime = timestruc2hr (tmp->pr_stime);
pr_ttime = timestruc2hr (tmp->pr_ttime);
pr_tftime = timestruc2hr (tmp->pr_tftime);
pr_dftime = timestruc2hr (tmp->pr_dftime);
pr_kftime = timestruc2hr (tmp->pr_kftime);
pr_ltime = timestruc2hr (tmp->pr_ltime);
pr_slptime = timestruc2hr (tmp->pr_slptime);
pr_wtime = timestruc2hr (tmp->pr_wtime);
pr_stoptime = timestruc2hr (tmp->pr_stoptime);
pr_minf = tmp->pr_minf;
pr_majf = tmp->pr_majf;
pr_nswap = tmp->pr_nswap;
pr_inblk = tmp->pr_inblk;
pr_oublk = tmp->pr_oublk;
pr_msnd = tmp->pr_msnd;
pr_mrcv = tmp->pr_mrcv;
pr_sigs = tmp->pr_sigs;
pr_vctx = tmp->pr_vctx;
pr_ictx = tmp->pr_ictx;
pr_sysc = tmp->pr_sysc;
pr_ioch = tmp->pr_ioch;
return this;
}
Vector<long long> *
PrUsage::getMstateValues ()
{
const PrUsage *prusage = this;
Vector<long long> *states = new Vector<long long>;
states->store (0, prusage->pr_utime);
states->store (1, prusage->pr_stime);
states->store (2, prusage->pr_ttime);
states->store (3, prusage->pr_tftime);
states->store (4, prusage->pr_dftime);
states->store (5, prusage->pr_kftime);
states->store (6, prusage->pr_ltime);
states->store (7, prusage->pr_slptime);
states->store (8, prusage->pr_wtime);
states->store (9, prusage->pr_stoptime);
assert (LMS_NUM_SOLARIS_MSTATES == states->size ());
return states;
}
void* CommonPacket::jvm_overhead = NULL;
CommonPacket::CommonPacket ()
{
for (int i = 0; i < NTAGS; i++)
tags[i] = 0;
tstamp = 0;
jthread_TBR = NULL;
frinfo = 0;
leafpc = 0;
nat_stack = NULL;
user_stack = NULL;
}
int
CommonPacket::cmp (const void *a, const void *b)
{
if ((*(CommonPacket **) a)->tstamp > (*(CommonPacket **) b)->tstamp)
return 1;
else if ((*(CommonPacket **) a)->tstamp < (*(CommonPacket **) b)->tstamp)
return -1;
else
return 0;
}
void *
CommonPacket::getStack (VMode view_mode)
{
if (view_mode == VMODE_MACHINE)
return nat_stack;
else if (view_mode == VMODE_USER)
{
if (jthread_TBR == JTHREAD_NONE || (jthread_TBR && jthread_TBR->is_system ()))
return jvm_overhead;
}
else if (view_mode == VMODE_EXPERT)
{
Histable *hist = CallStack::getStackPC (user_stack, 0);
if (hist->get_type () == Histable::INSTR)
{
DbeInstr *instr = (DbeInstr*) hist;
if (instr->func == dbeSession->get_JUnknown_Function ())
return nat_stack;
}
else if (hist->get_type () == Histable::LINE)
{
DbeLine *line = (DbeLine *) hist;
if (line->func == dbeSession->get_JUnknown_Function ())
return nat_stack;
}
}
return user_stack;
}
Histable *
CommonPacket::getStackPC (int n, VMode view_mode)
{
return CallStack::getStackPC (getStack (view_mode), n);
}
Vector<Histable*> *
CommonPacket::getStackPCs (VMode view_mode)
{
return CallStack::getStackPCs (getStack (view_mode));
}
void *
getStack (VMode view_mode, DataView *dview, long idx)
{
void *stack = NULL;
if (view_mode == VMODE_MACHINE)
stack = dview->getObjValue (PROP_MSTACK, idx);
else if (view_mode == VMODE_USER)
stack = dview->getObjValue (PROP_USTACK, idx);
else if (view_mode == VMODE_EXPERT)
stack = dview->getObjValue (PROP_XSTACK, idx);
return stack;
}
int
stackSize (VMode view_mode, DataView *dview, long idx)
{
return CallStack::stackSize (getStack (view_mode, dview, idx));
}
Histable *
getStackPC (int n, VMode view_mode, DataView *dview, long idx)
{
return CallStack::getStackPC (getStack (view_mode, dview, idx), n);
}
Vector<Histable*> *
getStackPCs (VMode view_mode, DataView *dview, long idx)
{
return CallStack::getStackPCs (getStack (view_mode, dview, idx));
}
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