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path: root/scripts/analyze_suspend.py
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#!/usr/bin/python
#
# Tool for analyzing suspend/resume timing
# Copyright (c) 2013, Intel Corporation.
#
# This program is free software; you can redistribute it and/or modify it
# under the terms and conditions of the GNU General Public License,
# version 2, as published by the Free Software Foundation.
#
# This program is distributed in the hope 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.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.
#
# Authors:
#	 Todd Brandt <todd.e.brandt@linux.intel.com>
#
# Description:
#	 This tool is designed to assist kernel and OS developers in optimizing
#	 their linux stack's suspend/resume time. Using a kernel image built
#	 with a few extra options enabled, the tool will execute a suspend and
#	 will capture dmesg and ftrace data until resume is complete. This data
#	 is transformed into a device timeline and a callgraph to give a quick
#	 and detailed view of which devices and callbacks are taking the most
#	 time in suspend/resume. The output is a single html file which can be
#	 viewed in firefox or chrome.
#
#	 The following kernel build options are required:
#		 CONFIG_PM_DEBUG=y
#		 CONFIG_PM_SLEEP_DEBUG=y
#		 CONFIG_FTRACE=y
#		 CONFIG_FUNCTION_TRACER=y
#		 CONFIG_FUNCTION_GRAPH_TRACER=y
#
#	 The following additional kernel parameters are required:
#		 (e.g. in file /etc/default/grub)
#		 GRUB_CMDLINE_LINUX_DEFAULT="... initcall_debug log_buf_len=16M ..."
#

import sys
import time
import os
import string
import re
import array
import platform
import datetime
import struct

# -- classes --

class SystemValues:
	testdir = "."
	tpath = "/sys/kernel/debug/tracing/"
	mempath = "/dev/mem"
	powerfile = "/sys/power/state"
	suspendmode = "mem"
	prefix = "test"
	teststamp = ""
	dmesgfile = ""
	ftracefile = ""
	htmlfile = ""
	rtcwake = False
	def setOutputFile(self):
		if((self.htmlfile == "") and (self.dmesgfile != "")):
			m = re.match(r"(?P<name>.*)_dmesg\.txt$", self.dmesgfile)
			if(m):
				self.htmlfile = m.group("name")+".html"
		if((self.htmlfile == "") and (self.ftracefile != "")):
			m = re.match(r"(?P<name>.*)_ftrace\.txt$", self.ftracefile)
			if(m):
				self.htmlfile = m.group("name")+".html"
		if(self.htmlfile == ""):
			self.htmlfile = "output.html"
	def initTestOutput(self):
		hostname = platform.node()
		if(hostname != ""):
			self.prefix = hostname
		v = os.popen("cat /proc/version").read().strip()
		kver = string.split(v)[2]
		self.testdir = os.popen("date \"+suspend-%m%d%y-%H%M%S\"").read().strip()
		self.teststamp = "# "+self.testdir+" "+self.prefix+" "+self.suspendmode+" "+kver
		self.dmesgfile = self.testdir+"/"+self.prefix+"_"+self.suspendmode+"_dmesg.txt"
		self.ftracefile = self.testdir+"/"+self.prefix+"_"+self.suspendmode+"_ftrace.txt"
		self.htmlfile = self.testdir+"/"+self.prefix+"_"+self.suspendmode+".html"
		os.mkdir(self.testdir)

class Data:
	altdevname = dict()
	usedmesg = False
	useftrace = False
	notestrun = False
	verbose = False
	phases = []
	dmesg = {} # root data structure
	start = 0.0
	end = 0.0
	stamp = {'time': "", 'host': "", 'mode': ""}
	id = 0
	tSuspended = 0.0
	fwValid = False
	fwSuspend = 0
	fwResume = 0
	def initialize(self):
		self.dmesg = { # dmesg log data
			'suspend_general': {'list': dict(), 'start': -1.0, 'end': -1.0,
								'row': 0, 'color': "#CCFFCC", 'order': 0},
			  'suspend_early': {'list': dict(), 'start': -1.0, 'end': -1.0,
								'row': 0, 'color': "green", 'order': 1},
			  'suspend_noirq': {'list': dict(), 'start': -1.0, 'end': -1.0,
								'row': 0, 'color': "#00FFFF", 'order': 2},
				'suspend_cpu': {'list': dict(), 'start': -1.0, 'end': -1.0,
								'row': 0, 'color': "blue", 'order': 3},
				 'resume_cpu': {'list': dict(), 'start': -1.0, 'end': -1.0,
								'row': 0, 'color': "red", 'order': 4},
			   'resume_noirq': {'list': dict(), 'start': -1.0, 'end': -1.0,
								'row': 0, 'color': "orange", 'order': 5},
			   'resume_early': {'list': dict(), 'start': -1.0, 'end': -1.0,
								'row': 0, 'color': "yellow", 'order': 6},
			 'resume_general': {'list': dict(), 'start': -1.0, 'end': -1.0,
								'row': 0, 'color': "#FFFFCC", 'order': 7}
		}
		self.phases = self.sortedPhases()
	def normalizeTime(self):
		tSus = tRes = self.tSuspended
		if self.fwValid:
			tSus -= -self.fwSuspend / 1000000000.0
			tRes -= self.fwResume / 1000000000.0
		self.tSuspended = 0.0
		self.start -= tSus
		self.end -= tRes
		for phase in self.phases:
			zero = tRes
			if "suspend" in phase:
				zero = tSus
			p = self.dmesg[phase]
			p['start'] -= zero
			p['end'] -= zero
			list = p['list']
			for name in list:
				d = list[name]
				d['start'] -= zero
				d['end'] -= zero
				if('ftrace' in d):
					cg = d['ftrace']
					cg.start -= zero
					cg.end -= zero
					for line in cg.list:
						line.time -= zero
		if self.fwValid:
			fws = -self.fwSuspend / 1000000000.0
			fwr = self.fwResume / 1000000000.0
			list = dict()
			self.id += 1
			devid = "dc%d" % self.id
			list["firmware-suspend"] = \
				{'start': fws, 'end': 0, 'pid': 0, 'par': "",
				'length': -fws, 'row': 0, 'id': devid };
			self.id += 1
			devid = "dc%d" % self.id
			list["firmware-resume"] = \
				{'start': 0, 'end': fwr, 'pid': 0, 'par': "",
				'length': fwr, 'row': 0, 'id': devid };
			self.dmesg['BIOS'] = \
				{'list': list, 'start': fws, 'end': fwr,
				'row': 0, 'color': "purple", 'order': 4}
			self.dmesg['resume_cpu']['order'] += 1
			self.dmesg['resume_noirq']['order'] += 1
			self.dmesg['resume_early']['order'] += 1
			self.dmesg['resume_general']['order'] += 1
			self.phases = self.sortedPhases()
	def vprint(self, msg):
		if(self.verbose):
			print(msg)
	def dmesgSortVal(self, phase):
		return self.dmesg[phase]['order']
	def sortedPhases(self):
		return sorted(self.dmesg, key=self.dmesgSortVal)
	def sortedDevices(self, phase):
		list = self.dmesg[phase]['list']
		slist = []
		tmp = dict()
		for devname in list:
			dev = list[devname]
			tmp[dev['start']] = devname
		for t in sorted(tmp):
			slist.append(tmp[t])
		return slist
	def fixupInitcalls(self, phase, end):
		# if any calls never returned, clip them at system resume end
		phaselist = self.dmesg[phase]['list']
		for devname in phaselist:
			dev = phaselist[devname]
			if(dev['end'] < 0):
				dev['end'] = end
				self.vprint("%s (%s): callback didn't return" % (devname, phase))
	def fixupInitcallsThatDidntReturn(self):
		# if any calls never returned, clip them at system resume end
		for phase in self.phases:
			self.fixupInitcalls(phase, self.dmesg['resume_general']['end'])
			if(phase == "resume_general"):
				break
	def newAction(self, phase, name, pid, parent, start, end):
		self.id += 1
		devid = "dc%d" % self.id
		list = self.dmesg[phase]['list']
		length = -1.0
		if(start >= 0 and end >= 0):
			length = end - start
		list[name] = {'start': start, 'end': end, 'pid': pid, 'par': parent,
					  'length': length, 'row': 0, 'id': devid }
	def deviceIDs(self, devlist, phase):
		idlist = []
		for p in self.phases:
			if(p[0] != phase[0]):
				continue
			list = data.dmesg[p]['list']
			for devname in list:
				if devname in devlist:
					idlist.append(list[devname]['id'])
		return idlist
	def deviceParentID(self, devname, phase):
		pdev = ""
		pdevid = ""
		for p in self.phases:
			if(p[0] != phase[0]):
				continue
			list = data.dmesg[p]['list']
			if devname in list:
				pdev = list[devname]['par']
		for p in self.phases:
			if(p[0] != phase[0]):
				continue
			list = data.dmesg[p]['list']
			if pdev in list:
				return list[pdev]['id']
		return pdev
	def deviceChildrenIDs(self, devname, phase):
		devlist = []
		for p in self.phases:
			if(p[0] != phase[0]):
				continue
			list = data.dmesg[p]['list']
			for child in list:
				if(list[child]['par'] == devname):
					devlist.append(child)
		return self.deviceIDs(devlist, phase)

class FTraceLine:
	time = 0.0
	length = 0.0
	fcall = False
	freturn = False
	fevent = False
	depth = 0
	name = ""
	def __init__(self, t, m, d):
		self.time = float(t)
		# check to see if this is a trace event
		em = re.match(r"^ *\/\* *(?P<msg>.*) \*\/ *$", m)
		if(em):
			self.name = em.group("msg")
			self.fevent = True
			return
		# convert the duration to seconds
		if(d):
			self.length = float(d)/1000000
		# the indentation determines the depth
		match = re.match(r"^(?P<d> *)(?P<o>.*)$", m)
		if(not match):
			return
		self.depth = self.getDepth(match.group('d'))
		m = match.group('o')
		# function return
		if(m[0] == '}'):
			self.freturn = True
			if(len(m) > 1):
				# includes comment with function name
				match = re.match(r"^} *\/\* *(?P<n>.*) *\*\/$", m)
				if(match):
					self.name = match.group('n')
		# function call
		else:
			self.fcall = True
			# function call with children
			if(m[-1] == '{'):
				match = re.match(r"^(?P<n>.*) *\(.*", m)
				if(match):
					self.name = match.group('n')
			# function call with no children (leaf)
			elif(m[-1] == ';'):
				self.freturn = True
				match = re.match(r"^(?P<n>.*) *\(.*", m)
				if(match):
					self.name = match.group('n')
			# something else (possibly a trace marker)
			else:
				self.name = m
	def getDepth(self, str):
		return len(str)/2

class FTraceCallGraph:
	start = -1.0
	end = -1.0
	list = []
	invalid = False
	depth = 0
	def __init__(self):
		self.start = -1.0
		self.end = -1.0
		self.list = []
		self.depth = 0
	def setDepth(self, line):
		if(line.fcall and not line.freturn):
			line.depth = self.depth
			self.depth += 1
		elif(line.freturn and not line.fcall):
			self.depth -= 1
			line.depth = self.depth
		else:
			line.depth = self.depth
	def addLine(self, line, match):
		if(not self.invalid):
			self.setDepth(line)
		if(line.depth == 0 and line.freturn):
			self.end = line.time
			self.list.append(line)
			return True
		if(self.invalid):
			return False
		if(len(self.list) >= 1000000 or self.depth < 0):
		   first = self.list[0]
		   self.list = []
		   self.list.append(first)
		   self.invalid = True
		   id = "task %s cpu %s" % (match.group("pid"), match.group("cpu"))
		   window = "(%f - %f)" % (self.start, line.time)
		   data.vprint("Too much data for "+id+" "+window+", ignoring this callback")
		   return False
		self.list.append(line)
		if(self.start < 0):
			self.start = line.time
		return False
	def sanityCheck(self):
		stack = dict()
		cnt = 0
		for l in self.list:
			if(l.fcall and not l.freturn):
				stack[l.depth] = l
				cnt += 1
			elif(l.freturn and not l.fcall):
				if(not stack[l.depth]):
					return False
				stack[l.depth].length = l.length
				stack[l.depth] = 0
				l.length = 0
				cnt -= 1
		if(cnt == 0):
			return True
		return False
	def debugPrint(self, filename):
		if(filename == "stdout"):
			print("[%f - %f]") % (self.start, self.end)
			for l in self.list:
				if(l.freturn and l.fcall):
					print("%f (%02d): %s(); (%.3f us)" % (l.time, l.depth, l.name, l.length*1000000))
				elif(l.freturn):
					print("%f (%02d): %s} (%.3f us)" % (l.time, l.depth, l.name, l.length*1000000))
				else:
					print("%f (%02d): %s() { (%.3f us)" % (l.time, l.depth, l.name, l.length*1000000))
			print(" ")
		else:
			fp = open(filename, 'w')
			print(filename)
			for l in self.list:
				if(l.freturn and l.fcall):
					fp.write("%f (%02d): %s(); (%.3f us)\n" % (l.time, l.depth, l.name, l.length*1000000))
				elif(l.freturn):
					fp.write("%f (%02d): %s} (%.3f us)\n" % (l.time, l.depth, l.name, l.length*1000000))
				else:
					fp.write("%f (%02d): %s() { (%.3f us)\n" % (l.time, l.depth, l.name, l.length*1000000))
			fp.close()

class Timeline:
	html = {}
	scaleH = 0.0 # height of the timescale row as a percent of the timeline height
	rowH = 0.0 # height of each row in percent of the timeline height
	row_height_pixels = 30
	maxrows = 0
	height = 0
	def __init__(self):
		self.html = {
			'timeline': "",
			'legend': "",
			'scale': ""
		}
	def setRows(self, rows):
		self.maxrows = int(rows)
		self.scaleH = 100.0/float(self.maxrows)
		self.height = self.maxrows*self.row_height_pixels
		r = float(self.maxrows - 1)
		if(r < 1.0):
			r = 1.0
		self.rowH = (100.0 - self.scaleH)/r

# -- global objects --

sysvals = SystemValues()
data = Data()

# -- functions --

# Function: initFtrace
# Description:
#	 Configure ftrace to capture a function trace during suspend/resume
def initFtrace():
	global sysvals

	print("INITIALIZING FTRACE...")
	# turn trace off
	os.system("echo 0 > "+sysvals.tpath+"tracing_on")
	# set the trace clock to global
	os.system("echo global > "+sysvals.tpath+"trace_clock")
	# set trace buffer to a huge value
	os.system("echo nop > "+sysvals.tpath+"current_tracer")
	os.system("echo 100000 > "+sysvals.tpath+"buffer_size_kb")
	# clear the trace buffer
	os.system("echo \"\" > "+sysvals.tpath+"trace")
	# set trace type
	os.system("echo function_graph > "+sysvals.tpath+"current_tracer")
	os.system("echo \"\" > "+sysvals.tpath+"set_ftrace_filter")
	# set trace format options
	os.system("echo funcgraph-abstime > "+sysvals.tpath+"trace_options")
	os.system("echo funcgraph-proc > "+sysvals.tpath+"trace_options")
	# focus only on device suspend and resume
	os.system("cat "+sysvals.tpath+"available_filter_functions | grep dpm_run_callback > "+sysvals.tpath+"set_graph_function")

# Function: verifyFtrace
# Description:
#	 Check that ftrace is working on the system
def verifyFtrace():
	global sysvals
	files = ["available_filter_functions", "buffer_size_kb",
			 "current_tracer", "set_ftrace_filter",
			 "trace", "trace_marker"]
	for f in files:
		if(os.path.exists(sysvals.tpath+f) == False):
			return False
	return True

def parseStamp(line):
	global data, sysvals
	stampfmt = r"# suspend-(?P<m>[0-9]{2})(?P<d>[0-9]{2})(?P<y>[0-9]{2})-"+\
				"(?P<H>[0-9]{2})(?P<M>[0-9]{2})(?P<S>[0-9]{2})"+\
				" (?P<host>.*) (?P<mode>.*) (?P<kernel>.*)$"
	m = re.match(stampfmt, line)
	if(m):
		dt = datetime.datetime(int(m.group("y"))+2000, int(m.group("m")),
			int(m.group("d")), int(m.group("H")), int(m.group("M")),
			int(m.group("S")))
		data.stamp['time'] = dt.strftime("%B %d %Y, %I:%M:%S %p")
		data.stamp['host'] = m.group("host")
		data.stamp['mode'] = m.group("mode")
		data.stamp['kernel'] = m.group("kernel")
		sysvals.suspendmode = data.stamp['mode']

# Function: analyzeTraceLog
# Description:
#	 Analyse an ftrace log output file generated from this app during
#	 the execution phase. Create an "ftrace" structure in memory for
#	 subsequent formatting in the html output file
def analyzeTraceLog():
	global sysvals, data

	# the ftrace data is tied to the dmesg data
	if(not data.usedmesg):
		return

	# read through the ftrace and parse the data
	data.vprint("Analyzing the ftrace data...")
	ftrace_line_fmt = r"^ *(?P<time>[0-9\.]*) *\| *(?P<cpu>[0-9]*)\)"+\
					   " *(?P<proc>.*)-(?P<pid>[0-9]*) *\|"+\
					   "[ +!]*(?P<dur>[0-9\.]*) .*\|  (?P<msg>.*)"
	ftemp = dict()
	inthepipe = False
	tf = open(sysvals.ftracefile, 'r')
	count = 0
	for line in tf:
		count = count + 1
		# grab the time stamp if it's valid
		if(count == 1):
			parseStamp(line)
			continue
		# parse only valid lines
		m = re.match(ftrace_line_fmt, line)
		if(not m):
			continue
		m_time = m.group("time")
		m_pid = m.group("pid")
		m_msg = m.group("msg")
		m_dur = m.group("dur")
		if(m_time and m_pid and m_msg):
			t = FTraceLine(m_time, m_msg, m_dur)
			pid = int(m_pid)
		else:
			continue
		# the line should be a call, return, or event
		if(not t.fcall and not t.freturn and not t.fevent):
			continue
		# only parse the ftrace data during suspend/resume
		if(not inthepipe):
			# look for the suspend start marker
			if(t.fevent):
				if(t.name == "SUSPEND START"):
					data.vprint("SUSPEND START %f %s:%d" % (t.time, sysvals.ftracefile, count))
					inthepipe = True
				continue
		else:
			# look for the resume end marker
			if(t.fevent):
				if(t.name == "RESUME COMPLETE"):
					data.vprint("RESUME COMPLETE %f %s:%d" % (t.time, sysvals.ftracefile, count))
					inthepipe = False
					break
				continue
			# create a callgraph object for the data
			if(pid not in ftemp):
				ftemp[pid] = FTraceCallGraph()
			# when the call is finished, see which device matches it
			if(ftemp[pid].addLine(t, m)):
				if(not ftemp[pid].sanityCheck()):
					id = "task %s cpu %s" % (pid, m.group("cpu"))
					data.vprint("Sanity check failed for "+id+", ignoring this callback")
					continue
				callstart = ftemp[pid].start
				callend = ftemp[pid].end
				for p in data.phases:
					if(data.dmesg[p]['start'] <= callstart and callstart <= data.dmesg[p]['end']):
						list = data.dmesg[p]['list']
						for devname in list:
							dev = list[devname]
							if(pid == dev['pid'] and callstart <= dev['start'] and callend >= dev['end']):
								data.vprint("%15s [%f - %f] %s(%d)" % (p, callstart, callend, devname, pid))
								dev['ftrace'] = ftemp[pid]
						break
				ftemp[pid] = FTraceCallGraph()
	tf.close()

# Function: sortKernelLog
# Description:
#	 The dmesg output log sometimes comes with with lines that have
#	 timestamps out of order. This could cause issues since a call
#	 could accidentally end up in the wrong phase
def sortKernelLog():
	global sysvals, data
	lf = open(sysvals.dmesgfile, 'r')
	dmesglist = []
	count = 0
	for line in lf:
		line = line.replace("\r\n", "")
		if(count == 0):
			parseStamp(line)
		elif(count == 1):
			m = re.match(r"# fwsuspend (?P<s>[0-9]*) fwresume (?P<r>[0-9]*)$", line)
			if(m):
				data.fwSuspend = int(m.group("s"))
				data.fwResume = int(m.group("r"))
				if(data.fwSuspend > 0 or data.fwResume > 0):
					data.fwValid = True
		if(re.match(r".*(\[ *)(?P<ktime>[0-9\.]*)(\]) (?P<msg>.*)", line)):
			dmesglist.append(line)
		count += 1
	lf.close()
	last = ""

	# fix lines with the same time stamp and function with the call and return swapped
	for line in dmesglist:
		mc = re.match(r".*(\[ *)(?P<t>[0-9\.]*)(\]) calling  (?P<f>.*)\+ @ .*, parent: .*", line)
		mr = re.match(r".*(\[ *)(?P<t>[0-9\.]*)(\]) call (?P<f>.*)\+ returned .* after (?P<dt>.*) usecs", last)
		if(mc and mr and (mc.group("t") == mr.group("t")) and (mc.group("f") == mr.group("f"))):
			i = dmesglist.index(last)
			j = dmesglist.index(line)
			dmesglist[i] = line
			dmesglist[j] = last
		last = line
	return dmesglist

# Function: analyzeKernelLog
# Description:
#	 Analyse a dmesg log output file generated from this app during
#	 the execution phase. Create a set of device structures in memory
#	 for subsequent formatting in the html output file
def analyzeKernelLog():
	global sysvals, data

	print("PROCESSING DATA")
	data.vprint("Analyzing the dmesg data...")
	if(os.path.exists(sysvals.dmesgfile) == False):
		print("ERROR: %s doesn't exist") % sysvals.dmesgfile
		return False

	lf = sortKernelLog()
	phase = "suspend_runtime"

	dm = {
		'suspend_general': r"PM: Syncing filesystems.*",
		  'suspend_early': r"PM: suspend of devices complete after.*",
		  'suspend_noirq': r"PM: late suspend of devices complete after.*",
		    'suspend_cpu': r"PM: noirq suspend of devices complete after.*",
		     'resume_cpu': r"ACPI: Low-level resume complete.*",
		   'resume_noirq': r"ACPI: Waking up from system sleep state.*",
		   'resume_early': r"PM: noirq resume of devices complete after.*",
		 'resume_general': r"PM: early resume of devices complete after.*",
		'resume_complete': r".*Restarting tasks \.\.\..*",
	}
	if(sysvals.suspendmode == "standby"):
		dm['resume_cpu'] = r"PM: Restoring platform NVS memory"
	elif(sysvals.suspendmode == "disk"):
		dm['suspend_early'] = r"PM: freeze of devices complete after.*"
		dm['suspend_noirq'] = r"PM: late freeze of devices complete after.*"
		dm['suspend_cpu'] = r"PM: noirq freeze of devices complete after.*"
		dm['resume_cpu'] = r"PM: Restoring platform NVS memory"
		dm['resume_early'] = r"PM: noirq restore of devices complete after.*"
		dm['resume_general'] = r"PM: early restore of devices complete after.*"

	action_start = 0.0
	for line in lf:
		# -- preprocessing --
		# parse each dmesg line into the time and message
		m = re.match(r".*(\[ *)(?P<ktime>[0-9\.]*)(\]) (?P<msg>.*)", line)
		if(m):
			ktime = float(m.group("ktime"))
			msg = m.group("msg")
		else:
			print line
			continue

		# -- phase changes --
		# suspend_general start
		if(re.match(dm['suspend_general'], msg)):
			phase = "suspend_general"
			data.dmesg[phase]['start'] = ktime
			data.start = ktime
			# action start: syncing filesystems
			action_start = ktime
		# suspend_early start
		elif(re.match(dm['suspend_early'], msg)):
			data.dmesg["suspend_general"]['end'] = ktime
			phase = "suspend_early"
			data.dmesg[phase]['start'] = ktime
		# suspend_noirq start
		elif(re.match(dm['suspend_noirq'], msg)):
			data.dmesg["suspend_early"]['end'] = ktime
			phase = "suspend_noirq"
			data.dmesg[phase]['start'] = ktime
		# suspend_cpu start
		elif(re.match(dm['suspend_cpu'], msg)):
			data.dmesg["suspend_noirq"]['end'] = ktime
			phase = "suspend_cpu"
			data.dmesg[phase]['start'] = ktime
		# resume_cpu start
		elif(re.match(dm['resume_cpu'], msg)):
			data.tSuspended = ktime
			data.dmesg["suspend_cpu"]['end'] = ktime
			phase = "resume_cpu"
			data.dmesg[phase]['start'] = ktime
		# resume_noirq start
		elif(re.match(dm['resume_noirq'], msg)):
			data.dmesg["resume_cpu"]['end'] = ktime
			phase = "resume_noirq"
			data.dmesg[phase]['start'] = ktime
			# action end: ACPI resume
			data.newAction("resume_cpu", "ACPI", -1, "", action_start, ktime)
		# resume_early start
		elif(re.match(dm['resume_early'], msg)):
			data.dmesg["resume_noirq"]['end'] = ktime
			phase = "resume_early"
			data.dmesg[phase]['start'] = ktime
		# resume_general start
		elif(re.match(dm['resume_general'], msg)):
			data.dmesg["resume_early"]['end'] = ktime
			phase = "resume_general"
			data.dmesg[phase]['start'] = ktime
		# resume complete start
		elif(re.match(dm['resume_complete'], msg)):
			data.dmesg["resume_general"]['end'] = ktime
			data.end = ktime
			phase = "resume_runtime"
			break

		# -- device callbacks --
		if(phase in data.phases):
			# device init call
			if(re.match(r"calling  (?P<f>.*)\+ @ .*, parent: .*", msg)):
				sm = re.match(r"calling  (?P<f>.*)\+ @ (?P<n>.*), parent: (?P<p>.*)", msg);
				f = sm.group("f")
				n = sm.group("n")
				p = sm.group("p")
				if(f and n and p):
					data.newAction(phase, f, int(n), p, ktime, -1)
			# device init return
			elif(re.match(r"call (?P<f>.*)\+ returned .* after (?P<t>.*) usecs", msg)):
				sm = re.match(r"call (?P<f>.*)\+ returned .* after (?P<t>.*) usecs(?P<a>.*)", msg);
				f = sm.group("f")
				t = sm.group("t")
				list = data.dmesg[phase]['list']
				if(f in list):
					dev = list[f]
					dev['length'] = int(t)
					dev['end'] = ktime
					data.vprint("%15s [%f - %f] %s(%d) %s" %
						(phase, dev['start'], dev['end'], f, dev['pid'], dev['par']))

		# -- phase specific actions --
		if(phase == "suspend_general"):
			if(re.match(r"PM: Preparing system for mem sleep.*", msg)):
				data.newAction(phase, "filesystem-sync", -1, "", action_start, ktime)
			elif(re.match(r"Freezing user space processes .*", msg)):
				action_start = ktime
			elif(re.match(r"Freezing remaining freezable tasks.*", msg)):
				data.newAction(phase, "freeze-user-processes", -1, "", action_start, ktime)
				action_start = ktime
			elif(re.match(r"PM: Entering (?P<mode>[a-z,A-Z]*) sleep.*", msg)):
				data.newAction(phase, "freeze-tasks", -1, "", action_start, ktime)
		elif(phase == "suspend_cpu"):
			m = re.match(r"smpboot: CPU (?P<cpu>[0-9]*) is now offline", msg)
			if(m):
				cpu = "CPU"+m.group("cpu")
				data.newAction(phase, cpu, -1, "", action_start, ktime)
				action_start = ktime
			elif(re.match(r"ACPI: Preparing to enter system sleep state.*", msg)):
				action_start = ktime
			elif(re.match(r"Disabling non-boot CPUs .*", msg)):
				data.newAction(phase, "ACPI", -1, "", action_start, ktime)
				action_start = ktime
		elif(phase == "resume_cpu"):
			m = re.match(r"CPU(?P<cpu>[0-9]*) is up", msg)
			if(m):
				cpu = "CPU"+m.group("cpu")
				data.newAction(phase, cpu, -1, "", action_start, ktime)
				action_start = ktime
			elif(re.match(r"Enabling non-boot CPUs .*", msg)):
				action_start = ktime

	# fill in any missing phases
	lp = "suspend_general"
	for p in data.phases:
		if(p == "suspend_general"):
			continue
		if(data.dmesg[p]['start'] < 0):
			data.dmesg[p]['start'] = data.dmesg[lp]['end']
			if(p == "resume_cpu"):
				data.tSuspended = data.dmesg[lp]['end']
		if(data.dmesg[p]['end'] < 0):
			data.dmesg[p]['end'] = data.dmesg[p]['start']
		lp = p

	data.fixupInitcallsThatDidntReturn()
	return True

# Function: setTimelineRows
# Description:
#	 Organize the device or thread lists into the smallest
#	 number of rows possible, with no entry overlapping
# Arguments:
#	 list: the list to sort (dmesg or ftrace)
#	 sortedkeys: sorted key list to use
def setTimelineRows(list, sortedkeys):
	global data

	# clear all rows and set them to undefined
	remaining = len(list)
	rowdata = dict()
	row = 0
	for item in list:
		list[item]['row'] = -1

	# try to pack each row with as many ranges as possible
	while(remaining > 0):
		if(row not in rowdata):
			rowdata[row] = []
		for item in sortedkeys:
			if(list[item]['row'] < 0):
				s = list[item]['start']
				e = list[item]['end']
				valid = True
				for ritem in rowdata[row]:
					rs = ritem['start']
					re = ritem['end']
					if(not (((s <= rs) and (e <= rs)) or ((s >= re) and (e >= re)))):
						valid = False
						break
				if(valid):
					rowdata[row].append(list[item])
					list[item]['row'] = row
					remaining -= 1
		row += 1
	return row

# Function: createTimeScale
# Description:
#	 Create timescale lines for the dmesg and ftrace timelines
# Arguments:
#	 t0: start time (suspend begin)
#	 tMax: end time (resume end)
#	 tSuspend: time when suspend occurs
def createTimeScale(t0, tMax, tSuspended):
	global data
	timescale = "<div class=\"t\" style=\"right:{0}%\">{1}</div>\n"
	output = '<div id="timescale">\n'

	# set scale for timeline
	tTotal = tMax - t0
	tS = 0.1
	if(tTotal <= 0):
		return output
	if(tTotal > 4):
		tS = 1
	if(tSuspended < 0):
		for i in range(int(tTotal/tS)+1):
			pos = "%0.3f" % (100 - ((float(i)*tS*100)/tTotal))
			if(i > 0):
				val = "%0.f" % (float(i)*tS*1000)
			else:
				val = ""
			output += timescale.format(pos, val)
	else:
		tSuspend = tSuspended - t0
		divTotal = int(tTotal/tS) + 1
		divSuspend = int(tSuspend/tS)
		s0 = (tSuspend - tS*divSuspend)*100/tTotal
		for i in range(divTotal):
			pos = "%0.3f" % (100 - ((float(i)*tS*100)/tTotal) - s0)
			if((i == 0) and (s0 < 3)):
				val = ""
			elif(i == divSuspend):
				val = "S/R"
			else:
				val = "%0.f" % (float(i-divSuspend)*tS*1000)
			output += timescale.format(pos, val)
	output += '</div>\n'
	return output

# Function: createHTML
# Description:
#	 Create the output html file.
def createHTML():
	global sysvals, data

	data.normalizeTime()

	# html function templates
	headline_stamp = '<div class="stamp">{0} {1} {2} {3}</div>\n'
	html_zoombox = '<center><button id="zoomin">ZOOM IN</button><button id="zoomout">ZOOM OUT</button><button id="zoomdef">ZOOM 1:1</button></center>\n<div id="dmesgzoombox" class="zoombox">\n'
	html_timeline = '<div id="{0}" class="timeline" style="height:{1}px">\n'
	html_device = '<div id="{0}" title="{1}" class="thread" style="left:{2}%;top:{3}%;height:{4}%;width:{5}%;">{6}</div>\n'
	html_phase = '<div class="phase" style="left:{0}%;width:{1}%;top:{2}%;height:{3}%;background-color:{4}">{5}</div>\n'
	html_legend = '<div class="square" style="left:{0}%;background-color:{1}">&nbsp;{2}</div>\n'
	html_timetotal = '<table class="time1">\n<tr>'\
		'<td class="gray">{2} Suspend Time: <b>{0} ms</b></td>'\
		'<td class="gray">{2} Resume Time: <b>{1} ms</b></td>'\
		'</tr>\n</table>\n'
	html_timegroups = '<table class="time2">\n<tr>'\
		'<td class="green">Kernel Suspend: {0} ms</td>'\
		'<td class="purple">Firmware Suspend: {1} ms</td>'\
		'<td class="purple">Firmware Resume: {2} ms</td>'\
		'<td class="yellow">Kernel Resume: {3} ms</td>'\
		'</tr>\n</table>\n'

	# device timeline (dmesg)
	if(data.usedmesg):
		data.vprint("Creating Device Timeline...")
		devtl = Timeline()

		# Generate the header for this timeline
		t0 = data.start
		tMax = data.end
		tTotal = tMax - t0
		if(tTotal == 0):
			print("ERROR: No timeline data")
			sys.exit()
		suspend_time = "%.0f"%(-data.start*1000)
		resume_time = "%.0f"%(data.end*1000)
		if data.fwValid:
			devtl.html['timeline'] = html_timetotal.format(suspend_time, resume_time, "Total")
			sktime = "%.3f"%((data.dmesg['suspend_cpu']['end'] - data.dmesg['suspend_general']['start'])*1000)
			sftime = "%.3f"%(data.fwSuspend / 1000000.0)
			rftime = "%.3f"%(data.fwResume / 1000000.0)
			rktime = "%.3f"%((data.dmesg['resume_general']['end'] - data.dmesg['resume_cpu']['start'])*1000)
			devtl.html['timeline'] += html_timegroups.format(sktime, sftime, rftime, rktime)
		else:
			devtl.html['timeline'] = html_timetotal.format(suspend_time, resume_time, "Kernel")

		# determine the maximum number of rows we need to draw
		timelinerows = 0
		for phase in data.dmesg:
			list = data.dmesg[phase]['list']
			rows = setTimelineRows(list, list)
			data.dmesg[phase]['row'] = rows
			if(rows > timelinerows):
				timelinerows = rows

		# calculate the timeline height and create its bounding box
		devtl.setRows(timelinerows + 1)
		devtl.html['timeline'] += html_zoombox;
		devtl.html['timeline'] += html_timeline.format("dmesg", devtl.height);

		# draw the colored boxes for each of the phases
		for b in data.dmesg:
			phase = data.dmesg[b]
			left = "%.3f" % (((phase['start']-data.start)*100)/tTotal)
			width = "%.3f" % (((phase['end']-phase['start'])*100)/tTotal)
			devtl.html['timeline'] += html_phase.format(left, width, "%.3f"%devtl.scaleH, "%.3f"%(100-devtl.scaleH), data.dmesg[b]['color'], "")

		# draw the time scale, try to make the number of labels readable
		devtl.html['scale'] = createTimeScale(t0, tMax, data.tSuspended)
		devtl.html['timeline'] += devtl.html['scale']
		for b in data.dmesg:
			phaselist = data.dmesg[b]['list']
			for d in phaselist:
				name = d
				if(d in data.altdevname):
					name = data.altdevname[d]
				dev = phaselist[d]
				height = (100.0 - devtl.scaleH)/data.dmesg[b]['row']
				top = "%.3f" % ((dev['row']*height) + devtl.scaleH)
				left = "%.3f" % (((dev['start']-data.start)*100)/tTotal)
				width = "%.3f" % (((dev['end']-dev['start'])*100)/tTotal)
				len = " (%0.3f ms) " % ((dev['end']-dev['start'])*1000)
				color = "rgba(204,204,204,0.5)"
				devtl.html['timeline'] += html_device.format(dev['id'], name+len+b, left, top, "%.3f"%height, width, name)

		# timeline is finished
		devtl.html['timeline'] += "</div>\n</div>\n"

		# draw a legend which describes the phases by color
		devtl.html['legend'] = "<div class=\"legend\">\n"
		pdelta = 100.0/data.phases.__len__()
		pmargin = pdelta / 4.0
		for phase in data.phases:
			order = "%.2f" % ((data.dmesg[phase]['order'] * pdelta) + pmargin)
			name = string.replace(phase, "_", " &nbsp;")
			devtl.html['legend'] += html_legend.format(order, data.dmesg[phase]['color'], name)
		devtl.html['legend'] += "</div>\n"

	hf = open(sysvals.htmlfile, 'w')
	thread_height = 0

	# write the html header first (html head, css code, everything up to the start of body)
	html_header = "<!DOCTYPE html>\n<html>\n<head>\n\
	<meta http-equiv=\"content-type\" content=\"text/html; charset=UTF-8\">\n\
	<title>AnalyzeSuspend</title>\n\
	<style type='text/css'>\n\
		body {overflow-y: scroll;}\n\
		.stamp {width: 100%;text-align:center;background-color:gray;line-height:30px;color:white;font: 25px Arial;}\n\
		.callgraph {margin-top: 30px;box-shadow: 5px 5px 20px black;}\n\
		.callgraph article * {padding-left: 28px;}\n\
		h1 {color:black;font: bold 30px Times;}\n\
		table {width:100%;}\n\
		.gray {background-color:rgba(80,80,80,0.1);}\n\
		.green {background-color:rgba(204,255,204,0.4);}\n\
		.purple {background-color:rgba(128,0,128,0.2);}\n\
		.yellow {background-color:rgba(255,255,204,0.4);}\n\
		.time1 {font: 22px Arial;border:1px solid;}\n\
		.time2 {font: 15px Arial;border-bottom:1px solid;border-left:1px solid;border-right:1px solid;}\n\
		td {text-align: center;}\n\
		.tdhl {color: red;}\n\
		.hide {display: none;}\n\
		.pf {display: none;}\n\
		.pf:checked + label {background: url(\'data:image/svg+xml;utf,<?xml version=\"1.0\" standalone=\"no\"?><svg xmlns=\"http://www.w3.org/2000/svg\" height=\"18\" width=\"18\" version=\"1.1\"><circle cx=\"9\" cy=\"9\" r=\"8\" stroke=\"black\" stroke-width=\"1\" fill=\"white\"/><rect x=\"4\" y=\"8\" width=\"10\" height=\"2\" style=\"fill:black;stroke-width:0\"/><rect x=\"8\" y=\"4\" width=\"2\" height=\"10\" style=\"fill:black;stroke-width:0\"/></svg>\') no-repeat left center;}\n\
		.pf:not(:checked) ~ label {background: url(\'data:image/svg+xml;utf,<?xml version=\"1.0\" standalone=\"no\"?><svg xmlns=\"http://www.w3.org/2000/svg\" height=\"18\" width=\"18\" version=\"1.1\"><circle cx=\"9\" cy=\"9\" r=\"8\" stroke=\"black\" stroke-width=\"1\" fill=\"white\"/><rect x=\"4\" y=\"8\" width=\"10\" height=\"2\" style=\"fill:black;stroke-width:0\"/></svg>\') no-repeat left center;}\n\
		.pf:checked ~ *:not(:nth-child(2)) {display: none;}\n\
		.zoombox {position: relative; width: 100%; overflow-x: scroll;}\n\
		.timeline {position: relative; font-size: 14px;cursor: pointer;width: 100%; overflow: hidden; background-color:#dddddd;}\n\
		.thread {position: absolute; height: "+"%.3f"%thread_height+"%; overflow: hidden; line-height: 30px; border:1px solid;text-align:center;white-space:nowrap;background-color:rgba(204,204,204,0.5);}\n\
		.thread:hover {background-color:white;border:1px solid red;z-index:10;}\n\
		.phase {position: absolute;overflow: hidden;border:0px;text-align:center;}\n\
		.t {position: absolute; top: 0%; height: 100%; border-right:1px solid black;}\n\
		.legend {position: relative; width: 100%; height: 40px; text-align: center;margin-bottom:20px}\n\
		.legend .square {position:absolute;top:10px; width: 0px;height: 20px;border:1px solid;padding-left:20px;}\n\
		button {height:40px;width:200px;margin-bottom:20px;margin-top:20px;font-size:24px;}\n\
	</style>\n</head>\n<body>\n"
	hf.write(html_header)

	# write the test title and general info header
	if(data.stamp['time'] != ""):
		hf.write(headline_stamp.format(data.stamp['host'],
			data.stamp['kernel'], data.stamp['mode'], data.stamp['time']))

	# write the dmesg data (device timeline)
	if(data.usedmesg):
		hf.write(devtl.html['timeline'])
		hf.write(devtl.html['legend'])
		hf.write('<div id="devicedetail"></div>\n')
		hf.write('<div id="devicetree"></div>\n')

	# write the ftrace data (callgraph)
	if(data.useftrace):
		hf.write('<section id="callgraphs" class="callgraph">\n')
		# write out the ftrace data converted to html
		html_func_top = '<article id="{0}" class="atop" style="background-color:{1}">\n<input type="checkbox" class="pf" id="f{2}" checked/><label for="f{2}">{3} {4}</label>\n'
		html_func_start = '<article>\n<input type="checkbox" class="pf" id="f{0}" checked/><label for="f{0}">{1} {2}</label>\n'
		html_func_end = '</article>\n'
		html_func_leaf = '<article>{0} {1}</article>\n'
		num = 0
		for p in data.phases:
			list = data.dmesg[p]['list']
			for devname in data.sortedDevices(p):
				if('ftrace' not in list[devname]):
					continue
				name = devname
				if(devname in data.altdevname):
					name = data.altdevname[devname]
				devid = list[devname]['id']
				cg = list[devname]['ftrace']
				flen = "(%.3f ms)" % ((cg.end - cg.start)*1000)
				hf.write(html_func_top.format(devid, data.dmesg[p]['color'], num, name+" "+p, flen))
				num += 1
				for line in cg.list:
					if(line.length < 0.000000001):
						flen = ""
					else:
						flen = "(%.3f ms)" % (line.length*1000)
					if(line.freturn and line.fcall):
						hf.write(html_func_leaf.format(line.name, flen))
					elif(line.freturn):
						hf.write(html_func_end)
					else:
						hf.write(html_func_start.format(num, line.name, flen))
						num += 1
				hf.write(html_func_end)
		hf.write("\n\n    </section>\n")
	# write the footer and close
	addScriptCode(hf)
	hf.write("</body>\n</html>\n")
	hf.close()
	return True

def addScriptCode(hf):
	global data

	t0 = (data.start - data.tSuspended) * 1000
	tMax = (data.end - data.tSuspended) * 1000
	# create an array in javascript memory with the device details
	detail = '	var bounds = [%f,%f];\n' % (t0, tMax)
	detail += '	var d = [];\n'
	dfmt = '	d["%s"] = { n:"%s", p:"%s", c:[%s] };\n';
	for p in data.dmesg:
		list = data.dmesg[p]['list']
		for d in list:
			parent = data.deviceParentID(d, p)
			idlist = data.deviceChildrenIDs(d, p)
			idstr = ""
			for i in idlist:
				if(idstr == ""):
					idstr += '"'+i+'"'
				else:
					idstr += ', '+'"'+i+'"'
			detail += dfmt % (list[d]['id'], d, parent, idstr)

	# add the code which will manipulate the data in the browser
	script_code = \
	'<script type="text/javascript">\n'+detail+\
	'	var filter = [];\n'\
	'	var table = [];\n'\
	'	function deviceParent(devid) {\n'\
	'		var devlist = [];\n'\
	'		if(filter.indexOf(devid) < 0) filter[filter.length] = devid;\n'\
	'		if(d[devid].p in d)\n'\
	'			devlist = deviceParent(d[devid].p);\n'\
	'		else if(d[devid].p != "")\n'\
	'			devlist = [d[devid].p];\n'\
	'		devlist[devlist.length] = d[devid].n;\n'\
	'		return devlist;\n'\
	'	}\n'\
	'	function deviceChildren(devid, column, row) {\n'\
	'		if(!(devid in d)) return;\n'\
	'		if(filter.indexOf(devid) < 0) filter[filter.length] = devid;\n'\
	'		var cell = {name: d[devid].n, span: 1};\n'\
	'		var span = 0;\n'\
	'		if(column >= table.length) table[column] = [];\n'\
	'		table[column][row] = cell;\n'\
	'		for(var i = 0; i < d[devid].c.length; i++) {\n'\
	'			var cid = d[devid].c[i];\n'\
	'			span += deviceChildren(cid, column+1, row+span);\n'\
	'		}\n'\
	'		if(span == 0) span = 1;\n'\
	'		table[column][row].span = span;\n'\
	'		return span;\n'\
	'	}\n'\
	'	function deviceTree(devid, resume) {\n'\
	'		var html = "<table border=1>";\n'\
	'		filter = [];\n'\
	'		table = [];\n'\
	'		plist = deviceParent(devid);\n'\
	'		var devidx = plist.length - 1;\n'\
	'		for(var i = 0; i < devidx; i++)\n'\
	'			table[i] = [{name: plist[i], span: 1}];\n'\
	'		deviceChildren(devid, devidx, 0);\n'\
	'		for(var i = 0; i < devidx; i++)\n'\
	'			table[i][0].span = table[devidx][0].span;\n'\
	'		for(var row = 0; row < table[0][0].span; row++) {\n'\
	'			html += "<tr>";\n'\
	'			for(var col = 0; col < table.length; col++)\n'\
	'				if(row in table[col]) {\n'\
	'					var cell = table[col][row];\n'\
	'					var args = "";\n'\
	'					if(cell.span > 1)\n'\
	'						args += " rowspan="+cell.span;\n'\
	'					if((col == devidx) && (row == 0))\n'\
	'						args += " class=tdhl";\n'\
	'					if(resume)\n'\
	'						html += "<td"+args+">"+cell.name+" &rarr;</td>";\n'\
	'					else\n'\
	'						html += "<td"+args+">&larr; "+cell.name+"</td>";\n'\
	'				}\n'\
	'			html += "</tr>";\n'\
	'		}\n'\
	'		html += "</table>";\n'\
	'		return html;\n'\
	'	}\n'\
	'	function zoomTimeline() {\n'\
	'		var timescale = document.getElementById("timescale");\n'\
	'		var dmesg = document.getElementById("dmesg");\n'\
	'		var zoombox = document.getElementById("dmesgzoombox");\n'\
	'		var val = parseFloat(dmesg.style.width);\n'\
	'		var newval = 100;\n'\
	'		var sh = window.outerWidth / 2;\n'\
	'		if(this.id == "zoomin") {\n'\
	'			newval = val * 1.2;\n'\
	'			if(newval > 40000) newval = 40000;\n'\
	'			dmesg.style.width = newval+"%";\n'\
	'			zoombox.scrollLeft = ((zoombox.scrollLeft + sh) * newval / val) - sh;\n'\
	'		} else if (this.id == "zoomout") {\n'\
	'			newval = val / 1.2;\n'\
	'			if(newval < 100) newval = 100;\n'\
	'			dmesg.style.width = newval+"%";\n'\
	'			zoombox.scrollLeft = ((zoombox.scrollLeft + sh) * newval / val) - sh;\n'\
	'		} else {\n'\
	'			zoombox.scrollLeft = 0;\n'\
	'			dmesg.style.width = "100%";\n'\
	'		}\n'\
	'		var html = "";\n'\
	'		var t0 = bounds[0];\n'\
	'		var tMax = bounds[1];\n'\
	'		var tTotal = tMax - t0;\n'\
	'		var wTotal = tTotal * 100.0 / newval;\n'\
	'		for(var tS = 1000; (wTotal / tS) < 3; tS /= 10);\n'\
	'		if(tS < 1) tS = 1;\n'\
	'		for(var s = ((t0 / tS)|0) * tS; s < tMax; s += tS) {\n'\
	'			var pos = (tMax - s) * 100.0 / tTotal;\n'\
	'			var name = (s == 0)?"S/R":(s+"ms");\n'\
	'			html += \"<div class=\\\"t\\\" style=\\\"right:\"+pos+\"%\\\">\"+name+\"</div>\";\n'\
	'		}\n'\
	'		timescale.innerHTML = html;\n'\
	'	}\n'\
	'	function deviceDetail() {\n'\
	'		var devtitle = document.getElementById("devicedetail");\n'\
	'		devtitle.innerHTML = "<h1>"+this.title+"</h1>";\n'\
	'		var devtree = document.getElementById("devicetree");\n'\
	'		devtree.innerHTML = deviceTree(this.id, (this.title.indexOf("resume") >= 0));\n'\
	'		var cglist = document.getElementById("callgraphs");\n'\
	'		if(!cglist) return;\n'\
	'		var cg = cglist.getElementsByClassName("atop");\n'\
	'		for (var i = 0; i < cg.length; i++) {\n'\
	'			if(filter.indexOf(cg[i].id) >= 0) {\n'\
	'				cg[i].style.display = "block";\n'\
	'			} else {\n'\
	'				cg[i].style.display = "none";\n'\
	'			}\n'\
	'		}\n'\
	'	}\n'\
	'	window.addEventListener("load", function () {\n'\
	'		var dmesg = document.getElementById("dmesg");\n'\
	'		dmesg.style.width = "100%"\n'\
	'		document.getElementById("zoomin").onclick = zoomTimeline;\n'\
	'		document.getElementById("zoomout").onclick = zoomTimeline;\n'\
	'		document.getElementById("zoomdef").onclick = zoomTimeline;\n'\
	'		var dev = dmesg.getElementsByClassName("thread");\n'\
	'		for (var i = 0; i < dev.length; i++) {\n'\
	'			dev[i].onclick = deviceDetail;\n'\
	'		}\n'\
	'		zoomTimeline();\n'\
	'	});\n'\
	'</script>\n'
	hf.write(script_code);

# Function: executeSuspend
# Description:
#	 Execute system suspend through the sysfs interface
def executeSuspend():
	global sysvals, data

	detectUSB()
	pf = open(sysvals.powerfile, 'w')
	# clear the kernel ring buffer just as we start
	os.system("dmesg -C")
	# start ftrace
	if(data.useftrace):
		print("START TRACING")
		os.system("echo 1 > "+sysvals.tpath+"tracing_on")
		os.system("echo SUSPEND START > "+sysvals.tpath+"trace_marker")
	# initiate suspend
	if(sysvals.rtcwake):
		print("SUSPEND START")
		os.system("rtcwake -s 10 -m "+sysvals.suspendmode)
	else:
		print("SUSPEND START (press a key to resume)")
		pf.write(sysvals.suspendmode)
	# execution will pause here
	pf.close()
	# return from suspend
	print("RESUME COMPLETE")
	# stop ftrace
	if(data.useftrace):
		os.system("echo RESUME COMPLETE > "+sysvals.tpath+"trace_marker")
		os.system("echo 0 > "+sysvals.tpath+"tracing_on")
		print("CAPTURING FTRACE")
		os.system("echo \""+sysvals.teststamp+"\" > "+sysvals.ftracefile)
		os.system("cat "+sysvals.tpath+"trace >> "+sysvals.ftracefile)
	# grab a copy of the dmesg output
	print("CAPTURING DMESG")
	os.system("echo \""+sysvals.teststamp+"\" > "+sysvals.dmesgfile)
	os.system("dmesg -c >> "+sysvals.dmesgfile)

# Function: detectUSB
# Description:
#	 Detect all the USB hosts and devices currently connected
def detectUSB():
	global sysvals, data

	for dirname, dirnames, filenames in os.walk("/sys/devices"):
		if(re.match(r".*/usb[0-9]*.*", dirname) and
			"idVendor" in filenames and "idProduct" in filenames):
			vid = os.popen("cat %s/idVendor 2>/dev/null" % dirname).read().replace('\n', '')
			pid = os.popen("cat %s/idProduct 2>/dev/null" % dirname).read().replace('\n', '')
			product = os.popen("cat %s/product 2>/dev/null" % dirname).read().replace('\n', '')
			name = dirname.split('/')[-1]
			if(len(product) > 0):
				data.altdevname[name] = "%s [%s]" % (product, name)
			else:
				data.altdevname[name] = "%s:%s [%s]" % (vid, pid, name)

def getModes():
	global sysvals
	modes = ""
	if(os.path.exists(sysvals.powerfile)):
		fp = open(sysvals.powerfile, 'r')
		modes = string.split(fp.read())
		fp.close()
	return modes

# Function: statusCheck
# Description:
#	 Verify that the requested command and options will work
def statusCheck(dryrun):
	global sysvals, data
	res = dict()

	if(data.notestrun):
		print("SUCCESS: The command should run!")
		return

	# check we have root access
	check = "YES"
	if(os.environ['USER'] != "root"):
		if(not dryrun):
			doError("root access is required", False)
		check = "NO"
	res["    have root access:     "] = check

	# check sysfs is mounted
	check = "YES"
	if(not os.path.exists(sysvals.powerfile)):
		if(not dryrun):
			doError("sysfs must be mounted", False)
		check = "NO"
	res["    is sysfs mounted:     "] = check

	# check target mode is a valid mode
	check = "YES"
	modes = getModes()
	if(sysvals.suspendmode not in modes):
		if(not dryrun):
			doError("%s is not a value power mode" % sysvals.suspendmode, False)
		check = "NO"
	res["    is "+sysvals.suspendmode+" a power mode: "] = check

	# check if ftrace is available
	if(data.useftrace):
		check = "YES"
		if(not verifyFtrace()):
			if(not dryrun):
				doError("ftrace is not configured", False)
			check = "NO"
		res["    is ftrace usable:     "] = check

	# check if rtcwake
	if(sysvals.rtcwake):
		check = "YES"
		version = os.popen("rtcwake -V 2>/dev/null").read()
		if(not version.startswith("rtcwake")):
			if(not dryrun):
				doError("rtcwake is not installed", False)
			check = "NO"
		res["    is rtcwake usable:    "] = check

	if(dryrun):
		status = True
		print("Checking if system can run the current command:")
		for r in res:
			print("%s\t%s" % (r, res[r]))
			if(res[r] != "YES"):
				status = False
		if(status):
			print("SUCCESS: The command should run!")
		else:
			print("FAILURE: The command won't run!")

def printHelp():
	global sysvals
	modes = getModes()

	print("")
	print("AnalyzeSuspend")
	print("Usage: sudo analyze_suspend.py <options>")
	print("")
	print("Description:")
	print("  Initiates a system suspend/resume while capturing dmesg")
	print("  and (optionally) ftrace data to analyze device timing")
	print("")
	print("  Generates output files in subdirectory: suspend-mmddyy-HHMMSS")
	print("   HTML output:                    <hostname>_<mode>.html")
	print("   raw dmesg output:               <hostname>_<mode>_dmesg.txt")
	print("   raw ftrace output (with -f):    <hostname>_<mode>_ftrace.txt")
	print("")
	print("Options:")
	print("  [general]")
	print("    -h        Print this help text")
	print("    -verbose  Print extra information during execution and analysis")
	print("    -status   Test to see if the system is enabled to run this tool")
	print("    -modes    List available suspend modes")
	print("    -m mode   Mode to initiate for suspend %s (default: %s)") % (modes, sysvals.suspendmode)
	print("    -rtcwake  Use rtcwake to autoresume after 10 seconds (default: disabled)")
	print("    -f        Use ftrace to create device callgraphs (default: disabled)")
	print("  [re-analyze data from previous runs]")
	print("    -dmesg dmesgfile      Create HTML timeline from dmesg file")
	print("    -ftrace ftracefile    Create HTML callgraph from ftrace file")
	print("")
	return True

def doError(msg, help):
	print("ERROR: %s") % msg
	if(help == True):
		printHelp()
	sys.exit()

# -- script main --
# loop through the command line arguments
cmd = ""
args = iter(sys.argv[1:])
for arg in args:
	if(arg == "-m"):
		try:
			val = args.next()
		except:
			doError("No mode supplied", True)
		sysvals.suspendmode = val
	elif(arg == "-f"):
		data.useftrace = True
	elif(arg == "-modes"):
		cmd = "modes"
	elif(arg == "-status"):
		cmd = "status"
	elif(arg == "-verbose"):
		data.verbose = True
	elif(arg == "-rtcwake"):
		sysvals.rtcwake = True
	elif(arg == "-dmesg"):
		try:
			val = args.next()
		except:
			doError("No dmesg file supplied", True)
		data.notestrun = True
		data.usedmesg = True
		sysvals.dmesgfile = val
	elif(arg == "-ftrace"):
		try:
			val = args.next()
		except:
			doError("No ftrace file supplied", True)
		data.notestrun = True
		data.useftrace = True
		sysvals.ftracefile = val
	elif(arg == "-h"):
		printHelp()
		sys.exit()
	else:
		doError("Invalid argument: "+arg, True)

# just run a utility command and exit
if(cmd != ""):
	if(cmd == "status"):
		statusCheck(True)
	elif(cmd == "modes"):
		modes = getModes()
		print modes
	sys.exit()

data.initialize()

# if instructed, re-analyze existing data files
if(data.notestrun):
	sysvals.setOutputFile()
	data.vprint("Output file: %s" % sysvals.htmlfile)
	if(sysvals.dmesgfile != ""):
		analyzeKernelLog()
	if(sysvals.ftracefile != ""):
		analyzeTraceLog()
	createHTML()
	sys.exit()

# verify that we can run a test
data.usedmesg = True
statusCheck(False)

# prepare for the test
if(data.useftrace):
	initFtrace()
sysvals.initTestOutput()

data.vprint("Output files:\n    %s" % sysvals.dmesgfile)
if(data.useftrace):
	data.vprint("    %s" % sysvals.ftracefile)
data.vprint("    %s" % sysvals.htmlfile)

# execute the test
executeSuspend()
analyzeKernelLog()
if(data.useftrace):
	analyzeTraceLog()
createHTML()