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#!/usr/bin/python3

# SPDX-License-Identifier: GPL-2.0-or-later
# Copyright (C) 2018-2024 Oracle.  All rights reserved.
#
# Author: Darrick J. Wong <djwong@kernel.org>

# Run online scrubbers in parallel, but avoid thrashing.

import subprocess
import json
import threading
import time
import sys
import os
import argparse
import signal
from io import TextIOWrapper

retcode = 0
terminate = 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_xfs_mounts(bdev, fs, lastdisk):
		'''Attach lastdisk to each fs found under bdev.'''
		if bdev['fstype'] == 'xfs' and bdev['mountpoint'] is not None:
			mnt = bdev['mountpoint']
			if mnt in fs:
				fs[mnt].add(lastdisk)
			else:
				fs[mnt] = set([lastdisk])
		if 'children' not in bdev:
			return
		for child in bdev['children']:
			find_xfs_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_xfs_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

def run_killable(cmd, stdout, killfuncs):
	'''Run a killable program.  Returns program retcode or -1 if we can't
	start it.'''
	try:
		proc = subprocess.Popen(cmd, stdout = stdout)
		killfuncs.add(proc.terminate)
		proc.wait()
		remove_killfunc(killfuncs, proc.terminate)
		return proc.returncode
	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.'''

	cmd = ['systemd-escape', '--template', 'xfs_scrub@.service',
	       '--path', path]
	try:
		proc = subprocess.Popen(cmd, stdout = subprocess.PIPE)
		proc.wait()
		for line in proc.stdout:
			return line.decode(sys.stdout.encoding).strip()
	except:
		return None

def systemctl_stop(unitname):
	'''Stop a systemd unit.'''
	cmd = ['systemctl', 'stop', unitname]
	x = subprocess.Popen(cmd)
	x.wait()

def systemctl_start(unitname, killfuncs):
	'''Start a systemd unit and wait for it to complete.'''
	stop_fn = None
	cmd = ['systemctl', 'start', unitname]
	try:
		proc = subprocess.Popen(cmd, stdout = DEVNULL())
		stop_fn = lambda: systemctl_stop(unitname)
		killfuncs.add(stop_fn)
		proc.wait()
		ret = proc.returncode
	except:
		if stop_fn is not None:
			remove_killfunc(killfuncs, stop_fn)
		return -1

	if ret != 1:
		remove_killfunc(killfuncs, stop_fn)
		return ret

	# If systemctl-start returns 1, it's possible that the service failed
	# or that dbus/systemd restarted and the client program lost its
	# connection -- according to the systemctl man page, 1 means "unit not
	# failed".
	#
	# Either way, we switch to polling the service status to try to wait
	# for the service to end.  As of systemd 249, the is-active command
	# returns any of the following states: active, reloading, inactive,
	# failed, activating, deactivating, or maintenance.  Apparently these
	# strings are not localized.
	while True:
		try:
			for l in backtick(['systemctl', 'is-active', unitname]):
				if l == 'failed':
					remove_killfunc(killfuncs, stop_fn)
					return 1
				if l == 'inactive':
					remove_killfunc(killfuncs, stop_fn)
					return 0
		except:
			remove_killfunc(killfuncs, stop_fn)
			return -1

		time.sleep(1)

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

		# Try it the systemd way
		unitname = path_to_serviceunit(path)
		if unitname is not None:
			ret = systemctl_start(unitname, 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 xfs_scrub manually
		cmd = ['/usr/sbin/xfs_scrub']
		cmd += '-b -n'.split()
		cmd += [mnt]
		ret = run_killable(cmd, None, 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 xfs_scrub 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 main():
	'''Find mounts, schedule scrub 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

	parser = argparse.ArgumentParser( \
			description = "Scrub all mounted XFS filesystems.")
	parser.add_argument("-V", help = "Report version and exit.", \
			action = "store_true")
	args = parser.parse_args()

	if args.V:
		print("xfs_scrub_all version 6.6.0")
		sys.exit(0)

	fs = find_mounts()

	# Tail the journal if we ourselves aren't a service...
	journalthread = None
	if 'SERVICE_MODE' not in os.environ:
		try:
			cmd=['journalctl', '--no-pager', '-q', '-S', 'now', \
					'-f', '-u', 'xfs_scrub@*', '-o', \
					'cat']
			journalthread = subprocess.Popen(cmd)
		except:
			pass

	# 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 journalthread is not None:
		journalthread.terminate()

	# See the service mode comments in xfs_scrub.c for why we do this.
	if 'SERVICE_MODE' in os.environ:
		time.sleep(2)
		if retcode != 0:
			retcode = 1

	sys.exit(retcode)

if __name__ == '__main__':
	main()

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