#
# dappprof - profile user and library function usage.
# Written using DTrace (Solaris 10 3/05).
#
# The default output traces user functions as they are called. Options
# can be used to examine libraries and timestamps.
#
# $Id: dappprof 65 2007-10-04 11:09:40Z brendan $
#
# USAGE: dappprof [-acehoTU] [-u lib] { -p PID | command }
#
# -p PID # examine this PID
# -a # print all details
# -c # print call counts
# -e # print elapsed times (us)
# -o # print on cpu times (us)
# -T # print totals
# -u lib # trace this library instead
# -U # trace all libraries + user functions
# -b bufsize # dynamic variable buf size (default is "4m")
# eg,
# dappprof df -h # run and examine the "df -h" command
# dappprof -p 1871 # examine PID 1871
#
# The elapsed times are interesting, to help identify calls that take
# some time to complete (during which the process may have context
# switched off the CPU).
#
# SEE ALSO: dapptrace # DTraceToolkit
# dtruss # DTraceToolkit
# apptrace
#
# COPYRIGHT: Copyright (c) 2005 Brendan Gregg.
#
# CDDL HEADER START
#
# The contents of this file are subject to the terms of the
# Common Development and Distribution License, Version 1.0 only
# (the "License"). You may not use this file except in compliance
# with the License.
#
# See the License for the specific language governing permissions
# and limitations under the License.
#
# CDDL HEADER END
#
# Author: Brendan Gregg [Sydney, Australia]
#
# 16-May-2005 Brendan Gregg Created this.
# 17-Jul-2005 " " Last update.
#
##############################
# --- Process Arguments ---
#
### Default variables
### Process options
do
opt_totals=1 ;;
U) opt_liball=1 ;;
c) opt_counts=1 ;;
e) opt_elapsed=1 ;;
o) opt_cpu=1 ;;
T) opt_totals=1 ;;
h|?) cat <<-END >&2
USAGE: dappprof [-cehoTU] [-u lib] { -p PID | command }
-p PID # examine this PID
-a # print all details
-c # print syscall counts
-e # print elapsed times (us)
-o # print on cpu times
-T # print totals
-u lib # trace this library instead
-U # trace all libraries + user funcs
-b bufsize # dynamic variable buf size
eg,
dappprof df -h # run and examine "df -h"
dappprof -p 1871 # examine PID 1871
dappprof -ap 1871 # print all data
END
exit 1
esac
done
shift `expr $OPTIND - 1`
### Option logic
if [ $opt_pid -eq 0 ]; then
opt_command=1
if [ "$*" = "" ]; then
$0 -h
exit
fi
command="$*"
fi
if [ $opt_elapsed -eq 0 -a $opt_cpu -eq 0 -a $opt_counts -eq 0 ]; then
opt_elapsed=1;
fi
### Probe logic
if [ $opt_liball -eq 1 ]; then
probe_entry='pid$target:::entry'
probe_return='pid$target:::return'
elif [ $opt_lib -eq 1 ]; then
probe_entry='pid$target:'$lib'::entry'
probe_return='pid$target:'$lib'::return'
else
probe_entry='pid$target:a.out::entry'
probe_return='pid$target:a.out::return'
fi
#################################
# --- Main Program, DTrace ---
#
### Define D Script
dtrace='
#pragma D option quiet
/*
* Command line arguments
*/
inline int OPT_command = '$opt_command';
inline int OPT_liball = '$opt_liball';
inline int OPT_elapsed = '$opt_elapsed';
inline int OPT_cpu = '$opt_cpu';
inline int OPT_counts = '$opt_counts';
inline int OPT_totals = '$opt_totals';
inline int OPT_pid = '$opt_pid';
inline int PID = '$pid';
inline string NAME = "'$pname'";
dtrace:::BEGIN
/! OPT_command/
{
printf("Tracing... Hit Ctrl-C to end...\n");
}
/*
* Save syscall entry info
*/
'$probe_entry'
{
/* set function depth */
this->fdepth = ++fdepth[probefunc];
/* set start details */
self->start[probefunc,this->fdepth] = timestamp;
self->vstart[probefunc,this->fdepth] = vtimestamp;
/* count occurances */
OPT_counts && OPT_liball ? @Counts[probemod,probefunc] = count() : 1;
OPT_counts && ! OPT_liball ? @Counts[probefunc] = count() : 1;
OPT_counts && OPT_totals && OPT_liball ?
@Counts["TOTAL:",""] = count() : 1;
OPT_counts && OPT_totals && ! OPT_liball ?
@Counts["TOTAL:"] = count() : 1;
}
/*
* Print return data
*/
/* print 3 arg output - default */
'$probe_return'
/self->start[probefunc,fdepth[probefunc]]/
{
/* fetch function depth */
this->fdepth = fdepth[probefunc];
/* calculate elapsed time */
this->elapsed = timestamp - self->start[probefunc,this->fdepth];
self->start[probefunc,this->fdepth] = 0;
this->cpu = vtimestamp - self->vstart[probefunc,this->fdepth];
self->vstart[probefunc,this->fdepth] = 0;
/* save elapsed times */
OPT_elapsed && OPT_liball ?
@Elapsed[probemod,probefunc] = sum(this->elapsed) : 1;
OPT_elapsed && ! OPT_liball ?
@Elapsed[probefunc] = sum(this->elapsed) : 1;
OPT_elapsed && OPT_totals && OPT_liball ?
@Elapsed["TOTAL:",""] = sum(this->elapsed) : 1;
OPT_elapsed && OPT_totals && ! OPT_liball ?
@Elapsed["TOTAL:"] = sum(this->elapsed) : 1;
/* save cpu times */
OPT_cpu && OPT_liball ? @CPU[probemod,probefunc] = sum(this->cpu) : 1;
OPT_cpu && ! OPT_liball ? @CPU[probefunc] = sum(this->cpu) : 1;
OPT_cpu && OPT_totals && OPT_liball ?
@CPU["TOTAL:",""] = sum(this->cpu) : 1;
OPT_cpu && OPT_totals && ! OPT_liball ?
@CPU["TOTAL:"] = sum(this->cpu) : 1;
}
/* print counts */
dtrace:::END
{
/* print counts */
OPT_counts ? printf("\n%-49s %16s\n","CALL","COUNT") : 1;
OPT_counts && OPT_liball ? printa("%-16s %-32s %@16d\n",@Counts) : 1;
OPT_counts && ! OPT_liball ? printa("%-49s %@16d\n",@Counts) : 1;
/* print elapsed times */
OPT_elapsed ? printf("\n%-49s %16s\n","CALL","ELAPSED") : 1;
OPT_elapsed && OPT_liball ? printa("%-16s %-32s %@16d\n",@Elapsed) : 1;
OPT_elapsed && ! OPT_liball ? printa("%-49s %@16d\n",@Elapsed) : 1;
/* print cpu times */
OPT_cpu ? printf("\n%-49s %16s\n","CALL","CPU") : 1;
OPT_cpu && OPT_liball ? printa("%-16s %-32s %@16d\n",@CPU) : 1;
OPT_cpu && ! OPT_liball ? printa("%-49s %@16d\n",@CPU) : 1;
}
'
### Run DTrace
if [ $opt_command -eq 1 ]; then
/usr/sbin/dtrace -x dynvarsize=$buf -x evaltime=exec -n "$dtrace" \
-c "$command" >&2
else
/usr/sbin/dtrace -x dynvarsize=$buf -n "$dtrace" -p "$pid" >&2
fi