#!/usr/bin/python3
# SPDX-License-Identifier: GPL-2.0-or-later
# Copyright (C) 2023-2024 Oracle. All rights reserved.
#
# Author: Darrick J. Wong <djwong@kernel.org>
# Run bcachefsck in parallel, but avoid thrashing.
import subprocess
import json
import threading
import time
import sys
import os
import argparse
import signal
import dbus
from io import TextIOWrapper
from pathlib import Path
from datetime import timedelta
from datetime import datetime
from datetime import timezone
retcode = 0
terminate = False
debug = False
def DEVNULL():
'''Return /dev/null in subprocess writable format.'''
try:
from subprocess import DEVNULL
return DEVNULL
except ImportError:
return open(os.devnull, 'wb')
def find_mounts():
'''Map mountpoints to physical disks.'''
def find_bcachefs_mounts(bdev, fs, lastdisk):
'''Attach all lastdisk to each fs found under bdev.'''
if bdev['fstype'] == 'bcachefs' and bdev['mountpoint'] is not None:
mnt = bdev['mountpoint']
if mnt in fs:
fs[mnt].add(lastdisk.split(':'))
else:
fs[mnt] = set(lastdisk.split(':'))
if 'children' not in bdev:
return
for child in bdev['children']:
find_bcachefs_mounts(child, fs, lastdisk)
fs = {}
cmd=['lsblk', '-o', 'NAME,KNAME,TYPE,FSTYPE,MOUNTPOINT', '-J']
result = subprocess.Popen(cmd, stdout=subprocess.PIPE)
result.wait()
if result.returncode != 0:
return fs
sarray = [x.decode(sys.stdout.encoding) for x in result.stdout.readlines()]
output = ' '.join(sarray)
bdevdata = json.loads(output)
# The lsblk output had better be in disks-then-partitions order
for bdev in bdevdata['blockdevices']:
lastdisk = bdev['kname']
find_bcachefs_mounts(bdev, fs, lastdisk)
return fs
def backtick(cmd):
'''Generator function that yields lines of a program's stdout.'''
p = subprocess.Popen(cmd, stdout = subprocess.PIPE)
for line in TextIOWrapper(p.stdout, encoding="utf-8"):
yield line.strip()
def remove_killfunc(killfuncs, fn):
'''Ensure fn is not in killfuncs.'''
try:
killfuncs.remove(fn)
except:
pass
class scrub_control(object):
'''Control object for bcachefsck.'''
def __init__(self):
pass
def start(self):
'''Start scrub and wait for it to complete. Returns -1 if the
service was not started, 0 if it succeeded, or 1 if it
failed.'''
assert False
def stop(self):
'''Stop scrub.'''
assert False
class scrub_subprocess(scrub_control):
'''Control object for bcachefsck subprocesses.'''
def __init__(self, mnt):
cmd = ['bcachefs', 'fsck']
cmd += '@bcachefsck_args@'.split()
cmd += [mnt]
self.cmdline = cmd
self.proc = None
def start(self):
'''Start bcachefsck and wait for it to complete. Returns -1 if
the service was not started, 0 if it succeeded, or 1 if it
failed.'''
global debug
if debug:
print('run ', ' '.join(self.cmdline))
try:
self.proc = subprocess.Popen(self.cmdline)
self.proc.wait()
except:
return -1
proc = self.proc
self.proc = None
return proc.returncode
def stop(self):
'''Stop bcachefsck.'''
global debug
if debug:
print('kill ', ' '.join(self.cmdline))
if self.proc is not None:
self.proc.terminate()
def run_subprocess(mnt, killfuncs):
'''Run a killable program. Returns program retcode or -1 if we can't
start it.'''
try:
p = scrub_subprocess(mnt)
killfuncs.add(p.stop)
ret = p.start()
remove_killfunc(killfuncs, p.stop)
return ret
except:
return -1
# systemd doesn't like unit instance names with slashes in them, so it
# replaces them with dashes when it invokes the service. Filesystem paths
# need a special --path argument so that dashes do not get mangled.
def path_to_serviceunit(path):
'''Convert a pathname into a systemd service unit name.'''
svcname = 'bcachefsck@.service'
cmd = ['systemd-escape', '--template', svcname, '--path', path]
proc = subprocess.Popen(cmd, stdout = subprocess.PIPE)
proc.wait()
for line in proc.stdout:
return line.decode(sys.stdout.encoding).strip()
def fibonacci(max_ret):
'''Yield fibonacci sequence up to but not including max_ret.'''
if max_ret < 1:
return
x = 0
y = 1
yield 1
z = x + y
while z <= max_ret:
yield z
x = y
y = z
z = x + y
class scrub_service(scrub_control):
'''Control object for bcachefsck systemd service.'''
def __init__(self, mnt):
self.unitname = path_to_serviceunit(mnt)
self.prop = None
self.unit = None
self.bind()
def bind(self):
'''Bind to the dbus proxy object for this service.'''
sysbus = dbus.SystemBus()
systemd1 = sysbus.get_object('org.freedesktop.systemd1',
'/org/freedesktop/systemd1')
manager = dbus.Interface(systemd1,
'org.freedesktop.systemd1.Manager')
path = manager.LoadUnit(self.unitname)
svc_obj = sysbus.get_object('org.freedesktop.systemd1', path)
self.prop = dbus.Interface(svc_obj,
'org.freedesktop.DBus.Properties')
self.unit = dbus.Interface(svc_obj,
'org.freedesktop.systemd1.Unit')
def __dbusrun(self, lambda_fn):
'''Call the lambda function to execute something on dbus. dbus
exceptions result in retries with Fibonacci backoff, and the
bindings will be rebuilt every time.'''
global debug
fatal_ex = None
for i in fibonacci(30):
try:
return lambda_fn()
except dbus.exceptions.DBusException as e:
if debug:
print(e)
fatal_ex = e
time.sleep(i)
self.bind()
raise fatal_ex
def state(self):
'''Retrieve the active state for a systemd service. As of
systemd 249, this is supposed to be one of the following:
"active", "reloading", "inactive", "failed", "activating",
or "deactivating". These strings are not localized.'''
global debug
l = lambda: self.prop.Get('org.freedesktop.systemd1.Unit',
'ActiveState')
try:
return self.__dbusrun(l)
except Exception as e:
if debug:
print(e, file = sys.stderr)
return 'failed'
def wait(self, interval = 1):
'''Wait until the service finishes.'''
global debug
# Use a poll/sleep loop to wait for the service to finish.
# Avoid adding a dependency on python3 glib, which is required
# to use an event loop to receive a dbus signal.
s = self.state()
while s not in ['failed', 'inactive']:
if debug:
print('waiting %s %s' % (self.unitname, s))
time.sleep(interval)
s = self.state()
if debug:
print('waited %s %s' % (self.unitname, s))
if s == 'failed':
return 1
return 0
def start(self):
'''Start the service and wait for it to complete. Returns -1
if the service was not started, 0 if it succeeded, or 1 if it
failed.'''
global debug
if debug:
print('starting %s' % self.unitname)
try:
self.__dbusrun(lambda: self.unit.Start('replace'))
return self.wait()
except Exception as e:
print(e, file = sys.stderr)
return -1
def stop(self):
'''Stop the service.'''
global debug
if debug:
print('stopping %s' % self.unitname)
try:
self.__dbusrun(lambda: self.unit.Stop('replace'))
return self.wait()
except Exception as e:
print(e, file = sys.stderr)
return -1
def run_service(mnt, killfuncs):
'''Run scrub as a service.'''
try:
svc = scrub_service(mnt)
except:
return -1
killfuncs.add(svc.stop)
retcode = svc.start()
remove_killfunc(killfuncs, svc.stop)
return retcode
def run_scrub(mnt, cond, running_devs, mntdevs, killfuncs):
'''Run a scrub process.'''
global retcode, terminate
print("Scrubbing %s..." % mnt)
sys.stdout.flush()
try:
if terminate:
return
# Run per-mount systemd bcachefsck service only if we ourselves
# are running as a systemd service.
if 'SERVICE_MODE' in os.environ:
ret = run_service(mnt, killfuncs)
if ret == 0 or ret == 1:
print("Scrubbing %s done, (err=%d)" % (mnt, ret))
sys.stdout.flush()
retcode |= ret
return
if terminate:
return
# Invoke bcachefsck manually if we're running in the foreground.
# We also permit this if we're running as a cronjob where
# systemd services are unavailable.
ret = run_subprocess(mnt, killfuncs)
if ret >= 0:
print("Scrubbing %s done, (err=%d)" % (mnt, ret))
sys.stdout.flush()
retcode |= ret
return
if terminate:
return
print("Unable to start scrub tool.")
sys.stdout.flush()
finally:
running_devs -= mntdevs
cond.acquire()
cond.notify()
cond.release()
def signal_scrubs(signum, cond):
'''Handle termination signals by killing bcachefsck children.'''
global debug, terminate
if debug:
print('Signal handler called with signal', signum)
sys.stdout.flush()
terminate = True
cond.acquire()
cond.notify()
cond.release()
def wait_for_termination(cond, killfuncs):
'''Wait for a child thread to terminate. Returns True if we should
abort the program, False otherwise.'''
global debug, terminate
if debug:
print('waiting for threads to terminate')
sys.stdout.flush()
cond.acquire()
try:
cond.wait()
except KeyboardInterrupt:
terminate = True
cond.release()
if not terminate:
return False
print("Terminating...")
sys.stdout.flush()
while len(killfuncs) > 0:
fn = killfuncs.pop()
fn()
return True
def scan_interval(string):
'''Convert a textual scan interval argument into a time delta.'''
if string.endswith('y'):
year = timedelta(seconds = 31556952)
return year * float(string[:-1])
if string.endswith('q'):
return timedelta(days = 90 * float(string[:-1]))
if string.endswith('mo'):
return timedelta(days = 30 * float(string[:-2]))
if string.endswith('w'):
return timedelta(weeks = float(string[:-1]))
if string.endswith('d'):
return timedelta(days = float(string[:-1]))
if string.endswith('h'):
return timedelta(hours = float(string[:-1]))
if string.endswith('m'):
return timedelta(minutes = float(string[:-1]))
if string.endswith('s'):
return timedelta(seconds = float(string[:-1]))
return timedelta(seconds = int(string))
def utcnow():
'''Create a representation of the time right now, in UTC.'''
dt = datetime.utcnow()
return dt.replace(tzinfo = timezone.utc)
def main():
'''Find mounts, schedule bcachefsck runs.'''
def thr(mnt, devs):
a = (mnt, cond, running_devs, devs, killfuncs)
thr = threading.Thread(target = run_scrub, args = a)
thr.start()
global retcode, terminate, debug
parser = argparse.ArgumentParser( \
description = "Scrub all mounted bcachefs filesystems.")
parser.add_argument("--debug", help = "Enabling debugging messages.", \
action = "store_true")
args = parser.parse_args()
if args.debug:
debug = True
fs = find_mounts()
# Schedule scrub jobs...
running_devs = set()
killfuncs = set()
cond = threading.Condition()
signal.signal(signal.SIGINT, lambda s, f: signal_scrubs(s, cond))
signal.signal(signal.SIGTERM, lambda s, f: signal_scrubs(s, cond))
while len(fs) > 0:
if len(running_devs) == 0:
mnt, devs = fs.popitem()
running_devs.update(devs)
thr(mnt, devs)
poppers = set()
for mnt in fs:
devs = fs[mnt]
can_run = True
for dev in devs:
if dev in running_devs:
can_run = False
break
if can_run:
running_devs.update(devs)
poppers.add(mnt)
thr(mnt, devs)
for p in poppers:
fs.pop(p)
# Wait for one thread to finish
if wait_for_termination(cond, killfuncs):
break
# Wait for the rest of the threads to finish
while len(killfuncs) > 0:
wait_for_termination(cond, killfuncs)
# If we're being run as a service, the return code must fit the LSB
# init script action error guidelines, which is to say that we compress
# all errors to 1 ("generic or unspecified error", LSB 5.0 section
# 22.2) and hope the admin will scan the log for what actually
# happened.
#
# We have to sleep 2 seconds here because journald uses the pid to
# connect our log messages to the systemd service. This is critical
# for capturing all the log messages if the scrub fails, because the
# fail service uses the service name to gather log messages for the
# error report.
if 'SERVICE_MODE' in os.environ:
time.sleep(2)
if retcode != 0:
retcode = 1
sys.exit(retcode)
if __name__ == '__main__':
main()