From: Francesco Valla <francesco@valla.it>
To: Linux Embedded <linux-embedded@vger.kernel.org>
Subject: [boot-time] [RFC] analyze-initcall-debug.py - a tool to analyze the initcall debug output
Date: Thu, 28 Nov 2024 00:35:39 +0100 [thread overview]
Message-ID: <1964175.7Z3S40VBb9@fedora.fritz.box> (raw)
Dear fellow boot time optimizers,
following the first boot time SIG meeting, which I lurked with much pleasure
(but didn't participate to, as I was a bit in awe among such authorities), I'd
like to introduce myself with code rather than a presentation or resume.
Here is a python script which can analyze a dmesg output with initcall_debug
option enabled and extract some useful information. It can for example be used
to analyze the output of the grab-boot-data.sh tool that Tim presented on this
list [1] just a few days ago.
Usage is very simple, as the output of dmesg can be piped directly to it:
dmesg | analyze-initcall-debug.py
If no option is specified, it outputs a brief summary, like the following one
(obtained on my Beagleplay):
1758 drivers has been initialized, of which 1758 before userspace
119 probes happened outside of the init of their driver
0 deferred probes pending
---
Top 10 init/probes durations:
* 30200000.dss -> 523002us
* deferred_probe_initcall -> 487483us
* fd00000.gpu -> 162859us
* 8000f00.mdio -> 142521us
* 44043000.system-controller -> 71390us
* 2-004c -> 71178us
* 40900000.crypto -> 59350us
* 8000000.ethernet -> 58419us
* 44043000.system-controller:clock-controller -> 56599us
* jent_mod_init -> 52140us
A more complete output, reporting all durations as well as statuses, impact of
probe deferral and so on, can be produced either in HTML or Markdown format,
using respectively the --html or --markdown parameters.
Note: it hasn't (yet?) been used in a "production" environment, as I never
found the motivation to write a script and always analyzed manually the
initcall_debug output.
If you have time to take a look, please tell me what you think and what
can be added.
Thank you!
Regards,
Francesco
[1] https://lore.kernel.org/linux-embedded/MW5PR13MB5632F54DCBDA0C74370E531FFD5C2@MW5PR13MB5632.namprd13.prod.outlook.com/
--- analyze-initcall-debug.py script follows ---
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
This script can be used to analyze a Linux kernel dmesg output when the
initcall_debug command line output is used. It extract various information,
such as init durations, impact of probe deferral and so on.
"""
import argparse
import re
import sys
ERRCODE_PROBE_DEFER = 517
parser = argparse.ArgumentParser()
parser.add_argument('--dmesg', nargs='?', type=argparse.FileType('r'),
default=sys.stdin)
parser.add_argument('--html', action='store_true')
parser.add_argument('--markdown', action='store_true')
args = parser.parse_args()
class Run:
def __init__(self, start_time:int, end_time:int = -1, duration:int = 0, retval:int = 0):
self._start_time = start_time
self._end_time = end_time
self._duration = duration
self._retval = retval
self._ended = (end_time >= 0)
@property
def start_time(self) -> int:
return self._start_time
@property
def end_time(self) -> int:
return self._end_time
@end_time.setter
def end_time(self, time:int):
self._end_time = time
self._ended = True
@property
def duration(self) -> int:
return self._duration
@duration.setter
def duration(self, time:int):
self._duration = time
@property
def retval(self) -> int:
return self._retval
@retval.setter
def retval(self, val:int):
self._retval = val
@property
def running(self) -> bool:
return (not self._ended or abs(self.retval) == ERRCODE_PROBE_DEFER)
@property
def failed(self) -> bool:
return ((self.retval != 0) and not self.running)
class Entity:
def __init__(self, name:str, start_time:int = 0, end_time:int = 0, duration:int = 0, retval:int = 0):
self._name = name
self._runs = [ Run(start_time, end_time, duration, retval) ]
@property
def name(self) -> str:
return self._name
@property
def first_start_time(self) -> int:
return self._runs[0].start_time
@property
def last_start_time(self) -> int:
return self._runs[-1].start_time
@property
def first_end_time(self) -> int:
return self._runs[0].end_time
@property
def last_end_time(self) -> int:
return self._runs[-1].end_time
@property
def duration(self) -> int:
return sum([ r.duration for r in self._runs ])
@property
def wasted_time(self) -> int:
return sum([ r.duration for r in filter(lambda x: x.failed or abs(x.retval) == ERRCODE_PROBE_DEFER, self._runs) ])
@property
def retval(self) -> int:
return self._runs[-1].retval
@property
def failed(self) -> bool:
return self._runs[-1].failed
@property
def running(self) -> bool:
return self._runs[-1].running
@property
def deferred_probe_pending(self) -> bool:
return (abs(self._runs[-1].retval) == ERRCODE_PROBE_DEFER)
@property
def num_deferred_probes(self) -> int:
return len(list(filter(lambda r: abs(r.retval) == ERRCODE_PROBE_DEFER, self._runs)))
def addStart(self, start_time: int):
self._runs.append( Run(start_time) )
def addEnd(self, end_time:int = 0, duration:int = 0, retval:int = 0):
self._runs[-1].end_time = end_time
self._runs[-1].duration = duration
self._runs[-1].retval = retval
def addRun(self, start_time: int, end_time:int = 0, duration:int = 0, retval:int = 0):
self._runs.append( Run(start_time, end_time, duration, retval) )
class Driver (Entity):
def __init__(self, name: str, start_time: int):
super().__init__(name, start_time)
def addInit(self, init_time: int):
self.addStart(init_time)
def addReturn(self, return_time: int, duration: int, retval: int):
self.addEnd(return_time, duration, retval)
class Probe (Entity):
def __init__(self, name: str, return_time: int, duration: int, retval: int):
super().__init__(name, return_time, return_time, duration, retval)
class Init (Entity):
def __init__(self, name: str, start_time: int):
super().__init__(name, start_time)
# Regex for 'calling' messages
# "[ 0.466115] calling pci_sysfs_init+0x0/0xa8 @ 1"
calling_prog = re.compile(r'\[([0-9\s]+\.[0-9]+)\] calling ([0-9a-zA-Z_]+)\+(0x[0-9a-fA-F]+\/0x[0-9a-fA-F]+) @ ([0-9]+)')
# Regex for 'initcall ... returned' messages
# "[ 0.466115] initcall pci_sysfs_init+0x0/0xa8 returned 0 after 5 usecs"
returned_prog = re.compile(r'\[([0-9\s]+\.[0-9]+)\] initcall ([0-9a-zA-Z_]+)\+(0x[0-9a-fA-F]+\/0x[0-9a-fA-F]+) returned ([\-0-9]+) after ([0-9]+) usecs')
# Regex for 'probe ... returned' messages
# "[ 0.466115] probe of cpufreq-dt returned 517 after 140 usec"
probe_prog = re.compile(r'\[([0-9\s]+\.[0-9]+)\] probe of ([0-9a-zA-Z_\-\.\:@]+) returned ([\-0-9]+) after ([0-9]+) usecs')
# Regex for
# "[ 1.060329] Run /sbin/init as init process"
init_prog = re.compile(r'\[([0-9\s]+\.[0-9]+)\] Run ([/0-9a-zA-Z_]+) as init process')
drivers = list()
probes = list()
init = None
# Extract data from dmesg
for line in args.dmesg:
match = calling_prog.match(line)
if match is not None:
time = float(match.group(1)) * float(10^6)
name = str(match.group(2))
try:
time = float(match.group(1)) * float(10^6)
name = str(match.group(2))
except Exception as e:
print(f'Failed parsing line "{line.rstrip()}" as call')
raise e
else:
for d in filter(lambda x: x.name == name, drivers):
d.addInit(time)
break
else:
drivers.append(Driver(name, time))
finally:
continue
match = returned_prog.match(line)
if match is not None:
try:
time = float(match.group(1)) * float(10^6)
name = str(match.group(2))
retval = int(match.group(4))
duration = int(match.group(5))
except:
print(f'Failed parsing line "{line.rstrip()}" as call return')
else:
for d in filter(lambda x: x.name == name, drivers):
d.addReturn(time, duration, retval)
break
else:
print(f'Detected return for driver {name}, for which an init was never recorded')
finally:
continue
match = probe_prog.match(line)
if match is not None:
try:
time = float(match.group(1)) * float(10^6)
name = str(match.group(2))
retval = int(match.group(3))
duration = int(match.group(4))
except:
print(f'Failed parsing line "{line.rstrip()}" as probe return')
else:
for d in filter(lambda x: x.name == name, probes):
d.addRun(time, time, duration, retval)
break
else:
probes.append(Probe(name, time, duration, retval))
finally:
continue
if init is None:
match = init_prog.match(line)
if match is not None:
try:
time = float(match.group(1)) * float(10^6)
name = str(match.group(2))
except:
print(f'Failed parsing line "{line.rstrip()}" as probe return')
else:
init = Init(name, time)
finally:
continue
if args.markdown:
print('| Name | Type [^1] | Status [^2] | Duration (us) | Before userspace | Num deferred probes | Time spent in failed inits (us) |')
print('| -----| --------- | ----------- | ------------- | ---------------- | ------------------- | ------------------------------- |')
for d in sorted(filter(lambda k: k.duration > 0, drivers + probes), key=lambda k: k.duration, reverse=True):
etype = 'I' if d in drivers else 'P'
run_status = 'D' if d.deferred_probe_pending else 'R' if d.running else f'F({abs(d.retval)})' if d.failed else 'K'
before_init = 'Y' if d.last_start_time < init.last_start_time else 'N'
print(f'| {d.name} | {etype} | {run_status} | {d.duration} | {before_init} | {d.num_deferred_probes} | {d.wasted_time} |')
print('[^1]: I=Init function, P=device Probe')
print('[^2]: D=Deferred probe pending, R=still Running, F(N)=Failed (with errcode N), K=init oK')
elif args.html:
print(
'''
<!DOCTYPE HTML>
<html>
<head>
<meta charset="utf-8" />
<title>Initcall analysis</title>
<meta name="viewport" content="width=device-width, initial-scale=1" />
<style>
table, th, td {
border: 1px solid;
}
</style>
</head>
<body>
<table>
<tr>
<th>Name</th>
<th>Type <a href="#note1">[1]</a></th>
<th>Status <a href="#note2">[2]</a></th>
<th>Duration (us)</th>
<th>Before userspace</th>
<th>Num deferred probes</th>
<th>Time spent in failed inits (us)</th>
</tr>''')
for d in sorted(filter(lambda k: k.duration > 0, drivers + probes), key=lambda k: k.duration, reverse=True):
etype = 'I' if d in drivers else 'P'
run_status = 'D' if d.deferred_probe_pending else 'R' if d.running else f'F({abs(d.retval)})' if d.failed else 'K'
before_init = 'Y' if d.last_start_time < init.last_start_time else 'N'
print(
f'''
<tr>
<td>{d.name}</td>
<td>{etype}</td>
<td>{run_status}</td>
<td>{d.duration}</td>
<td>{before_init}</td>
<td>{d.num_deferred_probes}</td>
<td>{d.wasted_time}</td>
</tr>''')
print(
'''
</table>
<p id="note1">[1] I=Init function, P=device Probe</p>
<p id="note2">[2] D=Deferred probe pending, R=still Running, F(N)=Failed (with errcode N), K=init oK</p>
</body>
</html>
''')
else:
print(f'{len(drivers)} drivers has been initialized, of which {len(list(filter(lambda d: d.last_start_time < init.last_start_time, drivers)))} before userspace')
print(f'{len(probes)} probes happened outside of the init of their driver')
print(f'{len(list(filter(lambda d: d.deferred_probe_pending, drivers + probes)))} deferred probes pending')
print('---')
print('Top 10 init/probes durations:')
for d in sorted(filter(lambda k: k.duration > 0, drivers + probes), key=lambda k: k.duration, reverse=True)[0:10]:
print(f' * {d.name} -> {d.duration}us')
next reply other threads:[~2024-11-28 2:51 UTC|newest]
Thread overview: 26+ messages / expand[flat|nested] mbox.gz Atom feed top
2024-11-27 23:35 Francesco Valla [this message]
2024-12-03 20:33 ` [boot-time] [RFC] analyze-initcall-debug.py - a tool to analyze the initcall debug output Bird, Tim
2024-12-05 12:57 ` Francesco Valla
2024-12-05 14:58 ` Geert Uytterhoeven
2024-12-05 21:36 ` Francesco Valla
2024-12-09 3:10 ` [RFC PATCH] boot-time: instrument probes more Bird, Tim
2024-12-21 14:47 ` Francesco Valla
2024-12-29 17:45 ` Francesco Valla
2024-12-03 21:24 ` [boot-time] jent_mod_init on beagleplay (was RE: [boot-time] [RFC] analyze-initcall-debug.py - a tool to analyze the initcall debug output Bird, Tim
2024-12-05 7:02 ` Stephan Mueller
[not found] ` <CAORPcfUfgNnQb6m0baW9qEGnrGYsnbpvwUUmF5Y9Byh9_iMAZw@mail.gmail.com>
2024-12-30 22:35 ` Francesco Valla
2024-12-31 9:55 ` Stephan Müller
2024-12-31 14:42 ` Francesco Valla
2025-01-02 9:06 ` Stephan Mueller
2025-01-02 10:33 ` Francesco Valla
2025-01-02 12:56 ` Stephan Mueller
2025-01-03 17:23 ` Francesco Valla
2025-01-04 15:45 ` Stephan Müller
2025-01-07 22:40 ` Bird, Tim
2025-01-07 21:42 ` boot markers ideas (was RE: [boot-time] jent_mod_init on beagleplay) Bird, Tim
2025-01-07 23:40 ` Rob Landley
2025-01-09 16:23 ` Francesco Valla
2024-12-30 22:22 ` [boot-time] jent_mod_init on beagleplay (was RE: [boot-time] [RFC] analyze-initcall-debug.py - a tool to analyze the initcall debug output Francesco Valla
2025-01-07 21:27 ` Bird, Tim
2024-12-04 0:29 ` Bird, Tim
2024-12-05 13:05 ` Francesco Valla
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