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#!/opt/rh/gcc-toolset-11/root/usr/bin/stap
/*
* fslatency-nd.stp Measure file system I/O latency distribution.
* For Linux, uses SystemTap (non-debuginfo).
*
* USAGE: ./fslatency-nd.stp [interval [count]]
*
* This script uses kernel dynamic tracing of two common file system functions:
* do_sync_read() and do_sync_write(). This provides a view of just two file
* system request types. There are typically many others: asynchronous I/O,
* directory operations, file handle operations, etc, that this script does
* not instrument.
*
* This current implementation also traces sock_aio_write(), to exclude that
* write time from the report.
*
* From systemtap-lwtools: https://github.com/brendangregg/systemtap-lwtools
*
* See the corresponding man page (in systemtap-lwtools) for more info.
*
* Copyright (C) 2015 Brendan Gregg.
* Copyright (C) 2015 Red Hat, Inc.
*
* 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 2 of the License, 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.
*
* 06-Feb-2015 Brendan Gregg Created this.
*/
global ts[65536]; # 65536 is max concurrent I/O
global lat, interval = 0, secs = 0, count = 0, output = 0;
probe begin
{
printf("Tracing FS sync reads and writes... ");
if (argv_1 != "") {
interval = strtol(argv_1, 10);
if (argv_2 != "") {
count = strtol(argv_2, 10);
}
printf("Output every %d secs.\n", interval);
} else {
printf("Hit Ctrl-C to end.\n");
}
}
probe read_funcs, write_funcs
{
ts[tid()] = gettimeofday_ns();
}
probe read_funcs = kprobe.function("do_sync_read") !, __vfs_read
{
}
probe __vfs_read = kprobe.function("__vfs_read")
{
# Skip the call if new_sync_read() wouldn't be called.
file = pointer_arg(1)
if (!file || @cast(file, "file", "kernel")->f_op->read
|| !@cast(file, "file", "kernel")->f_op->read_iter)
next
}
probe write_funcs = kprobe.function("do_sync_write") !, __vfs_write
{
}
probe __vfs_write = kprobe.function("__vfs_write")
{
# Skip the call if new_sync_write() wouldn't be called.
file = pointer_arg(1)
if (!file || @cast(file, "file", "kernel")->f_op->write
|| !@cast(file, "file", "kernel")->f_op->write_iter)
next
}
probe kprobe.function("sock_write_iter") !, kprobe.function("sock_aio_write")
{
/* not a file system write */
ts[tid()] = 0;
}
probe read_funcs.return, write_funcs.return
{
if (ts[tid()]) {
lat[ppfunc()] <<< gettimeofday_ns() - ts[tid()];
delete ts[tid()];
}
}
probe read_funcs.return = kprobe.function("do_sync_read").return !,
__vfs_read.return
{
}
probe __vfs_read.return = kprobe.function("__vfs_read").return
{
# Skip the call if new_sync_read() wouldn't be called.
file = @entry(pointer_arg(1))
if (!file || @cast(file, "file", "kernel")->f_op->read
|| !@cast(file, "file", "kernel")->f_op->read_iter)
next
}
probe write_funcs.return = kprobe.function("do_sync_write").return !,
__vfs_write.return
{
}
probe __vfs_write.return = kprobe.function("__vfs_write")
{
# Skip the call if new_sync_write() wouldn't be called.
file = pointer_arg(1)
if (!file || @cast(file, "file", "kernel")->f_op->write
|| !@cast(file, "file", "kernel")->f_op->write_iter)
next
}
function print_report()
{
printf("\n");
if (interval) { printf("%s ", ctime(gettimeofday_s())); }
printf("FS latency (ns):\n\n");
foreach (name in lat+) {
printf("FS call: %s()\n", name);
print(@hist_log(lat[name]));
}
delete lat;
}
probe timer.s(1)
{
if (interval) {
if (++secs == interval) {
print_report();
secs = 0;
count && (++output == count) && exit();
}
}
}
probe end
{
!interval && print_report();
delete secs;
delete output;
}