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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>
#
# Links:
# Home Page
# https://01.org/suspendresume
# Source repo
# https://github.com/01org/suspendresume
# Documentation
# Getting Started
# https://01.org/suspendresume/documentation/getting-started
# Command List:
# https://01.org/suspendresume/documentation/command-list
#
# 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
# CONFIG_KPROBES=y
# CONFIG_KPROBES_ON_FTRACE=y
#
# For kernel versions older than 3.15:
# The following additional kernel parameters are required:
# (e.g. in file /etc/default/grub)
# GRUB_CMDLINE_LINUX_DEFAULT="... initcall_debug log_buf_len=16M ..."
#
# ----------------- LIBRARIES --------------------
import sys
import time
import os
import string
import re
import platform
from datetime import datetime
import struct
import ConfigParser
from threading import Thread
from subprocess import call, Popen, PIPE
# ----------------- CLASSES --------------------
# Class: SystemValues
# Description:
# A global, single-instance container used to
# store system values and test parameters
class SystemValues:
ansi = False
version = '4.4'
verbose = False
addlogs = False
mindevlen = 0.001
mincglen = 1.0
callloopmaxgap = 0.0001
callloopmaxlen = 0.005
srgap = 0
cgexp = False
outdir = ''
testdir = '.'
tpath = '/sys/kernel/debug/tracing/'
fpdtpath = '/sys/firmware/acpi/tables/FPDT'
epath = '/sys/kernel/debug/tracing/events/power/'
traceevents = [
'suspend_resume',
'device_pm_callback_end',
'device_pm_callback_start'
]
testcommand = ''
mempath = '/dev/mem'
powerfile = '/sys/power/state'
suspendmode = 'mem'
hostname = 'localhost'
prefix = 'test'
teststamp = ''
dmesgstart = 0.0
dmesgfile = ''
ftracefile = ''
htmlfile = ''
embedded = False
rtcwake = False
rtcwaketime = 10
rtcpath = ''
devicefilter = []
stamp = 0
execcount = 1
x2delay = 0
usecallgraph = False
usetraceevents = False
usetraceeventsonly = False
usetracemarkers = True
usekprobes = True
usedevsrc = False
useprocmon = False
notestrun = False
mixedphaseheight = True
devprops = dict()
predelay = 0
postdelay = 0
procexecfmt = 'ps - (?P<ps>.*)$'
devpropfmt = '# Device Properties: .*'
tracertypefmt = '# tracer: (?P<t>.*)'
firmwarefmt = '# fwsuspend (?P<s>[0-9]*) fwresume (?P<r>[0-9]*)$'
stampfmt = '# 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>.*)$'
tracefuncs = {
'sys_sync': dict(),
'pm_prepare_console': dict(),
'pm_notifier_call_chain': dict(),
'freeze_processes': dict(),
'freeze_kernel_threads': dict(),
'pm_restrict_gfp_mask': dict(),
'acpi_suspend_begin': dict(),
'suspend_console': dict(),
'acpi_pm_prepare': dict(),
'syscore_suspend': dict(),
'arch_enable_nonboot_cpus_end': dict(),
'syscore_resume': dict(),
'acpi_pm_finish': dict(),
'resume_console': dict(),
'acpi_pm_end': dict(),
'pm_restore_gfp_mask': dict(),
'thaw_processes': dict(),
'pm_restore_console': dict(),
'CPU_OFF': {
'func':'_cpu_down',
'args_x86_64': {'cpu':'%di:s32'},
'format': 'CPU_OFF[{cpu}]'
},
'CPU_ON': {
'func':'_cpu_up',
'args_x86_64': {'cpu':'%di:s32'},
'format': 'CPU_ON[{cpu}]'
},
}
dev_tracefuncs = {
# general wait/delay/sleep
'msleep': { 'args_x86_64': {'time':'%di:s32'} },
'schedule_timeout_uninterruptible': { 'args_x86_64': {'timeout':'%di:s32'} },
'schedule_timeout': { 'args_x86_64': {'timeout':'%di:s32'} },
'udelay': { 'func':'__const_udelay', 'args_x86_64': {'loops':'%di:s32'} },
'usleep_range': { 'args_x86_64': {'min':'%di:s32', 'max':'%si:s32'} },
'mutex_lock_slowpath': { 'func':'__mutex_lock_slowpath' },
'acpi_os_stall': dict(),
# ACPI
'acpi_resume_power_resources': dict(),
'acpi_ps_parse_aml': dict(),
# filesystem
'ext4_sync_fs': dict(),
# ATA
'ata_eh_recover': { 'args_x86_64': {'port':'+36(%di):s32'} },
# i915
'i915_gem_resume': dict(),
'i915_restore_state': dict(),
'intel_opregion_setup': dict(),
'g4x_pre_enable_dp': dict(),
'vlv_pre_enable_dp': dict(),
'chv_pre_enable_dp': dict(),
'g4x_enable_dp': dict(),
'vlv_enable_dp': dict(),
'intel_hpd_init': dict(),
'intel_opregion_register': dict(),
'intel_dp_detect': dict(),
'intel_hdmi_detect': dict(),
'intel_opregion_init': dict(),
'intel_fbdev_set_suspend': dict(),
}
kprobes_postresume = [
{
'name': 'ataportrst',
'func': 'ata_eh_recover',
'args': {'port':'+36(%di):s32'},
'format': 'ata{port}_port_reset'
}
]
kprobes = dict()
timeformat = '%.3f'
def __init__(self):
# if this is a phoronix test run, set some default options
if('LOG_FILE' in os.environ and 'TEST_RESULTS_IDENTIFIER' in os.environ):
self.embedded = True
self.addlogs = True
self.htmlfile = os.environ['LOG_FILE']
self.archargs = 'args_'+platform.machine()
self.hostname = platform.node()
if(self.hostname == ''):
self.hostname = 'localhost'
rtc = "rtc0"
if os.path.exists('/dev/rtc'):
rtc = os.readlink('/dev/rtc')
rtc = '/sys/class/rtc/'+rtc
if os.path.exists(rtc) and os.path.exists(rtc+'/date') and \
os.path.exists(rtc+'/time') and os.path.exists(rtc+'/wakealarm'):
self.rtcpath = rtc
if (hasattr(sys.stdout, 'isatty') and sys.stdout.isatty()):
self.ansi = True
def setPrecision(self, num):
if num < 0 or num > 6:
return
self.timeformat = '%.{0}f'.format(num)
def setOutputFolder(self, value):
args = dict()
n = datetime.now()
args['date'] = n.strftime('%y%m%d')
args['time'] = n.strftime('%H%M%S')
args['hostname'] = self.hostname
self.outdir = value.format(**args)
def setOutputFile(self):
if((self.htmlfile == '') and (self.dmesgfile != '')):
m = re.match('(?P<name>.*)_dmesg\.txt$', self.dmesgfile)
if(m):
self.htmlfile = m.group('name')+'.html'
if((self.htmlfile == '') and (self.ftracefile != '')):
m = re.match('(?P<name>.*)_ftrace\.txt$', self.ftracefile)
if(m):
self.htmlfile = m.group('name')+'.html'
if(self.htmlfile == ''):
self.htmlfile = 'output.html'
def initTestOutput(self, subdir, testpath=''):
self.prefix = self.hostname
v = open('/proc/version', 'r').read().strip()
kver = string.split(v)[2]
n = datetime.now()
testtime = n.strftime('suspend-%m%d%y-%H%M%S')
if not testpath:
testpath = n.strftime('suspend-%y%m%d-%H%M%S')
if(subdir != "."):
self.testdir = subdir+"/"+testpath
else:
self.testdir = testpath
self.teststamp = \
'# '+testtime+' '+self.prefix+' '+self.suspendmode+' '+kver
if(self.embedded):
self.dmesgfile = \
'/tmp/'+testtime+'_'+self.suspendmode+'_dmesg.txt'
self.ftracefile = \
'/tmp/'+testtime+'_'+self.suspendmode+'_ftrace.txt'
return
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'
if not os.path.isdir(self.testdir):
os.mkdir(self.testdir)
def setDeviceFilter(self, value):
self.devicefilter = []
if value:
value = value.split(',')
for i in value:
self.devicefilter.append(i.strip())
def rtcWakeAlarmOn(self):
call('echo 0 > '+self.rtcpath+'/wakealarm', shell=True)
outD = open(self.rtcpath+'/date', 'r').read().strip()
outT = open(self.rtcpath+'/time', 'r').read().strip()
mD = re.match('^(?P<y>[0-9]*)-(?P<m>[0-9]*)-(?P<d>[0-9]*)', outD)
mT = re.match('^(?P<h>[0-9]*):(?P<m>[0-9]*):(?P<s>[0-9]*)', outT)
if(mD and mT):
# get the current time from hardware
utcoffset = int((datetime.now() - datetime.utcnow()).total_seconds())
dt = datetime(\
int(mD.group('y')), int(mD.group('m')), int(mD.group('d')),
int(mT.group('h')), int(mT.group('m')), int(mT.group('s')))
nowtime = int(dt.strftime('%s')) + utcoffset
else:
# if hardware time fails, use the software time
nowtime = int(datetime.now().strftime('%s'))
alarm = nowtime + self.rtcwaketime
call('echo %d > %s/wakealarm' % (alarm, self.rtcpath), shell=True)
def rtcWakeAlarmOff(self):
call('echo 0 > %s/wakealarm' % self.rtcpath, shell=True)
def initdmesg(self):
# get the latest time stamp from the dmesg log
fp = Popen('dmesg', stdout=PIPE).stdout
ktime = '0'
for line in fp:
line = line.replace('\r\n', '')
idx = line.find('[')
if idx > 1:
line = line[idx:]
m = re.match('[ \t]*(\[ *)(?P<ktime>[0-9\.]*)(\]) (?P<msg>.*)', line)
if(m):
ktime = m.group('ktime')
fp.close()
self.dmesgstart = float(ktime)
def getdmesg(self):
# store all new dmesg lines since initdmesg was called
fp = Popen('dmesg', stdout=PIPE).stdout
op = open(self.dmesgfile, 'a')
for line in fp:
line = line.replace('\r\n', '')
idx = line.find('[')
if idx > 1:
line = line[idx:]
m = re.match('[ \t]*(\[ *)(?P<ktime>[0-9\.]*)(\]) (?P<msg>.*)', line)
if(not m):
continue
ktime = float(m.group('ktime'))
if ktime > self.dmesgstart:
op.write(line)
fp.close()
op.close()
def addFtraceFilterFunctions(self, file):
fp = open(file)
list = fp.read().split('\n')
fp.close()
for i in list:
if len(i) < 2:
continue
self.tracefuncs[i] = dict()
def getFtraceFilterFunctions(self, current):
rootCheck(True)
if not current:
call('cat '+self.tpath+'available_filter_functions', shell=True)
return
fp = open(self.tpath+'available_filter_functions')
master = fp.read().split('\n')
fp.close()
for i in self.tracefuncs:
if 'func' in self.tracefuncs[i]:
i = self.tracefuncs[i]['func']
if i in master:
print i
else:
print self.colorText(i)
def setFtraceFilterFunctions(self, list):
fp = open(self.tpath+'available_filter_functions')
master = fp.read().split('\n')
fp.close()
flist = ''
for i in list:
if i not in master:
continue
if ' [' in i:
flist += i.split(' ')[0]+'\n'
else:
flist += i+'\n'
fp = open(self.tpath+'set_graph_function', 'w')
fp.write(flist)
fp.close()
def basicKprobe(self, name):
self.kprobes[name] = {'name': name,'func': name,'args': dict(),'format': name}
def defaultKprobe(self, name, kdata):
k = kdata
for field in ['name', 'format', 'func']:
if field not in k:
k[field] = name
if self.archargs in k:
k['args'] = k[self.archargs]
else:
k['args'] = dict()
k['format'] = name
self.kprobes[name] = k
def kprobeColor(self, name):
if name not in self.kprobes or 'color' not in self.kprobes[name]:
return ''
return self.kprobes[name]['color']
def kprobeDisplayName(self, name, dataraw):
if name not in self.kprobes:
self.basicKprobe(name)
data = ''
quote=0
# first remvoe any spaces inside quotes, and the quotes
for c in dataraw:
if c == '"':
quote = (quote + 1) % 2
if quote and c == ' ':
data += '_'
elif c != '"':
data += c
fmt, args = self.kprobes[name]['format'], self.kprobes[name]['args']
arglist = dict()
# now process the args
for arg in sorted(args):
arglist[arg] = ''
m = re.match('.* '+arg+'=(?P<arg>.*) ', data);
if m:
arglist[arg] = m.group('arg')
else:
m = re.match('.* '+arg+'=(?P<arg>.*)', data);
if m:
arglist[arg] = m.group('arg')
out = fmt.format(**arglist)
out = out.replace(' ', '_').replace('"', '')
return out
def kprobeText(self, kname, kprobe):
name = fmt = func = kname
args = dict()
if 'name' in kprobe:
name = kprobe['name']
if 'format' in kprobe:
fmt = kprobe['format']
if 'func' in kprobe:
func = kprobe['func']
if self.archargs in kprobe:
args = kprobe[self.archargs]
if 'args' in kprobe:
args = kprobe['args']
if re.findall('{(?P<n>[a-z,A-Z,0-9]*)}', func):
doError('Kprobe "%s" has format info in the function name "%s"' % (name, func), False)
for arg in re.findall('{(?P<n>[a-z,A-Z,0-9]*)}', fmt):
if arg not in args:
doError('Kprobe "%s" is missing argument "%s"' % (name, arg), False)
val = 'p:%s_cal %s' % (name, func)
for i in sorted(args):
val += ' %s=%s' % (i, args[i])
val += '\nr:%s_ret %s $retval\n' % (name, func)
return val
def addKprobes(self):
# first test each kprobe
print('INITIALIZING KPROBES...')
rejects = []
for name in sorted(self.kprobes):
if not self.testKprobe(name, self.kprobes[name]):
rejects.append(name)
# remove all failed ones from the list
for name in rejects:
vprint('Skipping KPROBE: %s' % name)
self.kprobes.pop(name)
self.fsetVal('', 'kprobe_events')
kprobeevents = ''
# set the kprobes all at once
for kp in self.kprobes:
val = self.kprobeText(kp, self.kprobes[kp])
vprint('Adding KPROBE: %s\n%s' % (kp, val.strip()))
kprobeevents += self.kprobeText(kp, self.kprobes[kp])
self.fsetVal(kprobeevents, 'kprobe_events')
# verify that the kprobes were set as ordered
check = self.fgetVal('kprobe_events')
linesout = len(kprobeevents.split('\n'))
linesack = len(check.split('\n'))
if linesack < linesout:
# if not, try appending the kprobes 1 by 1
for kp in self.kprobes:
kprobeevents = self.kprobeText(kp, self.kprobes[kp])
self.fsetVal(kprobeevents, 'kprobe_events', 'a')
self.fsetVal('1', 'events/kprobes/enable')
def testKprobe(self, kname, kprobe):
kprobeevents = self.kprobeText(kname, kprobe)
if not kprobeevents:
return False
try:
self.fsetVal(kprobeevents, 'kprobe_events')
check = self.fgetVal('kprobe_events')
except:
return False
linesout = len(kprobeevents.split('\n'))
linesack = len(check.split('\n'))
if linesack < linesout:
return False
return True
def fsetVal(self, val, path, mode='w'):
file = self.tpath+path
if not os.path.exists(file):
return False
try:
fp = open(file, mode)
fp.write(val)
fp.close()
except:
pass
return True
def fgetVal(self, path):
file = self.tpath+path
res = ''
if not os.path.exists(file):
return res
try:
fp = open(file, 'r')
res = fp.read()
fp.close()
except:
pass
return res
def cleanupFtrace(self):
if(self.usecallgraph or self.usetraceevents):
self.fsetVal('0', 'events/kprobes/enable')
self.fsetVal('', 'kprobe_events')
def setupAllKprobes(self):
for name in self.tracefuncs:
self.defaultKprobe(name, self.tracefuncs[name])
for name in self.dev_tracefuncs:
self.defaultKprobe(name, self.dev_tracefuncs[name])
def isCallgraphFunc(self, name):
if len(self.tracefuncs) < 1 and self.suspendmode == 'command':
return True
for i in self.tracefuncs:
if 'func' in self.tracefuncs[i]:
f = self.tracefuncs[i]['func']
else:
f = i
if name == f:
return True
return False
def initFtrace(self, testing=False):
tp = self.tpath
print('INITIALIZING FTRACE...')
# turn trace off
self.fsetVal('0', 'tracing_on')
self.cleanupFtrace()
# set the trace clock to global
self.fsetVal('global', 'trace_clock')
# set trace buffer to a huge value
self.fsetVal('nop', 'current_tracer')
self.fsetVal('100000', 'buffer_size_kb')
# go no further if this is just a status check
if testing:
return
# initialize the callgraph trace
if(self.usecallgraph):
# set trace type
self.fsetVal('function_graph', 'current_tracer')
self.fsetVal('', 'set_ftrace_filter')
# set trace format options
self.fsetVal('print-parent', 'trace_options')
self.fsetVal('funcgraph-abstime', 'trace_options')
self.fsetVal('funcgraph-cpu', 'trace_options')
self.fsetVal('funcgraph-duration', 'trace_options')
self.fsetVal('funcgraph-proc', 'trace_options')
self.fsetVal('funcgraph-tail', 'trace_options')
self.fsetVal('nofuncgraph-overhead', 'trace_options')
self.fsetVal('context-info', 'trace_options')
self.fsetVal('graph-time', 'trace_options')
self.fsetVal('0', 'max_graph_depth')
cf = ['dpm_run_callback']
if(self.usetraceeventsonly):
cf += ['dpm_prepare', 'dpm_complete']
for fn in self.tracefuncs:
if 'func' in self.tracefuncs[fn]:
cf.append(self.tracefuncs[fn]['func'])
else:
cf.append(fn)
self.setFtraceFilterFunctions(cf)
# initialize the kprobe trace
elif self.usekprobes:
for name in self.tracefuncs:
self.defaultKprobe(name, self.tracefuncs[name])
if self.usedevsrc:
for name in self.dev_tracefuncs:
self.defaultKprobe(name, self.dev_tracefuncs[name])
self.addKprobes()
if(self.usetraceevents):
# turn trace events on
events = iter(self.traceevents)
for e in events:
self.fsetVal('1', 'events/power/'+e+'/enable')
# clear the trace buffer
self.fsetVal('', 'trace')
def verifyFtrace(self):
# files needed for any trace data
files = ['buffer_size_kb', 'current_tracer', 'trace', 'trace_clock',
'trace_marker', 'trace_options', 'tracing_on']
# files needed for callgraph trace data
tp = self.tpath
if(self.usecallgraph):
files += [
'available_filter_functions',
'set_ftrace_filter',
'set_graph_function'
]
for f in files:
if(os.path.exists(tp+f) == False):
return False
return True
def verifyKprobes(self):
# files needed for kprobes to work
files = ['kprobe_events', 'events']
tp = self.tpath
for f in files:
if(os.path.exists(tp+f) == False):
return False
return True
def colorText(self, str):
if not self.ansi:
return str
return '\x1B[31;40m'+str+'\x1B[m'
sysvals = SystemValues()
# Class: DevProps
# Description:
# Simple class which holds property values collected
# for all the devices used in the timeline.
class DevProps:
syspath = ''
altname = ''
async = True
xtraclass = ''
xtrainfo = ''
def out(self, dev):
return '%s,%s,%d;' % (dev, self.altname, self.async)
def debug(self, dev):
print '%s:\n\taltname = %s\n\t async = %s' % (dev, self.altname, self.async)
def altName(self, dev):
if not self.altname or self.altname == dev:
return dev
return '%s [%s]' % (self.altname, dev)
def xtraClass(self):
if self.xtraclass:
return ' '+self.xtraclass
if not self.async:
return ' sync'
return ''
def xtraInfo(self):
if self.xtraclass:
return ' '+self.xtraclass
if self.async:
return ' async_device'
return ' sync_device'
# Class: DeviceNode
# Description:
# A container used to create a device hierachy, with a single root node
# and a tree of child nodes. Used by Data.deviceTopology()
class DeviceNode:
name = ''
children = 0
depth = 0
def __init__(self, nodename, nodedepth):
self.name = nodename
self.children = []
self.depth = nodedepth
# Class: Data
# Description:
# The primary container for suspend/resume test data. There is one for
# each test run. The data is organized into a cronological hierarchy:
# Data.dmesg {
# root structure, started as dmesg & ftrace, but now only ftrace
# contents: times for suspend start/end, resume start/end, fwdata
# phases {
# 10 sequential, non-overlapping phases of S/R
# contents: times for phase start/end, order/color data for html
# devlist {
# device callback or action list for this phase
# device {
# a single device callback or generic action
# contents: start/stop times, pid/cpu/driver info
# parents/children, html id for timeline/callgraph
# optionally includes an ftrace callgraph
# optionally includes intradev trace events
# }
# }
# }
# }
#
class Data:
dmesg = {} # root data structure
phases = [] # ordered list of phases
start = 0.0 # test start
end = 0.0 # test end
tSuspended = 0.0 # low-level suspend start
tResumed = 0.0 # low-level resume start
tKernSus = 0.0 # kernel level suspend start
tKernRes = 0.0 # kernel level resume end
tLow = 0.0 # time spent in low-level suspend (standby/freeze)
fwValid = False # is firmware data available
fwSuspend = 0 # time spent in firmware suspend
fwResume = 0 # time spent in firmware resume
dmesgtext = [] # dmesg text file in memory
pstl = 0 # process timeline
testnumber = 0
idstr = ''
html_device_id = 0
stamp = 0
outfile = ''
devpids = []
dev_ubiquitous = [
'msleep',
'schedule_timeout_uninterruptible',
'schedule_timeout',
'udelay',
'usleep_range',
'mutex_lock_slowpath'
]
def __init__(self, num):
idchar = 'abcdefghijklmnopqrstuvwxyz'
self.pstl = dict()
self.testnumber = num
self.idstr = idchar[num]
self.dmesgtext = []
self.phases = []
self.dmesg = { # fixed list of 10 phases
'suspend_prepare': {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': '#CCFFCC', 'order': 0},
'suspend': {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': '#88FF88', 'order': 1},
'suspend_late': {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': '#00AA00', 'order': 2},
'suspend_noirq': {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': '#008888', 'order': 3},
'suspend_machine': {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': '#0000FF', 'order': 4},
'resume_machine': {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': '#FF0000', 'order': 5},
'resume_noirq': {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': '#FF9900', 'order': 6},
'resume_early': {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': '#FFCC00', 'order': 7},
'resume': {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': '#FFFF88', 'order': 8},
'resume_complete': {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': '#FFFFCC', 'order': 9}
}
self.phases = self.sortedPhases()
self.devicegroups = []
for phase in self.phases:
self.devicegroups.append([phase])
def setStart(self, time):
self.start = time
def setEnd(self, time):
self.end = time
def isTraceEventOutsideDeviceCalls(self, pid, time):
for phase in self.phases:
list = self.dmesg[phase]['list']
for dev in list:
d = list[dev]
if(d['pid'] == pid and time >= d['start'] and
time < d['end']):
return False
return True
def sourcePhase(self, start, end):
for phase in self.phases:
pstart = self.dmesg[phase]['start']
pend = self.dmesg[phase]['end']
if start <= pend:
return phase
return 'resume_complete'
def sourceDevice(self, phaselist, start, end, pid, type):
tgtdev = ''
for phase in phaselist:
list = self.dmesg[phase]['list']
for devname in list:
dev = list[devname]
# pid must match
if dev['pid'] != pid:
continue
devS = dev['start']
devE = dev['end']
if type == 'device':
# device target event is entirely inside the source boundary
if(start < devS or start >= devE or end <= devS or end > devE):
continue
elif type == 'thread':
# thread target event will expand the source boundary
if start < devS:
dev['start'] = start
if end > devE:
dev['end'] = end
tgtdev = dev
break
return tgtdev
def addDeviceFunctionCall(self, displayname, kprobename, proc, pid, start, end, cdata, rdata):
# try to place the call in a device
tgtdev = self.sourceDevice(self.phases, start, end, pid, 'device')
# calls with device pids that occur outside device bounds are dropped
# TODO: include these somehow
if not tgtdev and pid in self.devpids:
return False
# try to place the call in a thread
if not tgtdev:
tgtdev = self.sourceDevice(self.phases, start, end, pid, 'thread')
# create new thread blocks, expand as new calls are found
if not tgtdev:
if proc == '<...>':
threadname = 'kthread-%d' % (pid)
else:
threadname = '%s-%d' % (proc, pid)
tgtphase = self.sourcePhase(start, end)
self.newAction(tgtphase, threadname, pid, '', start, end, '', ' kth', '')
return self.addDeviceFunctionCall(displayname, kprobename, proc, pid, start, end, cdata, rdata)
# this should not happen
if not tgtdev:
vprint('[%f - %f] %s-%d %s %s %s' % \
(start, end, proc, pid, kprobename, cdata, rdata))
return False
# place the call data inside the src element of the tgtdev
if('src' not in tgtdev):
tgtdev['src'] = []
ubiquitous = False
if kprobename in self.dev_ubiquitous:
ubiquitous = True
title = cdata+' '+rdata
mstr = '\(.*\) *(?P<args>.*) *\((?P<caller>.*)\+.* arg1=(?P<ret>.*)'
m = re.match(mstr, title)
if m:
c = m.group('caller')
a = m.group('args').strip()
r = m.group('ret')
if len(r) > 6:
r = ''
else:
r = 'ret=%s ' % r
if ubiquitous and c in self.dev_ubiquitous:
return False
color = sysvals.kprobeColor(kprobename)
e = DevFunction(displayname, a, c, r, start, end, ubiquitous, proc, pid, color)
tgtdev['src'].append(e)
return True
def overflowDevices(self):
# get a list of devices that extend beyond the end of this test run
devlist = []
for phase in self.phases:
list = self.dmesg[phase]['list']
for devname in list:
dev = list[devname]
if dev['end'] > self.end:
devlist.append(dev)
return devlist
def mergeOverlapDevices(self, devlist):
# merge any devices that overlap devlist
for dev in devlist:
devname = dev['name']
for phase in self.phases:
list = self.dmesg[phase]['list']
if devname not in list:
continue
tdev = list[devname]
o = min(dev['end'], tdev['end']) - max(dev['start'], tdev['start'])
if o <= 0:
continue
dev['end'] = tdev['end']
if 'src' not in dev or 'src' not in tdev:
continue
dev['src'] += tdev['src']
del list[devname]
def usurpTouchingThread(self, name, dev):
# the caller test has priority of this thread, give it to him
for phase in self.phases:
list = self.dmesg[phase]['list']
if name in list:
tdev = list[name]
if tdev['start'] - dev['end'] < 0.1:
dev['end'] = tdev['end']
if 'src' not in dev:
dev['src'] = []
if 'src' in tdev:
dev['src'] += tdev['src']
del list[name]
break
def stitchTouchingThreads(self, testlist):
# merge any threads between tests that touch
for phase in self.phases:
list = self.dmesg[phase]['list']
for devname in list:
dev = list[devname]
if 'htmlclass' not in dev or 'kth' not in dev['htmlclass']:
continue
for data in testlist:
data.usurpTouchingThread(devname, dev)
def optimizeDevSrc(self):
# merge any src call loops to reduce timeline size
for phase in self.phases:
list = self.dmesg[phase]['list']
for dev in list:
if 'src' not in list[dev]:
continue
src = list[dev]['src']
p = 0
for e in sorted(src, key=lambda event: event.time):
if not p or not e.repeat(p):
p = e
continue
# e is another iteration of p, move it into p
p.end = e.end
p.length = p.end - p.time
p.count += 1
src.remove(e)
def trimTimeVal(self, t, t0, dT, left):
if left:
if(t > t0):
if(t - dT < t0):
return t0
return t - dT
else:
return t
else:
if(t < t0 + dT):
if(t > t0):
return t0 + dT
return t + dT
else:
return t
def trimTime(self, t0, dT, left):
self.tSuspended = self.trimTimeVal(self.tSuspended, t0, dT, left)
self.tResumed = self.trimTimeVal(self.tResumed, t0, dT, left)
self.start = self.trimTimeVal(self.start, t0, dT, left)
self.end = self.trimTimeVal(self.end, t0, dT, left)
for phase in self.phases:
p = self.dmesg[phase]
p['start'] = self.trimTimeVal(p['start'], t0, dT, left)
p['end'] = self.trimTimeVal(p['end'], t0, dT, left)
list = p['list']
for name in list:
d = list[name]
d['start'] = self.trimTimeVal(d['start'], t0, dT, left)
d['end'] = self.trimTimeVal(d['end'], t0, dT, left)
if('ftrace' in d):
cg = d['ftrace']
cg.start = self.trimTimeVal(cg.start, t0, dT, left)
cg.end = self.trimTimeVal(cg.end, t0, dT, left)
for line in cg.list:
line.time = self.trimTimeVal(line.time, t0, dT, left)
if('src' in d):
for e in d['src']:
e.time = self.trimTimeVal(e.time, t0, dT, left)
def normalizeTime(self, tZero):
# trim out any standby or freeze clock time
if(self.tSuspended != self.tResumed):
if(self.tResumed > tZero):
self.trimTime(self.tSuspended, \
self.tResumed-self.tSuspended, True)
else:
self.trimTime(self.tSuspended, \
self.tResumed-self.tSuspended, False)
def setPhase(self, phase, ktime, isbegin):
if(isbegin):
self.dmesg[phase]['start'] = ktime
else:
self.dmesg[phase]['end'] = ktime
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):
for p in self.phases:
if self.dmesg[p]['end'] > dev['start']:
dev['end'] = self.dmesg[p]['end']
break
vprint('%s (%s): callback didnt return' % (devname, phase))
def deviceFilter(self, devicefilter):
# check each device name & driver name
# remove it if it does not include one of the filter strings
for phase in self.phases:
list = self.dmesg[phase]['list']
rmlist = []
for name in list:
keep = False
for filter in devicefilter:
if filter in name or \
('drv' in list[name] and filter in list[name]['drv']):
keep = True
if not keep:
rmlist.append(name)
for name in rmlist:
del list[name]
def fixupInitcallsThatDidntReturn(self):
# if any calls never returned, clip them at system resume end
for phase in self.phases:
self.fixupInitcalls(phase, self.end)
def phaseOverlap(self, phases):
rmgroups = []
newgroup = []
for group in self.devicegroups:
for phase in phases:
if phase not in group:
continue
for p in group:
if p not in newgroup:
newgroup.append(p)
if group not in rmgroups:
rmgroups.append(group)
for group in rmgroups:
self.devicegroups.remove(group)
self.devicegroups.append(newgroup)
def newActionGlobal(self, name, start, end, pid=-1, color=''):
# which phase is this device callback or action in
targetphase = 'none'
htmlclass = ''
overlap = 0.0
phases = []
for phase in self.phases:
pstart = self.dmesg[phase]['start']
pend = self.dmesg[phase]['end']
# see if the action overlaps this phase
o = max(0, min(end, pend) - max(start, pstart))
if o > 0:
phases.append(phase)
# set the target phase to the one that overlaps most
if o > overlap:
if overlap > 0 and phase == 'post_resume':
continue
targetphase = phase
overlap = o
# if no target phase was found, pin it to the edge
if targetphase == 'none':
p0start = self.dmesg[self.phases[0]]['start']
if start <= p0start:
targetphase = self.phases[0]
else:
targetphase = self.phases[-1]
if pid == -2:
htmlclass = ' bg'
elif pid == -3:
htmlclass = ' ps'
if len(phases) > 1:
htmlclass = ' bg'
self.phaseOverlap(phases)
if targetphase in self.phases:
newname = self.newAction(targetphase, name, pid, '', start, end, '', htmlclass, color)
return (targetphase, newname)
return False
def newAction(self, phase, name, pid, parent, start, end, drv, htmlclass='', color=''):
# new device callback for a specific phase
self.html_device_id += 1
devid = '%s%d' % (self.idstr, self.html_device_id)
list = self.dmesg[phase]['list']
length = -1.0
if(start >= 0 and end >= 0):
length = end - start
if pid == -2:
i = 2
origname = name
while(name in list):
name = '%s[%d]' % (origname, i)
i += 1
list[name] = {'name': name, 'start': start, 'end': end, 'pid': pid,
'par': parent, 'length': length, 'row': 0, 'id': devid, 'drv': drv }
if htmlclass:
list[name]['htmlclass'] = htmlclass
if color:
list[name]['color'] = color
return name
def deviceIDs(self, devlist, phase):
idlist = []
list = self.dmesg[phase]['list']
for devname in list:
if devname in devlist:
idlist.append(list[devname]['id'])
return idlist
def deviceParentID(self, devname, phase):
pdev = ''
pdevid = ''
list = self.dmesg[phase]['list']
if devname in list:
pdev = list[devname]['par']
if pdev in list:
return list[pdev]['id']
return pdev
def deviceChildren(self, devname, phase):
devlist = []
list = self.dmesg[phase]['list']
for child in list:
if(list[child]['par'] == devname):
devlist.append(child)
return devlist
def deviceDescendants(self, devname, phase):
children = self.deviceChildren(devname, phase)
family = children
for child in children:
family += self.deviceDescendants(child, phase)
return family
def deviceChildrenIDs(self, devname, phase):
devlist = self.deviceChildren(devname, phase)
return self.deviceIDs(devlist, phase)
def printDetails(self):
vprint('Timeline Details:')
vprint(' test start: %f' % self.start)
vprint('kernel suspend start: %f' % self.tKernSus)
for phase in self.phases:
dc = len(self.dmesg[phase]['list'])
vprint(' %16s: %f - %f (%d devices)' % (phase, \
self.dmesg[phase]['start'], self.dmesg[phase]['end'], dc))
vprint(' kernel resume end: %f' % self.tKernRes)
vprint(' test end: %f' % self.end)
def deviceChildrenAllPhases(self, devname):
devlist = []
for phase in self.phases:
list = self.deviceChildren(devname, phase)
for dev in list:
if dev not in devlist:
devlist.append(dev)
return devlist
def masterTopology(self, name, list, depth):
node = DeviceNode(name, depth)
for cname in list:
# avoid recursions
if name == cname:
continue
clist = self.deviceChildrenAllPhases(cname)
cnode = self.masterTopology(cname, clist, depth+1)
node.children.append(cnode)
return node
def printTopology(self, node):
html = ''
if node.name:
info = ''
drv = ''
for phase in self.phases:
list = self.dmesg[phase]['list']
if node.name in list:
s = list[node.name]['start']
e = list[node.name]['end']
if list[node.name]['drv']:
drv = ' {'+list[node.name]['drv']+'}'
info += ('<li>%s: %.3fms</li>' % (phase, (e-s)*1000))
html += '<li><b>'+node.name+drv+'</b>'
if info:
html += '<ul>'+info+'</ul>'
html += '</li>'
if len(node.children) > 0:
html += '<ul>'
for cnode in node.children:
html += self.printTopology(cnode)
html += '</ul>'
return html
def rootDeviceList(self):
# list of devices graphed
real = []
for phase in self.dmesg:
list = self.dmesg[phase]['list']
for dev in list:
if list[dev]['pid'] >= 0 and dev not in real:
real.append(dev)
# list of top-most root devices
rootlist = []
for phase in self.dmesg:
list = self.dmesg[phase]['list']
for dev in list:
pdev = list[dev]['par']
pid = list[dev]['pid']
if(pid < 0 or re.match('[0-9]*-[0-9]*\.[0-9]*[\.0-9]*\:[\.0-9]*$', pdev)):
continue
if pdev and pdev not in real and pdev not in rootlist:
rootlist.append(pdev)
return rootlist
def deviceTopology(self):
rootlist = self.rootDeviceList()
master = self.masterTopology('', rootlist, 0)
return self.printTopology(master)
def selectTimelineDevices(self, widfmt, tTotal, mindevlen):
# only select devices that will actually show up in html
self.tdevlist = dict()
for phase in self.dmesg:
devlist = []
list = self.dmesg[phase]['list']
for dev in list:
length = (list[dev]['end'] - list[dev]['start']) * 1000
width = widfmt % (((list[dev]['end']-list[dev]['start'])*100)/tTotal)
if width != '0.000000' and length >= mindevlen:
devlist.append(dev)
self.tdevlist[phase] = devlist
def addHorizontalDivider(self, devname, devend):
phase = 'suspend_prepare'
self.newAction(phase, devname, -2, '', \
self.start, devend, '', ' sec', '')
if phase not in self.tdevlist:
self.tdevlist[phase] = []
self.tdevlist[phase].append(devname)
d = DevItem(0, phase, self.dmesg[phase]['list'][devname])
return d
def addProcessUsageEvent(self, name, times):
# get the start and end times for this process
maxC = 0
tlast = 0
start = -1
end = -1
for t in sorted(times):
if tlast == 0:
tlast = t
continue
if name in self.pstl[t]:
if start == -1 or tlast < start:
start = tlast
if end == -1 or t > end:
end = t
tlast = t
if start == -1 or end == -1:
return 0
# add a new action for this process and get the object
out = self.newActionGlobal(name, start, end, -3)
if not out:
return 0
phase, devname = out
dev = self.dmesg[phase]['list'][devname]
# get the cpu exec data
tlast = 0
clast = 0
cpuexec = dict()
for t in sorted(times):
if tlast == 0 or t <= start or t > end:
tlast = t
continue
list = self.pstl[t]
c = 0
if name in list:
c = list[name]
if c > maxC:
maxC = c
if c != clast:
key = (tlast, t)
cpuexec[key] = c
tlast = t
clast = c
dev['cpuexec'] = cpuexec
return maxC
def createProcessUsageEvents(self):
# get an array of process names
proclist = []
for t in self.pstl:
pslist = self.pstl[t]
for ps in pslist:
if ps not in proclist:
proclist.append(ps)
# get a list of data points for suspend and resume
tsus = []
tres = []
for t in sorted(self.pstl):
if t < self.tSuspended:
tsus.append(t)
else:
tres.append(t)
# process the events for suspend and resume
if len(proclist) > 0:
vprint('Process Execution:')
for ps in proclist:
c = self.addProcessUsageEvent(ps, tsus)
if c > 0:
vprint('%25s (sus): %d' % (ps, c))
c = self.addProcessUsageEvent(ps, tres)
if c > 0:
vprint('%25s (res): %d' % (ps, c))
# Class: DevFunction
# Description:
# A container for kprobe function data we want in the dev timeline
class DevFunction:
row = 0
count = 1
def __init__(self, name, args, caller, ret, start, end, u, proc, pid, color):
self.name = name
self.args = args
self.caller = caller
self.ret = ret
self.time = start
self.length = end - start
self.end = end
self.ubiquitous = u
self.proc = proc
self.pid = pid
self.color = color
def title(self):
cnt = ''
if self.count > 1:
cnt = '(x%d)' % self.count
l = '%0.3fms' % (self.length * 1000)
if self.ubiquitous:
title = '%s(%s)%s <- %s, %s(%s)' % \
(self.name, self.args, cnt, self.caller, self.ret, l)
else:
title = '%s(%s) %s%s(%s)' % (self.name, self.args, self.ret, cnt, l)
return title.replace('"', '')
def text(self):
if self.count > 1:
text = '%s(x%d)' % (self.name, self.count)
else:
text = self.name
return text
def repeat(self, tgt):
# is the tgt call just a repeat of this call (e.g. are we in a loop)
dt = self.time - tgt.end
# only combine calls if -all- attributes are identical
if tgt.caller == self.caller and \
tgt.name == self.name and tgt.args == self.args and \
tgt.proc == self.proc and tgt.pid == self.pid and \
tgt.ret == self.ret and dt >= 0 and \
dt <= sysvals.callloopmaxgap and \
self.length < sysvals.callloopmaxlen:
return True
return False
# Class: FTraceLine
# Description:
# A container for a single line of ftrace data. There are six basic types:
# callgraph line:
# call: " dpm_run_callback() {"
# return: " }"
# leaf: " dpm_run_callback();"
# trace event:
# tracing_mark_write: SUSPEND START or RESUME COMPLETE
# suspend_resume: phase or custom exec block data
# device_pm_callback: device callback info
class FTraceLine:
time = 0.0
length = 0.0
fcall = False
freturn = False
fevent = False
fkprobe = False
depth = 0
name = ''
type = ''
def __init__(self, t, m='', d=''):
self.time = float(t)
if not m and not d:
return
# is this a trace event
if(d == 'traceevent' or re.match('^ *\/\* *(?P<msg>.*) \*\/ *$', m)):
if(d == 'traceevent'):
# nop format trace event
msg = m
else:
# function_graph format trace event
em = re.match('^ *\/\* *(?P<msg>.*) \*\/ *$', m)
msg = em.group('msg')
emm = re.match('^(?P<call>.*?): (?P<msg>.*)', msg)
if(emm):
self.name = emm.group('msg')
self.type = emm.group('call')
else:
self.name = msg
km = re.match('^(?P<n>.*)_cal$', self.type)
if km:
self.fcall = True
self.fkprobe = True
self.type = km.group('n')
return
km = re.match('^(?P<n>.*)_ret$', self.type)
if km:
self.freturn = True
self.fkprobe = True
self.type = km.group('n')
return
self.fevent = True
return
# convert the duration to seconds
if(d):
self.length = float(d)/1000000
# the indentation determines the depth
match = re.match('^(?P<d> *)(?P<o>.*)$', 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('^} *\/\* *(?P<n>.*) *\*\/$', m)
if(match):
self.name = match.group('n').strip()
# function call
else:
self.fcall = True
# function call with children
if(m[-1] == '{'):
match = re.match('^(?P<n>.*) *\(.*', m)
if(match):
self.name = match.group('n').strip()
# function call with no children (leaf)
elif(m[-1] == ';'):
self.freturn = True
match = re.match('^(?P<n>.*) *\(.*', m)
if(match):
self.name = match.group('n').strip()
# something else (possibly a trace marker)
else:
self.name = m
def getDepth(self, str):
return len(str)/2
def debugPrint(self, dev=''):
if(self.freturn and self.fcall):
print('%s -- %f (%02d): %s(); (%.3f us)' % (dev, self.time, \
self.depth, self.name, self.length*1000000))
elif(self.freturn):
print('%s -- %f (%02d): %s} (%.3f us)' % (dev, self.time, \
self.depth, self.name, self.length*1000000))
else:
print('%s -- %f (%02d): %s() { (%.3f us)' % (dev, self.time, \
self.depth, self.name, self.length*1000000))
def startMarker(self):
global sysvals
# Is this the starting line of a suspend?
if not self.fevent:
return False
if sysvals.usetracemarkers:
if(self.name == 'SUSPEND START'):
return True
return False
else:
if(self.type == 'suspend_resume' and
re.match('suspend_enter\[.*\] begin', self.name)):
return True
return False
def endMarker(self):
# Is this the ending line of a resume?
if not self.fevent:
return False
if sysvals.usetracemarkers:
if(self.name == 'RESUME COMPLETE'):
return True
return False
else:
if(self.type == 'suspend_resume' and
re.match('thaw_processes\[.*\] end', self.name)):
return True
return False
# Class: FTraceCallGraph
# Description:
# A container for the ftrace callgraph of a single recursive function.
# This can be a dpm_run_callback, dpm_prepare, or dpm_complete callgraph
# Each instance is tied to a single device in a single phase, and is
# comprised of an ordered list of FTraceLine objects
class FTraceCallGraph:
start = -1.0
end = -1.0
list = []
invalid = False
depth = 0
pid = 0
def __init__(self, pid):
self.start = -1.0
self.end = -1.0
self.list = []
self.depth = 0
self.pid = pid
def addLine(self, line, debug=False):
# if this is already invalid, just leave
if(self.invalid):
return False
# invalidate on too much data or bad depth
if(len(self.list) >= 1000000 or self.depth < 0):
self.invalidate(line)
return False
# compare current depth with this lines pre-call depth
prelinedep = line.depth
if(line.freturn and not line.fcall):
prelinedep += 1
last = 0
lasttime = line.time
virtualfname = 'execution_misalignment'
if len(self.list) > 0:
last = self.list[-1]
lasttime = last.time
# handle low misalignments by inserting returns
if prelinedep < self.depth:
if debug and last:
print '-------- task %d --------' % self.pid
last.debugPrint()
idx = 0
# add return calls to get the depth down
while prelinedep < self.depth:
if debug:
print 'MISALIGN LOW (add returns): C%d - eC%d' % (self.depth, prelinedep)
self.depth -= 1
if idx == 0 and last and last.fcall and not last.freturn:
# special case, turn last call into a leaf
last.depth = self.depth
last.freturn = True
last.length = line.time - last.time
if debug:
last.debugPrint()
else:
vline = FTraceLine(lasttime)
vline.depth = self.depth
vline.name = virtualfname
vline.freturn = True
self.list.append(vline)
if debug:
vline.debugPrint()
idx += 1
if debug:
line.debugPrint()
print ''
# handle high misalignments by inserting calls
elif prelinedep > self.depth:
if debug and last:
print '-------- task %d --------' % self.pid
last.debugPrint()
idx = 0
# add calls to get the depth up
while prelinedep > self.depth:
if debug:
print 'MISALIGN HIGH (add calls): C%d - eC%d' % (self.depth, prelinedep)
if idx == 0 and line.freturn and not line.fcall:
# special case, turn this return into a leaf
line.fcall = True
prelinedep -= 1
else:
vline = FTraceLine(lasttime)
vline.depth = self.depth
vline.name = virtualfname
vline.fcall = True
if debug:
vline.debugPrint()
self.list.append(vline)
self.depth += 1
if not last:
self.start = vline.time
idx += 1
if debug:
line.debugPrint()
print ''
# process the call and set the new depth
if(line.fcall and not line.freturn):
self.depth += 1
elif(line.freturn and not line.fcall):
self.depth -= 1
if len(self.list) < 1:
self.start = line.time
self.list.append(line)
if(line.depth == 0 and line.freturn):
if(self.start < 0):
self.start = line.time
self.end = line.time
if line.fcall:
self.end += line.length
if self.list[0].name == virtualfname:
self.invalid = True
return True
return False
def invalidate(self, line):
if(len(self.list) > 0):
first = self.list[0]
self.list = []
self.list.append(first)
self.invalid = True
id = 'task %s' % (self.pid)
window = '(%f - %f)' % (self.start, line.time)
if(self.depth < 0):
vprint('Too much data for '+id+\
' (buffer overflow), ignoring this callback')
else:
vprint('Too much data for '+id+\
' '+window+', ignoring this callback')
def slice(self, t0, tN):
minicg = FTraceCallGraph(0)
count = -1
firstdepth = 0
for l in self.list:
if(l.time < t0 or l.time > tN):
continue
if(count < 0):
if(not l.fcall or l.name == 'dev_driver_string'):
continue
firstdepth = l.depth
count = 0
l.depth -= firstdepth
minicg.addLine(l)
if((count == 0 and l.freturn and l.fcall) or
(count > 0 and l.depth <= 0)):
break
count += 1
return minicg
def repair(self, enddepth):
# bring the depth back to 0 with additional returns
fixed = False
last = self.list[-1]
for i in reversed(range(enddepth)):
t = FTraceLine(last.time)
t.depth = i
t.freturn = True
fixed = self.addLine(t)
if fixed:
self.end = last.time
return True
return False
def postProcess(self, debug=False):
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(l.depth not in stack):
if debug:
print 'Post Process Error: Depth missing'
l.debugPrint()
return False
# transfer total time from return line to call line
stack[l.depth].length = l.length
stack.pop(l.depth)
l.length = 0
cnt -= 1
if(cnt == 0):
# trace caught the whole call tree
return True
elif(cnt < 0):
if debug:
print 'Post Process Error: Depth is less than 0'
return False
# trace ended before call tree finished
return self.repair(cnt)
def deviceMatch(self, pid, data):
found = False
# add the callgraph data to the device hierarchy
borderphase = {
'dpm_prepare': 'suspend_prepare',
'dpm_complete': 'resume_complete'
}
if(self.list[0].name in borderphase):
p = borderphase[self.list[0].name]
list = data.dmesg[p]['list']
for devname in list:
dev = list[devname]
if(pid == dev['pid'] and
self.start <= dev['start'] and
self.end >= dev['end']):
dev['ftrace'] = self.slice(dev['start'], dev['end'])
found = True
return found
for p in data.phases:
if(data.dmesg[p]['start'] <= self.start and
self.start <= data.dmesg[p]['end']):
list = data.dmesg[p]['list']
for devname in list:
dev = list[devname]
if(pid == dev['pid'] and
self.start <= dev['start'] and
self.end >= dev['end']):
dev['ftrace'] = self
found = True
break
break
return found
def newActionFromFunction(self, data):
name = self.list[0].name
if name in ['dpm_run_callback', 'dpm_prepare', 'dpm_complete']:
return
fs = self.start
fe = self.end
if fs < data.start or fe > data.end:
return
phase = ''
for p in data.phases:
if(data.dmesg[p]['start'] <= self.start and
self.start < data.dmesg[p]['end']):
phase = p
break
if not phase:
return
out = data.newActionGlobal(name, fs, fe, -2)
if out:
phase, myname = out
data.dmesg[phase]['list'][myname]['ftrace'] = self
def debugPrint(self):
print('[%f - %f] %s (%d)') % (self.start, self.end, self.list[0].name, self.pid)
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(' ')
class DevItem:
def __init__(self, test, phase, dev):
self.test = test
self.phase = phase
self.dev = dev
def isa(self, cls):
if 'htmlclass' in self.dev and cls in self.dev['htmlclass']:
return True
return False
# Class: Timeline
# Description:
# A container for a device timeline which calculates
# all the html properties to display it correctly
class Timeline:
html = {}
height = 0 # total timeline height
scaleH = 20 # timescale (top) row height
rowH = 30 # device row height
bodyH = 0 # body height
rows = 0 # total timeline rows
rowlines = dict()
rowheight = dict()
def __init__(self, rowheight):
self.rowH = rowheight
self.html = {
'header': '',
'timeline': '',
'legend': '',
}
# Function: getDeviceRows
# Description:
# determine how may rows the device funcs will take
# Arguments:
# rawlist: the list of devices/actions for a single phase
# Output:
# The total number of rows needed to display this phase of the timeline
def getDeviceRows(self, rawlist):
# clear all rows and set them to undefined
sortdict = dict()
for item in rawlist:
item.row = -1
sortdict[item] = item.length
sortlist = sorted(sortdict, key=sortdict.get, reverse=True)
remaining = len(sortlist)
rowdata = dict()
row = 1
# try to pack each row with as many ranges as possible
while(remaining > 0):
if(row not in rowdata):
rowdata[row] = []
for i in sortlist:
if(i.row >= 0):
continue
s = i.time
e = i.time + i.length
valid = True
for ritem in rowdata[row]:
rs = ritem.time
re = ritem.time + ritem.length
if(not (((s <= rs) and (e <= rs)) or
((s >= re) and (e >= re)))):
valid = False
break
if(valid):
rowdata[row].append(i)
i.row = row
remaining -= 1
row += 1
return row
# Function: getPhaseRows
# Description:
# Organize the timeline entries into the smallest
# number of rows possible, with no entry overlapping
# Arguments:
# devlist: the list of devices/actions in a group of contiguous phases
# Output:
# The total number of rows needed to display this phase of the timeline
def getPhaseRows(self, devlist, row=0):
# clear all rows and set them to undefined
remaining = len(devlist)
rowdata = dict()
sortdict = dict()
myphases = []
# initialize all device rows to -1 and calculate devrows
for item in devlist:
dev = item.dev
tp = (item.test, item.phase)
if tp not in myphases:
myphases.append(tp)
dev['row'] = -1
# sort by length 1st, then name 2nd
sortdict[item] = (float(dev['end']) - float(dev['start']), item.dev['name'])
if 'src' in dev:
dev['devrows'] = self.getDeviceRows(dev['src'])
# sort the devlist by length so that large items graph on top
sortlist = sorted(sortdict, key=sortdict.get, reverse=True)
orderedlist = []
for item in sortlist:
if item.dev['pid'] == -2:
orderedlist.append(item)
for item in sortlist:
if item not in orderedlist:
orderedlist.append(item)
# try to pack each row with as many devices as possible
while(remaining > 0):
rowheight = 1
if(row not in rowdata):
rowdata[row] = []
for item in orderedlist:
dev = item.dev
if(dev['row'] < 0):
s = dev['start']
e = dev['end']
valid = True
for ritem in rowdata[row]:
rs = ritem.dev['start']
re = ritem.dev['end']
if(not (((s <= rs) and (e <= rs)) or
((s >= re) and (e >= re)))):
valid = False
break
if(valid):
rowdata[row].append(item)
dev['row'] = row
remaining -= 1
if 'devrows' in dev and dev['devrows'] > rowheight:
rowheight = dev['devrows']
for t, p in myphases:
if t not in self.rowlines or t not in self.rowheight:
self.rowlines[t] = dict()
self.rowheight[t] = dict()
if p not in self.rowlines[t] or p not in self.rowheight[t]:
self.rowlines[t][p] = dict()
self.rowheight[t][p] = dict()
rh = self.rowH
# section headers should use a different row height
if len(rowdata[row]) == 1 and \
'htmlclass' in rowdata[row][0].dev and \
'sec' in rowdata[row][0].dev['htmlclass']:
rh = 15
self.rowlines[t][p][row] = rowheight
self.rowheight[t][p][row] = rowheight * rh
row += 1
if(row > self.rows):
self.rows = int(row)
return row
def phaseRowHeight(self, test, phase, row):
return self.rowheight[test][phase][row]
def phaseRowTop(self, test, phase, row):
top = 0
for i in sorted(self.rowheight[test][phase]):
if i >= row:
break
top += self.rowheight[test][phase][i]
return top
# Function: calcTotalRows
# Description:
# Calculate the heights and offsets for the header and rows
def calcTotalRows(self):
maxrows = 0
standardphases = []
for t in self.rowlines:
for p in self.rowlines[t]:
total = 0
for i in sorted(self.rowlines[t][p]):
total += self.rowlines[t][p][i]
if total > maxrows:
maxrows = total
if total == len(self.rowlines[t][p]):
standardphases.append((t, p))
self.height = self.scaleH + (maxrows*self.rowH)
self.bodyH = self.height - self.scaleH
# if there is 1 line per row, draw them the standard way
for t, p in standardphases:
for i in sorted(self.rowheight[t][p]):
self.rowheight[t][p][i] = self.bodyH/len(self.rowlines[t][p])
# Function: createTimeScale
# Description:
# Create the timescale for a timeline block
# Arguments:
# m0: start time (mode begin)
# mMax: end time (mode end)
# tTotal: total timeline time
# mode: suspend or resume
# Output:
# The html code needed to display the time scale
def createTimeScale(self, m0, mMax, tTotal, mode):
timescale = '<div class="t" style="right:{0}%">{1}</div>\n'
rline = '<div class="t" style="left:0;border-left:1px solid black;border-right:0;">Resume</div>\n'
output = '<div class="timescale">\n'
# set scale for timeline
mTotal = mMax - m0
tS = 0.1
if(tTotal <= 0):
return output+'</div>\n'
if(tTotal > 4):
tS = 1
divTotal = int(mTotal/tS) + 1
divEdge = (mTotal - tS*(divTotal-1))*100/mTotal
for i in range(divTotal):
htmlline = ''
if(mode == 'resume'):
pos = '%0.3f' % (100 - ((float(i)*tS*100)/mTotal))
val = '%0.fms' % (float(i)*tS*1000)
htmlline = timescale.format(pos, val)
if(i == 0):
htmlline = rline
else:
pos = '%0.3f' % (100 - ((float(i)*tS*100)/mTotal) - divEdge)
val = '%0.fms' % (float(i-divTotal+1)*tS*1000)
if(i == divTotal - 1):
val = 'Suspend'
htmlline = timescale.format(pos, val)
output += htmlline
output += '</div>\n'
return output
# Class: TestProps
# Description:
# A list of values describing the properties of these test runs
class TestProps:
stamp = ''
tracertype = ''
S0i3 = False
fwdata = []
ftrace_line_fmt_fg = \
'^ *(?P<time>[0-9\.]*) *\| *(?P<cpu>[0-9]*)\)'+\
' *(?P<proc>.*)-(?P<pid>[0-9]*) *\|'+\
'[ +!#\*@$]*(?P<dur>[0-9\.]*) .*\| (?P<msg>.*)'
ftrace_line_fmt_nop = \
' *(?P<proc>.*)-(?P<pid>[0-9]*) *\[(?P<cpu>[0-9]*)\] *'+\
'(?P<flags>.{4}) *(?P<time>[0-9\.]*): *'+\
'(?P<msg>.*)'
ftrace_line_fmt = ftrace_line_fmt_nop
cgformat = False
data = 0
ktemp = dict()
def __init__(self):
self.ktemp = dict()
def setTracerType(self, tracer):
self.tracertype = tracer
if(tracer == 'function_graph'):
self.cgformat = True
self.ftrace_line_fmt = self.ftrace_line_fmt_fg
elif(tracer == 'nop'):
self.ftrace_line_fmt = self.ftrace_line_fmt_nop
else:
doError('Invalid tracer format: [%s]' % tracer, False)
# Class: TestRun
# Description:
# A container for a suspend/resume test run. This is necessary as
# there could be more than one, and they need to be separate.
class TestRun:
ftemp = dict()
ttemp = dict()
data = 0
def __init__(self, dataobj):
self.data = dataobj
self.ftemp = dict()
self.ttemp = dict()
class ProcessMonitor:
proclist = dict()
running = False
def procstat(self):
c = ['cat /proc/[1-9]*/stat 2>/dev/null']
process = Popen(c, shell=True, stdout=PIPE)
running = dict()
for line in process.stdout:
data = line.split()
pid = data[0]
name = re.sub('[()]', '', data[1])
user = int(data[13])
kern = int(data[14])
kjiff = ujiff = 0
if pid not in self.proclist:
self.proclist[pid] = {'name' : name, 'user' : user, 'kern' : kern}
else:
val = self.proclist[pid]
ujiff = user - val['user']
kjiff = kern - val['kern']
val['user'] = user
val['kern'] = kern
if ujiff > 0 or kjiff > 0:
running[pid] = ujiff + kjiff
result = process.wait()
out = ''
for pid in running:
jiffies = running[pid]
val = self.proclist[pid]
if out:
out += ','
out += '%s-%s %d' % (val['name'], pid, jiffies)
return 'ps - '+out
def processMonitor(self, tid):
global sysvals
while self.running:
out = self.procstat()
if out:
sysvals.fsetVal(out, 'trace_marker')
def start(self):
self.thread = Thread(target=self.processMonitor, args=(0,))
self.running = True
self.thread.start()
def stop(self):
self.running = False
# ----------------- FUNCTIONS --------------------
# Function: vprint
# Description:
# verbose print (prints only with -verbose option)
# Arguments:
# msg: the debug/log message to print
def vprint(msg):
global sysvals
if(sysvals.verbose):
print(msg)
# Function: parseStamp
# Description:
# Pull in the stamp comment line from the data file(s),
# create the stamp, and add it to the global sysvals object
# Arguments:
# m: the valid re.match output for the stamp line
def parseStamp(line, data):
global sysvals
m = re.match(sysvals.stampfmt, line)
data.stamp = {'time': '', 'host': '', 'mode': ''}
dt = 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.hostname = data.stamp['host']
sysvals.suspendmode = data.stamp['mode']
if sysvals.suspendmode == 'command' and sysvals.ftracefile != '':
modes = ['on', 'freeze', 'standby', 'mem']
out = Popen(['grep', 'suspend_enter', sysvals.ftracefile],
stderr=PIPE, stdout=PIPE).stdout.read()
m = re.match('.* suspend_enter\[(?P<mode>.*)\]', out)
if m and m.group('mode') in ['1', '2', '3']:
sysvals.suspendmode = modes[int(m.group('mode'))]
data.stamp['mode'] = sysvals.suspendmode
if not sysvals.stamp:
sysvals.stamp = data.stamp
# Function: diffStamp
# Description:
# compare the host, kernel, and mode fields in 3 stamps
# Arguments:
# stamp1: string array with mode, kernel, and host
# stamp2: string array with mode, kernel, and host
# Return:
# True if stamps differ, False if they're the same
def diffStamp(stamp1, stamp2):
if 'host' in stamp1 and 'host' in stamp2:
if stamp1['host'] != stamp2['host']:
return True
if 'kernel' in stamp1 and 'kernel' in stamp2:
if stamp1['kernel'] != stamp2['kernel']:
return True
if 'mode' in stamp1 and 'mode' in stamp2:
if stamp1['mode'] != stamp2['mode']:
return True
return False
# Function: doesTraceLogHaveTraceEvents
# Description:
# Quickly determine if the ftrace log has some or all of the trace events
# required for primary parsing. Set the usetraceevents and/or
# usetraceeventsonly flags in the global sysvals object
def doesTraceLogHaveTraceEvents():
global sysvals
# check for kprobes
sysvals.usekprobes = False
out = call('grep -q "_cal: (" '+sysvals.ftracefile, shell=True)
if(out == 0):
sysvals.usekprobes = True
# check for callgraph data on trace event blocks
out = call('grep -q "_cpu_down()" '+sysvals.ftracefile, shell=True)
if(out == 0):
sysvals.usekprobes = True
out = Popen(['head', '-1', sysvals.ftracefile],
stderr=PIPE, stdout=PIPE).stdout.read().replace('\n', '')
m = re.match(sysvals.stampfmt, out)
if m and m.group('mode') == 'command':
sysvals.usetraceeventsonly = True
sysvals.usetraceevents = True
return
# figure out what level of trace events are supported
sysvals.usetraceeventsonly = True
sysvals.usetraceevents = False
for e in sysvals.traceevents:
out = call('grep -q "'+e+': " '+sysvals.ftracefile, shell=True)
if(out != 0):
sysvals.usetraceeventsonly = False
if(e == 'suspend_resume' and out == 0):
sysvals.usetraceevents = True
# determine is this log is properly formatted
for e in ['SUSPEND START', 'RESUME COMPLETE']:
out = call('grep -q "'+e+'" '+sysvals.ftracefile, shell=True)
if(out != 0):
sysvals.usetracemarkers = False
# Function: appendIncompleteTraceLog
# Description:
# [deprecated for kernel 3.15 or newer]
# Legacy support of ftrace outputs that lack the device_pm_callback
# and/or suspend_resume trace events. The primary data should be
# taken from dmesg, and this ftrace is used only for callgraph data
# or custom actions in the timeline. The data is appended to the Data
# objects provided.
# Arguments:
# testruns: the array of Data objects obtained from parseKernelLog
def appendIncompleteTraceLog(testruns):
global sysvals
# create TestRun vessels for ftrace parsing
testcnt = len(testruns)
testidx = 0
testrun = []
for data in testruns:
testrun.append(TestRun(data))
# extract the callgraph and traceevent data
vprint('Analyzing the ftrace data...')
tp = TestProps()
tf = open(sysvals.ftracefile, 'r')
data = 0
for line in tf:
# remove any latent carriage returns
line = line.replace('\r\n', '')
# grab the time stamp
m = re.match(sysvals.stampfmt, line)
if(m):
tp.stamp = line
continue
# determine the trace data type (required for further parsing)
m = re.match(sysvals.tracertypefmt, line)
if(m):
tp.setTracerType(m.group('t'))
continue
# device properties line
if(re.match(sysvals.devpropfmt, line)):
devProps(line)
continue
# parse only valid lines, if this is not one move on
m = re.match(tp.ftrace_line_fmt, line)
if(not m):
continue
# gather the basic message data from the line
m_time = m.group('time')
m_pid = m.group('pid')
m_msg = m.group('msg')
if(tp.cgformat):
m_param3 = m.group('dur')
else:
m_param3 = 'traceevent'
if(m_time and m_pid and m_msg):
t = FTraceLine(m_time, m_msg, m_param3)
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
# look for the suspend start marker
if(t.startMarker()):
data = testrun[testidx].data
parseStamp(tp.stamp, data)
data.setStart(t.time)
continue
if(not data):
continue
# find the end of resume
if(t.endMarker()):
data.setEnd(t.time)
testidx += 1
if(testidx >= testcnt):
break
continue
# trace event processing
if(t.fevent):
# general trace events have two types, begin and end
if(re.match('(?P<name>.*) begin$', t.name)):
isbegin = True
elif(re.match('(?P<name>.*) end$', t.name)):
isbegin = False
else:
continue
m = re.match('(?P<name>.*)\[(?P<val>[0-9]*)\] .*', t.name)
if(m):
val = m.group('val')
if val == '0':
name = m.group('name')
else:
name = m.group('name')+'['+val+']'
else:
m = re.match('(?P<name>.*) .*', t.name)
name = m.group('name')
# special processing for trace events
if re.match('dpm_prepare\[.*', name):
continue
elif re.match('machine_suspend.*', name):
continue
elif re.match('suspend_enter\[.*', name):
if(not isbegin):
data.dmesg['suspend_prepare']['end'] = t.time
continue
elif re.match('dpm_suspend\[.*', name):
if(not isbegin):
data.dmesg['suspend']['end'] = t.time
continue
elif re.match('dpm_suspend_late\[.*', name):
if(isbegin):
data.dmesg['suspend_late']['start'] = t.time
else:
data.dmesg['suspend_late']['end'] = t.time
continue
elif re.match('dpm_suspend_noirq\[.*', name):
if(isbegin):
data.dmesg['suspend_noirq']['start'] = t.time
else:
data.dmesg['suspend_noirq']['end'] = t.time
continue
elif re.match('dpm_resume_noirq\[.*', name):
if(isbegin):
data.dmesg['resume_machine']['end'] = t.time
data.dmesg['resume_noirq']['start'] = t.time
else:
data.dmesg['resume_noirq']['end'] = t.time
continue
elif re.match('dpm_resume_early\[.*', name):
if(isbegin):
data.dmesg['resume_early']['start'] = t.time
else:
data.dmesg['resume_early']['end'] = t.time
continue
elif re.match('dpm_resume\[.*', name):
if(isbegin):
data.dmesg['resume']['start'] = t.time
else:
data.dmesg['resume']['end'] = t.time
continue
elif re.match('dpm_complete\[.*', name):
if(isbegin):
data.dmesg['resume_complete']['start'] = t.time
else:
data.dmesg['resume_complete']['end'] = t.time
continue
# skip trace events inside devices calls
if(not data.isTraceEventOutsideDeviceCalls(pid, t.time)):
continue
# global events (outside device calls) are simply graphed
if(isbegin):
# store each trace event in ttemp
if(name not in testrun[testidx].ttemp):
testrun[testidx].ttemp[name] = []
testrun[testidx].ttemp[name].append(\
{'begin': t.time, 'end': t.time})
else:
# finish off matching trace event in ttemp
if(name in testrun[testidx].ttemp):
testrun[testidx].ttemp[name][-1]['end'] = t.time
# call/return processing
elif sysvals.usecallgraph:
# create a callgraph object for the data
if(pid not in testrun[testidx].ftemp):
testrun[testidx].ftemp[pid] = []
testrun[testidx].ftemp[pid].append(FTraceCallGraph(pid))
# when the call is finished, see which device matches it
cg = testrun[testidx].ftemp[pid][-1]
if(cg.addLine(t)):
testrun[testidx].ftemp[pid].append(FTraceCallGraph(pid))
tf.close()
for test in testrun:
# add the traceevent data to the device hierarchy
if(sysvals.usetraceevents):
for name in test.ttemp:
for event in test.ttemp[name]:
test.data.newActionGlobal(name, event['begin'], event['end'])
# add the callgraph data to the device hierarchy
for pid in test.ftemp:
for cg in test.ftemp[pid]:
if len(cg.list) < 1 or cg.invalid:
continue
if(not cg.postProcess()):
id = 'task %s cpu %s' % (pid, m.group('cpu'))
vprint('Sanity check failed for '+\
id+', ignoring this callback')
continue
callstart = cg.start
callend = cg.end
for p in test.data.phases:
if(test.data.dmesg[p]['start'] <= callstart and
callstart <= test.data.dmesg[p]['end']):
list = test.data.dmesg[p]['list']
for devname in list:
dev = list[devname]
if(pid == dev['pid'] and
callstart <= dev['start'] and
callend >= dev['end']):
dev['ftrace'] = cg
break
if(sysvals.verbose):
test.data.printDetails()
# Function: parseTraceLog
# Description:
# Analyze an ftrace log output file generated from this app during
# the execution phase. Used when the ftrace log is the primary data source
# and includes the suspend_resume and device_pm_callback trace events
# The ftrace filename is taken from sysvals
# Output:
# An array of Data objects
def parseTraceLog():
global sysvals
vprint('Analyzing the ftrace data...')
if(os.path.exists(sysvals.ftracefile) == False):
doError('%s does not exist' % sysvals.ftracefile, False)
sysvals.setupAllKprobes()
tracewatch = []
if sysvals.usekprobes:
tracewatch += ['sync_filesystems', 'freeze_processes', 'syscore_suspend',
'syscore_resume', 'resume_console', 'thaw_processes', 'CPU_ON', 'CPU_OFF']
# extract the callgraph and traceevent data
tp = TestProps()
testruns = []
testdata = []
testrun = 0
data = 0
tf = open(sysvals.ftracefile, 'r')
phase = 'suspend_prepare'
for line in tf:
# remove any latent carriage returns
line = line.replace('\r\n', '')
# stamp line: each stamp means a new test run
m = re.match(sysvals.stampfmt, line)
if(m):
tp.stamp = line
continue
# firmware line: pull out any firmware data
m = re.match(sysvals.firmwarefmt, line)
if(m):
tp.fwdata.append((int(m.group('s')), int(m.group('r'))))
continue
# tracer type line: determine the trace data type
m = re.match(sysvals.tracertypefmt, line)
if(m):
tp.setTracerType(m.group('t'))
continue
# device properties line
if(re.match(sysvals.devpropfmt, line)):
devProps(line)
continue
# ignore all other commented lines
if line[0] == '#':
continue
# ftrace line: parse only valid lines
m = re.match(tp.ftrace_line_fmt, line)
if(not m):
continue
# gather the basic message data from the line
m_time = m.group('time')
m_proc = m.group('proc')
m_pid = m.group('pid')
m_msg = m.group('msg')
if(tp.cgformat):
m_param3 = m.group('dur')
else:
m_param3 = 'traceevent'
if(m_time and m_pid and m_msg):
t = FTraceLine(m_time, m_msg, m_param3)
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
# find the start of suspend
if(t.startMarker()):
phase = 'suspend_prepare'
data = Data(len(testdata))
testdata.append(data)
testrun = TestRun(data)
testruns.append(testrun)
parseStamp(tp.stamp, data)
if sysvals.suspendmode == 'mem' and len(tp.fwdata) > data.testnumber:
data.fwSuspend, data.fwResume = tp.fwdata[data.testnumber]
if(data.fwSuspend > 0 or data.fwResume > 0):
data.fwValid = True
data.setStart(t.time)
data.tKernSus = t.time
continue
if(not data):
continue
# process cpu exec line
if t.type == 'tracing_mark_write':
m = re.match(sysvals.procexecfmt, t.name)
if(m):
proclist = dict()
for ps in m.group('ps').split(','):
val = ps.split()
if not val:
continue
name = val[0].replace('--', '-')
proclist[name] = int(val[1])
data.pstl[t.time] = proclist
continue
# find the end of resume
if(t.endMarker()):
data.setEnd(t.time)
if data.tKernRes == 0.0:
data.tKernRes = t.time
if data.dmesg['resume_complete']['end'] < 0:
data.dmesg['resume_complete']['end'] = t.time
if(not sysvals.usetracemarkers):
# no trace markers? then quit and be sure to finish recording
# the event we used to trigger resume end
if(len(testrun.ttemp['thaw_processes']) > 0):
# if an entry exists, assume this is its end
testrun.ttemp['thaw_processes'][-1]['end'] = t.time
break
continue
# trace event processing
if(t.fevent):
if(phase == 'post_resume'):
data.setEnd(t.time)
if(t.type == 'suspend_resume'):
# suspend_resume trace events have two types, begin and end
if(re.match('(?P<name>.*) begin$', t.name)):
isbegin = True
elif(re.match('(?P<name>.*) end$', t.name)):
isbegin = False
else:
continue
m = re.match('(?P<name>.*)\[(?P<val>[0-9]*)\] .*', t.name)
if(m):
val = m.group('val')
if val == '0':
name = m.group('name')
else:
name = m.group('name')+'['+val+']'
else:
m = re.match('(?P<name>.*) .*', t.name)
name = m.group('name')
# ignore these events
if(name.split('[')[0] in tracewatch):
continue
# -- phase changes --
# start of kernel suspend
if(re.match('suspend_enter\[.*', t.name)):
if(isbegin):
data.dmesg[phase]['start'] = t.time
data.tKernSus = t.time
continue
# suspend_prepare start
elif(re.match('dpm_prepare\[.*', t.name)):
phase = 'suspend_prepare'
if(not isbegin):
data.dmesg[phase]['end'] = t.time
continue
# suspend start
elif(re.match('dpm_suspend\[.*', t.name)):
phase = 'suspend'
data.setPhase(phase, t.time, isbegin)
continue
# suspend_late start
elif(re.match('dpm_suspend_late\[.*', t.name)):
phase = 'suspend_late'
data.setPhase(phase, t.time, isbegin)
continue
# suspend_noirq start
elif(re.match('dpm_suspend_noirq\[.*', t.name)):
phase = 'suspend_noirq'
data.setPhase(phase, t.time, isbegin)
if(not isbegin):
phase = 'suspend_machine'
data.dmesg[phase]['start'] = t.time
continue
# suspend_machine/resume_machine
elif(re.match('machine_suspend\[.*', t.name)):
if(isbegin):
phase = 'suspend_machine'
data.dmesg[phase]['end'] = t.time
data.tSuspended = t.time
else:
if(sysvals.suspendmode in ['mem', 'disk'] and not tp.S0i3):
data.dmesg['suspend_machine']['end'] = t.time
data.tSuspended = t.time
phase = 'resume_machine'
data.dmesg[phase]['start'] = t.time
data.tResumed = t.time
data.tLow = data.tResumed - data.tSuspended
continue
# acpi_suspend
elif(re.match('acpi_suspend\[.*', t.name)):
# acpi_suspend[0] S0i3
if(re.match('acpi_suspend\[0\] begin', t.name)):
if(sysvals.suspendmode == 'mem'):
tp.S0i3 = True
data.dmesg['suspend_machine']['end'] = t.time
data.tSuspended = t.time
continue
# resume_noirq start
elif(re.match('dpm_resume_noirq\[.*', t.name)):
phase = 'resume_noirq'
data.setPhase(phase, t.time, isbegin)
if(isbegin):
data.dmesg['resume_machine']['end'] = t.time
continue
# resume_early start
elif(re.match('dpm_resume_early\[.*', t.name)):
phase = 'resume_early'
data.setPhase(phase, t.time, isbegin)
continue
# resume start
elif(re.match('dpm_resume\[.*', t.name)):
phase = 'resume'
data.setPhase(phase, t.time, isbegin)
continue
# resume complete start
elif(re.match('dpm_complete\[.*', t.name)):
phase = 'resume_complete'
if(isbegin):
data.dmesg[phase]['start'] = t.time
continue
# skip trace events inside devices calls
if(not data.isTraceEventOutsideDeviceCalls(pid, t.time)):
continue
# global events (outside device calls) are graphed
if(name not in testrun.ttemp):
testrun.ttemp[name] = []
if(isbegin):
# create a new list entry
testrun.ttemp[name].append(\
{'begin': t.time, 'end': t.time, 'pid': pid})
else:
if(len(testrun.ttemp[name]) > 0):
# if an entry exists, assume this is its end
testrun.ttemp[name][-1]['end'] = t.time
elif(phase == 'post_resume'):
# post resume events can just have ends
testrun.ttemp[name].append({
'begin': data.dmesg[phase]['start'],
'end': t.time})
# device callback start
elif(t.type == 'device_pm_callback_start'):
m = re.match('(?P<drv>.*) (?P<d>.*), parent: *(?P<p>.*), .*',\
t.name);
if(not m):
continue
drv = m.group('drv')
n = m.group('d')
p = m.group('p')
if(n and p):
data.newAction(phase, n, pid, p, t.time, -1, drv)
if pid not in data.devpids:
data.devpids.append(pid)
# device callback finish
elif(t.type == 'device_pm_callback_end'):
m = re.match('(?P<drv>.*) (?P<d>.*), err.*', t.name);
if(not m):
continue
n = m.group('d')
list = data.dmesg[phase]['list']
if(n in list):
dev = list[n]
dev['length'] = t.time - dev['start']
dev['end'] = t.time
# kprobe event processing
elif(t.fkprobe):
kprobename = t.type
kprobedata = t.name
key = (kprobename, pid)
# displayname is generated from kprobe data
displayname = ''
if(t.fcall):
displayname = sysvals.kprobeDisplayName(kprobename, kprobedata)
if not displayname:
continue
if(key not in tp.ktemp):
tp.ktemp[key] = []
tp.ktemp[key].append({
'pid': pid,
'begin': t.time,
'end': t.time,
'name': displayname,
'cdata': kprobedata,
'proc': m_proc,
})
elif(t.freturn):
if(key not in tp.ktemp) or len(tp.ktemp[key]) < 1:
continue
e = tp.ktemp[key][-1]
if e['begin'] < 0.0 or t.time - e['begin'] < 0.000001:
tp.ktemp[key].pop()
else:
e['end'] = t.time
e['rdata'] = kprobedata
# end of kernel resume
if(kprobename == 'pm_notifier_call_chain' or \
kprobename == 'pm_restore_console'):
data.dmesg[phase]['end'] = t.time
data.tKernRes = t.time
# callgraph processing
elif sysvals.usecallgraph:
# create a callgraph object for the data
key = (m_proc, pid)
if(key not in testrun.ftemp):
testrun.ftemp[key] = []
testrun.ftemp[key].append(FTraceCallGraph(pid))
# when the call is finished, see which device matches it
cg = testrun.ftemp[key][-1]
if(cg.addLine(t)):
testrun.ftemp[key].append(FTraceCallGraph(pid))
tf.close()
if sysvals.suspendmode == 'command':
for test in testruns:
for p in test.data.phases:
if p == 'suspend_prepare':
test.data.dmesg[p]['start'] = test.data.start
test.data.dmesg[p]['end'] = test.data.end
else:
test.data.dmesg[p]['start'] = test.data.end
test.data.dmesg[p]['end'] = test.data.end
test.data.tSuspended = test.data.end
test.data.tResumed = test.data.end
test.data.tLow = 0
test.data.fwValid = False
# dev source and procmon events can be unreadable with mixed phase height
if sysvals.usedevsrc or sysvals.useprocmon:
sysvals.mixedphaseheight = False
for i in range(len(testruns)):
test = testruns[i]
data = test.data
# find the total time range for this test (begin, end)
tlb, tle = data.start, data.end
if i < len(testruns) - 1:
tle = testruns[i+1].data.start
# add the process usage data to the timeline
if sysvals.useprocmon:
data.createProcessUsageEvents()
# add the traceevent data to the device hierarchy
if(sysvals.usetraceevents):
# add actual trace funcs
for name in test.ttemp:
for event in test.ttemp[name]:
data.newActionGlobal(name, event['begin'], event['end'], event['pid'])
# add the kprobe based virtual tracefuncs as actual devices
for key in tp.ktemp:
name, pid = key
if name not in sysvals.tracefuncs:
continue
for e in tp.ktemp[key]:
kb, ke = e['begin'], e['end']
if kb == ke or tlb > kb or tle <= kb:
continue
color = sysvals.kprobeColor(name)
data.newActionGlobal(e['name'], kb, ke, pid, color)
# add config base kprobes and dev kprobes
if sysvals.usedevsrc:
for key in tp.ktemp:
name, pid = key
if name in sysvals.tracefuncs or name not in sysvals.dev_tracefuncs:
continue
for e in tp.ktemp[key]:
kb, ke = e['begin'], e['end']
if kb == ke or tlb > kb or tle <= kb:
continue
data.addDeviceFunctionCall(e['name'], name, e['proc'], pid, kb,
ke, e['cdata'], e['rdata'])
if sysvals.usecallgraph:
# add the callgraph data to the device hierarchy
sortlist = dict()
for key in test.ftemp:
proc, pid = key
for cg in test.ftemp[key]:
if len(cg.list) < 1 or cg.invalid:
continue
if(not cg.postProcess()):
id = 'task %s' % (pid)
vprint('Sanity check failed for '+\
id+', ignoring this callback')
continue
# match cg data to devices
if sysvals.suspendmode == 'command' or not cg.deviceMatch(pid, data):
sortkey = '%f%f%d' % (cg.start, cg.end, pid)
sortlist[sortkey] = cg
# create blocks for orphan cg data
for sortkey in sorted(sortlist):
cg = sortlist[sortkey]
name = cg.list[0].name
if sysvals.isCallgraphFunc(name):
vprint('Callgraph found for task %d: %.3fms, %s' % (cg.pid, (cg.end - cg.start)*1000, name))
cg.newActionFromFunction(data)
if sysvals.suspendmode == 'command':
if(sysvals.verbose):
for data in testdata:
data.printDetails()
return testdata
# fill in any missing phases
for data in testdata:
lp = data.phases[0]
for p in data.phases:
if(data.dmesg[p]['start'] < 0 and data.dmesg[p]['end'] < 0):
print('WARNING: phase "%s" is missing!' % p)
if(data.dmesg[p]['start'] < 0):
data.dmesg[p]['start'] = data.dmesg[lp]['end']
if(p == 'resume_machine'):
data.tSuspended = data.dmesg[lp]['end']
data.tResumed = data.dmesg[lp]['end']
data.tLow = 0
if(data.dmesg[p]['end'] < 0):
data.dmesg[p]['end'] = data.dmesg[p]['start']
lp = p
if(len(sysvals.devicefilter) > 0):
data.deviceFilter(sysvals.devicefilter)
data.fixupInitcallsThatDidntReturn()
if sysvals.usedevsrc:
data.optimizeDevSrc()
if sysvals.verbose:
data.printDetails()
# x2: merge any overlapping devices between test runs
if sysvals.usedevsrc and len(testdata) > 1:
tc = len(testdata)
for i in range(tc - 1):
devlist = testdata[i].overflowDevices()
for j in range(i + 1, tc):
testdata[j].mergeOverlapDevices(devlist)
testdata[0].stitchTouchingThreads(testdata[1:])
return testdata
# Function: loadRawKernelLog
# Description:
# Load a raw kernel log that wasn't created by this tool, it might be
# possible to extract a valid suspend/resume log
def loadRawKernelLog(dmesgfile):
global sysvals
stamp = {'time': '', 'host': '', 'mode': 'mem', 'kernel': ''}
stamp['time'] = datetime.now().strftime('%B %d %Y, %I:%M:%S %p')
stamp['host'] = sysvals.hostname
testruns = []
data = 0
lf = open(dmesgfile, 'r')
for line in lf:
line = line.replace('\r\n', '')
idx = line.find('[')
if idx > 1:
line = line[idx:]
m = re.match('[ \t]*(\[ *)(?P<ktime>[0-9\.]*)(\]) (?P<msg>.*)', line)
if(not m):
continue
msg = m.group("msg")
m = re.match('PM: Syncing filesystems.*', msg)
if(m):
if(data):
testruns.append(data)
data = Data(len(testruns))
data.stamp = stamp
if(data):
m = re.match('.* *(?P<k>[0-9]\.[0-9]{2}\.[0-9]-.*) .*', msg)
if(m):
stamp['kernel'] = m.group('k')
m = re.match('PM: Preparing system for (?P<m>.*) sleep', msg)
if(m):
stamp['mode'] = m.group('m')
data.dmesgtext.append(line)
if(data):
testruns.append(data)
sysvals.stamp = stamp
sysvals.suspendmode = stamp['mode']
lf.close()
return testruns
# Function: loadKernelLog
# Description:
# [deprecated for kernel 3.15.0 or newer]
# load the dmesg file into memory and fix up any ordering issues
# The dmesg filename is taken from sysvals
# Output:
# An array of empty Data objects with only their dmesgtext attributes set
def loadKernelLog():
global sysvals
vprint('Analyzing the dmesg data...')
if(os.path.exists(sysvals.dmesgfile) == False):
doError('%s does not exist' % sysvals.dmesgfile, False)
# there can be multiple test runs in a single file
tp = TestProps()
testruns = []
data = 0
lf = open(sysvals.dmesgfile, 'r')
for line in lf:
line = line.replace('\r\n', '')
idx = line.find('[')
if idx > 1:
line = line[idx:]
m = re.match(sysvals.stampfmt, line)
if(m):
tp.stamp = line
continue
m = re.match(sysvals.firmwarefmt, line)
if(m):
tp.fwdata.append((int(m.group('s')), int(m.group('r'))))
continue
m = re.match('[ \t]*(\[ *)(?P<ktime>[0-9\.]*)(\]) (?P<msg>.*)', line)
if(not m):
continue
msg = m.group("msg")
if(re.match('PM: Syncing filesystems.*', msg)):
if(data):
testruns.append(data)
data = Data(len(testruns))
parseStamp(tp.stamp, data)
if len(tp.fwdata) > data.testnumber:
data.fwSuspend, data.fwResume = tp.fwdata[data.testnumber]
if(data.fwSuspend > 0 or data.fwResume > 0):
data.fwValid = True
if(re.match('ACPI: resume from mwait', msg)):
print('NOTE: This suspend appears to be freeze rather than'+\
' %s, it will be treated as such' % sysvals.suspendmode)
sysvals.suspendmode = 'freeze'
if(not data):
continue
data.dmesgtext.append(line)
if(data):
testruns.append(data)
lf.close()
if(len(testruns) < 1):
# bad log, but see if you can extract something meaningful anyway
testruns = loadRawKernelLog(sysvals.dmesgfile)
if(len(testruns) < 1):
doError(' dmesg log is completely unreadable: %s' \
% sysvals.dmesgfile, False)
# fix lines with same timestamp/function with the call and return swapped
for data in testruns:
last = ''
for line in data.dmesgtext:
mc = re.match('.*(\[ *)(?P<t>[0-9\.]*)(\]) calling '+\
'(?P<f>.*)\+ @ .*, parent: .*', line)
mr = re.match('.*(\[ *)(?P<t>[0-9\.]*)(\]) 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 = data.dmesgtext.index(last)
j = data.dmesgtext.index(line)
data.dmesgtext[i] = line
data.dmesgtext[j] = last
last = line
return testruns
# Function: parseKernelLog
# Description:
# [deprecated for kernel 3.15.0 or newer]
# 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
# This call is only for legacy support on kernels where the ftrace
# data lacks the suspend_resume or device_pm_callbacks trace events.
# Arguments:
# data: an empty Data object (with dmesgtext) obtained from loadKernelLog
# Output:
# The filled Data object
def parseKernelLog(data):
global sysvals
phase = 'suspend_runtime'
if(data.fwValid):
vprint('Firmware Suspend = %u ns, Firmware Resume = %u ns' % \
(data.fwSuspend, data.fwResume))
# dmesg phase match table
dm = {
'suspend_prepare': 'PM: Syncing filesystems.*',
'suspend': 'PM: Entering [a-z]* sleep.*',
'suspend_late': 'PM: suspend of devices complete after.*',
'suspend_noirq': 'PM: late suspend of devices complete after.*',
'suspend_machine': 'PM: noirq suspend of devices complete after.*',
'resume_machine': 'ACPI: Low-level resume complete.*',
'resume_noirq': 'ACPI: Waking up from system sleep state.*',
'resume_early': 'PM: noirq resume of devices complete after.*',
'resume': 'PM: early resume of devices complete after.*',
'resume_complete': 'PM: resume of devices complete after.*',
'post_resume': '.*Restarting tasks \.\.\..*',
}
if(sysvals.suspendmode == 'standby'):
dm['resume_machine'] = 'PM: Restoring platform NVS memory'
elif(sysvals.suspendmode == 'disk'):
dm['suspend_late'] = 'PM: freeze of devices complete after.*'
dm['suspend_noirq'] = 'PM: late freeze of devices complete after.*'
dm['suspend_machine'] = 'PM: noirq freeze of devices complete after.*'
dm['resume_machine'] = 'PM: Restoring platform NVS memory'
dm['resume_early'] = 'PM: noirq restore of devices complete after.*'
dm['resume'] = 'PM: early restore of devices complete after.*'
dm['resume_complete'] = 'PM: restore of devices complete after.*'
elif(sysvals.suspendmode == 'freeze'):
dm['resume_machine'] = 'ACPI: resume from mwait'
# action table (expected events that occur and show up in dmesg)
at = {
'sync_filesystems': {
'smsg': 'PM: Syncing filesystems.*',
'emsg': 'PM: Preparing system for mem sleep.*' },
'freeze_user_processes': {
'smsg': 'Freezing user space processes .*',
'emsg': 'Freezing remaining freezable tasks.*' },
'freeze_tasks': {
'smsg': 'Freezing remaining freezable tasks.*',
'emsg': 'PM: Entering (?P<mode>[a-z,A-Z]*) sleep.*' },
'ACPI prepare': {
'smsg': 'ACPI: Preparing to enter system sleep state.*',
'emsg': 'PM: Saving platform NVS memory.*' },
'PM vns': {
'smsg': 'PM: Saving platform NVS memory.*',
'emsg': 'Disabling non-boot CPUs .*' },
}
t0 = -1.0
cpu_start = -1.0
prevktime = -1.0
actions = dict()
for line in data.dmesgtext:
# -- preprocessing --
# parse each dmesg line into the time and message
m = re.match('[ \t]*(\[ *)(?P<ktime>[0-9\.]*)(\]) (?P<msg>.*)', line)
if(m):
val = m.group('ktime')
try:
ktime = float(val)
except:
doWarning('INVALID DMESG LINE: '+\
line.replace('\n', ''), 'dmesg')
continue
msg = m.group('msg')
# initialize data start to first line time
if t0 < 0:
data.setStart(ktime)
t0 = ktime
else:
continue
# hack for determining resume_machine end for freeze
if(not sysvals.usetraceevents and sysvals.suspendmode == 'freeze' \
and phase == 'resume_machine' and \
re.match('calling (?P<f>.*)\+ @ .*, parent: .*', msg)):
data.dmesg['resume_machine']['end'] = ktime
phase = 'resume_noirq'
data.dmesg[phase]['start'] = ktime
# -- phase changes --
# suspend start
if(re.match(dm['suspend_prepare'], msg)):
phase = 'suspend_prepare'
data.dmesg[phase]['start'] = ktime
data.setStart(ktime)
# suspend start
elif(re.match(dm['suspend'], msg)):
data.dmesg['suspend_prepare']['end'] = ktime
phase = 'suspend'
data.dmesg[phase]['start'] = ktime
# suspend_late start
elif(re.match(dm['suspend_late'], msg)):
data.dmesg['suspend']['end'] = ktime
phase = 'suspend_late'
data.dmesg[phase]['start'] = ktime
# suspend_noirq start
elif(re.match(dm['suspend_noirq'], msg)):
data.dmesg['suspend_late']['end'] = ktime
phase = 'suspend_noirq'
data.dmesg[phase]['start'] = ktime
# suspend_machine start
elif(re.match(dm['suspend_machine'], msg)):
data.dmesg['suspend_noirq']['end'] = ktime
phase = 'suspend_machine'
data.dmesg[phase]['start'] = ktime
# resume_machine start
elif(re.match(dm['resume_machine'], msg)):
if(sysvals.suspendmode in ['freeze', 'standby']):
data.tSuspended = prevktime
data.dmesg['suspend_machine']['end'] = prevktime
else:
data.tSuspended = ktime
data.dmesg['suspend_machine']['end'] = ktime
phase = 'resume_machine'
data.tResumed = ktime
data.tLow = data.tResumed - data.tSuspended
data.dmesg[phase]['start'] = ktime
# resume_noirq start
elif(re.match(dm['resume_noirq'], msg)):
data.dmesg['resume_machine']['end'] = ktime
phase = 'resume_noirq'
data.dmesg[phase]['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 start
elif(re.match(dm['resume'], msg)):
data.dmesg['resume_early']['end'] = ktime
phase = 'resume'
data.dmesg[phase]['start'] = ktime
# resume complete start
elif(re.match(dm['resume_complete'], msg)):
data.dmesg['resume']['end'] = ktime
phase = 'resume_complete'
data.dmesg[phase]['start'] = ktime
# post resume start
elif(re.match(dm['post_resume'], msg)):
data.dmesg['resume_complete']['end'] = ktime
data.setEnd(ktime)
phase = 'post_resume'
break
# -- device callbacks --
if(phase in data.phases):
# device init call
if(re.match('calling (?P<f>.*)\+ @ .*, parent: .*', msg)):
sm = re.match('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('call (?P<f>.*)\+ returned .* after '+\
'(?P<t>.*) usecs', msg)):
sm = re.match('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
# -- non-devicecallback actions --
# if trace events are not available, these are better than nothing
if(not sysvals.usetraceevents):
# look for known actions
for a in at:
if(re.match(at[a]['smsg'], msg)):
if(a not in actions):
actions[a] = []
actions[a].append({'begin': ktime, 'end': ktime})
if(re.match(at[a]['emsg'], msg)):
if(a in actions):
actions[a][-1]['end'] = ktime
# now look for CPU on/off events
if(re.match('Disabling non-boot CPUs .*', msg)):
# start of first cpu suspend
cpu_start = ktime
elif(re.match('Enabling non-boot CPUs .*', msg)):
# start of first cpu resume
cpu_start = ktime
elif(re.match('smpboot: CPU (?P<cpu>[0-9]*) is now offline', msg)):
# end of a cpu suspend, start of the next
m = re.match('smpboot: CPU (?P<cpu>[0-9]*) is now offline', msg)
cpu = 'CPU'+m.group('cpu')
if(cpu not in actions):
actions[cpu] = []
actions[cpu].append({'begin': cpu_start, 'end': ktime})
cpu_start = ktime
elif(re.match('CPU(?P<cpu>[0-9]*) is up', msg)):
# end of a cpu resume, start of the next
m = re.match('CPU(?P<cpu>[0-9]*) is up', msg)
cpu = 'CPU'+m.group('cpu')
if(cpu not in actions):
actions[cpu] = []
actions[cpu].append({'begin': cpu_start, 'end': ktime})
cpu_start = ktime
prevktime = ktime
# fill in any missing phases
lp = data.phases[0]
for p in data.phases:
if(data.dmesg[p]['start'] < 0 and data.dmesg[p]['end'] < 0):
print('WARNING: phase "%s" is missing, something went wrong!' % p)
print(' In %s, this dmesg line denotes the start of %s:' % \
(sysvals.suspendmode, p))
print(' "%s"' % dm[p])
if(data.dmesg[p]['start'] < 0):
data.dmesg[p]['start'] = data.dmesg[lp]['end']
if(p == 'resume_machine'):
data.tSuspended = data.dmesg[lp]['end']
data.tResumed = data.dmesg[lp]['end']
data.tLow = 0
if(data.dmesg[p]['end'] < 0):
data.dmesg[p]['end'] = data.dmesg[p]['start']
lp = p
# fill in any actions we've found
for name in actions:
for event in actions[name]:
data.newActionGlobal(name, event['begin'], event['end'])
if(sysvals.verbose):
data.printDetails()
if(len(sysvals.devicefilter) > 0):
data.deviceFilter(sysvals.devicefilter)
data.fixupInitcallsThatDidntReturn()
return True
# Function: createHTMLSummarySimple
# Description:
# Create summary html file for a series of tests
# Arguments:
# testruns: array of Data objects from parseTraceLog
def createHTMLSummarySimple(testruns, htmlfile):
global sysvals
# print out the basic summary of all the tests
hf = open(htmlfile, 'w')
# write the html header first (html head, css code, up to body start)
html = '<!DOCTYPE html>\n<html>\n<head>\n\
<meta http-equiv="content-type" content="text/html; charset=UTF-8">\n\
<title>AnalyzeSuspend Summary</title>\n\
<style type=\'text/css\'>\n\
body {overflow-y: scroll;}\n\
.stamp {width: 100%;text-align:center;background-color:#495E09;line-height:30px;color:white;font: 25px Arial;}\n\
table {width:100%;border-collapse: collapse;}\n\
.summary {font: 22px Arial;border:1px solid;}\n\
th {border: 1px solid black;background-color:#A7C942;color:white;}\n\
td {text-align: center;}\n\
tr.alt td {background-color:#EAF2D3;}\n\
tr.avg td {background-color:#BDE34C;}\n\
a:link {color: #90B521;}\n\
a:visited {color: #495E09;}\n\
a:hover {color: #B1DF28;}\n\
a:active {color: #FFFFFF;}\n\
</style>\n</head>\n<body>\n'
# group test header
count = len(testruns)
headline_stamp = '<div class="stamp">{0} {1} {2} {3} ({4} tests)</div>\n'
html += headline_stamp.format(sysvals.stamp['host'],
sysvals.stamp['kernel'], sysvals.stamp['mode'],
sysvals.stamp['time'], count)
# check to see if all the tests have the same value
stampcolumns = False
for data in testruns:
if diffStamp(sysvals.stamp, data.stamp):
stampcolumns = True
break
th = '\t<th>{0}</th>\n'
td = '\t<td>{0}</td>\n'
tdlink = '\t<td><a href="{0}">Click Here</a></td>\n'
# table header
html += '<table class="summary">\n<tr>\n'
html += th.format("Test #")
if stampcolumns:
html += th.format("Hostname")
html += th.format("Kernel Version")
html += th.format("Suspend Mode")
html += th.format("Test Time")
html += th.format("Suspend Time")
html += th.format("Resume Time")
html += th.format("Detail")
html += '</tr>\n'
# test data, 1 row per test
sTimeAvg = 0.0
rTimeAvg = 0.0
num = 1
for data in testruns:
# data.end is the end of post_resume
resumeEnd = data.dmesg['resume_complete']['end']
if num % 2 == 1:
html += '<tr class="alt">\n'
else:
html += '<tr>\n'
# test num
html += td.format("test %d" % num)
num += 1
if stampcolumns:
# host name
val = "unknown"
if('host' in data.stamp):
val = data.stamp['host']
html += td.format(val)
# host kernel
val = "unknown"
if('kernel' in data.stamp):
val = data.stamp['kernel']
html += td.format(val)
# suspend mode
val = "unknown"
if('mode' in data.stamp):
val = data.stamp['mode']
html += td.format(val)
# test time
val = "unknown"
if('time' in data.stamp):
val = data.stamp['time']
html += td.format(val)
# suspend time
sTime = (data.tSuspended - data.start)*1000
sTimeAvg += sTime
html += td.format("%3.3f ms" % sTime)
# resume time
rTime = (resumeEnd - data.tResumed)*1000
rTimeAvg += rTime
html += td.format("%3.3f ms" % rTime)
# link to the output html
html += tdlink.format(data.outfile)
html += '</tr>\n'
# last line: test average
if(count > 0):
sTimeAvg /= count
rTimeAvg /= count
html += '<tr class="avg">\n'
html += td.format('Average') # name
if stampcolumns:
html += td.format('') # host
html += td.format('') # kernel
html += td.format('') # mode
html += td.format('') # time
html += td.format("%3.3f ms" % sTimeAvg) # suspend time
html += td.format("%3.3f ms" % rTimeAvg) # resume time
html += td.format('') # output link
html += '</tr>\n'
# flush the data to file
hf.write(html+'</table>\n')
hf.write('</body>\n</html>\n')
hf.close()
def htmlTitle():
global sysvals
modename = {
'freeze': 'Freeze (S0)',
'standby': 'Standby (S1)',
'mem': 'Suspend (S3)',
'disk': 'Hibernate (S4)'
}
kernel = sysvals.stamp['kernel']
host = sysvals.hostname[0].upper()+sysvals.hostname[1:]
mode = sysvals.suspendmode
if sysvals.suspendmode in modename:
mode = modename[sysvals.suspendmode]
return host+' '+mode+' '+kernel
def ordinal(value):
suffix = 'th'
if value < 10 or value > 19:
if value % 10 == 1:
suffix = 'st'
elif value % 10 == 2:
suffix = 'nd'
elif value % 10 == 3:
suffix = 'rd'
return '%d%s' % (value, suffix)
# Function: createHTML
# Description:
# Create the output html file from the resident test data
# Arguments:
# testruns: array of Data objects from parseKernelLog or parseTraceLog
# Output:
# True if the html file was created, false if it failed
def createHTML(testruns):
global sysvals
if len(testruns) < 1:
print('ERROR: Not enough test data to build a timeline')
return
for data in testruns:
data.normalizeTime(testruns[-1].tSuspended)
x2changes = ['', 'absolute']
if len(testruns) > 1:
x2changes = ['1', 'relative']
# html function templates
headline_version = '<div class="version"><a href="https://01.org/suspendresume">AnalyzeSuspend v%s</a></div>' % sysvals.version
headline_stamp = '<div class="stamp">{0} {1} {2} {3}</div>\n'
html_devlist1 = '<button id="devlist1" class="devlist" style="float:left;">Device Detail%s</button>' % x2changes[0]
html_zoombox = '<center><button id="zoomin">ZOOM IN +</button><button id="zoomout">ZOOM OUT -</button><button id="zoomdef">ZOOM 1:1</button></center>\n'
html_devlist2 = '<button id="devlist2" class="devlist" style="float:right;">Device Detail2</button>\n'
html_timeline = '<div id="dmesgzoombox" class="zoombox">\n<div id="{0}" class="timeline" style="height:{1}px">\n'
html_tblock = '<div id="block{0}" class="tblock" style="left:{1}%;width:{2}%;"><div class="tback" style="height:{3}px"></div>\n'
html_device = '<div id="{0}" title="{1}" class="thread{7}" style="left:{2}%;top:{3}px;height:{4}px;width:{5}%;{8}">{6}</div>\n'
html_traceevent = '<div title="{0}" class="traceevent{6}" style="left:{1}%;top:{2}px;height:{3}px;width:{4}%;line-height:{3}px;{7}">{5}</div>\n'
html_cpuexec = '<div class="jiffie" style="left:{0}%;top:{1}px;height:{2}px;width:{3}%;background:{4};"></div>\n'
html_phase = '<div class="phase" style="left:{0}%;width:{1}%;top:{2}px;height:{3}px;background-color:{4}">{5}</div>\n'
html_phaselet = '<div id="{0}" class="phaselet" style="left:{1}%;width:{2}%;background:{3}"></div>\n'
html_legend = '<div id="p{3}" class="square" style="left:{0}%;background-color:{1}"> {2}</div>\n'
html_timetotal = '<table class="time1">\n<tr>'\
'<td class="green" title="{3}">{2} Suspend Time: <b>{0} ms</b></td>'\
'<td class="yellow" title="{4}">{2} Resume Time: <b>{1} ms</b></td>'\
'</tr>\n</table>\n'
html_timetotal2 = '<table class="time1">\n<tr>'\
'<td class="green" title="{4}">{3} Suspend Time: <b>{0} ms</b></td>'\
'<td class="gray" title="time spent in low-power mode with clock running">'+sysvals.suspendmode+' time: <b>{1} ms</b></td>'\
'<td class="yellow" title="{5}">{3} Resume Time: <b>{2} ms</b></td>'\
'</tr>\n</table>\n'
html_timetotal3 = '<table class="time1">\n<tr>'\
'<td class="green">Execution Time: <b>{0} ms</b></td>'\
'<td class="yellow">Command: <b>{1}</b></td>'\
'</tr>\n</table>\n'
html_timegroups = '<table class="time2">\n<tr>'\
'<td class="green" title="time from kernel enter_state({5}) to firmware mode [kernel time only]">{4}Kernel Suspend: {0} ms</td>'\
'<td class="purple">{4}Firmware Suspend: {1} ms</td>'\
'<td class="purple">{4}Firmware Resume: {2} ms</td>'\
'<td class="yellow" title="time from firmware mode to return from kernel enter_state({5}) [kernel time only]">{4}Kernel Resume: {3} ms</td>'\
'</tr>\n</table>\n'
# html format variables
hoverZ = 'z-index:8;'
if sysvals.usedevsrc:
hoverZ = ''
# device timeline
vprint('Creating Device Timeline...')
devtl = Timeline(30)
# Generate the header for this timeline
for data in testruns:
tTotal = data.end - data.start
sktime = (data.dmesg['suspend_machine']['end'] - \
data.tKernSus) * 1000
rktime = (data.dmesg['resume_complete']['end'] - \
data.dmesg['resume_machine']['start']) * 1000
if(tTotal == 0):
print('ERROR: No timeline data')
sys.exit()
if(data.tLow > 0):
low_time = '%.0f'%(data.tLow*1000)
if sysvals.suspendmode == 'command':
run_time = '%.0f'%((data.end-data.start)*1000)
if sysvals.testcommand:
testdesc = sysvals.testcommand
else:
testdesc = 'unknown'
if(len(testruns) > 1):
testdesc = ordinal(data.testnumber+1)+' '+testdesc
thtml = html_timetotal3.format(run_time, testdesc)
devtl.html['header'] += thtml
elif data.fwValid:
suspend_time = '%.0f'%(sktime + (data.fwSuspend/1000000.0))
resume_time = '%.0f'%(rktime + (data.fwResume/1000000.0))
testdesc1 = 'Total'
testdesc2 = ''
stitle = 'time from kernel enter_state(%s) to low-power mode [kernel & firmware time]' % sysvals.suspendmode
rtitle = 'time from low-power mode to return from kernel enter_state(%s) [firmware & kernel time]' % sysvals.suspendmode
if(len(testruns) > 1):
testdesc1 = testdesc2 = ordinal(data.testnumber+1)
testdesc2 += ' '
if(data.tLow == 0):
thtml = html_timetotal.format(suspend_time, \
resume_time, testdesc1, stitle, rtitle)
else:
thtml = html_timetotal2.format(suspend_time, low_time, \
resume_time, testdesc1, stitle, rtitle)
devtl.html['header'] += thtml
sftime = '%.3f'%(data.fwSuspend / 1000000.0)
rftime = '%.3f'%(data.fwResume / 1000000.0)
devtl.html['header'] += html_timegroups.format('%.3f'%sktime, \
sftime, rftime, '%.3f'%rktime, testdesc2, sysvals.suspendmode)
else:
suspend_time = '%.3f' % sktime
resume_time = '%.3f' % rktime
testdesc = 'Kernel'
stitle = 'time from kernel enter_state(%s) to firmware mode [kernel time only]' % sysvals.suspendmode
rtitle = 'time from firmware mode to return from kernel enter_state(%s) [kernel time only]' % sysvals.suspendmode
if(len(testruns) > 1):
testdesc = ordinal(data.testnumber+1)+' '+testdesc
if(data.tLow == 0):
thtml = html_timetotal.format(suspend_time, \
resume_time, testdesc, stitle, rtitle)
else:
thtml = html_timetotal2.format(suspend_time, low_time, \
resume_time, testdesc, stitle, rtitle)
devtl.html['header'] += thtml
# time scale for potentially multiple datasets
t0 = testruns[0].start
tMax = testruns[-1].end
tSuspended = testruns[-1].tSuspended
tTotal = tMax - t0
# determine the maximum number of rows we need to draw
fulllist = []
threadlist = []
pscnt = 0
devcnt = 0
for data in testruns:
data.selectTimelineDevices('%f', tTotal, sysvals.mindevlen)
for group in data.devicegroups:
devlist = []
for phase in group:
for devname in data.tdevlist[phase]:
d = DevItem(data.testnumber, phase, data.dmesg[phase]['list'][devname])
devlist.append(d)
if d.isa('kth'):
threadlist.append(d)
else:
if d.isa('ps'):
pscnt += 1
else:
devcnt += 1
fulllist.append(d)
if sysvals.mixedphaseheight:
devtl.getPhaseRows(devlist)
if not sysvals.mixedphaseheight:
if len(threadlist) > 0 and len(fulllist) > 0:
if pscnt > 0 and devcnt > 0:
msg = 'user processes & device pm callbacks'
elif pscnt > 0:
msg = 'user processes'
else:
msg = 'device pm callbacks'
d = testruns[0].addHorizontalDivider(msg, testruns[-1].end)
fulllist.insert(0, d)
devtl.getPhaseRows(fulllist)
if len(threadlist) > 0:
d = testruns[0].addHorizontalDivider('asynchronous kernel threads', testruns[-1].end)
threadlist.insert(0, d)
devtl.getPhaseRows(threadlist, devtl.rows)
devtl.calcTotalRows()
# create bounding box, add buttons
if sysvals.suspendmode != 'command':
devtl.html['timeline'] += html_devlist1
if len(testruns) > 1:
devtl.html['timeline'] += html_devlist2
devtl.html['timeline'] += html_zoombox
devtl.html['timeline'] += html_timeline.format('dmesg', devtl.height)
# draw the full timeline
phases = {'suspend':[],'resume':[]}
for phase in data.dmesg:
if 'resume' in phase:
phases['resume'].append(phase)
else:
phases['suspend'].append(phase)
# draw each test run chronologically
for data in testruns:
# now draw the actual timeline blocks
for dir in phases:
# draw suspend and resume blocks separately
bname = '%s%d' % (dir[0], data.testnumber)
if dir == 'suspend':
m0 = testruns[data.testnumber].start
mMax = testruns[data.testnumber].tSuspended
mTotal = mMax - m0
left = '%f' % (((m0-t0)*100.0)/tTotal)
else:
m0 = testruns[data.testnumber].tSuspended
mMax = testruns[data.testnumber].end
# in an x2 run, remove any gap between blocks
if len(testruns) > 1 and data.testnumber == 0:
mMax = testruns[1].start
mTotal = mMax - m0
left = '%f' % ((((m0-t0)*100.0)+sysvals.srgap/2)/tTotal)
# if a timeline block is 0 length, skip altogether
if mTotal == 0:
continue
width = '%f' % (((mTotal*100.0)-sysvals.srgap/2)/tTotal)
devtl.html['timeline'] += html_tblock.format(bname, left, width, devtl.scaleH)
for b in sorted(phases[dir]):
# draw the phase color background
phase = data.dmesg[b]
length = phase['end']-phase['start']
left = '%f' % (((phase['start']-m0)*100.0)/mTotal)
width = '%f' % ((length*100.0)/mTotal)
devtl.html['timeline'] += html_phase.format(left, width, \
'%.3f'%devtl.scaleH, '%.3f'%devtl.bodyH, \
data.dmesg[b]['color'], '')
for b in sorted(phases[dir]):
# draw the devices for this phase
phaselist = data.dmesg[b]['list']
for d in data.tdevlist[b]:
name = d
drv = ''
dev = phaselist[d]
xtraclass = ''
xtrainfo = ''
xtrastyle = ''
if 'htmlclass' in dev:
xtraclass = dev['htmlclass']
if 'color' in dev:
xtrastyle = 'background-color:%s;' % dev['color']
if(d in sysvals.devprops):
name = sysvals.devprops[d].altName(d)
xtraclass = sysvals.devprops[d].xtraClass()
xtrainfo = sysvals.devprops[d].xtraInfo()
elif xtraclass == ' kth':
xtrainfo = ' kernel_thread'
if('drv' in dev and dev['drv']):
drv = ' {%s}' % dev['drv']
rowheight = devtl.phaseRowHeight(data.testnumber, b, dev['row'])
rowtop = devtl.phaseRowTop(data.testnumber, b, dev['row'])
top = '%.3f' % (rowtop + devtl.scaleH)
left = '%f' % (((dev['start']-m0)*100)/mTotal)
width = '%f' % (((dev['end']-dev['start'])*100)/mTotal)
length = ' (%0.3f ms) ' % ((dev['end']-dev['start'])*1000)
title = name+drv+xtrainfo+length
if sysvals.suspendmode == 'command':
title += sysvals.testcommand
elif xtraclass == ' ps':
if 'suspend' in b:
title += 'pre_suspend_process'
else:
title += 'post_resume_process'
else:
title += b
devtl.html['timeline'] += html_device.format(dev['id'], \
title, left, top, '%.3f'%rowheight, width, \
d+drv, xtraclass, xtrastyle)
if('cpuexec' in dev):
for t in sorted(dev['cpuexec']):
start, end = t
j = float(dev['cpuexec'][t]) / 5
if j > 1.0:
j = 1.0
height = '%.3f' % (rowheight/3)
top = '%.3f' % (rowtop + devtl.scaleH + 2*rowheight/3)
left = '%f' % (((start-m0)*100)/mTotal)
width = '%f' % ((end-start)*100/mTotal)
color = 'rgba(255, 0, 0, %f)' % j
devtl.html['timeline'] += \
html_cpuexec.format(left, top, height, width, color)
if('src' not in dev):
continue
# draw any trace events for this device
for e in dev['src']:
height = '%.3f' % devtl.rowH
top = '%.3f' % (rowtop + devtl.scaleH + (e.row*devtl.rowH))
left = '%f' % (((e.time-m0)*100)/mTotal)
width = '%f' % (e.length*100/mTotal)
xtrastyle = ''
if e.color:
xtrastyle = 'background:%s;' % e.color
devtl.html['timeline'] += \
html_traceevent.format(e.title(), \
left, top, height, width, e.text(), '', xtrastyle)
# draw the time scale, try to make the number of labels readable
devtl.html['timeline'] += devtl.createTimeScale(m0, mMax, tTotal, dir)
devtl.html['timeline'] += '</div>\n'
# timeline is finished
devtl.html['timeline'] += '</div>\n</div>\n'
# draw a legend which describes the phases by color
if sysvals.suspendmode != 'command':
data = testruns[-1]
devtl.html['legend'] = '<div class="legend">\n'
pdelta = 100.0/len(data.phases)
pmargin = pdelta / 4.0
for phase in data.phases:
tmp = phase.split('_')
id = tmp[0][0]
if(len(tmp) > 1):
id += tmp[1][0]
order = '%.2f' % ((data.dmesg[phase]['order'] * pdelta) + pmargin)
name = string.replace(phase, '_', ' ')
devtl.html['legend'] += html_legend.format(order, \
data.dmesg[phase]['color'], name, id)
devtl.html['legend'] += '</div>\n'
hf = open(sysvals.htmlfile, 'w')
if not sysvals.cgexp:
cgchk = 'checked'
cgnchk = 'not(:checked)'
else:
cgchk = 'not(:checked)'
cgnchk = 'checked'
# write the html header first (html head, css code, up to body start)
html_header = '<!DOCTYPE html>\n<html>\n<head>\n\
<meta http-equiv="content-type" content="text/html; charset=UTF-8">\n\
<title>'+htmlTitle()+'</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\
t0 {color:black;font:bold 30px Times;}\n\
t1 {color:black;font:30px Times;}\n\
t2 {color:black;font:25px Times;}\n\
t3 {color:black;font:20px Times;white-space:nowrap;}\n\
t4 {color:black;font:bold 30px Times;line-height:60px;white-space:nowrap;}\n\
cS {color:blue;font:bold 11px Times;}\n\
cR {color:red;font:bold 11px 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\
r {color:#500000;font:15px Tahoma;}\n\
n {color:#505050;font:15px Tahoma;}\n\
.tdhl {color:red;}\n\
.hide {display:none;}\n\
.pf {display:none;}\n\
.pf:'+cgchk+' + 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:'+cgnchk+' ~ 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:'+cgchk+' ~ *:not(:nth-child(2)) {display:none;}\n\
.zoombox {position:relative;width:100%;overflow-x:scroll;-webkit-user-select:none;-moz-user-select:none;user-select:none;}\n\
.timeline {position:relative;font-size:14px;cursor:pointer;width:100%; overflow:hidden;background:linear-gradient(#cccccc, white);}\n\
.thread {position:absolute;height:0%;overflow:hidden;z-index:7;line-height:30px;font-size:14px;border:1px solid;text-align:center;white-space:nowrap;}\n\
.thread.ps {border-radius:3px;background:linear-gradient(to top, #ccc, #eee);}\n\
.thread:hover {background-color:white;border:1px solid red;'+hoverZ+'}\n\
.thread.sec,.thread.sec:hover {background-color:black;border:0;color:white;line-height:15px;font-size:10px;}\n\
.hover {background-color:white;border:1px solid red;'+hoverZ+'}\n\
.hover.sync {background-color:white;}\n\
.hover.bg,.hover.kth,.hover.sync,.hover.ps {background-color:white;}\n\
.jiffie {position:absolute;pointer-events: none;z-index:8;}\n\
.traceevent {position:absolute;font-size:10px;z-index:7;overflow:hidden;color:black;text-align:center;white-space:nowrap;border-radius:5px;border:1px solid black;background:linear-gradient(to bottom right,#CCC,#969696);}\n\
.traceevent:hover {color:white;font-weight:bold;border:1px solid white;}\n\
.phase {position:absolute;overflow:hidden;border:0px;text-align:center;}\n\
.phaselet {position:absolute;overflow:hidden;border:0px;text-align:center;height:100px;font-size:24px;}\n\
.t {position:absolute;pointer-events:none;top:0%;height:100%;border-right:1px solid black;z-index:6;}\n\
.legend {position:relative; width:100%; height:40px; text-align:center;margin-bottom:20px}\n\
.legend .square {position:absolute;cursor:pointer;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\
.logbtn {position:relative;float:right;height:25px;width:50px;margin-top:3px;margin-bottom:0;font-size:10px;text-align:center;}\n\
.devlist {position:'+x2changes[1]+';width:190px;}\n\
a:link {color:white;text-decoration:none;}\n\
a:visited {color:white;}\n\
a:hover {color:white;}\n\
a:active {color:white;}\n\
.version {position:relative;float:left;color:white;font-size:10px;line-height:30px;margin-left:10px;}\n\
#devicedetail {height:100px;box-shadow:5px 5px 20px black;}\n\
.tblock {position:absolute;height:100%;background-color:#ddd;}\n\
.tback {position:absolute;width:100%;background:linear-gradient(#ccc, #ddd);}\n\
.bg {z-index:1;}\n\
</style>\n</head>\n<body>\n'
# no header or css if its embedded
if(sysvals.embedded):
hf.write('pass True tSus %.3f tRes %.3f tLow %.3f fwvalid %s tSus %.3f tRes %.3f\n' %
(data.tSuspended-data.start, data.end-data.tSuspended, data.tLow, data.fwValid, \
data.fwSuspend/1000000, data.fwResume/1000000))
else:
hf.write(html_header)
# write the test title and general info header
if(sysvals.stamp['time'] != ""):
hf.write(headline_version)
if sysvals.addlogs and sysvals.dmesgfile:
hf.write('<button id="showdmesg" class="logbtn">dmesg</button>')
if sysvals.addlogs and sysvals.ftracefile:
hf.write('<button id="showftrace" class="logbtn">ftrace</button>')
hf.write(headline_stamp.format(sysvals.stamp['host'],
sysvals.stamp['kernel'], sysvals.stamp['mode'], \
sysvals.stamp['time']))
# write the device timeline
hf.write(devtl.html['header'])
hf.write(devtl.html['timeline'])
hf.write(devtl.html['legend'])
hf.write('<div id="devicedetailtitle"></div>\n')
hf.write('<div id="devicedetail" style="display:none;">\n')
# draw the colored boxes for the device detail section
for data in testruns:
hf.write('<div id="devicedetail%d">\n' % data.testnumber)
pscolor = 'linear-gradient(to top left, #ccc, #eee)'
hf.write(html_phaselet.format('pre_suspend_process', \
'0', '0', pscolor))
for b in data.phases:
phase = data.dmesg[b]
length = phase['end']-phase['start']
left = '%.3f' % (((phase['start']-t0)*100.0)/tTotal)
width = '%.3f' % ((length*100.0)/tTotal)
hf.write(html_phaselet.format(b, left, width, \
data.dmesg[b]['color']))
hf.write(html_phaselet.format('post_resume_process', \
'0', '0', pscolor))
if sysvals.suspendmode == 'command':
hf.write(html_phaselet.format('cmdexec', '0', '0', pscolor))
hf.write('</div>\n')
hf.write('</div>\n')
# write the ftrace data (callgraph)
data = testruns[-1]
if(sysvals.usecallgraph and not sysvals.embedded):
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
devid = list[devname]['id']
cg = list[devname]['ftrace']
clen = (cg.end - cg.start) * 1000
if clen < sysvals.mincglen:
continue
fmt = '<r>(%.3f ms @ '+sysvals.timeformat+' to '+sysvals.timeformat+')</r>'
flen = fmt % (clen, cg.start, cg.end)
name = devname
if(devname in sysvals.devprops):
name = sysvals.devprops[devname].altName(devname)
if sysvals.suspendmode == 'command':
ftitle = name
else:
ftitle = name+' '+p
hf.write(html_func_top.format(devid, data.dmesg[p]['color'], \
num, ftitle, flen))
num += 1
for line in cg.list:
if(line.length < 0.000000001):
flen = ''
else:
fmt = '<n>(%.3f ms @ '+sysvals.timeformat+')</n>'
flen = fmt % (line.length*1000, line.time)
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')
# add the dmesg log as a hidden div
if sysvals.addlogs and sysvals.dmesgfile:
hf.write('<div id="dmesglog" style="display:none;">\n')
lf = open(sysvals.dmesgfile, 'r')
for line in lf:
hf.write(line)
lf.close()
hf.write('</div>\n')
# add the ftrace log as a hidden div
if sysvals.addlogs and sysvals.ftracefile:
hf.write('<div id="ftracelog" style="display:none;">\n')
lf = open(sysvals.ftracefile, 'r')
for line in lf:
hf.write(line)
lf.close()
hf.write('</div>\n')
if(not sysvals.embedded):
# write the footer and close
addScriptCode(hf, testruns)
hf.write('</body>\n</html>\n')
else:
# embedded out will be loaded in a page, skip the js
t0 = (testruns[0].start - testruns[-1].tSuspended) * 1000
tMax = (testruns[-1].end - testruns[-1].tSuspended) * 1000
# add js code in a div entry for later evaluation
detail = 'var bounds = [%f,%f];\n' % (t0, tMax)
detail += 'var devtable = [\n'
for data in testruns:
topo = data.deviceTopology()
detail += '\t"%s",\n' % (topo)
detail += '];\n'
hf.write('<div id=customcode style=display:none>\n'+detail+'</div>\n')
hf.close()
return True
# Function: addScriptCode
# Description:
# Adds the javascript code to the output html
# Arguments:
# hf: the open html file pointer
# testruns: array of Data objects from parseKernelLog or parseTraceLog
def addScriptCode(hf, testruns):
t0 = testruns[0].start * 1000
tMax = testruns[-1].end * 1000
# create an array in javascript memory with the device details
detail = ' var devtable = [];\n'
for data in testruns:
topo = data.deviceTopology()
detail += ' devtable[%d] = "%s";\n' % (data.testnumber, topo)
detail += ' var bounds = [%f,%f];\n' % (t0, tMax)
# add the code which will manipulate the data in the browser
script_code = \
'<script type="text/javascript">\n'+detail+\
' var resolution = -1;\n'\
' var dragval = [0, 0];\n'\
' function redrawTimescale(t0, tMax, tS) {\n'\
' var rline = \'<div class="t" style="left:0;border-left:1px solid black;border-right:0;"><cR><-R</cR></div>\';\n'\
' var tTotal = tMax - t0;\n'\
' var list = document.getElementsByClassName("tblock");\n'\
' for (var i = 0; i < list.length; i++) {\n'\
' var timescale = list[i].getElementsByClassName("timescale")[0];\n'\
' var m0 = t0 + (tTotal*parseFloat(list[i].style.left)/100);\n'\
' var mTotal = tTotal*parseFloat(list[i].style.width)/100;\n'\
' var mMax = m0 + mTotal;\n'\
' var html = "";\n'\
' var divTotal = Math.floor(mTotal/tS) + 1;\n'\
' if(divTotal > 1000) continue;\n'\
' var divEdge = (mTotal - tS*(divTotal-1))*100/mTotal;\n'\
' var pos = 0.0, val = 0.0;\n'\
' for (var j = 0; j < divTotal; j++) {\n'\
' var htmlline = "";\n'\
' if(list[i].id[5] == "r") {\n'\
' pos = 100 - (((j)*tS*100)/mTotal);\n'\
' val = (j)*tS;\n'\
' htmlline = \'<div class="t" style="right:\'+pos+\'%">\'+val+\'ms</div>\';\n'\
' if(j == 0)\n'\
' htmlline = rline;\n'\
' } else {\n'\
' pos = 100 - (((j)*tS*100)/mTotal) - divEdge;\n'\
' val = (j-divTotal+1)*tS;\n'\
' if(j == divTotal - 1)\n'\
' htmlline = \'<div class="t" style="right:\'+pos+\'%"><cS>S-></cS></div>\';\n'\
' else\n'\
' htmlline = \'<div class="t" style="right:\'+pos+\'%">\'+val+\'ms</div>\';\n'\
' }\n'\
' html += htmlline;\n'\
' }\n'\
' timescale.innerHTML = html;\n'\
' }\n'\
' }\n'\
' function zoomTimeline() {\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 > 910034) newval = 910034;\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 tS = [10000, 5000, 2000, 1000, 500, 200, 100, 50, 20, 10, 5, 2, 1];\n'\
' var t0 = bounds[0];\n'\
' var tMax = bounds[1];\n'\
' var tTotal = tMax - t0;\n'\
' var wTotal = tTotal * 100.0 / newval;\n'\
' var idx = 7*window.innerWidth/1100;\n'\
' for(var i = 0; (i < tS.length)&&((wTotal / tS[i]) < idx); i++);\n'\
' if(i >= tS.length) i = tS.length - 1;\n'\
' if(tS[i] == resolution) return;\n'\
' resolution = tS[i];\n'\
' redrawTimescale(t0, tMax, tS[i]);\n'\
' }\n'\
' function deviceName(title) {\n'\
' var name = title.slice(0, title.indexOf(" ("));\n'\
' return name;\n'\
' }\n'\
' function deviceHover() {\n'\
' var name = deviceName(this.title);\n'\
' var dmesg = document.getElementById("dmesg");\n'\
' var dev = dmesg.getElementsByClassName("thread");\n'\
' var cpu = -1;\n'\
' if(name.match("CPU_ON\[[0-9]*\]"))\n'\
' cpu = parseInt(name.slice(7));\n'\
' else if(name.match("CPU_OFF\[[0-9]*\]"))\n'\
' cpu = parseInt(name.slice(8));\n'\
' for (var i = 0; i < dev.length; i++) {\n'\
' dname = deviceName(dev[i].title);\n'\
' var cname = dev[i].className.slice(dev[i].className.indexOf("thread"));\n'\
' if((cpu >= 0 && dname.match("CPU_O[NF]*\\\[*"+cpu+"\\\]")) ||\n'\
' (name == dname))\n'\
' {\n'\
' dev[i].className = "hover "+cname;\n'\
' } else {\n'\
' dev[i].className = cname;\n'\
' }\n'\
' }\n'\
' }\n'\
' function deviceUnhover() {\n'\
' var dmesg = document.getElementById("dmesg");\n'\
' var dev = dmesg.getElementsByClassName("thread");\n'\
' for (var i = 0; i < dev.length; i++) {\n'\
' dev[i].className = dev[i].className.slice(dev[i].className.indexOf("thread"));\n'\
' }\n'\
' }\n'\
' function deviceTitle(title, total, cpu) {\n'\
' var prefix = "Total";\n'\
' if(total.length > 3) {\n'\
' prefix = "Average";\n'\
' total[1] = (total[1]+total[3])/2;\n'\
' total[2] = (total[2]+total[4])/2;\n'\
' }\n'\
' var devtitle = document.getElementById("devicedetailtitle");\n'\
' var name = deviceName(title);\n'\
' if(cpu >= 0) name = "CPU"+cpu;\n'\
' var driver = "";\n'\
' var tS = "<t2>(</t2>";\n'\
' var tR = "<t2>)</t2>";\n'\
' if(total[1] > 0)\n'\
' tS = "<t2>("+prefix+" Suspend:</t2><t0> "+total[1].toFixed(3)+" ms</t0> ";\n'\
' if(total[2] > 0)\n'\
' tR = " <t2>"+prefix+" Resume:</t2><t0> "+total[2].toFixed(3)+" ms<t2>)</t2></t0>";\n'\
' var s = title.indexOf("{");\n'\
' var e = title.indexOf("}");\n'\
' if((s >= 0) && (e >= 0))\n'\
' driver = title.slice(s+1, e) + " <t1>@</t1> ";\n'\
' if(total[1] > 0 && total[2] > 0)\n'\
' devtitle.innerHTML = "<t0>"+driver+name+"</t0> "+tS+tR;\n'\
' else\n'\
' devtitle.innerHTML = "<t0>"+title+"</t0>";\n'\
' return name;\n'\
' }\n'\
' function deviceDetail() {\n'\
' var devinfo = document.getElementById("devicedetail");\n'\
' devinfo.style.display = "block";\n'\
' var name = deviceName(this.title);\n'\
' var cpu = -1;\n'\
' if(name.match("CPU_ON\[[0-9]*\]"))\n'\
' cpu = parseInt(name.slice(7));\n'\
' else if(name.match("CPU_OFF\[[0-9]*\]"))\n'\
' cpu = parseInt(name.slice(8));\n'\
' var dmesg = document.getElementById("dmesg");\n'\
' var dev = dmesg.getElementsByClassName("thread");\n'\
' var idlist = [];\n'\
' var pdata = [[]];\n'\
' if(document.getElementById("devicedetail1"))\n'\
' pdata = [[], []];\n'\
' var pd = pdata[0];\n'\
' var total = [0.0, 0.0, 0.0];\n'\
' for (var i = 0; i < dev.length; i++) {\n'\
' dname = deviceName(dev[i].title);\n'\
' if((cpu >= 0 && dname.match("CPU_O[NF]*\\\[*"+cpu+"\\\]")) ||\n'\
' (name == dname))\n'\
' {\n'\
' idlist[idlist.length] = dev[i].id;\n'\
' var tidx = 1;\n'\
' if(dev[i].id[0] == "a") {\n'\
' pd = pdata[0];\n'\
' } else {\n'\
' if(pdata.length == 1) pdata[1] = [];\n'\
' if(total.length == 3) total[3]=total[4]=0.0;\n'\
' pd = pdata[1];\n'\
' tidx = 3;\n'\
' }\n'\
' var info = dev[i].title.split(" ");\n'\
' var pname = info[info.length-1];\n'\
' pd[pname] = parseFloat(info[info.length-3].slice(1));\n'\
' total[0] += pd[pname];\n'\
' if(pname.indexOf("suspend") >= 0)\n'\
' total[tidx] += pd[pname];\n'\
' else\n'\
' total[tidx+1] += pd[pname];\n'\
' }\n'\
' }\n'\
' var devname = deviceTitle(this.title, total, cpu);\n'\
' var left = 0.0;\n'\
' for (var t = 0; t < pdata.length; t++) {\n'\
' pd = pdata[t];\n'\
' devinfo = document.getElementById("devicedetail"+t);\n'\
' var phases = devinfo.getElementsByClassName("phaselet");\n'\
' for (var i = 0; i < phases.length; i++) {\n'\
' if(phases[i].id in pd) {\n'\
' var w = 100.0*pd[phases[i].id]/total[0];\n'\
' var fs = 32;\n'\
' if(w < 8) fs = 4*w | 0;\n'\
' var fs2 = fs*3/4;\n'\
' phases[i].style.width = w+"%";\n'\
' phases[i].style.left = left+"%";\n'\
' phases[i].title = phases[i].id+" "+pd[phases[i].id]+" ms";\n'\
' left += w;\n'\
' var time = "<t4 style=\\"font-size:"+fs+"px\\">"+pd[phases[i].id]+" ms<br></t4>";\n'\
' var pname = "<t3 style=\\"font-size:"+fs2+"px\\">"+phases[i].id.replace(new RegExp("_", "g"), " ")+"</t3>";\n'\
' phases[i].innerHTML = time+pname;\n'\
' } else {\n'\
' phases[i].style.width = "0%";\n'\
' phases[i].style.left = left+"%";\n'\
' }\n'\
' }\n'\
' }\n'\
' var cglist = document.getElementById("callgraphs");\n'\
' if(!cglist) return;\n'\
' var cg = cglist.getElementsByClassName("atop");\n'\
' if(cg.length < 10) return;\n'\
' for (var i = 0; i < cg.length; i++) {\n'\
' if(idlist.indexOf(cg[i].id) >= 0) {\n'\
' cg[i].style.display = "block";\n'\
' } else {\n'\
' cg[i].style.display = "none";\n'\
' }\n'\
' }\n'\
' }\n'\
' function devListWindow(e) {\n'\
' var sx = e.clientX;\n'\
' if(sx > window.innerWidth - 440)\n'\
' sx = window.innerWidth - 440;\n'\
' var cfg="top="+e.screenY+", left="+sx+", width=440, height=720, scrollbars=yes";\n'\
' var win = window.open("", "_blank", cfg);\n'\
' if(window.chrome) win.moveBy(sx, 0);\n'\
' var html = "<title>"+e.target.innerHTML+"</title>"+\n'\
' "<style type=\\"text/css\\">"+\n'\
' " ul {list-style-type:circle;padding-left:10px;margin-left:10px;}"+\n'\
' "</style>"\n'\
' var dt = devtable[0];\n'\
' if(e.target.id != "devlist1")\n'\
' dt = devtable[1];\n'\
' win.document.write(html+dt);\n'\
' }\n'\
' function logWindow(e) {\n'\
' var name = e.target.id.slice(4);\n'\
' var win = window.open();\n'\
' var log = document.getElementById(name+"log");\n'\
' var title = "<title>"+document.title.split(" ")[0]+" "+name+" log</title>";\n'\
' win.document.write(title+"<pre>"+log.innerHTML+"</pre>");\n'\
' win.document.close();\n'\
' }\n'\
' function onClickPhase(e) {\n'\
' }\n'\
' function onMouseDown(e) {\n'\
' dragval[0] = e.clientX;\n'\
' dragval[1] = document.getElementById("dmesgzoombox").scrollLeft;\n'\
' document.onmousemove = onMouseMove;\n'\
' }\n'\
' function onMouseMove(e) {\n'\
' var zoombox = document.getElementById("dmesgzoombox");\n'\
' zoombox.scrollLeft = dragval[1] + dragval[0] - e.clientX;\n'\
' }\n'\
' function onMouseUp(e) {\n'\
' document.onmousemove = null;\n'\
' }\n'\
' function onKeyPress(e) {\n'\
' var c = e.charCode;\n'\
' if(c != 42 && c != 43 && c != 45) return;\n'\
' var click = document.createEvent("Events");\n'\
' click.initEvent("click", true, false);\n'\
' if(c == 43) \n'\
' document.getElementById("zoomin").dispatchEvent(click);\n'\
' else if(c == 45)\n'\
' document.getElementById("zoomout").dispatchEvent(click);\n'\
' else if(c == 42)\n'\
' document.getElementById("zoomdef").dispatchEvent(click);\n'\
' }\n'\
' window.addEventListener("resize", function () {zoomTimeline();});\n'\
' window.addEventListener("load", function () {\n'\
' var dmesg = document.getElementById("dmesg");\n'\
' dmesg.style.width = "100%"\n'\
' document.onmousedown = onMouseDown;\n'\
' document.onmouseup = onMouseUp;\n'\
' document.onkeypress = onKeyPress;\n'\
' document.getElementById("zoomin").onclick = zoomTimeline;\n'\
' document.getElementById("zoomout").onclick = zoomTimeline;\n'\
' document.getElementById("zoomdef").onclick = zoomTimeline;\n'\
' var list = document.getElementsByClassName("square");\n'\
' for (var i = 0; i < list.length; i++)\n'\
' list[i].onclick = onClickPhase;\n'\
' var list = document.getElementsByClassName("logbtn");\n'\
' for (var i = 0; i < list.length; i++)\n'\
' list[i].onclick = logWindow;\n'\
' list = document.getElementsByClassName("devlist");\n'\
' for (var i = 0; i < list.length; i++)\n'\
' list[i].onclick = devListWindow;\n'\
' var dev = dmesg.getElementsByClassName("thread");\n'\
' for (var i = 0; i < dev.length; i++) {\n'\
' dev[i].onclick = deviceDetail;\n'\
' dev[i].onmouseover = deviceHover;\n'\
' dev[i].onmouseout = deviceUnhover;\n'\
' }\n'\
' zoomTimeline();\n'\
' });\n'\
'</script>\n'
hf.write(script_code);
# Function: executeSuspend
# Description:
# Execute system suspend through the sysfs interface, then copy the output
# dmesg and ftrace files to the test output directory.
def executeSuspend():
global sysvals
pm = ProcessMonitor()
tp = sysvals.tpath
fwdata = []
# mark the start point in the kernel ring buffer just as we start
sysvals.initdmesg()
# start ftrace
if(sysvals.usecallgraph or sysvals.usetraceevents):
print('START TRACING')
sysvals.fsetVal('1', 'tracing_on')
if sysvals.useprocmon:
pm.start()
# execute however many s/r runs requested
for count in range(1,sysvals.execcount+1):
# x2delay in between test runs
if(count > 1 and sysvals.x2delay > 0):
time.sleep(sysvals.x2delay/1000.0)
# start message
if sysvals.testcommand != '':
print('COMMAND START')
else:
if(sysvals.rtcwake):
print('SUSPEND START')
else:
print('SUSPEND START (press a key to resume)')
# set rtcwake
if(sysvals.rtcwake):
print('will issue an rtcwake in %d seconds' % sysvals.rtcwaketime)
sysvals.rtcWakeAlarmOn()
# start of suspend trace marker
if(sysvals.usecallgraph or sysvals.usetraceevents):
sysvals.fsetVal('SUSPEND START', 'trace_marker')
# predelay delay
if(count == 1 and sysvals.predelay > 0):
time.sleep(sysvals.predelay/1000.0)
# initiate suspend or command
if sysvals.testcommand != '':
call(sysvals.testcommand+' 2>&1', shell=True);
else:
pf = open(sysvals.powerfile, 'w')
pf.write(sysvals.suspendmode)
# execution will pause here
try:
pf.close()
except:
pass
if(sysvals.rtcwake):
sysvals.rtcWakeAlarmOff()
# postdelay delay
if(count == sysvals.execcount and sysvals.postdelay > 0):
time.sleep(sysvals.postdelay/1000.0)
# return from suspend
print('RESUME COMPLETE')
if(sysvals.usecallgraph or sysvals.usetraceevents):
sysvals.fsetVal('RESUME COMPLETE', 'trace_marker')
if(sysvals.suspendmode == 'mem' or sysvals.suspendmode == 'command'):
fwdata.append(getFPDT(False))
# stop ftrace
if(sysvals.usecallgraph or sysvals.usetraceevents):
if sysvals.useprocmon:
pm.stop()
sysvals.fsetVal('0', 'tracing_on')
print('CAPTURING TRACE')
writeDatafileHeader(sysvals.ftracefile, fwdata)
call('cat '+tp+'trace >> '+sysvals.ftracefile, shell=True)
sysvals.fsetVal('', 'trace')
devProps()
# grab a copy of the dmesg output
print('CAPTURING DMESG')
writeDatafileHeader(sysvals.dmesgfile, fwdata)
sysvals.getdmesg()
def writeDatafileHeader(filename, fwdata):
global sysvals
fp = open(filename, 'a')
fp.write(sysvals.teststamp+'\n')
if(sysvals.suspendmode == 'mem' or sysvals.suspendmode == 'command'):
for fw in fwdata:
if(fw):
fp.write('# fwsuspend %u fwresume %u\n' % (fw[0], fw[1]))
fp.close()
# Function: setUSBDevicesAuto
# Description:
# Set the autosuspend control parameter of all USB devices to auto
# This can be dangerous, so use at your own risk, most devices are set
# to always-on since the kernel cant determine if the device can
# properly autosuspend
def setUSBDevicesAuto():
global sysvals
rootCheck(True)
for dirname, dirnames, filenames in os.walk('/sys/devices'):
if(re.match('.*/usb[0-9]*.*', dirname) and
'idVendor' in filenames and 'idProduct' in filenames):
call('echo auto > %s/power/control' % dirname, shell=True)
name = dirname.split('/')[-1]
desc = Popen(['cat', '%s/product' % dirname],
stderr=PIPE, stdout=PIPE).stdout.read().replace('\n', '')
ctrl = Popen(['cat', '%s/power/control' % dirname],
stderr=PIPE, stdout=PIPE).stdout.read().replace('\n', '')
print('control is %s for %6s: %s' % (ctrl, name, desc))
# Function: yesno
# Description:
# Print out an equivalent Y or N for a set of known parameter values
# Output:
# 'Y', 'N', or ' ' if the value is unknown
def yesno(val):
yesvals = ['auto', 'enabled', 'active', '1']
novals = ['on', 'disabled', 'suspended', 'forbidden', 'unsupported']
if val in yesvals:
return 'Y'
elif val in novals:
return 'N'
return ' '
# Function: ms2nice
# Description:
# Print out a very concise time string in minutes and seconds
# Output:
# The time string, e.g. "1901m16s"
def ms2nice(val):
ms = 0
try:
ms = int(val)
except:
return 0.0
m = ms / 60000
s = (ms / 1000) - (m * 60)
return '%3dm%2ds' % (m, s)
# Function: detectUSB
# Description:
# Detect all the USB hosts and devices currently connected and add
# a list of USB device names to sysvals for better timeline readability
def detectUSB():
global sysvals
field = {'idVendor':'', 'idProduct':'', 'product':'', 'speed':''}
power = {'async':'', 'autosuspend':'', 'autosuspend_delay_ms':'',
'control':'', 'persist':'', 'runtime_enabled':'',
'runtime_status':'', 'runtime_usage':'',
'runtime_active_time':'',
'runtime_suspended_time':'',
'active_duration':'',
'connected_duration':''}
print('LEGEND')
print('---------------------------------------------------------------------------------------------')
print(' A = async/sync PM queue Y/N D = autosuspend delay (seconds)')
print(' S = autosuspend Y/N rACTIVE = runtime active (min/sec)')
print(' P = persist across suspend Y/N rSUSPEN = runtime suspend (min/sec)')
print(' E = runtime suspend enabled/forbidden Y/N ACTIVE = active duration (min/sec)')
print(' R = runtime status active/suspended Y/N CONNECT = connected duration (min/sec)')
print(' U = runtime usage count')
print('---------------------------------------------------------------------------------------------')
print(' NAME ID DESCRIPTION SPEED A S P E R U D rACTIVE rSUSPEN ACTIVE CONNECT')
print('---------------------------------------------------------------------------------------------')
for dirname, dirnames, filenames in os.walk('/sys/devices'):
if(re.match('.*/usb[0-9]*.*', dirname) and
'idVendor' in filenames and 'idProduct' in filenames):
for i in field:
field[i] = Popen(['cat', '%s/%s' % (dirname, i)],
stderr=PIPE, stdout=PIPE).stdout.read().replace('\n', '')
name = dirname.split('/')[-1]
for i in power:
power[i] = Popen(['cat', '%s/power/%s' % (dirname, i)],
stderr=PIPE, stdout=PIPE).stdout.read().replace('\n', '')
if(re.match('usb[0-9]*', name)):
first = '%-8s' % name
else:
first = '%8s' % name
print('%s [%s:%s] %-20s %-4s %1s %1s %1s %1s %1s %1s %1s %s %s %s %s' % \
(first, field['idVendor'], field['idProduct'], \
field['product'][0:20], field['speed'], \
yesno(power['async']), \
yesno(power['control']), \
yesno(power['persist']), \
yesno(power['runtime_enabled']), \
yesno(power['runtime_status']), \
power['runtime_usage'], \
power['autosuspend'], \
ms2nice(power['runtime_active_time']), \
ms2nice(power['runtime_suspended_time']), \
ms2nice(power['active_duration']), \
ms2nice(power['connected_duration'])))
# Function: devProps
# Description:
# Retrieve a list of properties for all devices in the trace log
def devProps(data=0):
global sysvals
props = dict()
if data:
idx = data.index(': ') + 2
if idx >= len(data):
return
devlist = data[idx:].split(';')
for dev in devlist:
f = dev.split(',')
if len(f) < 3:
continue
dev = f[0]
props[dev] = DevProps()
props[dev].altname = f[1]
if int(f[2]):
props[dev].async = True
else:
props[dev].async = False
sysvals.devprops = props
if sysvals.suspendmode == 'command' and 'testcommandstring' in props:
sysvals.testcommand = props['testcommandstring'].altname
return
if(os.path.exists(sysvals.ftracefile) == False):
doError('%s does not exist' % sysvals.ftracefile, False)
# first get the list of devices we need properties for
msghead = 'Additional data added by AnalyzeSuspend'
alreadystamped = False
tp = TestProps()
tf = open(sysvals.ftracefile, 'r')
for line in tf:
if msghead in line:
alreadystamped = True
continue
# determine the trace data type (required for further parsing)
m = re.match(sysvals.tracertypefmt, line)
if(m):
tp.setTracerType(m.group('t'))
continue
# parse only valid lines, if this is not one move on
m = re.match(tp.ftrace_line_fmt, line)
if(not m or 'device_pm_callback_start' not in line):
continue
m = re.match('.*: (?P<drv>.*) (?P<d>.*), parent: *(?P<p>.*), .*', m.group('msg'));
if(not m):
continue
drv, dev, par = m.group('drv'), m.group('d'), m.group('p')
if dev not in props:
props[dev] = DevProps()
tf.close()
if not alreadystamped and sysvals.suspendmode == 'command':
out = '#\n# '+msghead+'\n# Device Properties: '
out += 'testcommandstring,%s,0;' % (sysvals.testcommand)
with open(sysvals.ftracefile, 'a') as fp:
fp.write(out+'\n')
sysvals.devprops = props
return
# now get the syspath for each of our target devices
for dirname, dirnames, filenames in os.walk('/sys/devices'):
if(re.match('.*/power', dirname) and 'async' in filenames):
dev = dirname.split('/')[-2]
if dev in props and (not props[dev].syspath or len(dirname) < len(props[dev].syspath)):
props[dev].syspath = dirname[:-6]
# now fill in the properties for our target devices
for dev in props:
dirname = props[dev].syspath
if not dirname or not os.path.exists(dirname):
continue
with open(dirname+'/power/async') as fp:
text = fp.read()
props[dev].async = False
if 'enabled' in text:
props[dev].async = True
fields = os.listdir(dirname)
if 'product' in fields:
with open(dirname+'/product') as fp:
props[dev].altname = fp.read()
elif 'name' in fields:
with open(dirname+'/name') as fp:
props[dev].altname = fp.read()
elif 'model' in fields:
with open(dirname+'/model') as fp:
props[dev].altname = fp.read()
elif 'description' in fields:
with open(dirname+'/description') as fp:
props[dev].altname = fp.read()
elif 'id' in fields:
with open(dirname+'/id') as fp:
props[dev].altname = fp.read()
elif 'idVendor' in fields and 'idProduct' in fields:
idv, idp = '', ''
with open(dirname+'/idVendor') as fp:
idv = fp.read().strip()
with open(dirname+'/idProduct') as fp:
idp = fp.read().strip()
props[dev].altname = '%s:%s' % (idv, idp)
if props[dev].altname:
out = props[dev].altname.strip().replace('\n', ' ')
out = out.replace(',', ' ')
out = out.replace(';', ' ')
props[dev].altname = out
# and now write the data to the ftrace file
if not alreadystamped:
out = '#\n# '+msghead+'\n# Device Properties: '
for dev in sorted(props):
out += props[dev].out(dev)
with open(sysvals.ftracefile, 'a') as fp:
fp.write(out+'\n')
sysvals.devprops = props
# Function: getModes
# Description:
# Determine the supported power modes on this system
# Output:
# A string list of the available modes
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: getFPDT
# Description:
# Read the acpi bios tables and pull out FPDT, the firmware data
# Arguments:
# output: True to output the info to stdout, False otherwise
def getFPDT(output):
global sysvals
rectype = {}
rectype[0] = 'Firmware Basic Boot Performance Record'
rectype[1] = 'S3 Performance Table Record'
prectype = {}
prectype[0] = 'Basic S3 Resume Performance Record'
prectype[1] = 'Basic S3 Suspend Performance Record'
rootCheck(True)
if(not os.path.exists(sysvals.fpdtpath)):
if(output):
doError('file does not exist: %s' % sysvals.fpdtpath, False)
return False
if(not os.access(sysvals.fpdtpath, os.R_OK)):
if(output):
doError('file is not readable: %s' % sysvals.fpdtpath, False)
return False
if(not os.path.exists(sysvals.mempath)):
if(output):
doError('file does not exist: %s' % sysvals.mempath, False)
return False
if(not os.access(sysvals.mempath, os.R_OK)):
if(output):
doError('file is not readable: %s' % sysvals.mempath, False)
return False
fp = open(sysvals.fpdtpath, 'rb')
buf = fp.read()
fp.close()
if(len(buf) < 36):
if(output):
doError('Invalid FPDT table data, should '+\
'be at least 36 bytes', False)
return False
table = struct.unpack('4sIBB6s8sI4sI', buf[0:36])
if(output):
print('')
print('Firmware Performance Data Table (%s)' % table[0])
print(' Signature : %s' % table[0])
print(' Table Length : %u' % table[1])
print(' Revision : %u' % table[2])
print(' Checksum : 0x%x' % table[3])
print(' OEM ID : %s' % table[4])
print(' OEM Table ID : %s' % table[5])
print(' OEM Revision : %u' % table[6])
print(' Creator ID : %s' % table[7])
print(' Creator Revision : 0x%x' % table[8])
print('')
if(table[0] != 'FPDT'):
if(output):
doError('Invalid FPDT table')
return False
if(len(buf) <= 36):
return False
i = 0
fwData = [0, 0]
records = buf[36:]
fp = open(sysvals.mempath, 'rb')
while(i < len(records)):
header = struct.unpack('HBB', records[i:i+4])
if(header[0] not in rectype):
i += header[1]
continue
if(header[1] != 16):
i += header[1]
continue
addr = struct.unpack('Q', records[i+8:i+16])[0]
try:
fp.seek(addr)
first = fp.read(8)
except:
if(output):
print('Bad address 0x%x in %s' % (addr, sysvals.mempath))
return [0, 0]
rechead = struct.unpack('4sI', first)
recdata = fp.read(rechead[1]-8)
if(rechead[0] == 'FBPT'):
record = struct.unpack('HBBIQQQQQ', recdata)
if(output):
print('%s (%s)' % (rectype[header[0]], rechead[0]))
print(' Reset END : %u ns' % record[4])
print(' OS Loader LoadImage Start : %u ns' % record[5])
print(' OS Loader StartImage Start : %u ns' % record[6])
print(' ExitBootServices Entry : %u ns' % record[7])
print(' ExitBootServices Exit : %u ns' % record[8])
elif(rechead[0] == 'S3PT'):
if(output):
print('%s (%s)' % (rectype[header[0]], rechead[0]))
j = 0
while(j < len(recdata)):
prechead = struct.unpack('HBB', recdata[j:j+4])
if(prechead[0] not in prectype):
continue
if(prechead[0] == 0):
record = struct.unpack('IIQQ', recdata[j:j+prechead[1]])
fwData[1] = record[2]
if(output):
print(' %s' % prectype[prechead[0]])
print(' Resume Count : %u' % \
record[1])
print(' FullResume : %u ns' % \
record[2])
print(' AverageResume : %u ns' % \
record[3])
elif(prechead[0] == 1):
record = struct.unpack('QQ', recdata[j+4:j+prechead[1]])
fwData[0] = record[1] - record[0]
if(output):
print(' %s' % prectype[prechead[0]])
print(' SuspendStart : %u ns' % \
record[0])
print(' SuspendEnd : %u ns' % \
record[1])
print(' SuspendTime : %u ns' % \
fwData[0])
j += prechead[1]
if(output):
print('')
i += header[1]
fp.close()
return fwData
# Function: statusCheck
# Description:
# Verify that the requested command and options will work, and
# print the results to the terminal
# Output:
# True if the test will work, False if not
def statusCheck(probecheck=False):
global sysvals
status = True
print('Checking this system (%s)...' % platform.node())
# check we have root access
res = sysvals.colorText('NO (No features of this tool will work!)')
if(rootCheck(False)):
res = 'YES'
print(' have root access: %s' % res)
if(res != 'YES'):
print(' Try running this script with sudo')
return False
# check sysfs is mounted
res = sysvals.colorText('NO (No features of this tool will work!)')
if(os.path.exists(sysvals.powerfile)):
res = 'YES'
print(' is sysfs mounted: %s' % res)
if(res != 'YES'):
return False
# check target mode is a valid mode
if sysvals.suspendmode != 'command':
res = sysvals.colorText('NO')
modes = getModes()
if(sysvals.suspendmode in modes):
res = 'YES'
else:
status = False
print(' is "%s" a valid power mode: %s' % (sysvals.suspendmode, res))
if(res == 'NO'):
print(' valid power modes are: %s' % modes)
print(' please choose one with -m')
# check if ftrace is available
res = sysvals.colorText('NO')
ftgood = sysvals.verifyFtrace()
if(ftgood):
res = 'YES'
elif(sysvals.usecallgraph):
status = False
print(' is ftrace supported: %s' % res)
# check if kprobes are available
res = sysvals.colorText('NO')
sysvals.usekprobes = sysvals.verifyKprobes()
if(sysvals.usekprobes):
res = 'YES'
else:
sysvals.usedevsrc = False
print(' are kprobes supported: %s' % res)
# what data source are we using
res = 'DMESG'
if(ftgood):
sysvals.usetraceeventsonly = True
sysvals.usetraceevents = False
for e in sysvals.traceevents:
check = False
if(os.path.exists(sysvals.epath+e)):
check = True
if(not check):
sysvals.usetraceeventsonly = False
if(e == 'suspend_resume' and check):
sysvals.usetraceevents = True
if(sysvals.usetraceevents and sysvals.usetraceeventsonly):
res = 'FTRACE (all trace events found)'
elif(sysvals.usetraceevents):
res = 'DMESG and FTRACE (suspend_resume trace event found)'
print(' timeline data source: %s' % res)
# check if rtcwake
res = sysvals.colorText('NO')
if(sysvals.rtcpath != ''):
res = 'YES'
elif(sysvals.rtcwake):
status = False
print(' is rtcwake supported: %s' % res)
if not probecheck:
return status
# verify kprobes
if sysvals.usekprobes and len(sysvals.tracefuncs) > 0:
print(' verifying timeline kprobes work:')
for name in sorted(sysvals.tracefuncs):
res = sysvals.colorText('NO')
if sysvals.testKprobe(name, sysvals.tracefuncs[name]):
res = 'YES'
print(' %s: %s' % (name, res))
if sysvals.usedevsrc and sysvals.usekprobes and len(sysvals.dev_tracefuncs) > 0:
print(' verifying dev kprobes work:')
for name in sorted(sysvals.dev_tracefuncs):
res = sysvals.colorText('NO')
if sysvals.testKprobe(name, sysvals.dev_tracefuncs[name]):
res = 'YES'
print(' %s: %s' % (name, res))
return status
# Function: doError
# Description:
# generic error function for catastrphic failures
# Arguments:
# msg: the error message to print
# help: True if printHelp should be called after, False otherwise
def doError(msg, help):
if(help == True):
printHelp()
print('ERROR: %s\n') % msg
sys.exit()
# Function: doWarning
# Description:
# generic warning function for non-catastrophic anomalies
# Arguments:
# msg: the warning message to print
# file: If not empty, a filename to request be sent to the owner for debug
def doWarning(msg, file=''):
print('/* %s */') % msg
if(file):
print('/* For a fix, please send this'+\
' %s file to <todd.e.brandt@intel.com> */' % file)
# Function: rootCheck
# Description:
# quick check to see if we have root access
def rootCheck(fatal):
global sysvals
if(os.access(sysvals.powerfile, os.W_OK)):
return True
if fatal:
doError('This command must be run as root', False)
return False
# Function: getArgInt
# Description:
# pull out an integer argument from the command line with checks
def getArgInt(name, args, min, max, main=True):
if main:
try:
arg = args.next()
except:
doError(name+': no argument supplied', True)
else:
arg = args
try:
val = int(arg)
except:
doError(name+': non-integer value given', True)
if(val < min or val > max):
doError(name+': value should be between %d and %d' % (min, max), True)
return val
# Function: getArgFloat
# Description:
# pull out a float argument from the command line with checks
def getArgFloat(name, args, min, max, main=True):
if main:
try:
arg = args.next()
except:
doError(name+': no argument supplied', True)
else:
arg = args
try:
val = float(arg)
except:
doError(name+': non-numerical value given', True)
if(val < min or val > max):
doError(name+': value should be between %f and %f' % (min, max), True)
return val
# Function: rerunTest
# Description:
# generate an output from an existing set of ftrace/dmesg logs
def rerunTest():
global sysvals
if(sysvals.ftracefile != ''):
doesTraceLogHaveTraceEvents()
if(sysvals.dmesgfile == '' and not sysvals.usetraceeventsonly):
doError('recreating this html output '+\
'requires a dmesg file', False)
sysvals.setOutputFile()
vprint('Output file: %s' % sysvals.htmlfile)
if(os.path.exists(sysvals.htmlfile) and not os.access(sysvals.htmlfile, os.W_OK)):
doError('missing permission to write to %s' % sysvals.htmlfile, False)
print('PROCESSING DATA')
if(sysvals.usetraceeventsonly):
testruns = parseTraceLog()
else:
testruns = loadKernelLog()
for data in testruns:
parseKernelLog(data)
if(sysvals.ftracefile != ''):
appendIncompleteTraceLog(testruns)
createHTML(testruns)
# Function: runTest
# Description:
# execute a suspend/resume, gather the logs, and generate the output
def runTest(subdir, testpath=''):
global sysvals
# prepare for the test
sysvals.initFtrace()
sysvals.initTestOutput(subdir, testpath)
vprint('Output files:\n %s' % sysvals.dmesgfile)
if(sysvals.usecallgraph or
sysvals.usetraceevents or
sysvals.usetraceeventsonly):
vprint(' %s' % sysvals.ftracefile)
vprint(' %s' % sysvals.htmlfile)
# execute the test
executeSuspend()
sysvals.cleanupFtrace()
# analyze the data and create the html output
print('PROCESSING DATA')
if(sysvals.usetraceeventsonly):
# data for kernels 3.15 or newer is entirely in ftrace
testruns = parseTraceLog()
else:
# data for kernels older than 3.15 is primarily in dmesg
testruns = loadKernelLog()
for data in testruns:
parseKernelLog(data)
if(sysvals.usecallgraph or sysvals.usetraceevents):
appendIncompleteTraceLog(testruns)
createHTML(testruns)
# if running as root, change output dir owner to sudo_user
if os.path.isdir(sysvals.testdir) and os.getuid() == 0 and \
'SUDO_USER' in os.environ:
cmd = 'chown -R {0}:{0} {1} > /dev/null 2>&1'
call(cmd.format(os.environ['SUDO_USER'], sysvals.testdir), shell=True)
# Function: runSummary
# Description:
# create a summary of tests in a sub-directory
def runSummary(subdir, output):
global sysvals
# get a list of ftrace output files
files = []
for dirname, dirnames, filenames in os.walk(subdir):
for filename in filenames:
if(re.match('.*_ftrace.txt', filename)):
files.append("%s/%s" % (dirname, filename))
# process the files in order and get an array of data objects
testruns = []
for file in sorted(files):
if output:
print("Test found in %s" % os.path.dirname(file))
sysvals.ftracefile = file
sysvals.dmesgfile = file.replace('_ftrace.txt', '_dmesg.txt')
doesTraceLogHaveTraceEvents()
sysvals.usecallgraph = False
if not sysvals.usetraceeventsonly:
if(not os.path.exists(sysvals.dmesgfile)):
print("Skipping %s: not a valid test input" % file)
continue
else:
if output:
f = os.path.basename(sysvals.ftracefile)
d = os.path.basename(sysvals.dmesgfile)
print("\tInput files: %s and %s" % (f, d))
testdata = loadKernelLog()
data = testdata[0]
parseKernelLog(data)
testdata = [data]
appendIncompleteTraceLog(testdata)
else:
if output:
print("\tInput file: %s" % os.path.basename(sysvals.ftracefile))
testdata = parseTraceLog()
data = testdata[0]
data.normalizeTime(data.tSuspended)
link = file.replace(subdir+'/', '').replace('_ftrace.txt', '.html')
data.outfile = link
testruns.append(data)
createHTMLSummarySimple(testruns, subdir+'/summary.html')
# Function: checkArgBool
# Description:
# check if a boolean string value is true or false
def checkArgBool(value):
yes = ['1', 'true', 'yes', 'on']
if value.lower() in yes:
return True
return False
# Function: configFromFile
# Description:
# Configure the script via the info in a config file
def configFromFile(file):
global sysvals
Config = ConfigParser.ConfigParser()
Config.read(file)
sections = Config.sections()
overridekprobes = False
overridedevkprobes = False
if 'Settings' in sections:
for opt in Config.options('Settings'):
value = Config.get('Settings', opt).lower()
if(opt.lower() == 'verbose'):
sysvals.verbose = checkArgBool(value)
elif(opt.lower() == 'addlogs'):
sysvals.addlogs = checkArgBool(value)
elif(opt.lower() == 'dev'):
sysvals.usedevsrc = checkArgBool(value)
elif(opt.lower() == 'proc'):
sysvals.useprocmon = checkArgBool(value)
elif(opt.lower() == 'x2'):
if checkArgBool(value):
sysvals.execcount = 2
elif(opt.lower() == 'callgraph'):
sysvals.usecallgraph = checkArgBool(value)
elif(opt.lower() == 'override-timeline-functions'):
overridekprobes = checkArgBool(value)
elif(opt.lower() == 'override-dev-timeline-functions'):
overridedevkprobes = checkArgBool(value)
elif(opt.lower() == 'devicefilter'):
sysvals.setDeviceFilter(value)
elif(opt.lower() == 'expandcg'):
sysvals.cgexp = checkArgBool(value)
elif(opt.lower() == 'srgap'):
if checkArgBool(value):
sysvals.srgap = 5
elif(opt.lower() == 'mode'):
sysvals.suspendmode = value
elif(opt.lower() == 'command'):
sysvals.testcommand = value
elif(opt.lower() == 'x2delay'):
sysvals.x2delay = getArgInt('-x2delay', value, 0, 60000, False)
elif(opt.lower() == 'predelay'):
sysvals.predelay = getArgInt('-predelay', value, 0, 60000, False)
elif(opt.lower() == 'postdelay'):
sysvals.postdelay = getArgInt('-postdelay', value, 0, 60000, False)
elif(opt.lower() == 'rtcwake'):
sysvals.rtcwake = True
sysvals.rtcwaketime = getArgInt('-rtcwake', value, 0, 3600, False)
elif(opt.lower() == 'timeprec'):
sysvals.setPrecision(getArgInt('-timeprec', value, 0, 6, False))
elif(opt.lower() == 'mindev'):
sysvals.mindevlen = getArgFloat('-mindev', value, 0.0, 10000.0, False)
elif(opt.lower() == 'callloop-maxgap'):
sysvals.callloopmaxgap = getArgFloat('-callloop-maxgap', value, 0.0, 1.0, False)
elif(opt.lower() == 'callloop-maxlen'):
sysvals.callloopmaxgap = getArgFloat('-callloop-maxlen', value, 0.0, 1.0, False)
elif(opt.lower() == 'mincg'):
sysvals.mincglen = getArgFloat('-mincg', value, 0.0, 10000.0, False)
elif(opt.lower() == 'output-dir'):
sysvals.setOutputFolder(value)
if sysvals.suspendmode == 'command' and not sysvals.testcommand:
doError('No command supplied for mode "command"', False)
# compatibility errors
if sysvals.usedevsrc and sysvals.usecallgraph:
doError('-dev is not compatible with -f', False)
if sysvals.usecallgraph and sysvals.execcount > 1:
doError('-x2 is not compatible with -f', False)
if sysvals.usecallgraph and sysvals.useprocmon:
doError('-proc is not compatible with -f', False)
if overridekprobes:
sysvals.tracefuncs = dict()
if overridedevkprobes:
sysvals.dev_tracefuncs = dict()
kprobes = dict()
kprobesec = 'dev_timeline_functions_'+platform.machine()
if kprobesec in sections:
for name in Config.options(kprobesec):
text = Config.get(kprobesec, name)
kprobes[name] = (text, True)
kprobesec = 'timeline_functions_'+platform.machine()
if kprobesec in sections:
for name in Config.options(kprobesec):
if name in kprobes:
doError('Duplicate timeline function found "%s"' % (name), False)
text = Config.get(kprobesec, name)
kprobes[name] = (text, False)
for name in kprobes:
function = name
format = name
color = ''
args = dict()
text, dev = kprobes[name]
data = text.split()
i = 0
for val in data:
# bracketted strings are special formatting, read them separately
if val[0] == '[' and val[-1] == ']':
for prop in val[1:-1].split(','):
p = prop.split('=')
if p[0] == 'color':
try:
color = int(p[1], 16)
color = '#'+p[1]
except:
color = p[1]
continue
# first real arg should be the format string
if i == 0:
format = val
# all other args are actual function args
else:
d = val.split('=')
args[d[0]] = d[1]
i += 1
if not function or not format:
doError('Invalid kprobe: %s' % name, False)
for arg in re.findall('{(?P<n>[a-z,A-Z,0-9]*)}', format):
if arg not in args:
doError('Kprobe "%s" is missing argument "%s"' % (name, arg), False)
if (dev and name in sysvals.dev_tracefuncs) or (not dev and name in sysvals.tracefuncs):
doError('Duplicate timeline function found "%s"' % (name), False)
kp = {
'name': name,
'func': function,
'format': format,
sysvals.archargs: args
}
if color:
kp['color'] = color
if dev:
sysvals.dev_tracefuncs[name] = kp
else:
sysvals.tracefuncs[name] = kp
# Function: printHelp
# Description:
# print out the help text
def printHelp():
global sysvals
modes = getModes()
print('')
print('AnalyzeSuspend v%s' % sysvals.version)
print('Usage: sudo analyze_suspend.py <options>')
print('')
print('Description:')
print(' This tool is designed to assist kernel and OS developers in optimizing')
print(' their linux stack\'s suspend/resume time. Using a kernel image built')
print(' with a few extra options enabled, the tool will execute a suspend and')
print(' capture dmesg and ftrace data until resume is complete. This data is')
print(' transformed into a device timeline and an optional callgraph to give')
print(' a detailed view of which devices/subsystems are taking the most')
print(' time in suspend/resume.')
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: <hostname>_<mode>_ftrace.txt')
print('')
print('Options:')
print(' [general]')
print(' -h Print this help text')
print(' -v Print the current tool version')
print(' -config fn Pull arguments and config options from file fn')
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(' -o subdir Override the output subdirectory')
print(' -rtcwake t Use rtcwake to autoresume after <t> seconds (default: disabled)')
print(' -addlogs Add the dmesg and ftrace logs to the html output')
print(' -srgap Add a visible gap in the timeline between sus/res (default: disabled)')
print(' [advanced]')
print(' -cmd {s} Run the timeline over a custom command, e.g. "sync -d"')
print(' -proc Add usermode process info into the timeline (default: disabled)')
print(' -dev Add kernel function calls and threads to the timeline (default: disabled)')
print(' -x2 Run two suspend/resumes back to back (default: disabled)')
print(' -x2delay t Include t ms delay between multiple test runs (default: 0 ms)')
print(' -predelay t Include t ms delay before 1st suspend (default: 0 ms)')
print(' -postdelay t Include t ms delay after last resume (default: 0 ms)')
print(' -mindev ms Discard all device blocks shorter than ms milliseconds (e.g. 0.001 for us)')
print(' -multi n d Execute <n> consecutive tests at <d> seconds intervals. The outputs will')
print(' be created in a new subdirectory with a summary page.')
print(' [debug]')
print(' -f Use ftrace to create device callgraphs (default: disabled)')
print(' -expandcg pre-expand the callgraph data in the html output (default: disabled)')
print(' -flist Print the list of functions currently being captured in ftrace')
print(' -flistall Print all functions capable of being captured in ftrace')
print(' -fadd file Add functions to be graphed in the timeline from a list in a text file')
print(' -filter "d1,d2,..." Filter out all but this comma-delimited list of device names')
print(' -mincg ms Discard all callgraphs shorter than ms milliseconds (e.g. 0.001 for us)')
print(' -timeprec N Number of significant digits in timestamps (0:S, [3:ms], 6:us)')
print(' [utilities]')
print(' -fpdt Print out the contents of the ACPI Firmware Performance Data Table')
print(' -usbtopo Print out the current USB topology with power info')
print(' -usbauto Enable autosuspend for all connected USB devices')
print(' [re-analyze data from previous runs]')
print(' -ftrace ftracefile Create HTML output using ftrace input')
print(' -dmesg dmesgfile Create HTML output using dmesg (not needed for kernel >= 3.15)')
print(' -summary directory Create a summary of all test in this dir')
print('')
return True
# ----------------- MAIN --------------------
# exec start (skipped if script is loaded as library)
if __name__ == '__main__':
cmd = ''
cmdarg = ''
multitest = {'run': False, 'count': 0, 'delay': 0}
simplecmds = ['-modes', '-fpdt', '-flist', '-flistall', '-usbtopo', '-usbauto', '-status']
# loop through the command line arguments
args = iter(sys.argv[1:])
for arg in args:
if(arg == '-m'):
try:
val = args.next()
except:
doError('No mode supplied', True)
if val == 'command' and not sysvals.testcommand:
doError('No command supplied for mode "command"', True)
sysvals.suspendmode = val
elif(arg in simplecmds):
cmd = arg[1:]
elif(arg == '-h'):
printHelp()
sys.exit()
elif(arg == '-v'):
print("Version %s" % sysvals.version)
sys.exit()
elif(arg == '-x2'):
sysvals.execcount = 2
elif(arg == '-x2delay'):
sysvals.x2delay = getArgInt('-x2delay', args, 0, 60000)
elif(arg == '-predelay'):
sysvals.predelay = getArgInt('-predelay', args, 0, 60000)
elif(arg == '-postdelay'):
sysvals.postdelay = getArgInt('-postdelay', args, 0, 60000)
elif(arg == '-f'):
sysvals.usecallgraph = True
elif(arg == '-addlogs'):
sysvals.addlogs = True
elif(arg == '-verbose'):
sysvals.verbose = True
elif(arg == '-proc'):
sysvals.useprocmon = True
elif(arg == '-dev'):
sysvals.usedevsrc = True
elif(arg == '-rtcwake'):
sysvals.rtcwake = True
sysvals.rtcwaketime = getArgInt('-rtcwake', args, 0, 3600)
elif(arg == '-timeprec'):
sysvals.setPrecision(getArgInt('-timeprec', args, 0, 6))
elif(arg == '-mindev'):
sysvals.mindevlen = getArgFloat('-mindev', args, 0.0, 10000.0)
elif(arg == '-mincg'):
sysvals.mincglen = getArgFloat('-mincg', args, 0.0, 10000.0)
elif(arg == '-callloop-maxgap'):
sysvals.callloopmaxgap = getArgFloat('-callloop-maxgap', args, 0.0, 1.0)
elif(arg == '-callloop-maxlen'):
sysvals.callloopmaxlen = getArgFloat('-callloop-maxlen', args, 0.0, 1.0)
elif(arg == '-cmd'):
try:
val = args.next()
except:
doError('No command string supplied', True)
sysvals.testcommand = val
sysvals.suspendmode = 'command'
elif(arg == '-expandcg'):
sysvals.cgexp = True
elif(arg == '-srgap'):
sysvals.srgap = 5
elif(arg == '-multi'):
multitest['run'] = True
multitest['count'] = getArgInt('-multi n (exec count)', args, 2, 1000000)
multitest['delay'] = getArgInt('-multi d (delay between tests)', args, 0, 3600)
elif(arg == '-o'):
try:
val = args.next()
except:
doError('No subdirectory name supplied', True)
sysvals.setOutputFolder(val)
elif(arg == '-config'):
try:
val = args.next()
except:
doError('No text file supplied', True)
if(os.path.exists(val) == False):
doError('%s does not exist' % val, False)
configFromFile(val)
elif(arg == '-fadd'):
try:
val = args.next()
except:
doError('No text file supplied', True)
if(os.path.exists(val) == False):
doError('%s does not exist' % val, False)
sysvals.addFtraceFilterFunctions(val)
elif(arg == '-dmesg'):
try:
val = args.next()
except:
doError('No dmesg file supplied', True)
sysvals.notestrun = True
sysvals.dmesgfile = val
if(os.path.exists(sysvals.dmesgfile) == False):
doError('%s does not exist' % sysvals.dmesgfile, False)
elif(arg == '-ftrace'):
try:
val = args.next()
except:
doError('No ftrace file supplied', True)
sysvals.notestrun = True
sysvals.ftracefile = val
if(os.path.exists(sysvals.ftracefile) == False):
doError('%s does not exist' % sysvals.ftracefile, False)
elif(arg == '-summary'):
try:
val = args.next()
except:
doError('No directory supplied', True)
cmd = 'summary'
cmdarg = val
sysvals.notestrun = True
if(os.path.isdir(val) == False):
doError('%s is not accesible' % val, False)
elif(arg == '-filter'):
try:
val = args.next()
except:
doError('No devnames supplied', True)
sysvals.setDeviceFilter(val)
else:
doError('Invalid argument: '+arg, True)
# compatibility errors
if(sysvals.usecallgraph and sysvals.execcount > 1):
doError('-x2 is not compatible with -f', False)
if(sysvals.usecallgraph and sysvals.usedevsrc):
doError('-dev is not compatible with -f', False)
if(sysvals.usecallgraph and sysvals.useprocmon):
doError('-proc is not compatible with -f', False)
# callgraph size cannot exceed device size
if sysvals.mincglen < sysvals.mindevlen:
sysvals.mincglen = sysvals.mindevlen
# just run a utility command and exit
if(cmd != ''):
if(cmd == 'status'):
statusCheck(True)
elif(cmd == 'fpdt'):
getFPDT(True)
elif(cmd == 'usbtopo'):
detectUSB()
elif(cmd == 'modes'):
modes = getModes()
print modes
elif(cmd == 'flist'):
sysvals.getFtraceFilterFunctions(True)
elif(cmd == 'flistall'):
sysvals.getFtraceFilterFunctions(False)
elif(cmd == 'usbauto'):
setUSBDevicesAuto()
elif(cmd == 'summary'):
print("Generating a summary of folder \"%s\"" % cmdarg)
runSummary(cmdarg, True)
sys.exit()
# if instructed, re-analyze existing data files
if(sysvals.notestrun):
rerunTest()
sys.exit()
# verify that we can run a test
if(not statusCheck()):
print('Check FAILED, aborting the test run!')
sys.exit()
if multitest['run']:
# run multiple tests in a separate subdirectory
s = 'x%d' % multitest['count']
if not sysvals.outdir:
sysvals.outdir = datetime.now().strftime('suspend-'+s+'-%m%d%y-%H%M%S')
if not os.path.isdir(sysvals.outdir):
os.mkdir(sysvals.outdir)
for i in range(multitest['count']):
if(i != 0):
print('Waiting %d seconds...' % (multitest['delay']))
time.sleep(multitest['delay'])
print('TEST (%d/%d) START' % (i+1, multitest['count']))
runTest(sysvals.outdir)
print('TEST (%d/%d) COMPLETE' % (i+1, multitest['count']))
runSummary(sysvals.outdir, False)
else:
# run the test in the current directory
runTest('.', sysvals.outdir)
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