shithub: riscv

ref: 20bca0c2029c53de3d4149d957240b17d44684a8
dir: /sys/man/1/prof/

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.TH PROF 1
.SH NAME
prof, tprof, kprof \- display profiling data
.SH SYNOPSIS
.B prof
[
.B -dr
]
[
.I program
]
[
.I profile
]
.PP
.B tprof
.I pid
.PP
.B kprof
.I kernel
.I kpdata
.SH DESCRIPTION
.I Prof
interprets files produced automatically by programs loaded using the
.B -p
option of
.IR 2l (1)
or other loader.
The symbol table in the
named program file
.RL ( 2.out
etc., according to
.BR $objtype ,
by default)
is read and correlated with the
profile file
.RL ( prof.out
by default).
For each symbol, the percentage
of time (in seconds) spent executing between that symbol
and the next
is printed (in decreasing order),
together with the time spent there and
the number of times that routine was called.
.PP
Under option
.BR -d ,
.I prof
prints the dynamic call graph of the target program,
annotating the calls with the time spent in each routine
and those it calls, recursively.  The output is indented
two spaces for each call, and is formatted as
.IP
.EX
symbol:time/ncall
.EE
.LP
where
.I symbol
is the entry point of the call,
.I time
is in milliseconds,
and
.I ncall
is the number of times that entry point was called at that
point in the call graph.  If
.I ncall
is one, the
.B /ncall
is elided.
Normally recursive calls are compressed to keep the output brief;
option
.B -r
prints the full call graph.
.PP
The size of the buffer
in
.I program
used to hold the profiling
data, by default 2000 entries,
may be controlled by setting the environment variable
.B profsize
before running
.IR program .
If the buffer fills, subsequent function calls may not be recorded.
.PP
The profiling code provided by the linker initializes itself to profile the current pid,
producing a file called
.B prof.\f2pid\fP.
If a process forks, only the parent will continue to be profiled.  Forked children
can cause themselves to be profile by calling
.IP
.EX
prof(fn, arg, entries, what)
.EE
.LP
which causes the function \f2fn\fP(\f2arg\fP) to be profiled.  When \f2fn\fP
returns 
.B prof.\f2pid\fP
is produced for the current process pid.
.PP
The environment variable
.B proftype
can be set to one of
.BR user ,
.BR kernel ,
.BR elapsed ,
or
.BR sample ,
to profile time measured spent in user mode, time spent in user+kernel mode, or elapsed time,
using the cycle counter, or the time in user mode using the kernel's HZ clock.  The cycle counter
is currently only available on modern PCs and on the PowerPC.  Default profiling measures user
time, using the cycle counter if it is available.
.PP
.I Tprof
is similar to
.IR prof ,
but is intended for profiling multiprocess programs.
It uses the
.BI /proc/ pid /profile
file to collect instruction frequency counts for the text image associated with the process,
for all processes that share that text.
It must be run while the program is still active, since the data is stored with the running program.
To enable
.I tprof
profiling for a given process,
.IP
.EX
echo profile > /proc/\f2pid\f1/ctl
.EE
.LP
and then, after the program has run for a while, execute
.IP
.EX
tprof \f2pid\f1
.EE
.LP
Since the data collected for
.I tprof
is based on interrupt-time sampling of the program counter,
.I tprof
has no
.B -d
or
.B -r
options.
.PP
.I Kprof
is similar to
.IR prof ,
but presents the data accumulated by the kernel
profiling device,
.IR kprof (3) .
The symbol table file, that of the operating system kernel,
and the data file, typically
.BR /dev/kpdata ,
must be provided.
.I Kprof
has no options and cannot present dynamic data.
.SH SOURCE
.B /sys/src/cmd/prof.c
.br
.B /sys/src/cmd/kprof.c
.SH SEE ALSO
.IR 2l (1),
.IR exec (2),
.IR kprof (3)