tools/perf/scripts/python/compaction-times.py - third_party/dump-capture-kernel - Git at Google

 # report time spent in compaction
 # Licensed under the terms of the GNU GPL License version 2

 # testing:
 # 'echo 1 > /proc/sys/vm/compact_memory' to force compaction of all zones

 import os
 import sys
 import re

 import signal
 signal.signal(signal.SIGPIPE, signal.SIG_DFL)

 usage = "usage: perf script report compaction-times.py -- [-h] [-u] [-p|-pv] [-t | [-m] [-fs] [-ms]] [pid|pid-range|comm-regex]\n"

 class popt:
 	DISP_DFL = 0
 	DISP_PROC = 1
 	DISP_PROC_VERBOSE=2

 class topt:
 	DISP_TIME = 0
 	DISP_MIG = 1
 	DISP_ISOLFREE = 2
 	DISP_ISOLMIG = 4
 	DISP_ALL = 7

 class comm_filter:
 	def __init__(self, re):
 		self.re = re

 	def filter(self, pid, comm):
 		m = self.re.search(comm)
 		return m == None or m.group() == ""

 class pid_filter:
 	def __init__(self, low, high):
 		self.low = (0 if low == "" else int(low))
 		self.high = (0 if high == "" else int(high))

 	def filter(self, pid, comm):
 		return not (pid >= self.low and (self.high == 0 or pid <= self.high))

 def set_type(t):
 	global opt_disp
 	opt_disp = (t if opt_disp == topt.DISP_ALL else opt_disp|t)

 def ns(sec, nsec):
 	return (sec * 1000000000) + nsec

 def time(ns):
 	return "%dns" % ns if opt_ns else "%dus" % (round(ns, -3) / 1000)

 class pair:
 	def __init__(self, aval, bval, alabel = None, blabel = None):
 		self.alabel = alabel
 		self.blabel = blabel
 		self.aval = aval
 		self.bval = bval

 	def __add__(self, rhs):
 		self.aval += rhs.aval
 		self.bval += rhs.bval
 		return self

 	def __str__(self):
 		return "%s=%d %s=%d" % (self.alabel, self.aval, self.blabel, self.bval)

 class cnode:
 	def __init__(self, ns):
 		self.ns = ns
 		self.migrated = pair(0, 0, "moved", "failed")
 		self.fscan = pair(0,0, "scanned", "isolated")
 		self.mscan = pair(0,0, "scanned", "isolated")

 	def __add__(self, rhs):
 		self.ns += rhs.ns
 		self.migrated += rhs.migrated
 		self.fscan += rhs.fscan
 		self.mscan += rhs.mscan
 		return self

 	def __str__(self):
 		prev = 0
 		s = "%s " % time(self.ns)
 		if (opt_disp & topt.DISP_MIG):
 			s += "migration: %s" % self.migrated
 			prev = 1
 		if (opt_disp & topt.DISP_ISOLFREE):
 			s += "%sfree_scanner: %s" % (" " if prev else "", self.fscan)
 			prev = 1
 		if (opt_disp & topt.DISP_ISOLMIG):
 			s += "%smigration_scanner: %s" % (" " if prev else "", self.mscan)
 		return s

 	def complete(self, secs, nsecs):
 		self.ns = ns(secs, nsecs) - self.ns

 	def increment(self, migrated, fscan, mscan):
 		if (migrated != None):
 			self.migrated += migrated
 		if (fscan != None):
 			self.fscan += fscan
 		if (mscan != None):
 			self.mscan += mscan


 class chead:
 	heads = {}
 	val = cnode(0);
 	fobj = None

 	@classmethod
 	def add_filter(cls, filter):
 		cls.fobj = filter

 	@classmethod
 	def create_pending(cls, pid, comm, start_secs, start_nsecs):
 		filtered = 0
 		try:
 			head = cls.heads[pid]
 			filtered = head.is_filtered()
 		except KeyError:
 			if cls.fobj != None:
 				filtered = cls.fobj.filter(pid, comm)
 			head = cls.heads[pid] = chead(comm, pid, filtered)

 		if not filtered:
 			head.mark_pending(start_secs, start_nsecs)

 	@classmethod
 	def increment_pending(cls, pid, migrated, fscan, mscan):
 		head = cls.heads[pid]
 		if not head.is_filtered():
 			if head.is_pending():
 				head.do_increment(migrated, fscan, mscan)
 			else:
 				sys.stderr.write("missing start compaction event for pid %d\n" % pid)

 	@classmethod
 	def complete_pending(cls, pid, secs, nsecs):
 		head = cls.heads[pid]
 		if not head.is_filtered():
 			if head.is_pending():
 				head.make_complete(secs, nsecs)
 			else:
 				sys.stderr.write("missing start compaction event for pid %d\n" % pid)

 	@classmethod
 	def gen(cls):
 		if opt_proc != popt.DISP_DFL:
 			for i in cls.heads:
 				yield cls.heads[i]

 	@classmethod
 	def str(cls):
 		return cls.val

 	def __init__(self, comm, pid, filtered):
 		self.comm = comm
 		self.pid = pid
 		self.val = cnode(0)
 		self.pending = None
 		self.filtered = filtered
 		self.list = []

 	def __add__(self, rhs):
 		self.ns += rhs.ns
 		self.val += rhs.val
 		return self

 	def mark_pending(self, secs, nsecs):
 		self.pending = cnode(ns(secs, nsecs))

 	def do_increment(self, migrated, fscan, mscan):
 		self.pending.increment(migrated, fscan, mscan)

 	def make_complete(self, secs, nsecs):
 		self.pending.complete(secs, nsecs)
 		chead.val += self.pending

 		if opt_proc != popt.DISP_DFL:
 			self.val += self.pending

 			if opt_proc == popt.DISP_PROC_VERBOSE:
 				self.list.append(self.pending)
 		self.pending = None

 	def enumerate(self):
 		if opt_proc == popt.DISP_PROC_VERBOSE and not self.is_filtered():
 			for i, pelem in enumerate(self.list):
 				sys.stdout.write("%d[%s].%d: %s\n" % (self.pid, self.comm, i+1, pelem))

 	def is_pending(self):
 		return self.pending != None

 	def is_filtered(self):
 		return self.filtered

 	def display(self):
 		if not self.is_filtered():
 			sys.stdout.write("%d[%s]: %s\n" % (self.pid, self.comm, self.val))


 def trace_end():
 	sys.stdout.write("total: %s\n" % chead.str())
 	for i in chead.gen():
 		i.display(),
 		i.enumerate()

 def compaction__mm_compaction_migratepages(event_name, context, common_cpu,
 	common_secs, common_nsecs, common_pid, common_comm,
 	common_callchain, nr_migrated, nr_failed):

 	chead.increment_pending(common_pid,
 		pair(nr_migrated, nr_failed), None, None)

 def compaction__mm_compaction_isolate_freepages(event_name, context, common_cpu,
         common_secs, common_nsecs, common_pid, common_comm,
         common_callchain, start_pfn, end_pfn, nr_scanned, nr_taken):

 	chead.increment_pending(common_pid,
 		None, pair(nr_scanned, nr_taken), None)

 def compaction__mm_compaction_isolate_migratepages(event_name, context, common_cpu,
         common_secs, common_nsecs, common_pid, common_comm,
         common_callchain, start_pfn, end_pfn, nr_scanned, nr_taken):

 	chead.increment_pending(common_pid,
 		None, None, pair(nr_scanned, nr_taken))

 def compaction__mm_compaction_end(event_name, context, common_cpu,
 	common_secs, common_nsecs, common_pid, common_comm,
 	common_callchain, zone_start, migrate_start, free_start, zone_end,
 	sync, status):

 	chead.complete_pending(common_pid, common_secs, common_nsecs)

 def compaction__mm_compaction_begin(event_name, context, common_cpu,
 	common_secs, common_nsecs, common_pid, common_comm,
 	common_callchain, zone_start, migrate_start, free_start, zone_end,
 	sync):

 	chead.create_pending(common_pid, common_comm, common_secs, common_nsecs)

 def pr_help():
 	global usage

 	sys.stdout.write(usage)
 	sys.stdout.write("\n")
 	sys.stdout.write("-h	display this help\n")
 	sys.stdout.write("-p	display by process\n")
 	sys.stdout.write("-pv	display by process (verbose)\n")
 	sys.stdout.write("-t	display stall times only\n")
 	sys.stdout.write("-m	display stats for migration\n")
 	sys.stdout.write("-fs	display stats for free scanner\n")
 	sys.stdout.write("-ms	display stats for migration scanner\n")
 	sys.stdout.write("-u	display results in microseconds (default nanoseconds)\n")


 comm_re = None
 pid_re = None
 pid_regex = "^(\d*)-(\d*)$|^(\d*)$"

 opt_proc = popt.DISP_DFL
 opt_disp = topt.DISP_ALL

 opt_ns = True

 argc = len(sys.argv) - 1
 if argc >= 1:
 	pid_re = re.compile(pid_regex)

 	for i, opt in enumerate(sys.argv[1:]):
 		if opt[0] == "-":
 			if opt == "-h":
 				pr_help()
 				exit(0);
 			elif opt == "-p":
 				opt_proc = popt.DISP_PROC
 			elif opt == "-pv":
 				opt_proc = popt.DISP_PROC_VERBOSE
 			elif opt == '-u':
 				opt_ns = False
 			elif opt == "-t":
 				set_type(topt.DISP_TIME)
 			elif opt == "-m":
 				set_type(topt.DISP_MIG)
 			elif opt == "-fs":
 				set_type(topt.DISP_ISOLFREE)
 			elif opt == "-ms":
 				set_type(topt.DISP_ISOLMIG)
 			else:
 				sys.exit(usage)

 		elif i == argc - 1:
 			m = pid_re.search(opt)
 			if m != None and m.group() != "":
 				if m.group(3) != None:
 					f = pid_filter(m.group(3), m.group(3))
 				else:
 					f = pid_filter(m.group(1), m.group(2))
 			else:
 				try:
 					comm_re=re.compile(opt)
 				except:
 					sys.stderr.write("invalid regex '%s'" % opt)
 					sys.exit(usage)
 				f = comm_filter(comm_re)

 			chead.add_filter(f)
	# report time spent in compaction
	# Licensed under the terms of the GNU GPL License version 2

	# testing:
	# 'echo 1 > /proc/sys/vm/compact_memory' to force compaction of all zones

	import os
	import sys
	import re

	import signal
	signal.signal(signal.SIGPIPE, signal.SIG_DFL)

	usage = "usage: perf script report compaction-times.py -- [-h] [-u] [-p\|-pv] [-t \| [-m] [-fs] [-ms]] [pid\|pid-range\|comm-regex]\n"

	class popt:
	DISP_DFL = 0
	DISP_PROC = 1
	DISP_PROC_VERBOSE=2

	class topt:
	DISP_TIME = 0
	DISP_MIG = 1
	DISP_ISOLFREE = 2
	DISP_ISOLMIG = 4
	DISP_ALL = 7

	class comm_filter:
	def __init__(self, re):
	self.re = re

	def filter(self, pid, comm):
	m = self.re.search(comm)
	return m == None or m.group() == ""

	class pid_filter:
	def __init__(self, low, high):
	self.low = (0 if low == "" else int(low))
	self.high = (0 if high == "" else int(high))

	def filter(self, pid, comm):
	return not (pid >= self.low and (self.high == 0 or pid <= self.high))

	def set_type(t):
	global opt_disp
	opt_disp = (t if opt_disp == topt.DISP_ALL else opt_disp\|t)

	def ns(sec, nsec):
	return (sec * 1000000000) + nsec

	def time(ns):
	return "%dns" % ns if opt_ns else "%dus" % (round(ns, -3) / 1000)

	class pair:
	def __init__(self, aval, bval, alabel = None, blabel = None):
	self.alabel = alabel
	self.blabel = blabel
	self.aval = aval
	self.bval = bval

	def __add__(self, rhs):
	self.aval += rhs.aval
	self.bval += rhs.bval
	return self

	def __str__(self):
	return "%s=%d %s=%d" % (self.alabel, self.aval, self.blabel, self.bval)

	class cnode:
	def __init__(self, ns):
	self.ns = ns
	self.migrated = pair(0, 0, "moved", "failed")
	self.fscan = pair(0,0, "scanned", "isolated")
	self.mscan = pair(0,0, "scanned", "isolated")

	def __add__(self, rhs):
	self.ns += rhs.ns
	self.migrated += rhs.migrated
	self.fscan += rhs.fscan
	self.mscan += rhs.mscan
	return self

	def __str__(self):
	prev = 0
	s = "%s " % time(self.ns)
	if (opt_disp & topt.DISP_MIG):
	s += "migration: %s" % self.migrated
	prev = 1
	if (opt_disp & topt.DISP_ISOLFREE):
	s += "%sfree_scanner: %s" % (" " if prev else "", self.fscan)
	prev = 1
	if (opt_disp & topt.DISP_ISOLMIG):
	s += "%smigration_scanner: %s" % (" " if prev else "", self.mscan)
	return s

	def complete(self, secs, nsecs):
	self.ns = ns(secs, nsecs) - self.ns

	def increment(self, migrated, fscan, mscan):
	if (migrated != None):
	self.migrated += migrated
	if (fscan != None):
	self.fscan += fscan
	if (mscan != None):
	self.mscan += mscan


	class chead:
	heads = {}
	val = cnode(0);
	fobj = None

	@classmethod
	def add_filter(cls, filter):
	cls.fobj = filter

	@classmethod
	def create_pending(cls, pid, comm, start_secs, start_nsecs):
	filtered = 0
	try:
	head = cls.heads[pid]
	filtered = head.is_filtered()
	except KeyError:
	if cls.fobj != None:
	filtered = cls.fobj.filter(pid, comm)
	head = cls.heads[pid] = chead(comm, pid, filtered)

	if not filtered:
	head.mark_pending(start_secs, start_nsecs)

	@classmethod
	def increment_pending(cls, pid, migrated, fscan, mscan):
	head = cls.heads[pid]
	if not head.is_filtered():
	if head.is_pending():
	head.do_increment(migrated, fscan, mscan)
	else:
	sys.stderr.write("missing start compaction event for pid %d\n" % pid)

	@classmethod
	def complete_pending(cls, pid, secs, nsecs):
	head = cls.heads[pid]
	if not head.is_filtered():
	if head.is_pending():
	head.make_complete(secs, nsecs)
	else:
	sys.stderr.write("missing start compaction event for pid %d\n" % pid)

	@classmethod
	def gen(cls):
	if opt_proc != popt.DISP_DFL:
	for i in cls.heads:
	yield cls.heads[i]

	@classmethod
	def str(cls):
	return cls.val

	def __init__(self, comm, pid, filtered):
	self.comm = comm
	self.pid = pid
	self.val = cnode(0)
	self.pending = None
	self.filtered = filtered
	self.list = []

	def __add__(self, rhs):
	self.ns += rhs.ns
	self.val += rhs.val
	return self

	def mark_pending(self, secs, nsecs):
	self.pending = cnode(ns(secs, nsecs))

	def do_increment(self, migrated, fscan, mscan):
	self.pending.increment(migrated, fscan, mscan)

	def make_complete(self, secs, nsecs):
	self.pending.complete(secs, nsecs)
	chead.val += self.pending

	if opt_proc != popt.DISP_DFL:
	self.val += self.pending

	if opt_proc == popt.DISP_PROC_VERBOSE:
	self.list.append(self.pending)
	self.pending = None

	def enumerate(self):
	if opt_proc == popt.DISP_PROC_VERBOSE and not self.is_filtered():
	for i, pelem in enumerate(self.list):
	sys.stdout.write("%d[%s].%d: %s\n" % (self.pid, self.comm, i+1, pelem))

	def is_pending(self):
	return self.pending != None

	def is_filtered(self):
	return self.filtered

	def display(self):
	if not self.is_filtered():
	sys.stdout.write("%d[%s]: %s\n" % (self.pid, self.comm, self.val))


	def trace_end():
	sys.stdout.write("total: %s\n" % chead.str())
	for i in chead.gen():
	i.display(),
	i.enumerate()

	def compaction__mm_compaction_migratepages(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	common_callchain, nr_migrated, nr_failed):

	chead.increment_pending(common_pid,
	pair(nr_migrated, nr_failed), None, None)

	def compaction__mm_compaction_isolate_freepages(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	common_callchain, start_pfn, end_pfn, nr_scanned, nr_taken):

	chead.increment_pending(common_pid,
	None, pair(nr_scanned, nr_taken), None)

	def compaction__mm_compaction_isolate_migratepages(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	common_callchain, start_pfn, end_pfn, nr_scanned, nr_taken):

	chead.increment_pending(common_pid,
	None, None, pair(nr_scanned, nr_taken))

	def compaction__mm_compaction_end(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	common_callchain, zone_start, migrate_start, free_start, zone_end,
	sync, status):

	chead.complete_pending(common_pid, common_secs, common_nsecs)

	def compaction__mm_compaction_begin(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	common_callchain, zone_start, migrate_start, free_start, zone_end,
	sync):

	chead.create_pending(common_pid, common_comm, common_secs, common_nsecs)

	def pr_help():
	global usage

	sys.stdout.write(usage)
	sys.stdout.write("\n")
	sys.stdout.write("-h display this help\n")
	sys.stdout.write("-p display by process\n")
	sys.stdout.write("-pv display by process (verbose)\n")
	sys.stdout.write("-t display stall times only\n")
	sys.stdout.write("-m display stats for migration\n")
	sys.stdout.write("-fs display stats for free scanner\n")
	sys.stdout.write("-ms display stats for migration scanner\n")
	sys.stdout.write("-u display results in microseconds (default nanoseconds)\n")


	comm_re = None
	pid_re = None
	pid_regex = "^(\d)-(\d)$\|^(\d*)$"

	opt_proc = popt.DISP_DFL
	opt_disp = topt.DISP_ALL

	opt_ns = True

	argc = len(sys.argv) - 1
	if argc >= 1:
	pid_re = re.compile(pid_regex)

	for i, opt in enumerate(sys.argv[1:]):
	if opt[0] == "-":
	if opt == "-h":
	pr_help()
	exit(0);
	elif opt == "-p":
	opt_proc = popt.DISP_PROC
	elif opt == "-pv":
	opt_proc = popt.DISP_PROC_VERBOSE
	elif opt == '-u':
	opt_ns = False
	elif opt == "-t":
	set_type(topt.DISP_TIME)
	elif opt == "-m":
	set_type(topt.DISP_MIG)
	elif opt == "-fs":
	set_type(topt.DISP_ISOLFREE)
	elif opt == "-ms":
	set_type(topt.DISP_ISOLMIG)
	else:
	sys.exit(usage)

	elif i == argc - 1:
	m = pid_re.search(opt)
	if m != None and m.group() != "":
	if m.group(3) != None:
	f = pid_filter(m.group(3), m.group(3))
	else:
	f = pid_filter(m.group(1), m.group(2))
	else:
	try:
	comm_re=re.compile(opt)
	except:
	sys.stderr.write("invalid regex '%s'" % opt)
	sys.exit(usage)
	f = comm_filter(comm_re)

	chead.add_filter(f)