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|
#!/usr/bin/python2
# SPDX-License-Identifier: GPL-2.0-only
#
# Tool for analyzing suspend/resume timing
# Copyright (c) 2013, Intel Corporation.
#
# Authors:
# Todd Brandt <todd.e.brandt@linux.intel.com>
#
# Links:
# Home Page
# https://01.org/suspendresume
# Source repo
# git@github.com:01org/pm-graph
#
# 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
import signal
from datetime import datetime
import struct
import ConfigParser
import gzip
from threading import Thread
from subprocess import call, Popen, PIPE
def pprint(msg):
print(msg)
sys.stdout.flush()
# ----------------- CLASSES --------------------
# Class: SystemValues
# Description:
# A global, single-instance container used to
# store system values and test parameters
class SystemValues:
title = 'SleepGraph'
version = '5.2'
ansi = False
rs = 0
display = ''
gzip = False
sync = False
verbose = False
testlog = True
dmesglog = False
ftracelog = False
mindevlen = 0.0
mincglen = 0.0
cgphase = ''
cgtest = -1
cgskip = ''
multitest = {'run': False, 'count': 0, 'delay': 0}
max_graph_depth = 0
callloopmaxgap = 0.0001
callloopmaxlen = 0.005
bufsize = 0
cpucount = 0
memtotal = 204800
memfree = 204800
srgap = 0
cgexp = False
testdir = ''
outdir = ''
tpath = '/sys/kernel/debug/tracing/'
fpdtpath = '/sys/firmware/acpi/tables/FPDT'
epath = '/sys/kernel/debug/tracing/events/power/'
pmdpath = '/sys/power/pm_debug_messages'
traceevents = [
'suspend_resume',
'device_pm_callback_end',
'device_pm_callback_start'
]
logmsg = ''
testcommand = ''
mempath = '/dev/mem'
powerfile = '/sys/power/state'
mempowerfile = '/sys/power/mem_sleep'
diskpowerfile = '/sys/power/disk'
suspendmode = 'mem'
memmode = ''
diskmode = ''
hostname = 'localhost'
prefix = 'test'
teststamp = ''
sysstamp = ''
dmesgstart = 0.0
dmesgfile = ''
ftracefile = ''
htmlfile = 'output.html'
result = ''
rtcwake = True
rtcwaketime = 15
rtcpath = ''
devicefilter = []
cgfilter = []
stamp = 0
execcount = 1
x2delay = 0
skiphtml = False
usecallgraph = False
usetraceevents = False
usetracemarkers = True
usekprobes = True
usedevsrc = False
useprocmon = False
notestrun = False
cgdump = False
devdump = False
mixedphaseheight = True
devprops = dict()
predelay = 0
postdelay = 0
pmdebug = ''
tracefuncs = {
'sys_sync': {},
'ksys_sync': {},
'__pm_notifier_call_chain': {},
'pm_prepare_console': {},
'pm_notifier_call_chain': {},
'freeze_processes': {},
'freeze_kernel_threads': {},
'pm_restrict_gfp_mask': {},
'acpi_suspend_begin': {},
'acpi_hibernation_begin': {},
'acpi_hibernation_enter': {},
'acpi_hibernation_leave': {},
'acpi_pm_freeze': {},
'acpi_pm_thaw': {},
'hibernate_preallocate_memory': {},
'create_basic_memory_bitmaps': {},
'swsusp_write': {},
'suspend_console': {},
'acpi_pm_prepare': {},
'syscore_suspend': {},
'arch_enable_nonboot_cpus_end': {},
'syscore_resume': {},
'acpi_pm_finish': {},
'resume_console': {},
'acpi_pm_end': {},
'pm_restore_gfp_mask': {},
'thaw_processes': {},
'pm_restore_console': {},
'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'}, 'ub': 1 },
'schedule_timeout': { 'args_x86_64': {'timeout':'%di:s32'}, 'ub': 1 },
'udelay': { 'func':'__const_udelay', 'args_x86_64': {'loops':'%di:s32'}, 'ub': 1 },
'usleep_range': { 'args_x86_64': {'min':'%di:s32', 'max':'%si:s32'}, 'ub': 1 },
'mutex_lock_slowpath': { 'func':'__mutex_lock_slowpath', 'ub': 1 },
'acpi_os_stall': {'ub': 1},
# ACPI
'acpi_resume_power_resources': {},
'acpi_ps_parse_aml': {},
# filesystem
'ext4_sync_fs': {},
# 80211
'ath10k_bmi_read_memory': { 'args_x86_64': {'length':'%cx:s32'} },
'ath10k_bmi_write_memory': { 'args_x86_64': {'length':'%cx:s32'} },
'ath10k_bmi_fast_download': { 'args_x86_64': {'length':'%cx:s32'} },
'iwlagn_mac_start': {},
'iwlagn_alloc_bcast_station': {},
'iwl_trans_pcie_start_hw': {},
'iwl_trans_pcie_start_fw': {},
'iwl_run_init_ucode': {},
'iwl_load_ucode_wait_alive': {},
'iwl_alive_start': {},
'iwlagn_mac_stop': {},
'iwlagn_mac_suspend': {},
'iwlagn_mac_resume': {},
'iwlagn_mac_add_interface': {},
'iwlagn_mac_remove_interface': {},
'iwlagn_mac_change_interface': {},
'iwlagn_mac_config': {},
'iwlagn_configure_filter': {},
'iwlagn_mac_hw_scan': {},
'iwlagn_bss_info_changed': {},
'iwlagn_mac_channel_switch': {},
'iwlagn_mac_flush': {},
# ATA
'ata_eh_recover': { 'args_x86_64': {'port':'+36(%di):s32'} },
# i915
'i915_gem_resume': {},
'i915_restore_state': {},
'intel_opregion_setup': {},
'g4x_pre_enable_dp': {},
'vlv_pre_enable_dp': {},
'chv_pre_enable_dp': {},
'g4x_enable_dp': {},
'vlv_enable_dp': {},
'intel_hpd_init': {},
'intel_opregion_register': {},
'intel_dp_detect': {},
'intel_hdmi_detect': {},
'intel_opregion_init': {},
'intel_fbdev_set_suspend': {},
}
cgblacklist = []
kprobes = dict()
timeformat = '%.3f'
cmdline = '%s %s' % \
(os.path.basename(sys.argv[0]), ' '.join(sys.argv[1:]))
sudouser = ''
def __init__(self):
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
self.testdir = datetime.now().strftime('suspend-%y%m%d-%H%M%S')
if os.getuid() == 0 and 'SUDO_USER' in os.environ and \
os.environ['SUDO_USER']:
self.sudouser = os.environ['SUDO_USER']
def vprint(self, msg):
self.logmsg += msg+'\n'
if self.verbose or msg.startswith('WARNING:'):
pprint(msg)
def signalHandler(self, signum, frame):
if not self.result:
return
signame = self.signames[signum] if signum in self.signames else 'UNKNOWN'
msg = 'Signal %s caused a tool exit, line %d' % (signame, frame.f_lineno)
sysvals.outputResult({'error':msg})
sys.exit(3)
def signalHandlerInit(self):
capture = ['BUS', 'SYS', 'XCPU', 'XFSZ', 'PWR', 'HUP', 'INT', 'QUIT',
'ILL', 'ABRT', 'FPE', 'SEGV', 'TERM', 'TSTP']
self.signames = dict()
for i in capture:
s = 'SIG'+i
try:
signum = getattr(signal, s)
signal.signal(signum, self.signalHandler)
except:
continue
self.signames[signum] = s
def rootCheck(self, fatal=True):
if(os.access(self.powerfile, os.W_OK)):
return True
if fatal:
msg = 'This command requires sysfs mount and root access'
pprint('ERROR: %s\n' % msg)
self.outputResult({'error':msg})
sys.exit(1)
return False
def rootUser(self, fatal=False):
if 'USER' in os.environ and os.environ['USER'] == 'root':
return True
if fatal:
msg = 'This command must be run as root'
pprint('ERROR: %s\n' % msg)
self.outputResult({'error':msg})
sys.exit(1)
return False
def getExec(self, cmd):
dirlist = ['/sbin', '/bin', '/usr/sbin', '/usr/bin',
'/usr/local/sbin', '/usr/local/bin']
for path in dirlist:
cmdfull = os.path.join(path, cmd)
if os.path.exists(cmdfull):
return cmdfull
return ''
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'] = args['host'] = self.hostname
return value.format(**args)
def setOutputFile(self):
if self.dmesgfile != '':
m = re.match('(?P<name>.*)_dmesg\.txt.*', self.dmesgfile)
if(m):
self.htmlfile = m.group('name')+'.html'
if self.ftracefile != '':
m = re.match('(?P<name>.*)_ftrace\.txt.*', self.ftracefile)
if(m):
self.htmlfile = m.group('name')+'.html'
def systemInfo(self, info):
p = c = m = b = ''
if 'baseboard-manufacturer' in info:
m = info['baseboard-manufacturer']
elif 'system-manufacturer' in info:
m = info['system-manufacturer']
if 'baseboard-product-name' in info:
p = info['baseboard-product-name']
elif 'system-product-name' in info:
p = info['system-product-name']
if 'processor-version' in info:
c = info['processor-version']
if 'bios-version' in info:
b = info['bios-version']
self.sysstamp = '# sysinfo | man:%s | plat:%s | cpu:%s | bios:%s | numcpu:%d | memsz:%d | memfr:%d' % \
(m, p, c, b, self.cpucount, self.memtotal, self.memfree)
def printSystemInfo(self, fatal=False):
self.rootCheck(True)
out = dmidecode(self.mempath, fatal)
if len(out) < 1:
return
fmt = '%-24s: %s'
for name in sorted(out):
print fmt % (name, out[name])
print fmt % ('cpucount', ('%d' % self.cpucount))
print fmt % ('memtotal', ('%d kB' % self.memtotal))
print fmt % ('memfree', ('%d kB' % self.memfree))
def cpuInfo(self):
self.cpucount = 0
fp = open('/proc/cpuinfo', 'r')
for line in fp:
if re.match('^processor[ \t]*:[ \t]*[0-9]*', line):
self.cpucount += 1
fp.close()
fp = open('/proc/meminfo', 'r')
for line in fp:
m = re.match('^MemTotal:[ \t]*(?P<sz>[0-9]*) *kB', line)
if m:
self.memtotal = int(m.group('sz'))
m = re.match('^MemFree:[ \t]*(?P<sz>[0-9]*) *kB', line)
if m:
self.memfree = int(m.group('sz'))
fp.close()
def initTestOutput(self, name):
self.prefix = self.hostname
v = open('/proc/version', 'r').read().strip()
kver = string.split(v)[2]
fmt = name+'-%m%d%y-%H%M%S'
testtime = datetime.now().strftime(fmt)
self.teststamp = \
'# '+testtime+' '+self.prefix+' '+self.suspendmode+' '+kver
ext = ''
if self.gzip:
ext = '.gz'
self.dmesgfile = \
self.testdir+'/'+self.prefix+'_'+self.suspendmode+'_dmesg.txt'+ext
self.ftracefile = \
self.testdir+'/'+self.prefix+'_'+self.suspendmode+'_ftrace.txt'+ext
self.htmlfile = \
self.testdir+'/'+self.prefix+'_'+self.suspendmode+'.html'
if not os.path.isdir(self.testdir):
os.mkdir(self.testdir)
def getValueList(self, value):
out = []
for i in value.split(','):
if i.strip():
out.append(i.strip())
return out
def setDeviceFilter(self, value):
self.devicefilter = self.getValueList(value)
def setCallgraphFilter(self, value):
self.cgfilter = self.getValueList(value)
def setCallgraphBlacklist(self, file):
self.cgblacklist = self.listFromFile(file)
def rtcWakeAlarmOn(self):
call('echo 0 > '+self.rtcpath+'/wakealarm', shell=True)
nowtime = open(self.rtcpath+'/since_epoch', 'r').read().strip()
if nowtime:
nowtime = int(nowtime)
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, testdata):
op = self.writeDatafileHeader(sysvals.dmesgfile, testdata)
# store all new dmesg lines since initdmesg was called
fp = Popen('dmesg', stdout=PIPE).stdout
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 listFromFile(self, file):
list = []
fp = open(file)
for i in fp.read().split('\n'):
i = i.strip()
if i and i[0] != '#':
list.append(i)
fp.close()
return list
def addFtraceFilterFunctions(self, file):
for i in self.listFromFile(file):
if len(i) < 2:
continue
self.tracefuncs[i] = dict()
def getFtraceFilterFunctions(self, current):
self.rootCheck(True)
if not current:
call('cat '+self.tpath+'available_filter_functions', shell=True)
return
master = self.listFromFile(self.tpath+'available_filter_functions')
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):
master = self.listFromFile(self.tpath+'available_filter_functions')
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))
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))
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, output=False):
if len(self.kprobes) < 1:
return
if output:
pprint(' kprobe functions in this kernel:')
# first test each kprobe
rejects = []
# sort kprobes: trace, ub-dev, custom, dev
kpl = [[], [], [], []]
linesout = len(self.kprobes)
for name in sorted(self.kprobes):
res = self.colorText('YES', 32)
if not self.testKprobe(name, self.kprobes[name]):
res = self.colorText('NO')
rejects.append(name)
else:
if name in self.tracefuncs:
kpl[0].append(name)
elif name in self.dev_tracefuncs:
if 'ub' in self.dev_tracefuncs[name]:
kpl[1].append(name)
else:
kpl[3].append(name)
else:
kpl[2].append(name)
if output:
pprint(' %s: %s' % (name, res))
kplist = kpl[0] + kpl[1] + kpl[2] + kpl[3]
# remove all failed ones from the list
for name in rejects:
self.kprobes.pop(name)
# set the kprobes all at once
self.fsetVal('', 'kprobe_events')
kprobeevents = ''
for kp in kplist:
kprobeevents += self.kprobeText(kp, self.kprobes[kp])
self.fsetVal(kprobeevents, 'kprobe_events')
if output:
check = self.fgetVal('kprobe_events')
linesack = (len(check.split('\n')) - 1) / 2
pprint(' kprobe functions enabled: %d/%d' % (linesack, linesout))
self.fsetVal('1', 'events/kprobes/enable')
def testKprobe(self, kname, kprobe):
self.fsetVal('0', 'events/kprobes/enable')
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 setVal(self, val, file, mode='w'):
if not os.path.exists(file):
return False
try:
fp = open(file, mode, 0)
fp.write(val)
fp.flush()
fp.close()
except:
return False
return True
def fsetVal(self, val, path, mode='w'):
return self.setVal(val, self.tpath+path, mode)
def getVal(self, file):
res = ''
if not os.path.exists(file):
return res
try:
fp = open(file, 'r')
res = fp.read()
fp.close()
except:
pass
return res
def fgetVal(self, path):
return self.getVal(self.tpath+path)
def cleanupFtrace(self):
if(self.usecallgraph or self.usetraceevents or self.usedevsrc):
self.fsetVal('0', 'events/kprobes/enable')
self.fsetVal('', 'kprobe_events')
self.fsetVal('1024', 'buffer_size_kb')
if self.pmdebug:
self.setVal(self.pmdebug, self.pmdpath)
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):
self.printSystemInfo(False)
pprint('INITIALIZING FTRACE...')
# turn trace off
self.fsetVal('0', 'tracing_on')
self.cleanupFtrace()
# pm debug messages
pv = self.getVal(self.pmdpath)
if pv != '1':
self.setVal('1', self.pmdpath)
self.pmdebug = pv
# set the trace clock to global
self.fsetVal('global', 'trace_clock')
self.fsetVal('nop', 'current_tracer')
# set trace buffer to an appropriate value
cpus = max(1, self.cpucount)
if self.bufsize > 0:
tgtsize = self.bufsize
elif self.usecallgraph or self.usedevsrc:
bmax = (1*1024*1024) if self.suspendmode == 'disk' else (3*1024*1024)
tgtsize = min(self.memfree, bmax)
else:
tgtsize = 65536
while not self.fsetVal('%d' % (tgtsize / cpus), 'buffer_size_kb'):
# if the size failed to set, lower it and keep trying
tgtsize -= 65536
if tgtsize < 65536:
tgtsize = int(self.fgetVal('buffer_size_kb')) * cpus
break
pprint('Setting trace buffers to %d kB (%d kB per cpu)' % (tgtsize, tgtsize/cpus))
# 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('%d' % self.max_graph_depth, 'max_graph_depth')
cf = ['dpm_run_callback']
if(self.usetraceevents):
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])
pprint('INITIALIZING KPROBES...')
self.addKprobes(self.verbose)
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, color=31):
if not self.ansi:
return str
return '\x1B[%d;40m%s\x1B[m' % (color, str)
def writeDatafileHeader(self, filename, testdata):
fp = self.openlog(filename, 'w')
fp.write('%s\n%s\n# command | %s\n' % (self.teststamp, self.sysstamp, self.cmdline))
for test in testdata:
if 'fw' in test:
fw = test['fw']
if(fw):
fp.write('# fwsuspend %u fwresume %u\n' % (fw[0], fw[1]))
if 'bat' in test:
(a1, c1), (a2, c2) = test['bat']
fp.write('# battery %s %d %s %d\n' % (a1, c1, a2, c2))
if test['error'] or len(testdata) > 1:
fp.write('# enter_sleep_error %s\n' % test['error'])
return fp
def sudoUserchown(self, dir):
if os.path.exists(dir) and self.sudouser:
cmd = 'chown -R {0}:{0} {1} > /dev/null 2>&1'
call(cmd.format(self.sudouser, dir), shell=True)
def outputResult(self, testdata, num=0):
if not self.result:
return
n = ''
if num > 0:
n = '%d' % num
fp = open(self.result, 'a')
if 'error' in testdata:
fp.write('result%s: fail\n' % n)
fp.write('error%s: %s\n' % (n, testdata['error']))
else:
fp.write('result%s: pass\n' % n)
for v in ['suspend', 'resume', 'boot', 'lastinit']:
if v in testdata:
fp.write('%s%s: %.3f\n' % (v, n, testdata[v]))
for v in ['fwsuspend', 'fwresume']:
if v in testdata:
fp.write('%s%s: %.3f\n' % (v, n, testdata[v] / 1000000.0))
if 'bugurl' in testdata:
fp.write('url%s: %s\n' % (n, testdata['bugurl']))
fp.close()
self.sudoUserchown(self.result)
def configFile(self, file):
dir = os.path.dirname(os.path.realpath(__file__))
if os.path.exists(file):
return file
elif os.path.exists(dir+'/'+file):
return dir+'/'+file
elif os.path.exists(dir+'/config/'+file):
return dir+'/config/'+file
return ''
def openlog(self, filename, mode):
isgz = self.gzip
if mode == 'r':
try:
with gzip.open(filename, mode+'b') as fp:
test = fp.read(64)
isgz = True
except:
isgz = False
if isgz:
return gzip.open(filename, mode+'b')
return open(filename, mode)
sysvals = SystemValues()
switchvalues = ['enable', 'disable', 'on', 'off', 'true', 'false', '1', '0']
switchoff = ['disable', 'off', 'false', '0']
suspendmodename = {
'freeze': 'Freeze (S0)',
'standby': 'Standby (S1)',
'mem': 'Suspend (S3)',
'disk': 'Hibernate (S4)'
}
# Class: DevProps
# Description:
# Simple class which holds property values collected
# for all the devices used in the timeline.
class DevProps:
def __init__(self):
self.syspath = ''
self.altname = ''
self.async = True
self.xtraclass = ''
self.xtrainfo = ''
def out(self, dev):
return '%s,%s,%d;' % (dev, self.altname, self.async)
def debug(self, dev):
pprint('%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:
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 {
# 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 dev/ps data
# }
# }
# }
# }
#
class Data:
phasedef = {
'suspend_prepare': {'order': 0, 'color': '#CCFFCC'},
'suspend': {'order': 1, 'color': '#88FF88'},
'suspend_late': {'order': 2, 'color': '#00AA00'},
'suspend_noirq': {'order': 3, 'color': '#008888'},
'suspend_machine': {'order': 4, 'color': '#0000FF'},
'resume_machine': {'order': 5, 'color': '#FF0000'},
'resume_noirq': {'order': 6, 'color': '#FF9900'},
'resume_early': {'order': 7, 'color': '#FFCC00'},
'resume': {'order': 8, 'color': '#FFFF88'},
'resume_complete': {'order': 9, 'color': '#FFFFCC'},
}
errlist = {
'HWERROR' : '.*\[ *Hardware Error *\].*',
'FWBUG' : '.*\[ *Firmware Bug *\].*',
'BUG' : '.*BUG.*',
'ERROR' : '.*ERROR.*',
'WARNING' : '.*WARNING.*',
'IRQ' : '.*genirq: .*',
'TASKFAIL': '.*Freezing of tasks failed.*',
}
def __init__(self, num):
idchar = 'abcdefghij'
self.start = 0.0 # test start
self.end = 0.0 # test end
self.tSuspended = 0.0 # low-level suspend start
self.tResumed = 0.0 # low-level resume start
self.tKernSus = 0.0 # kernel level suspend start
self.tKernRes = 0.0 # kernel level resume end
self.fwValid = False # is firmware data available
self.fwSuspend = 0 # time spent in firmware suspend
self.fwResume = 0 # time spent in firmware resume
self.html_device_id = 0
self.stamp = 0
self.outfile = ''
self.kerror = False
self.battery = 0
self.enterfail = ''
self.currphase = ''
self.pstl = dict() # process timeline
self.testnumber = num
self.idstr = idchar[num]
self.dmesgtext = [] # dmesg text file in memory
self.dmesg = dict() # root data structure
self.errorinfo = {'suspend':[],'resume':[]}
self.tLow = [] # time spent in low-level suspends (standby/freeze)
self.devpids = []
self.devicegroups = 0
def sortedPhases(self):
return sorted(self.dmesg, key=lambda k:self.dmesg[k]['order'])
def initDevicegroups(self):
# called when phases are all finished being added
for phase in self.dmesg.keys():
if '*' in phase:
p = phase.split('*')
pnew = '%s%d' % (p[0], len(p))
self.dmesg[pnew] = self.dmesg.pop(phase)
self.devicegroups = []
for phase in self.sortedPhases():
self.devicegroups.append([phase])
def nextPhase(self, phase, offset):
order = self.dmesg[phase]['order'] + offset
for p in self.dmesg:
if self.dmesg[p]['order'] == order:
return p
return ''
def lastPhase(self):
plist = self.sortedPhases()
if len(plist) < 1:
return ''
return plist[-1]
def extractErrorInfo(self):
lf = sysvals.openlog(sysvals.dmesgfile, 'r')
i = 0
list = []
for line in lf:
i += 1
m = re.match('[ \t]*(\[ *)(?P<ktime>[0-9\.]*)(\]) (?P<msg>.*)', line)
if not m:
continue
t = float(m.group('ktime'))
if t < self.start or t > self.end:
continue
dir = 'suspend' if t < self.tSuspended else 'resume'
msg = m.group('msg')
for err in self.errlist:
if re.match(self.errlist[err], msg):
list.append((err, dir, t, i, i))
self.kerror = True
break
for e in list:
type, dir, t, idx1, idx2 = e
sysvals.vprint('kernel %s found in %s at %f' % (type, dir, t))
self.errorinfo[dir].append((type, t, idx1, idx2))
if self.kerror:
sysvals.dmesglog = True
lf.close()
def setStart(self, time):
self.start = time
def setEnd(self, time):
self.end = time
def isTraceEventOutsideDeviceCalls(self, pid, time):
for phase in self.sortedPhases():
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):
for phase in self.sortedPhases():
if 'machine' in phase:
continue
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
phases = self.sortedPhases()
tgtdev = self.sourceDevice(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(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)
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:
sysvals.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'] = []
dtf = sysvals.dev_tracefuncs
ubiquitous = False
if kprobename in dtf and 'ub' in dtf[kprobename]:
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 dtf and 'ub' in dtf[c]:
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.sortedPhases():
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.sortedPhases():
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.sortedPhases():
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.sortedPhases():
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.sortedPhases():
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.tKernSus = self.trimTimeVal(self.tKernSus, t0, dT, left)
self.tKernRes = self.trimTimeVal(self.tKernRes, t0, dT, left)
self.end = self.trimTimeVal(self.end, t0, dT, left)
for phase in self.sortedPhases():
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)
d['length'] = d['end'] - d['start']
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)
for dir in ['suspend', 'resume']:
list = []
for e in self.errorinfo[dir]:
type, tm, idx1, idx2 = e
tm = self.trimTimeVal(tm, t0, dT, left)
list.append((type, tm, idx1, idx2))
self.errorinfo[dir] = list
def trimFreezeTime(self, tZero):
# trim out any standby or freeze clock time
lp = ''
for phase in self.sortedPhases():
if 'resume_machine' in phase and 'suspend_machine' in lp:
tS, tR = self.dmesg[lp]['end'], self.dmesg[phase]['start']
tL = tR - tS
if tL > 0:
left = True if tR > tZero else False
self.trimTime(tS, tL, left)
self.tLow.append('%.0f'%(tL*1000))
lp = phase
def getTimeValues(self):
sktime = (self.tSuspended - self.tKernSus) * 1000
rktime = (self.tKernRes - self.tResumed) * 1000
return (sktime, rktime)
def setPhase(self, phase, ktime, isbegin, order=-1):
if(isbegin):
# phase start over current phase
if self.currphase:
if 'resume_machine' not in self.currphase:
sysvals.vprint('WARNING: phase %s failed to end' % self.currphase)
self.dmesg[self.currphase]['end'] = ktime
phases = self.dmesg.keys()
color = self.phasedef[phase]['color']
count = len(phases) if order < 0 else order
# create unique name for every new phase
while phase in phases:
phase += '*'
self.dmesg[phase] = {'list': dict(), 'start': -1.0, 'end': -1.0,
'row': 0, 'color': color, 'order': count}
self.dmesg[phase]['start'] = ktime
self.currphase = phase
else:
# phase end without a start
if phase not in self.currphase:
if self.currphase:
sysvals.vprint('WARNING: %s ended instead of %s, ftrace corruption?' % (phase, self.currphase))
else:
sysvals.vprint('WARNING: %s ended without a start, ftrace corruption?' % phase)
return phase
phase = self.currphase
self.dmesg[phase]['end'] = ktime
self.currphase = ''
return phase
def sortedDevices(self, phase):
list = self.dmesg[phase]['list']
slist = []
tmp = dict()
for devname in list:
dev = list[devname]
if dev['length'] == 0:
continue
tmp[dev['start']] = devname
for t in sorted(tmp):
slist.append(tmp[t])
return slist
def fixupInitcalls(self, phase):
# 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.sortedPhases():
if self.dmesg[p]['end'] > dev['start']:
dev['end'] = self.dmesg[p]['end']
break
sysvals.vprint('%s (%s): callback didnt return' % (devname, phase))
def deviceFilter(self, devicefilter):
for phase in self.sortedPhases():
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.sortedPhases():
self.fixupInitcalls(phase)
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
phases = self.sortedPhases()
targetphase = 'none'
htmlclass = ''
overlap = 0.0
myphases = []
for phase in 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:
myphases.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[phases[0]]['start']
if start <= p0start:
targetphase = phases[0]
else:
targetphase = phases[-1]
if pid == -2:
htmlclass = ' bg'
elif pid == -3:
htmlclass = ' ps'
if len(myphases) > 1:
htmlclass = ' bg'
self.phaseOverlap(myphases)
if targetphase in 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 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 maxDeviceNameSize(self, phase):
size = 0
for name in self.dmesg[phase]['list']:
if len(name) > size:
size = len(name)
return size
def printDetails(self):
sysvals.vprint('Timeline Details:')
sysvals.vprint(' test start: %f' % self.start)
sysvals.vprint('kernel suspend start: %f' % self.tKernSus)
tS = tR = False
for phase in self.sortedPhases():
devlist = self.dmesg[phase]['list']
dc, ps, pe = len(devlist), self.dmesg[phase]['start'], self.dmesg[phase]['end']
if not tS and ps >= self.tSuspended:
sysvals.vprint(' machine suspended: %f' % self.tSuspended)
tS = True
if not tR and ps >= self.tResumed:
sysvals.vprint(' machine resumed: %f' % self.tResumed)
tR = True
sysvals.vprint('%20s: %f - %f (%d devices)' % (phase, ps, pe, dc))
if sysvals.devdump:
sysvals.vprint(''.join('-' for i in range(80)))
maxname = '%d' % self.maxDeviceNameSize(phase)
fmt = '%3d) %'+maxname+'s - %f - %f'
c = 1
for name in devlist:
s = devlist[name]['start']
e = devlist[name]['end']
sysvals.vprint(fmt % (c, name, s, e))
c += 1
sysvals.vprint(''.join('-' for i in range(80)))
sysvals.vprint(' kernel resume end: %f' % self.tKernRes)
sysvals.vprint(' test end: %f' % self.end)
def deviceChildrenAllPhases(self, devname):
devlist = []
for phase in self.sortedPhases():
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.sortedPhases():
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:
sysvals.vprint('Process Execution:')
for ps in proclist:
c = self.addProcessUsageEvent(ps, tsus)
if c > 0:
sysvals.vprint('%25s (sus): %d' % (ps, c))
c = self.addProcessUsageEvent(ps, tres)
if c > 0:
sysvals.vprint('%25s (res): %d' % (ps, c))
def handleEndMarker(self, time):
dm = self.dmesg
self.setEnd(time)
self.initDevicegroups()
# give suspend_prepare an end if needed
if 'suspend_prepare' in dm and dm['suspend_prepare']['end'] < 0:
dm['suspend_prepare']['end'] = time
# assume resume machine ends at next phase start
if 'resume_machine' in dm and dm['resume_machine']['end'] < 0:
np = self.nextPhase('resume_machine', 1)
if np:
dm['resume_machine']['end'] = dm[np]['start']
# if kernel resume end not found, assume its the end marker
if self.tKernRes == 0.0:
self.tKernRes = time
# if kernel suspend start not found, assume its the end marker
if self.tKernSus == 0.0:
self.tKernSus = time
# set resume complete to end at end marker
if 'resume_complete' in dm:
dm['resume_complete']['end'] = time
def debugPrint(self):
for p in self.sortedPhases():
list = self.dmesg[p]['list']
for devname in list:
dev = list[devname]
if 'ftrace' in dev:
dev['ftrace'].debugPrint(' [%s]' % devname)
# Class: DevFunction
# Description:
# A container for kprobe function data we want in the dev timeline
class DevFunction:
def __init__(self, name, args, caller, ret, start, end, u, proc, pid, color):
self.row = 0
self.count = 1
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:
def __init__(self, t, m='', d=''):
self.length = 0.0
self.fcall = False
self.freturn = False
self.fevent = False
self.fkprobe = False
self.depth = 0
self.name = ''
self.type = ''
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 isCall(self):
return self.fcall and not self.freturn
def isReturn(self):
return self.freturn and not self.fcall
def isLeaf(self):
return self.fcall and self.freturn
def getDepth(self, str):
return len(str)/2
def debugPrint(self, info=''):
if self.isLeaf():
pprint(' -- %12.6f (depth=%02d): %s(); (%.3f us) %s' % (self.time, \
self.depth, self.name, self.length*1000000, info))
elif self.freturn:
pprint(' -- %12.6f (depth=%02d): %s} (%.3f us) %s' % (self.time, \
self.depth, self.name, self.length*1000000, info))
else:
pprint(' -- %12.6f (depth=%02d): %s() { (%.3f us) %s' % (self.time, \
self.depth, self.name, self.length*1000000, info))
def startMarker(self):
# 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:
vfname = 'missing_function_name'
def __init__(self, pid, sv):
self.id = ''
self.invalid = False
self.name = ''
self.partial = False
self.ignore = False
self.start = -1.0
self.end = -1.0
self.list = []
self.depth = 0
self.pid = pid
self.sv = sv
def addLine(self, line):
# if this is already invalid, just leave
if(self.invalid):
if(line.depth == 0 and line.freturn):
return 1
return 0
# invalidate on bad depth
if(self.depth < 0):
self.invalidate(line)
return 0
# ignore data til we return to the current depth
if self.ignore:
if line.depth > self.depth:
return 0
else:
self.list[-1].freturn = True
self.list[-1].length = line.time - self.list[-1].time
self.ignore = False
# if this is a return at self.depth, no more work is needed
if line.depth == self.depth and line.isReturn():
if line.depth == 0:
self.end = line.time
return 1
return 0
# compare current depth with this lines pre-call depth
prelinedep = line.depth
if line.isReturn():
prelinedep += 1
last = 0
lasttime = line.time
if len(self.list) > 0:
last = self.list[-1]
lasttime = last.time
if last.isLeaf():
lasttime += last.length
# handle low misalignments by inserting returns
mismatch = prelinedep - self.depth
warning = self.sv.verbose and abs(mismatch) > 1
info = []
if mismatch < 0:
idx = 0
# add return calls to get the depth down
while prelinedep < self.depth:
self.depth -= 1
if idx == 0 and last and last.isCall():
# special case, turn last call into a leaf
last.depth = self.depth
last.freturn = True
last.length = line.time - last.time
if warning:
info.append(('[make leaf]', last))
else:
vline = FTraceLine(lasttime)
vline.depth = self.depth
vline.name = self.vfname
vline.freturn = True
self.list.append(vline)
if warning:
if idx == 0:
info.append(('', last))
info.append(('[add return]', vline))
idx += 1
if warning:
info.append(('', line))
# handle high misalignments by inserting calls
elif mismatch > 0:
idx = 0
if warning:
info.append(('', last))
# add calls to get the depth up
while prelinedep > self.depth:
if idx == 0 and line.isReturn():
# special case, turn this return into a leaf
line.fcall = True
prelinedep -= 1
if warning:
info.append(('[make leaf]', line))
else:
vline = FTraceLine(lasttime)
vline.depth = self.depth
vline.name = self.vfname
vline.fcall = True
self.list.append(vline)
self.depth += 1
if not last:
self.start = vline.time
if warning:
info.append(('[add call]', vline))
idx += 1
if warning and ('[make leaf]', line) not in info:
info.append(('', line))
if warning:
pprint('WARNING: ftrace data missing, corrections made:')
for i in info:
t, obj = i
if obj:
obj.debugPrint(t)
# process the call and set the new depth
skipadd = False
md = self.sv.max_graph_depth
if line.isCall():
# ignore blacklisted/overdepth funcs
if (md and self.depth >= md - 1) or (line.name in self.sv.cgblacklist):
self.ignore = True
else:
self.depth += 1
elif line.isReturn():
self.depth -= 1
# remove blacklisted/overdepth/empty funcs that slipped through
if (last and last.isCall() and last.depth == line.depth) or \
(md and last and last.depth >= md) or \
(line.name in self.sv.cgblacklist):
while len(self.list) > 0 and self.list[-1].depth > line.depth:
self.list.pop(-1)
if len(self.list) == 0:
self.invalid = True
return 1
self.list[-1].freturn = True
self.list[-1].length = line.time - self.list[-1].time
self.list[-1].name = line.name
skipadd = True
if len(self.list) < 1:
self.start = line.time
# check for a mismatch that returned all the way to callgraph end
res = 1
if mismatch < 0 and self.list[-1].depth == 0 and self.list[-1].freturn:
line = self.list[-1]
skipadd = True
res = -1
if not skipadd:
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 == self.vfname:
self.invalid = True
if res == -1:
self.partial = True
return res
return 0
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):
pprint('Data misalignment for '+id+\
' (buffer overflow), ignoring this callback')
else:
pprint('Too much data for '+id+\
' '+window+', ignoring this callback')
def slice(self, dev):
minicg = FTraceCallGraph(dev['pid'], self.sv)
minicg.name = self.name
mydepth = -1
good = False
for l in self.list:
if(l.time < dev['start'] or l.time > dev['end']):
continue
if mydepth < 0:
if l.name == 'mutex_lock' and l.freturn:
mydepth = l.depth
continue
elif l.depth == mydepth and l.name == 'mutex_unlock' and l.fcall:
good = True
break
l.depth -= mydepth
minicg.addLine(l)
if not good or len(minicg.list) < 1:
return 0
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 != 0:
self.end = last.time
return True
return False
def postProcess(self):
if len(self.list) > 0:
self.name = self.list[0].name
stack = dict()
cnt = 0
last = 0
for l in self.list:
# ftrace bug: reported duration is not reliable
# check each leaf and clip it at max possible length
if last and last.isLeaf():
if last.length > l.time - last.time:
last.length = l.time - last.time
if l.isCall():
stack[l.depth] = l
cnt += 1
elif l.isReturn():
if(l.depth not in stack):
if self.sv.verbose:
pprint('Post Process Error: Depth missing')
l.debugPrint()
return False
# calculate call length from call/return lines
cl = stack[l.depth]
cl.length = l.time - cl.time
if cl.name == self.vfname:
cl.name = l.name
stack.pop(l.depth)
l.length = 0
cnt -= 1
last = l
if(cnt == 0):
# trace caught the whole call tree
return True
elif(cnt < 0):
if self.sv.verbose:
pprint('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 = ''
# add the callgraph data to the device hierarchy
borderphase = {
'dpm_prepare': 'suspend_prepare',
'dpm_complete': 'resume_complete'
}
if(self.name in borderphase):
p = borderphase[self.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']):
cg = self.slice(dev)
if cg:
dev['ftrace'] = cg
found = devname
return found
for p in data.sortedPhases():
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 = devname
break
break
return found
def newActionFromFunction(self, data):
name = self.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.sortedPhases():
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, info=''):
pprint('%s pid=%d [%f - %f] %.3f us' % \
(self.name, self.pid, self.start, self.end,
(self.end - self.start)*1000000))
for l in self.list:
if l.isLeaf():
pprint('%f (%02d): %s(); (%.3f us)%s' % (l.time, \
l.depth, l.name, l.length*1000000, info))
elif l.freturn:
pprint('%f (%02d): %s} (%.3f us)%s' % (l.time, \
l.depth, l.name, l.length*1000000, info))
else:
pprint('%f (%02d): %s() { (%.3f us)%s' % (l.time, \
l.depth, l.name, l.length*1000000, info))
pprint(' ')
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_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_phase = '<div class="phase" style="left:{0}%;width:{1}%;top:{2}px;height:{3}px;background:{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:{1}"> {2}</div>\n'
def __init__(self, rowheight, scaleheight):
self.html = ''
self.height = 0 # total timeline height
self.scaleH = scaleheight # timescale (top) row height
self.rowH = rowheight # device row height
self.bodyH = 0 # body height
self.rows = 0 # total timeline rows
self.rowlines = dict()
self.rowheight = dict()
def createHeader(self, sv, stamp):
if(not stamp['time']):
return
self.html += '<div class="version"><a href="https://01.org/suspendresume">%s v%s</a></div>' \
% (sv.title, sv.version)
if sv.logmsg and sv.testlog:
self.html += '<button id="showtest" class="logbtn btnfmt">log</button>'
if sv.dmesglog:
self.html += '<button id="showdmesg" class="logbtn btnfmt">dmesg</button>'
if sv.ftracelog:
self.html += '<button id="showftrace" class="logbtn btnfmt">ftrace</button>'
headline_stamp = '<div class="stamp">{0} {1} {2} {3}</div>\n'
self.html += headline_stamp.format(stamp['host'], stamp['kernel'],
stamp['mode'], stamp['time'])
if 'man' in stamp and 'plat' in stamp and 'cpu' in stamp and \
stamp['man'] and stamp['plat'] and stamp['cpu']:
headline_sysinfo = '<div class="stamp sysinfo">{0} {1} <i>with</i> {2}</div>\n'
self.html += headline_sysinfo.format(stamp['man'], stamp['plat'], stamp['cpu'])
# 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, sortby='length'):
# 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
if sortby == 'start':
# sort by start 1st, then length 2nd
sortdict[item] = (-1*float(dev['start']), float(dev['end']) - float(dev['start']))
else:
# 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
def calcTotalRows(self):
# Calculate the heights and offsets for the header and rows
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])
def createZoomBox(self, mode='command', testcount=1):
# Create bounding box, add buttons
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_timeline = '<div id="dmesgzoombox" class="zoombox">\n<div id="{0}" class="timeline" style="height:{1}px">\n'
html_devlist1 = '<button id="devlist1" class="devlist" style="float:left;">Device Detail{0}</button>'
html_devlist2 = '<button id="devlist2" class="devlist" style="float:right;">Device Detail2</button>\n'
if mode != 'command':
if testcount > 1:
self.html += html_devlist2
self.html += html_devlist1.format('1')
else:
self.html += html_devlist1.format('')
self.html += html_zoombox
self.html += html_timeline.format('dmesg', self.height)
# 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;">{0}</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 == 'suspend'):
pos = '%0.3f' % (100 - ((float(i)*tS*100)/mTotal) - divEdge)
val = '%0.fms' % (float(i-divTotal+1)*tS*1000)
if(i == divTotal - 1):
val = mode
htmlline = timescale.format(pos, val)
else:
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.format(mode)
output += htmlline
self.html += output+'</div>\n'
# Class: TestProps
# Description:
# A list of values describing the properties of these test runs
class TestProps:
stampfmt = '# [a-z]*-(?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>.*)$'
batteryfmt = '^# battery (?P<a1>\w*) (?P<c1>\d*) (?P<a2>\w*) (?P<c2>\d*)'
testerrfmt = '^# enter_sleep_error (?P<e>.*)'
sysinfofmt = '^# sysinfo .*'
cmdlinefmt = '^# command \| (?P<cmd>.*)'
kparamsfmt = '^# kparams \| (?P<kp>.*)'
devpropfmt = '# Device Properties: .*'
tracertypefmt = '# tracer: (?P<t>.*)'
firmwarefmt = '# fwsuspend (?P<s>[0-9]*) fwresume (?P<r>[0-9]*)$'
procexecfmt = 'ps - (?P<ps>.*)$'
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>.*)'
def __init__(self):
self.stamp = ''
self.sysinfo = ''
self.cmdline = ''
self.kparams = ''
self.testerror = []
self.battery = []
self.fwdata = []
self.ftrace_line_fmt = self.ftrace_line_fmt_nop
self.cgformat = False
self.data = 0
self.ktemp = dict()
def setTracerType(self, 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)
def parseStamp(self, data, sv):
# global test data
m = re.match(self.stampfmt, self.stamp)
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')
if re.match(self.sysinfofmt, self.sysinfo):
for f in self.sysinfo.split('|'):
if '#' in f:
continue
tmp = f.strip().split(':', 1)
key = tmp[0]
val = tmp[1]
data.stamp[key] = val
sv.hostname = data.stamp['host']
sv.suspendmode = data.stamp['mode']
if sv.suspendmode == 'command' and sv.ftracefile != '':
modes = ['on', 'freeze', 'standby', 'mem', 'disk']
fp = sysvals.openlog(sv.ftracefile, 'r')
for line in fp:
m = re.match('.* machine_suspend\[(?P<mode>.*)\]', line)
if m and m.group('mode') in ['1', '2', '3', '4']:
sv.suspendmode = modes[int(m.group('mode'))]
data.stamp['mode'] = sv.suspendmode
break
fp.close()
m = re.match(self.cmdlinefmt, self.cmdline)
if m:
sv.cmdline = m.group('cmd')
if self.kparams:
m = re.match(self.kparamsfmt, self.kparams)
if m:
sv.kparams = m.group('kp')
if not sv.stamp:
sv.stamp = data.stamp
# firmware data
if sv.suspendmode == 'mem' and len(self.fwdata) > data.testnumber:
data.fwSuspend, data.fwResume = self.fwdata[data.testnumber]
if(data.fwSuspend > 0 or data.fwResume > 0):
data.fwValid = True
# battery data
if len(self.battery) > data.testnumber:
m = re.match(self.batteryfmt, self.battery[data.testnumber])
if m:
data.battery = m.groups()
# sleep mode enter errors
if len(self.testerror) > data.testnumber:
m = re.match(self.testerrfmt, self.testerror[data.testnumber])
if m:
data.enterfail = m.group('e')
# 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:
def __init__(self, dataobj):
self.data = dataobj
self.ftemp = dict()
self.ttemp = dict()
class ProcessMonitor:
def __init__(self):
self.proclist = dict()
self.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
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):
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: doesTraceLogHaveTraceEvents
# Description:
# Quickly determine if the ftrace log has all of the trace events,
# markers, and/or kprobes required for primary parsing.
def doesTraceLogHaveTraceEvents():
kpcheck = ['_cal: (', '_cpu_down()']
techeck = ['suspend_resume', 'device_pm_callback']
tmcheck = ['tracing_mark_write']
sysvals.usekprobes = False
fp = sysvals.openlog(sysvals.ftracefile, 'r')
for line in fp:
# check for kprobes
if not sysvals.usekprobes:
for i in kpcheck:
if i in line:
sysvals.usekprobes = True
# check for all necessary trace events
check = techeck[:]
for i in techeck:
if i in line:
check.remove(i)
techeck = check
# check for all necessary trace markers
check = tmcheck[:]
for i in tmcheck:
if i in line:
check.remove(i)
tmcheck = check
fp.close()
sysvals.usetraceevents = True if len(techeck) < 2 else False
sysvals.usetracemarkers = True if len(tmcheck) == 0 else False
# Function: appendIncompleteTraceLog
# Description:
# [deprecated for kernel 3.15 or newer]
# Adds callgraph data which lacks trace event data. This is only
# for timelines generated from 3.15 or older
# Arguments:
# testruns: the array of Data objects obtained from parseKernelLog
def appendIncompleteTraceLog(testruns):
# 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
sysvals.vprint('Analyzing the ftrace data (%s)...' % \
os.path.basename(sysvals.ftracefile))
tp = TestProps()
tf = sysvals.openlog(sysvals.ftracefile, 'r')
data = 0
for line in tf:
# remove any latent carriage returns
line = line.replace('\r\n', '')
# grab the stamp and sysinfo
if re.match(tp.stampfmt, line):
tp.stamp = line
continue
elif re.match(tp.sysinfofmt, line):
tp.sysinfo = line
continue
elif re.match(tp.cmdlinefmt, line):
tp.cmdline = line
continue
elif re.match(tp.batteryfmt, line):
tp.battery.append(line)
continue
elif re.match(tp.testerrfmt, line):
tp.testerror.append(line)
continue
# determine the trace data type (required for further parsing)
m = re.match(tp.tracertypefmt, line)
if(m):
tp.setTracerType(m.group('t'))
continue
# device properties line
if(re.match(tp.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
tp.parseStamp(data, sysvals)
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):
continue
# 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, sysvals))
# when the call is finished, see which device matches it
cg = testrun[testidx].ftemp[pid][-1]
res = cg.addLine(t)
if(res != 0):
testrun[testidx].ftemp[pid].append(FTraceCallGraph(pid, sysvals))
if(res == -1):
testrun[testidx].ftemp[pid][-1].addLine(t)
tf.close()
for test in testrun:
# 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 or (cg.end - cg.start == 0):
continue
if(not cg.postProcess()):
id = 'task %s cpu %s' % (pid, m.group('cpu'))
sysvals.vprint('Sanity check failed for '+\
id+', ignoring this callback')
continue
callstart = cg.start
callend = cg.end
for p in test.data.sortedPhases():
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
# 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(live=False):
sysvals.vprint('Analyzing the ftrace data (%s)...' % \
os.path.basename(sysvals.ftracefile))
if(os.path.exists(sysvals.ftracefile) == False):
doError('%s does not exist' % sysvals.ftracefile)
if not live:
sysvals.setupAllKprobes()
ksuscalls = ['pm_prepare_console']
krescalls = ['pm_restore_console']
tracewatch = []
if sysvals.usekprobes:
tracewatch += ['sync_filesystems', 'freeze_processes', 'syscore_suspend',
'syscore_resume', 'resume_console', 'thaw_processes', 'CPU_ON',
'CPU_OFF', 'timekeeping_freeze', 'acpi_suspend']
# extract the callgraph and traceevent data
tp = TestProps()
testruns = []
testdata = []
testrun = 0
data = 0
tf = sysvals.openlog(sysvals.ftracefile, 'r')
phase = 'suspend_prepare'
for line in tf:
# remove any latent carriage returns
line = line.replace('\r\n', '')
# stamp and sysinfo lines
if re.match(tp.stampfmt, line):
tp.stamp = line
continue
elif re.match(tp.sysinfofmt, line):
tp.sysinfo = line
continue
elif re.match(tp.cmdlinefmt, line):
tp.cmdline = line
continue
elif re.match(tp.batteryfmt, line):
tp.battery.append(line)
continue
elif re.match(tp.testerrfmt, line):
tp.testerror.append(line)
continue
# firmware line: pull out any firmware data
m = re.match(tp.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(tp.tracertypefmt, line)
if(m):
tp.setTracerType(m.group('t'))
continue
# device properties line
if(re.match(tp.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()):
data = Data(len(testdata))
testdata.append(data)
testrun = TestRun(data)
testruns.append(testrun)
tp.parseStamp(data, sysvals)
data.setStart(t.time)
data.first_suspend_prepare = True
phase = data.setPhase('suspend_prepare', t.time, True)
continue
if(not data):
continue
# process cpu exec line
if t.type == 'tracing_mark_write':
m = re.match(tp.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.handleEndMarker(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('thaw_processes' in testrun.ttemp and 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(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.tKernSus = t.time
continue
# suspend_prepare start
elif(re.match('dpm_prepare\[.*', t.name)):
if isbegin and data.first_suspend_prepare:
data.first_suspend_prepare = False
if data.tKernSus == 0:
data.tKernSus = t.time
continue
phase = data.setPhase('suspend_prepare', t.time, isbegin)
continue
# suspend start
elif(re.match('dpm_suspend\[.*', t.name)):
phase = data.setPhase('suspend', t.time, isbegin)
continue
# suspend_late start
elif(re.match('dpm_suspend_late\[.*', t.name)):
phase = data.setPhase('suspend_late', t.time, isbegin)
continue
# suspend_noirq start
elif(re.match('dpm_suspend_noirq\[.*', t.name)):
phase = data.setPhase('suspend_noirq', t.time, isbegin)
continue
# suspend_machine/resume_machine
elif(re.match('machine_suspend\[.*', t.name)):
if(isbegin):
lp = data.lastPhase()
phase = data.setPhase('suspend_machine', data.dmesg[lp]['end'], True)
data.setPhase(phase, t.time, False)
if data.tSuspended == 0:
data.tSuspended = t.time
else:
phase = data.setPhase('resume_machine', t.time, True)
if(sysvals.suspendmode in ['mem', 'disk']):
susp = phase.replace('resume', 'suspend')
if susp in data.dmesg:
data.dmesg[susp]['end'] = t.time
data.tSuspended = t.time
data.tResumed = t.time
continue
# resume_noirq start
elif(re.match('dpm_resume_noirq\[.*', t.name)):
phase = data.setPhase('resume_noirq', t.time, isbegin)
continue
# resume_early start
elif(re.match('dpm_resume_early\[.*', t.name)):
phase = data.setPhase('resume_early', t.time, isbegin)
continue
# resume start
elif(re.match('dpm_resume\[.*', t.name)):
phase = data.setPhase('resume', t.time, isbegin)
continue
# resume complete start
elif(re.match('dpm_complete\[.*', t.name)):
phase = data.setPhase('resume_complete', t.time, isbegin)
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
# device callback start
elif(t.type == 'device_pm_callback_start'):
if phase not in data.dmesg:
continue
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'):
if phase not in data.dmesg:
continue
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,
})
# start of kernel resume
if(phase == 'suspend_prepare' and kprobename in ksuscalls):
data.tKernSus = t.time
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(phase != 'suspend_prepare' and kprobename in krescalls):
if phase in data.dmesg:
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, sysvals))
# when the call is finished, see which device matches it
cg = testrun.ftemp[key][-1]
res = cg.addLine(t)
if(res != 0):
testrun.ftemp[key].append(FTraceCallGraph(pid, sysvals))
if(res == -1):
testrun.ftemp[key][-1].addLine(t)
tf.close()
if data and not data.devicegroups:
sysvals.vprint('WARNING: end marker is missing')
data.handleEndMarker(t.time)
if sysvals.suspendmode == 'command':
for test in testruns:
for p in test.data.sortedPhases():
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.fwValid = False
# dev source and procmon events can be unreadable with mixed phase height
if sysvals.usedevsrc or sysvals.useprocmon:
sysvals.mixedphaseheight = False
# expand phase boundaries so there are no gaps
for data in testdata:
lp = data.sortedPhases()[0]
for p in data.sortedPhases():
if(p != lp and not ('machine' in p and 'machine' in lp)):
data.dmesg[lp]['end'] = data.dmesg[p]['start']
lp = p
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 or (cg.end - cg.start == 0):
continue
if(not cg.postProcess()):
id = 'task %s' % (pid)
sysvals.vprint('Sanity check failed for '+\
id+', ignoring this callback')
continue
# match cg data to devices
devname = ''
if sysvals.suspendmode != 'command':
devname = cg.deviceMatch(pid, data)
if not devname:
sortkey = '%f%f%d' % (cg.start, cg.end, pid)
sortlist[sortkey] = cg
elif len(cg.list) > 1000000:
sysvals.vprint('WARNING: the callgraph for %s is massive (%d lines)' %\
(devname, len(cg.list)))
# create blocks for orphan cg data
for sortkey in sorted(sortlist):
cg = sortlist[sortkey]
name = cg.name
if sysvals.isCallgraphFunc(name):
sysvals.vprint('Callgraph found for task %d: %.3fms, %s' % (cg.pid, (cg.end - cg.start)*1000, name))
cg.newActionFromFunction(data)
if sysvals.suspendmode == 'command':
return (testdata, '')
# fill in any missing phases
error = []
for data in testdata:
tn = '' if len(testdata) == 1 else ('%d' % (data.testnumber + 1))
terr = ''
phasedef = data.phasedef
lp = 'suspend_prepare'
for p in sorted(phasedef, key=lambda k:phasedef[k]['order']):
if p not in data.dmesg:
if not terr:
pprint('TEST%s FAILED: %s failed in %s phase' % (tn, sysvals.suspendmode, lp))
terr = '%s%s failed in %s phase' % (sysvals.suspendmode, tn, lp)
error.append(terr)
if data.tSuspended == 0:
data.tSuspended = data.dmesg[lp]['end']
if data.tResumed == 0:
data.tResumed = data.dmesg[lp]['end']
data.fwValid = False
sysvals.vprint('WARNING: phase "%s" is missing!' % p)
lp = p
if not terr and data.enterfail:
pprint('test%s FAILED: enter %s failed with %s' % (tn, sysvals.suspendmode, data.enterfail))
terr = 'test%s failed to enter %s mode' % (tn, sysvals.suspendmode)
error.append(terr)
if data.tSuspended == 0:
data.tSuspended = data.tKernRes
if data.tResumed == 0:
data.tResumed = data.tSuspended
if(len(sysvals.devicefilter) > 0):
data.deviceFilter(sysvals.devicefilter)
data.fixupInitcallsThatDidntReturn()
if sysvals.usedevsrc:
data.optimizeDevSrc()
# 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, ', '.join(error))
# 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():
sysvals.vprint('Analyzing the dmesg data (%s)...' % \
os.path.basename(sysvals.dmesgfile))
if(os.path.exists(sysvals.dmesgfile) == False):
doError('%s does not exist' % sysvals.dmesgfile)
# there can be multiple test runs in a single file
tp = TestProps()
tp.stamp = datetime.now().strftime('# suspend-%m%d%y-%H%M%S localhost mem unknown')
testruns = []
data = 0
lf = sysvals.openlog(sysvals.dmesgfile, 'r')
for line in lf:
line = line.replace('\r\n', '')
idx = line.find('[')
if idx > 1:
line = line[idx:]
# grab the stamp and sysinfo
if re.match(tp.stampfmt, line):
tp.stamp = line
continue
elif re.match(tp.sysinfofmt, line):
tp.sysinfo = line
continue
elif re.match(tp.cmdlinefmt, line):
tp.cmdline = line
continue
elif re.match(tp.batteryfmt, line):
tp.battery.append(line)
continue
elif re.match(tp.testerrfmt, line):
tp.testerror.append(line)
continue
m = re.match(tp.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))
tp.parseStamp(data, sysvals)
if(not data):
continue
m = re.match('.* *(?P<k>[0-9]\.[0-9]{2}\.[0-9]-.*) .*', msg)
if(m):
sysvals.stamp['kernel'] = m.group('k')
m = re.match('PM: Preparing system for (?P<m>.*) sleep', msg)
if(m):
sysvals.stamp['mode'] = sysvals.suspendmode = m.group('m')
data.dmesgtext.append(line)
lf.close()
if data:
testruns.append(data)
if len(testruns) < 1:
pprint('ERROR: dmesg log has no suspend/resume data: %s' \
% sysvals.dmesgfile)
# 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):
phase = 'suspend_runtime'
if(data.fwValid):
sysvals.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.*', 'Suspending console.*'],
'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:
# 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:
continue
msg = m.group('msg')
# initialize data start to first line time
if t0 < 0:
data.setStart(ktime)
t0 = ktime
else:
continue
# check for a phase change line
phasechange = False
for p in dm:
for s in dm[p]:
if(re.match(s, msg)):
phasechange, phase = True, p
break
# 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.setPhase(phase, ktime, False)
phase = 'resume_noirq'
data.setPhase(phase, ktime, True)
if phasechange:
if phase == 'suspend_prepare':
data.setPhase(phase, ktime, True)
data.setStart(ktime)
data.tKernSus = ktime
elif phase == 'suspend':
lp = data.lastPhase()
if lp:
data.setPhase(lp, ktime, False)
data.setPhase(phase, ktime, True)
elif phase == 'suspend_late':
lp = data.lastPhase()
if lp:
data.setPhase(lp, ktime, False)
data.setPhase(phase, ktime, True)
elif phase == 'suspend_noirq':
lp = data.lastPhase()
if lp:
data.setPhase(lp, ktime, False)
data.setPhase(phase, ktime, True)
elif phase == 'suspend_machine':
lp = data.lastPhase()
if lp:
data.setPhase(lp, ktime, False)
data.setPhase(phase, ktime, True)
elif phase == 'resume_machine':
lp = data.lastPhase()
if(sysvals.suspendmode in ['freeze', 'standby']):
data.tSuspended = prevktime
if lp:
data.setPhase(lp, prevktime, False)
else:
data.tSuspended = ktime
if lp:
data.setPhase(lp, prevktime, False)
data.tResumed = ktime
data.setPhase(phase, ktime, True)
elif phase == 'resume_noirq':
lp = data.lastPhase()
if lp:
data.setPhase(lp, ktime, False)
data.setPhase(phase, ktime, True)
elif phase == 'resume_early':
lp = data.lastPhase()
if lp:
data.setPhase(lp, ktime, False)
data.setPhase(phase, ktime, True)
elif phase == 'resume':
lp = data.lastPhase()
if lp:
data.setPhase(lp, ktime, False)
data.setPhase(phase, ktime, True)
elif phase == 'resume_complete':
lp = data.lastPhase()
if lp:
data.setPhase(lp, ktime, False)
data.setPhase(phase, ktime, True)
elif phase == 'post_resume':
lp = data.lastPhase()
if lp:
data.setPhase(lp, ktime, False)
data.setEnd(ktime)
data.tKernRes = ktime
break
# -- device callbacks --
if(phase in data.sortedPhases()):
# 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
# 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
data.initDevicegroups()
# fill in any missing phases
phasedef = data.phasedef
terr, lp = '', 'suspend_prepare'
for p in sorted(phasedef, key=lambda k:phasedef[k]['order']):
if p not in data.dmesg:
if not terr:
pprint('TEST FAILED: %s failed in %s phase' % (sysvals.suspendmode, lp))
terr = '%s failed in %s phase' % (sysvals.suspendmode, lp)
if data.tSuspended == 0:
data.tSuspended = data.dmesg[lp]['end']
if data.tResumed == 0:
data.tResumed = data.dmesg[lp]['end']
sysvals.vprint('WARNING: phase "%s" is missing!' % p)
lp = p
lp = data.sortedPhases()[0]
for p in data.sortedPhases():
if(p != lp and not ('machine' in p and 'machine' in lp)):
data.dmesg[lp]['end'] = data.dmesg[p]['start']
lp = p
if data.tSuspended == 0:
data.tSuspended = data.tKernRes
if data.tResumed == 0:
data.tResumed = data.tSuspended
# fill in any actions we've found
for name in actions:
for event in actions[name]:
data.newActionGlobal(name, event['begin'], event['end'])
if(len(sysvals.devicefilter) > 0):
data.deviceFilter(sysvals.devicefilter)
data.fixupInitcallsThatDidntReturn()
return True
def callgraphHTML(sv, hf, num, cg, title, color, devid):
html_func_top = '<article id="{0}" class="atop" style="background:{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'
cgid = devid
if cg.id:
cgid += cg.id
cglen = (cg.end - cg.start) * 1000
if cglen < sv.mincglen:
return num
fmt = '<r>(%.3f ms @ '+sv.timeformat+' to '+sv.timeformat+')</r>'
flen = fmt % (cglen, cg.start, cg.end)
hf.write(html_func_top.format(cgid, color, num, title, flen))
num += 1
for line in cg.list:
if(line.length < 0.000000001):
flen = ''
else:
fmt = '<n>(%.3f ms @ '+sv.timeformat+')</n>'
flen = fmt % (line.length*1000, line.time)
if line.isLeaf():
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)
return num
def addCallgraphs(sv, hf, data):
hf.write('<section id="callgraphs" class="callgraph">\n')
# write out the ftrace data converted to html
num = 0
for p in data.sortedPhases():
if sv.cgphase and p != sv.cgphase:
continue
list = data.dmesg[p]['list']
for devname in data.sortedDevices(p):
if len(sv.cgfilter) > 0 and devname not in sv.cgfilter:
continue
dev = list[devname]
color = 'white'
if 'color' in data.dmesg[p]:
color = data.dmesg[p]['color']
if 'color' in dev:
color = dev['color']
name = devname
if(devname in sv.devprops):
name = sv.devprops[devname].altName(devname)
if sv.suspendmode in suspendmodename:
name += ' '+p
if('ftrace' in dev):
cg = dev['ftrace']
num = callgraphHTML(sv, hf, num, cg,
name, color, dev['id'])
if('ftraces' in dev):
for cg in dev['ftraces']:
num = callgraphHTML(sv, hf, num, cg,
name+' → '+cg.name, color, dev['id'])
hf.write('\n\n </section>\n')
# Function: createHTMLSummarySimple
# Description:
# Create summary html file for a series of tests
# Arguments:
# testruns: array of Data objects from parseTraceLog
def createHTMLSummarySimple(testruns, htmlfile, title):
# 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>SleepGraph Summary</title>\n\
<style type=\'text/css\'>\n\
.stamp {width: 100%;text-align:center;background:#888;line-height:30px;color:white;font: 25px Arial;}\n\
table {width:100%;border-collapse: collapse;}\n\
.summary {border:1px solid;}\n\
th {border: 1px solid black;background:#222;color:white;}\n\
td {font: 14px "Times New Roman";text-align: center;}\n\
tr.head td {border: 1px solid black;background:#aaa;}\n\
tr.alt {background-color:#ddd;}\n\
tr.notice {color:red;}\n\
.minval {background-color:#BBFFBB;}\n\
.medval {background-color:#BBBBFF;}\n\
.maxval {background-color:#FFBBBB;}\n\
.head a {color:#000;text-decoration: none;}\n\
</style>\n</head>\n<body>\n'
# extract the test data into list
list = dict()
tAvg, tMin, tMax, tMed = [0.0, 0.0], [0.0, 0.0], [0.0, 0.0], [[], []]
iMin, iMed, iMax = [0, 0], [0, 0], [0, 0]
num = 0
lastmode = ''
cnt = dict()
for data in sorted(testruns, key=lambda v:(v['mode'], v['host'], v['kernel'], v['time'])):
mode = data['mode']
if mode not in list:
list[mode] = {'data': [], 'avg': [0,0], 'min': [0,0], 'max': [0,0], 'med': [0,0]}
if lastmode and lastmode != mode and num > 0:
for i in range(2):
s = sorted(tMed[i])
list[lastmode]['med'][i] = s[int(len(s)/2)]
iMed[i] = tMed[i].index(list[lastmode]['med'][i])
list[lastmode]['avg'] = [tAvg[0] / num, tAvg[1] / num]
list[lastmode]['min'] = tMin
list[lastmode]['max'] = tMax
list[lastmode]['idx'] = (iMin, iMed, iMax)
tAvg, tMin, tMax, tMed = [0.0, 0.0], [0.0, 0.0], [0.0, 0.0], [[], []]
iMin, iMed, iMax = [0, 0], [0, 0], [0, 0]
num = 0
tVal = [float(data['suspend']), float(data['resume'])]
list[mode]['data'].append([data['host'], data['kernel'],
data['time'], tVal[0], tVal[1], data['url'], data['result'],
data['issues'], data['sus_worst'], data['sus_worsttime'],
data['res_worst'], data['res_worsttime']])
idx = len(list[mode]['data']) - 1
if data['result'] not in cnt:
cnt[data['result']] = 1
else:
cnt[data['result']] += 1
if data['result'] == 'pass':
for i in range(2):
tMed[i].append(tVal[i])
tAvg[i] += tVal[i]
if tMin[i] == 0 or tVal[i] < tMin[i]:
iMin[i] = idx
tMin[i] = tVal[i]
if tMax[i] == 0 or tVal[i] > tMax[i]:
iMax[i] = idx
tMax[i] = tVal[i]
num += 1
lastmode = mode
if lastmode and num > 0:
for i in range(2):
s = sorted(tMed[i])
list[lastmode]['med'][i] = s[int(len(s)/2)]
iMed[i] = tMed[i].index(list[lastmode]['med'][i])
list[lastmode]['avg'] = [tAvg[0] / num, tAvg[1] / num]
list[lastmode]['min'] = tMin
list[lastmode]['max'] = tMax
list[lastmode]['idx'] = (iMin, iMed, iMax)
# group test header
desc = []
for ilk in sorted(cnt, reverse=True):
if cnt[ilk] > 0:
desc.append('%d %s' % (cnt[ilk], ilk))
html += '<div class="stamp">%s (%d tests: %s)</div>\n' % (title, len(testruns), ', '.join(desc))
th = '\t<th>{0}</th>\n'
td = '\t<td>{0}</td>\n'
tdh = '\t<td{1}>{0}</td>\n'
tdlink = '\t<td><a href="{0}">html</a></td>\n'
# table header
html += '<table class="summary">\n<tr>\n' + th.format('#') +\
th.format('Mode') + th.format('Host') + th.format('Kernel') +\
th.format('Test Time') + th.format('Result') + th.format('Issues') +\
th.format('Suspend') + th.format('Resume') +\
th.format('Worst Suspend Device') + th.format('SD Time') +\
th.format('Worst Resume Device') + th.format('RD Time') +\
th.format('Detail') + '</tr>\n'
# export list into html
head = '<tr class="head"><td>{0}</td><td>{1}</td>'+\
'<td colspan=12 class="sus">Suspend Avg={2} '+\
'<span class=minval><a href="#s{10}min">Min={3}</a></span> '+\
'<span class=medval><a href="#s{10}med">Med={4}</a></span> '+\
'<span class=maxval><a href="#s{10}max">Max={5}</a></span> '+\
'Resume Avg={6} '+\
'<span class=minval><a href="#r{10}min">Min={7}</a></span> '+\
'<span class=medval><a href="#r{10}med">Med={8}</a></span> '+\
'<span class=maxval><a href="#r{10}max">Max={9}</a></span></td>'+\
'</tr>\n'
headnone = '<tr class="head"><td>{0}</td><td>{1}</td><td colspan=12></td></tr>\n'
for mode in list:
# header line for each suspend mode
num = 0
tAvg, tMin, tMax, tMed = list[mode]['avg'], list[mode]['min'],\
list[mode]['max'], list[mode]['med']
count = len(list[mode]['data'])
if 'idx' in list[mode]:
iMin, iMed, iMax = list[mode]['idx']
html += head.format('%d' % count, mode.upper(),
'%.3f' % tAvg[0], '%.3f' % tMin[0], '%.3f' % tMed[0], '%.3f' % tMax[0],
'%.3f' % tAvg[1], '%.3f' % tMin[1], '%.3f' % tMed[1], '%.3f' % tMax[1],
mode.lower()
)
else:
iMin = iMed = iMax = [-1, -1, -1]
html += headnone.format('%d' % count, mode.upper())
for d in list[mode]['data']:
# row classes - alternate row color
rcls = ['alt'] if num % 2 == 1 else []
if d[6] != 'pass':
rcls.append('notice')
html += '<tr class="'+(' '.join(rcls))+'">\n' if len(rcls) > 0 else '<tr>\n'
# figure out if the line has sus or res highlighted
idx = list[mode]['data'].index(d)
tHigh = ['', '']
for i in range(2):
tag = 's%s' % mode if i == 0 else 'r%s' % mode
if idx == iMin[i]:
tHigh[i] = ' id="%smin" class=minval title="Minimum"' % tag
elif idx == iMax[i]:
tHigh[i] = ' id="%smax" class=maxval title="Maximum"' % tag
elif idx == iMed[i]:
tHigh[i] = ' id="%smed" class=medval title="Median"' % tag
html += td.format("%d" % (list[mode]['data'].index(d) + 1)) # row
html += td.format(mode) # mode
html += td.format(d[0]) # host
html += td.format(d[1]) # kernel
html += td.format(d[2]) # time
html += td.format(d[6]) # result
html += td.format(d[7]) # issues
html += tdh.format('%.3f ms' % d[3], tHigh[0]) if d[3] else td.format('') # suspend
html += tdh.format('%.3f ms' % d[4], tHigh[1]) if d[4] else td.format('') # resume
html += td.format(d[8]) # sus_worst
html += td.format('%.3f ms' % d[9]) if d[9] else td.format('') # sus_worst time
html += td.format(d[10]) # res_worst
html += td.format('%.3f ms' % d[11]) if d[11] else td.format('') # res_worst time
html += tdlink.format(d[5]) if d[5] else td.format('') # url
html += '</tr>\n'
num += 1
# flush the data to file
hf = open(htmlfile, 'w')
hf.write(html+'</table>\n</body>\n</html>\n')
hf.close()
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, testfail):
if len(testruns) < 1:
pprint('ERROR: Not enough test data to build a timeline')
return
kerror = False
for data in testruns:
if data.kerror:
kerror = True
if(sysvals.suspendmode in ['freeze', 'standby']):
data.trimFreezeTime(testruns[-1].tSuspended)
# html function templates
html_error = '<div id="{1}" title="kernel error/warning" class="err" style="right:{0}%">{2}→</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_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_fail = '<table class="testfail"><tr><td>{0}</td></tr></table>\n'
# html format variables
scaleH = 20
if kerror:
scaleH = 40
# device timeline
devtl = Timeline(30, scaleH)
# write the test title and general info header
devtl.createHeader(sysvals, testruns[0].stamp)
# Generate the header for this timeline
for data in testruns:
tTotal = data.end - data.start
sktime, rktime = data.getTimeValues()
if(tTotal == 0):
doError('No timeline data')
if(len(data.tLow) > 0):
low_time = '|'.join(data.tLow)
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 += 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(len(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 += thtml
sftime = '%.3f'%(data.fwSuspend / 1000000.0)
rftime = '%.3f'%(data.fwResume / 1000000.0)
devtl.html += 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(len(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 += thtml
if testfail:
devtl.html += html_fail.format(testfail)
# time scale for potentially multiple datasets
t0 = testruns[0].start
tMax = testruns[-1].end
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()
# draw the full timeline
devtl.createZoomBox(sysvals.suspendmode, len(testruns))
for data in testruns:
# draw each test run and block chronologically
phases = {'suspend':[],'resume':[]}
for phase in data.sortedPhases():
if data.dmesg[phase]['start'] >= data.tSuspended:
phases['resume'].append(phase)
else:
phases['suspend'].append(phase)
# 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 = data.start
mMax = data.tSuspended
left = '%f' % (((m0-t0)*100.0)/tTotal)
else:
m0 = data.tSuspended
mMax = data.end
# in an x2 run, remove any gap between blocks
if len(testruns) > 1 and data.testnumber == 0:
mMax = testruns[1].start
left = '%f' % ((((m0-t0)*100.0)+sysvals.srgap/2)/tTotal)
mTotal = mMax - m0
# if a timeline block is 0 length, skip altogether
if mTotal == 0:
continue
width = '%f' % (((mTotal*100.0)-sysvals.srgap/2)/tTotal)
devtl.html += devtl.html_tblock.format(bname, left, width, devtl.scaleH)
for b in 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 += devtl.html_phase.format(left, width, \
'%.3f'%devtl.scaleH, '%.3f'%devtl.bodyH, \
data.dmesg[b]['color'], '')
for e in data.errorinfo[dir]:
# draw red lines for any kernel errors found
type, t, idx1, idx2 = e
id = '%d_%d' % (idx1, idx2)
right = '%f' % (((mMax-t)*100.0)/mTotal)
devtl.html += html_error.format(right, id, type)
for b in 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:%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 += devtl.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 += \
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 += \
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.createTimeScale(m0, mMax, tTotal, dir)
devtl.html += '</div>\n'
# timeline is finished
devtl.html += '</div>\n</div>\n'
# draw a legend which describes the phases by color
if sysvals.suspendmode != 'command':
phasedef = testruns[-1].phasedef
devtl.html += '<div class="legend">\n'
pdelta = 100.0/len(phasedef.keys())
pmargin = pdelta / 4.0
for phase in sorted(phasedef, key=lambda k:phasedef[k]['order']):
id, p = '', phasedef[phase]
for word in phase.split('_'):
id += word[0]
order = '%.2f' % ((p['order'] * pdelta) + pmargin)
name = string.replace(phase, '_', ' ')
devtl.html += devtl.html_legend.format(order, p['color'], name, id)
devtl.html += '</div>\n'
hf = open(sysvals.htmlfile, 'w')
addCSS(hf, sysvals, len(testruns), kerror)
# write the device timeline
hf.write(devtl.html)
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(devtl.html_phaselet.format('pre_suspend_process', \
'0', '0', pscolor))
for b in data.sortedPhases():
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(devtl.html_phaselet.format(b, left, width, \
data.dmesg[b]['color']))
hf.write(devtl.html_phaselet.format('post_resume_process', \
'0', '0', pscolor))
if sysvals.suspendmode == 'command':
hf.write(devtl.html_phaselet.format('cmdexec', '0', '0', pscolor))
hf.write('</div>\n')
hf.write('</div>\n')
# write the ftrace data (callgraph)
if sysvals.cgtest >= 0 and len(testruns) > sysvals.cgtest:
data = testruns[sysvals.cgtest]
else:
data = testruns[-1]
if sysvals.usecallgraph:
addCallgraphs(sysvals, hf, data)
# add the test log as a hidden div
if sysvals.testlog and sysvals.logmsg:
hf.write('<div id="testlog" style="display:none;">\n'+sysvals.logmsg+'</div>\n')
# add the dmesg log as a hidden div
if sysvals.dmesglog and sysvals.dmesgfile:
hf.write('<div id="dmesglog" style="display:none;">\n')
lf = sysvals.openlog(sysvals.dmesgfile, 'r')
for line in lf:
line = line.replace('<', '<').replace('>', '>')
hf.write(line)
lf.close()
hf.write('</div>\n')
# add the ftrace log as a hidden div
if sysvals.ftracelog and sysvals.ftracefile:
hf.write('<div id="ftracelog" style="display:none;">\n')
lf = sysvals.openlog(sysvals.ftracefile, 'r')
for line in lf:
hf.write(line)
lf.close()
hf.write('</div>\n')
# write the footer and close
addScriptCode(hf, testruns)
hf.write('</body>\n</html>\n')
hf.close()
return True
def addCSS(hf, sv, testcount=1, kerror=False, extra=''):
kernel = sv.stamp['kernel']
host = sv.hostname[0].upper()+sv.hostname[1:]
mode = sv.suspendmode
if sv.suspendmode in suspendmodename:
mode = suspendmodename[sv.suspendmode]
title = host+' '+mode+' '+kernel
# various format changes by flags
cgchk = 'checked'
cgnchk = 'not(:checked)'
if sv.cgexp:
cgchk = 'not(:checked)'
cgnchk = 'checked'
hoverZ = 'z-index:8;'
if sv.usedevsrc:
hoverZ = ''
devlistpos = 'absolute'
if testcount > 1:
devlistpos = 'relative'
scaleTH = 20
if kerror:
scaleTH = 60
# 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>'+title+'</title>\n\
<style type=\'text/css\'>\n\
body {overflow-y:scroll;}\n\
.stamp {width:100%;text-align:center;background:gray;line-height:30px;color:white;font:25px Arial;}\n\
.stamp.sysinfo {font:10px 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 {font:bold 13px Times;}\n\
table {width:100%;}\n\
.gray {background:rgba(80,80,80,0.1);}\n\
.green {background:rgba(204,255,204,0.4);}\n\
.purple {background:rgba(128,0,128,0.2);}\n\
.yellow {background:rgba(255,255,204,0.4);}\n\
.blue {background:rgba(169,208,245,0.4);}\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\
.testfail {font:bold 22px Arial;color:red;border:1px dashed;}\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:white;border:1px solid red;'+hoverZ+'}\n\
.thread.sec,.thread.sec:hover {background:black;border:0;color:white;line-height:15px;font-size:10px;}\n\
.hover {background:white;border:1px solid red;'+hoverZ+'}\n\
.hover.sync {background:white;}\n\
.hover.bg,.hover.kth,.hover.sync,.hover.ps {background: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 {float:left;overflow:hidden;border:0px;text-align:center;min-height:100px;font-size:24px;}\n\
.t {position:absolute;line-height:'+('%d'%scaleTH)+'px;pointer-events:none;top:0;height:100%;border-right:1px solid black;z-index:6;}\n\
.err {position:absolute;top:0%;height:100%;border-right:3px solid red;color:red;font:bold 14px Times;line-height:18px;}\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\
.btnfmt {position:relative;float:right;height:25px;width:auto;margin-top:3px;margin-bottom:0;font-size:10px;text-align:center;}\n\
.devlist {position:'+devlistpos+';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 {min-height:100px;box-shadow:5px 5px 20px black;}\n\
.tblock {position:absolute;height:100%;background:#ddd;}\n\
.tback {position:absolute;width:100%;background:linear-gradient(#ccc, #ddd);}\n\
.bg {z-index:1;}\n\
'+extra+'\
</style>\n</head>\n<body>\n'
hf.write(html_header)
# 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;">\';\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'\
' var mode = list[i].id[5];\n'\
' if(mode == "s") {\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'\
' } else {\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'\
' if(mode == "r")\n'\
' htmlline = rline+"<cS>←R</cS></div>";\n'\
' else\n'\
' htmlline = rline+"<cS>0ms</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 left = zoombox.scrollLeft;\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 = ((left + 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 = ((left + 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'\
' if(typeof devstats !== \'undefined\')\n'\
' callDetail(this.id, this.title);\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'\
' cgid = cg[i].id.split("x")[0]\n'\
' if(idlist.indexOf(cgid) >= 0) {\n'\
' cg[i].style.display = "block";\n'\
' } else {\n'\
' cg[i].style.display = "none";\n'\
' }\n'\
' }\n'\
' }\n'\
' function callDetail(devid, devtitle) {\n'\
' if(!(devid in devstats) || devstats[devid].length < 1)\n'\
' return;\n'\
' var list = devstats[devid];\n'\
' var tmp = devtitle.split(" ");\n'\
' var name = tmp[0], phase = tmp[tmp.length-1];\n'\
' var dd = document.getElementById(phase);\n'\
' var total = parseFloat(tmp[1].slice(1));\n'\
' var mlist = [];\n'\
' var maxlen = 0;\n'\
' var info = []\n'\
' for(var i in list) {\n'\
' if(list[i][0] == "@") {\n'\
' info = list[i].split("|");\n'\
' continue;\n'\
' }\n'\
' var tmp = list[i].split("|");\n'\
' var t = parseFloat(tmp[0]), f = tmp[1], c = parseInt(tmp[2]);\n'\
' var p = (t*100.0/total).toFixed(2);\n'\
' mlist[mlist.length] = [f, c, t.toFixed(2), p+"%"];\n'\
' if(f.length > maxlen)\n'\
' maxlen = f.length;\n'\
' }\n'\
' var pad = 5;\n'\
' if(mlist.length == 0) pad = 30;\n'\
' var html = \'<div style="padding-top:\'+pad+\'px"><t3> <b>\'+name+\':</b>\';\n'\
' if(info.length > 2)\n'\
' html += " start=<b>"+info[1]+"</b>, end=<b>"+info[2]+"</b>";\n'\
' if(info.length > 3)\n'\
' html += ", length<i>(w/o overhead)</i>=<b>"+info[3]+" ms</b>";\n'\
' if(info.length > 4)\n'\
' html += ", return=<b>"+info[4]+"</b>";\n'\
' html += "</t3></div>";\n'\
' if(mlist.length > 0) {\n'\
' html += \'<table class=fstat style="padding-top:\'+(maxlen*5)+\'px;"><tr><th>Function</th>\';\n'\
' for(var i in mlist)\n'\
' html += "<td class=vt>"+mlist[i][0]+"</td>";\n'\
' html += "</tr><tr><th>Calls</th>";\n'\
' for(var i in mlist)\n'\
' html += "<td>"+mlist[i][1]+"</td>";\n'\
' html += "</tr><tr><th>Time(ms)</th>";\n'\
' for(var i in mlist)\n'\
' html += "<td>"+mlist[i][2]+"</td>";\n'\
' html += "</tr><tr><th>Percent</th>";\n'\
' for(var i in mlist)\n'\
' html += "<td>"+mlist[i][3]+"</td>";\n'\
' html += "</tr></table>";\n'\
' }\n'\
' dd.innerHTML = html;\n'\
' var height = (maxlen*5)+100;\n'\
' dd.style.height = height+"px";\n'\
' document.getElementById("devicedetail").style.height = height+"px";\n'\
' }\n'\
' function callSelect() {\n'\
' var cglist = document.getElementById("callgraphs");\n'\
' if(!cglist) return;\n'\
' var cg = cglist.getElementsByClassName("atop");\n'\
' for (var i = 0; i < cg.length; i++) {\n'\
' if(this.id == cg[i].id) {\n'\
' cg[i].style.display = "block";\n'\
' } else {\n'\
' cg[i].style.display = "none";\n'\
' }\n'\
' }\n'\
' }\n'\
' function devListWindow(e) {\n'\
' var win = window.open();\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 errWindow() {\n'\
' var range = this.id.split("_");\n'\
' var idx1 = parseInt(range[0]);\n'\
' var idx2 = parseInt(range[1]);\n'\
' var win = window.open();\n'\
' var log = document.getElementById("dmesglog");\n'\
' var title = "<title>dmesg log</title>";\n'\
' var text = log.innerHTML.split("\\n");\n'\
' var html = "";\n'\
' for(var i = 0; i < text.length; i++) {\n'\
' if(i == idx1) {\n'\
' html += "<e id=target>"+text[i]+"</e>\\n";\n'\
' } else if(i > idx1 && i <= idx2) {\n'\
' html += "<e>"+text[i]+"</e>\\n";\n'\
' } else {\n'\
' html += text[i]+"\\n";\n'\
' }\n'\
' }\n'\
' win.document.write("<style>e{color:red}</style>"+title+"<pre>"+html+"</pre>");\n'\
' win.location.hash = "#target";\n'\
' win.document.close();\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 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'\
' dmesg.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("err");\n'\
' for (var i = 0; i < list.length; i++)\n'\
' list[i].onclick = errWindow;\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'\
' var dev = dmesg.getElementsByClassName("srccall");\n'\
' for (var i = 0; i < dev.length; i++)\n'\
' dev[i].onclick = callSelect;\n'\
' zoomTimeline();\n'\
' });\n'\
'</script>\n'
hf.write(script_code);
def setRuntimeSuspend(before=True):
global sysvals
sv = sysvals
if sv.rs == 0:
return
if before:
# runtime suspend disable or enable
if sv.rs > 0:
sv.rstgt, sv.rsval, sv.rsdir = 'on', 'auto', 'enabled'
else:
sv.rstgt, sv.rsval, sv.rsdir = 'auto', 'on', 'disabled'
pprint('CONFIGURING RUNTIME SUSPEND...')
sv.rslist = deviceInfo(sv.rstgt)
for i in sv.rslist:
sv.setVal(sv.rsval, i)
pprint('runtime suspend %s on all devices (%d changed)' % (sv.rsdir, len(sv.rslist)))
pprint('waiting 5 seconds...')
time.sleep(5)
else:
# runtime suspend re-enable or re-disable
for i in sv.rslist:
sv.setVal(sv.rstgt, i)
pprint('runtime suspend settings restored on %d devices' % len(sv.rslist))
# 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():
pm = ProcessMonitor()
tp = sysvals.tpath
testdata = []
battery = True if getBattery() else False
# run these commands to prepare the system for suspend
if sysvals.display:
pprint('SET DISPLAY TO %s' % sysvals.display.upper())
displayControl(sysvals.display)
time.sleep(1)
if sysvals.sync:
pprint('SYNCING FILESYSTEMS')
call('sync', shell=True)
# mark the start point in the kernel ring buffer just as we start
sysvals.initdmesg()
# start ftrace
if(sysvals.usecallgraph or sysvals.usetraceevents):
pprint('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):
sysvals.fsetVal('WAIT %d' % sysvals.x2delay, 'trace_marker')
time.sleep(sysvals.x2delay/1000.0)
sysvals.fsetVal('WAIT END', 'trace_marker')
# start message
if sysvals.testcommand != '':
pprint('COMMAND START')
else:
if(sysvals.rtcwake):
pprint('SUSPEND START')
else:
pprint('SUSPEND START (press a key to resume)')
bat1 = getBattery() if battery else False
# set rtcwake
if(sysvals.rtcwake):
pprint('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):
sysvals.fsetVal('WAIT %d' % sysvals.predelay, 'trace_marker')
time.sleep(sysvals.predelay/1000.0)
sysvals.fsetVal('WAIT END', 'trace_marker')
# initiate suspend or command
tdata = {'error': ''}
if sysvals.testcommand != '':
res = call(sysvals.testcommand+' 2>&1', shell=True);
if res != 0:
tdata['error'] = 'cmd returned %d' % res
else:
mode = sysvals.suspendmode
if sysvals.memmode and os.path.exists(sysvals.mempowerfile):
mode = 'mem'
pf = open(sysvals.mempowerfile, 'w')
pf.write(sysvals.memmode)
pf.close()
if sysvals.diskmode and os.path.exists(sysvals.diskpowerfile):
mode = 'disk'
pf = open(sysvals.diskpowerfile, 'w')
pf.write(sysvals.diskmode)
pf.close()
pf = open(sysvals.powerfile, 'w')
pf.write(mode)
# execution will pause here
try:
pf.close()
except Exception as e:
tdata['error'] = str(e)
if(sysvals.rtcwake):
sysvals.rtcWakeAlarmOff()
# postdelay delay
if(count == sysvals.execcount and sysvals.postdelay > 0):
sysvals.fsetVal('WAIT %d' % sysvals.postdelay, 'trace_marker')
time.sleep(sysvals.postdelay/1000.0)
sysvals.fsetVal('WAIT END', 'trace_marker')
# return from suspend
pprint('RESUME COMPLETE')
if(sysvals.usecallgraph or sysvals.usetraceevents):
sysvals.fsetVal('RESUME COMPLETE', 'trace_marker')
if(sysvals.suspendmode == 'mem' or sysvals.suspendmode == 'command'):
tdata['fw'] = getFPDT(False)
bat2 = getBattery() if battery else False
if battery and bat1 and bat2:
tdata['bat'] = (bat1, bat2)
testdata.append(tdata)
# stop ftrace
if(sysvals.usecallgraph or sysvals.usetraceevents):
if sysvals.useprocmon:
pm.stop()
sysvals.fsetVal('0', 'tracing_on')
# grab a copy of the dmesg output
pprint('CAPTURING DMESG')
sysvals.getdmesg(testdata)
# grab a copy of the ftrace output
if(sysvals.usecallgraph or sysvals.usetraceevents):
pprint('CAPTURING TRACE')
op = sysvals.writeDatafileHeader(sysvals.ftracefile, testdata)
fp = open(tp+'trace', 'r')
for line in fp:
op.write(line)
op.close()
sysvals.fsetVal('', 'trace')
devProps()
def readFile(file):
if os.path.islink(file):
return os.readlink(file).split('/')[-1]
else:
return sysvals.getVal(file).strip()
# Function: ms2nice
# Description:
# Print out a very concise time string in minutes and seconds
# Output:
# The time string, e.g. "1901m16s"
def ms2nice(val):
val = int(val)
h = val / 3600000
m = (val / 60000) % 60
s = (val / 1000) % 60
if h > 0:
return '%d:%02d:%02d' % (h, m, s)
if m > 0:
return '%02d:%02d' % (m, s)
return '%ds' % s
def yesno(val):
list = {'enabled':'A', 'disabled':'S', 'auto':'E', 'on':'D',
'active':'A', 'suspended':'S', 'suspending':'S'}
if val not in list:
return ' '
return list[val]
# Function: deviceInfo
# 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 deviceInfo(output=''):
if not output:
pprint('LEGEND\n'\
'---------------------------------------------------------------------------------------------\n'\
' A = async/sync PM queue (A/S) C = runtime active children\n'\
' R = runtime suspend enabled/disabled (E/D) rACTIVE = runtime active (min/sec)\n'\
' S = runtime status active/suspended (A/S) rSUSPEND = runtime suspend (min/sec)\n'\
' U = runtime usage count\n'\
'---------------------------------------------------------------------------------------------\n'\
'DEVICE NAME A R S U C rACTIVE rSUSPEND\n'\
'---------------------------------------------------------------------------------------------')
res = []
tgtval = 'runtime_status'
lines = dict()
for dirname, dirnames, filenames in os.walk('/sys/devices'):
if(not re.match('.*/power', dirname) or
'control' not in filenames or
tgtval not in filenames):
continue
name = ''
dirname = dirname[:-6]
device = dirname.split('/')[-1]
power = dict()
power[tgtval] = readFile('%s/power/%s' % (dirname, tgtval))
# only list devices which support runtime suspend
if power[tgtval] not in ['active', 'suspended', 'suspending']:
continue
for i in ['product', 'driver', 'subsystem']:
file = '%s/%s' % (dirname, i)
if os.path.exists(file):
name = readFile(file)
break
for i in ['async', 'control', 'runtime_status', 'runtime_usage',
'runtime_active_kids', 'runtime_active_time',
'runtime_suspended_time']:
if i in filenames:
power[i] = readFile('%s/power/%s' % (dirname, i))
if output:
if power['control'] == output:
res.append('%s/power/control' % dirname)
continue
lines[dirname] = '%-26s %-26s %1s %1s %1s %1s %1s %10s %10s' % \
(device[:26], name[:26],
yesno(power['async']), \
yesno(power['control']), \
yesno(power['runtime_status']), \
power['runtime_usage'], \
power['runtime_active_kids'], \
ms2nice(power['runtime_active_time']), \
ms2nice(power['runtime_suspended_time']))
for i in sorted(lines):
print lines[i]
return res
# Function: devProps
# Description:
# Retrieve a list of properties for all devices in the trace log
def devProps(data=0):
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)
# first get the list of devices we need properties for
msghead = 'Additional data added by AnalyzeSuspend'
alreadystamped = False
tp = TestProps()
tf = sysvals.openlog(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(tp.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
dev = m.group('d')
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 sysvals.openlog(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 sysvals.openlog(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():
modes = []
if(os.path.exists(sysvals.powerfile)):
fp = open(sysvals.powerfile, 'r')
modes = string.split(fp.read())
fp.close()
if(os.path.exists(sysvals.mempowerfile)):
deep = False
fp = open(sysvals.mempowerfile, 'r')
for m in string.split(fp.read()):
memmode = m.strip('[]')
if memmode == 'deep':
deep = True
else:
modes.append('mem-%s' % memmode)
fp.close()
if 'mem' in modes and not deep:
modes.remove('mem')
if('disk' in modes and os.path.exists(sysvals.diskpowerfile)):
fp = open(sysvals.diskpowerfile, 'r')
for m in string.split(fp.read()):
modes.append('disk-%s' % m.strip('[]'))
fp.close()
return modes
# Function: dmidecode
# Description:
# Read the bios tables and pull out system info
# Arguments:
# mempath: /dev/mem or custom mem path
# fatal: True to exit on error, False to return empty dict
# Output:
# A dict object with all available key/values
def dmidecode(mempath, fatal=False):
out = dict()
# the list of values to retrieve, with hardcoded (type, idx)
info = {
'bios-vendor': (0, 4),
'bios-version': (0, 5),
'bios-release-date': (0, 8),
'system-manufacturer': (1, 4),
'system-product-name': (1, 5),
'system-version': (1, 6),
'system-serial-number': (1, 7),
'baseboard-manufacturer': (2, 4),
'baseboard-product-name': (2, 5),
'baseboard-version': (2, 6),
'baseboard-serial-number': (2, 7),
'chassis-manufacturer': (3, 4),
'chassis-type': (3, 5),
'chassis-version': (3, 6),
'chassis-serial-number': (3, 7),
'processor-manufacturer': (4, 7),
'processor-version': (4, 16),
}
if(not os.path.exists(mempath)):
if(fatal):
doError('file does not exist: %s' % mempath)
return out
if(not os.access(mempath, os.R_OK)):
if(fatal):
doError('file is not readable: %s' % mempath)
return out
# by default use legacy scan, but try to use EFI first
memaddr = 0xf0000
memsize = 0x10000
for ep in ['/sys/firmware/efi/systab', '/proc/efi/systab']:
if not os.path.exists(ep) or not os.access(ep, os.R_OK):
continue
fp = open(ep, 'r')
buf = fp.read()
fp.close()
i = buf.find('SMBIOS=')
if i >= 0:
try:
memaddr = int(buf[i+7:], 16)
memsize = 0x20
except:
continue
# read in the memory for scanning
fp = open(mempath, 'rb')
try:
fp.seek(memaddr)
buf = fp.read(memsize)
except:
if(fatal):
doError('DMI table is unreachable, sorry')
else:
return out
fp.close()
# search for either an SM table or DMI table
i = base = length = num = 0
while(i < memsize):
if buf[i:i+4] == '_SM_' and i < memsize - 16:
length = struct.unpack('H', buf[i+22:i+24])[0]
base, num = struct.unpack('IH', buf[i+24:i+30])
break
elif buf[i:i+5] == '_DMI_':
length = struct.unpack('H', buf[i+6:i+8])[0]
base, num = struct.unpack('IH', buf[i+8:i+14])
break
i += 16
if base == 0 and length == 0 and num == 0:
if(fatal):
doError('Neither SMBIOS nor DMI were found')
else:
return out
# read in the SM or DMI table
fp = open(mempath, 'rb')
try:
fp.seek(base)
buf = fp.read(length)
except:
if(fatal):
doError('DMI table is unreachable, sorry')
else:
return out
fp.close()
# scan the table for the values we want
count = i = 0
while(count < num and i <= len(buf) - 4):
type, size, handle = struct.unpack('BBH', buf[i:i+4])
n = i + size
while n < len(buf) - 1:
if 0 == struct.unpack('H', buf[n:n+2])[0]:
break
n += 1
data = buf[i+size:n+2].split('\0')
for name in info:
itype, idxadr = info[name]
if itype == type:
idx = struct.unpack('B', buf[i+idxadr])[0]
if idx > 0 and idx < len(data) - 1:
s = data[idx-1].strip()
if s and s.lower() != 'to be filled by o.e.m.':
out[name] = data[idx-1]
i = n + 2
count += 1
return out
def getBattery():
p, charge, bat = '/sys/class/power_supply', 0, {}
if not os.path.exists(p):
return False
for d in os.listdir(p):
type = sysvals.getVal(os.path.join(p, d, 'type')).strip().lower()
if type != 'battery':
continue
for v in ['status', 'energy_now', 'capacity_now']:
bat[v] = sysvals.getVal(os.path.join(p, d, v)).strip().lower()
break
if 'status' not in bat:
return False
ac = False if 'discharging' in bat['status'] else True
for v in ['energy_now', 'capacity_now']:
if v in bat and bat[v]:
charge = int(bat[v])
return (ac, charge)
def displayControl(cmd):
xset, ret = 'xset -d :0.0 {0}', 0
if sysvals.sudouser:
xset = 'sudo -u %s %s' % (sysvals.sudouser, xset)
if cmd == 'init':
ret = call(xset.format('dpms 0 0 0'), shell=True)
if not ret:
ret = call(xset.format('s off'), shell=True)
elif cmd == 'reset':
ret = call(xset.format('s reset'), shell=True)
elif cmd in ['on', 'off', 'standby', 'suspend']:
b4 = displayControl('stat')
ret = call(xset.format('dpms force %s' % cmd), shell=True)
if not ret:
curr = displayControl('stat')
sysvals.vprint('Display Switched: %s -> %s' % (b4, curr))
if curr != cmd:
sysvals.vprint('WARNING: Display failed to change to %s' % cmd)
if ret:
sysvals.vprint('WARNING: Display failed to change to %s with xset' % cmd)
return ret
elif cmd == 'stat':
fp = Popen(xset.format('q').split(' '), stdout=PIPE).stdout
ret = 'unknown'
for line in fp:
m = re.match('[\s]*Monitor is (?P<m>.*)', line)
if(m and len(m.group('m')) >= 2):
out = m.group('m').lower()
ret = out[3:] if out[0:2] == 'in' else out
break
fp.close()
return ret
# 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):
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'
sysvals.rootCheck(True)
if(not os.path.exists(sysvals.fpdtpath)):
if(output):
doError('file does not exist: %s' % sysvals.fpdtpath)
return False
if(not os.access(sysvals.fpdtpath, os.R_OK)):
if(output):
doError('file is not readable: %s' % sysvals.fpdtpath)
return False
if(not os.path.exists(sysvals.mempath)):
if(output):
doError('file does not exist: %s' % sysvals.mempath)
return False
if(not os.access(sysvals.mempath, os.R_OK)):
if(output):
doError('file is not readable: %s' % sysvals.mempath)
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')
return False
table = struct.unpack('4sIBB6s8sI4sI', buf[0:36])
if(output):
pprint('\n'\
'Firmware Performance Data Table (%s)\n'\
' Signature : %s\n'\
' Table Length : %u\n'\
' Revision : %u\n'\
' Checksum : 0x%x\n'\
' OEM ID : %s\n'\
' OEM Table ID : %s\n'\
' OEM Revision : %u\n'\
' Creator ID : %s\n'\
' Creator Revision : 0x%x\n'\
'' % (table[0], table[0], table[1], table[2], table[3],
table[4], table[5], table[6], table[7], table[8]))
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):
pprint('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):
pprint('%s (%s)\n'\
' Reset END : %u ns\n'\
' OS Loader LoadImage Start : %u ns\n'\
' OS Loader StartImage Start : %u ns\n'\
' ExitBootServices Entry : %u ns\n'\
' ExitBootServices Exit : %u ns'\
'' % (rectype[header[0]], rechead[0], record[4], record[5],
record[6], record[7], record[8]))
elif(rechead[0] == 'S3PT'):
if(output):
pprint('%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):
pprint(' %s\n'\
' Resume Count : %u\n'\
' FullResume : %u ns\n'\
' AverageResume : %u ns'\
'' % (prectype[prechead[0]], record[1],
record[2], record[3]))
elif(prechead[0] == 1):
record = struct.unpack('QQ', recdata[j+4:j+prechead[1]])
fwData[0] = record[1] - record[0]
if(output):
pprint(' %s\n'\
' SuspendStart : %u ns\n'\
' SuspendEnd : %u ns\n'\
' SuspendTime : %u ns'\
'' % (prectype[prechead[0]], record[0],
record[1], fwData[0]))
j += prechead[1]
if(output):
pprint('')
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):
status = ''
pprint('Checking this system (%s)...' % platform.node())
# check we have root access
res = sysvals.colorText('NO (No features of this tool will work!)')
if(sysvals.rootCheck(False)):
res = 'YES'
pprint(' have root access: %s' % res)
if(res != 'YES'):
pprint(' Try running this script with sudo')
return 'missing root access'
# check sysfs is mounted
res = sysvals.colorText('NO (No features of this tool will work!)')
if(os.path.exists(sysvals.powerfile)):
res = 'YES'
pprint(' is sysfs mounted: %s' % res)
if(res != 'YES'):
return 'sysfs is missing'
# 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 = '%s mode is not supported' % sysvals.suspendmode
pprint(' is "%s" a valid power mode: %s' % (sysvals.suspendmode, res))
if(res == 'NO'):
pprint(' valid power modes are: %s' % modes)
pprint(' 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 = 'ftrace is not properly supported'
pprint(' 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
pprint(' are kprobes supported: %s' % res)
# what data source are we using
res = 'DMESG'
if(ftgood):
sysvals.usetraceevents = True
for e in sysvals.traceevents:
if not os.path.exists(sysvals.epath+e):
sysvals.usetraceevents = False
if(sysvals.usetraceevents):
res = 'FTRACE (all trace events found)'
pprint(' timeline data source: %s' % res)
# check if rtcwake
res = sysvals.colorText('NO')
if(sysvals.rtcpath != ''):
res = 'YES'
elif(sysvals.rtcwake):
status = 'rtcwake is not properly supported'
pprint(' is rtcwake supported: %s' % res)
if not probecheck:
return status
# verify kprobes
if sysvals.usekprobes:
for name in sysvals.tracefuncs:
sysvals.defaultKprobe(name, sysvals.tracefuncs[name])
if sysvals.usedevsrc:
for name in sysvals.dev_tracefuncs:
sysvals.defaultKprobe(name, sysvals.dev_tracefuncs[name])
sysvals.addKprobes(True)
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=False):
if(help == True):
printHelp()
pprint('ERROR: %s\n' % msg)
sysvals.outputResult({'error':msg})
sys.exit(1)
# 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
def processData(live=False):
pprint('PROCESSING DATA')
error = ''
if(sysvals.usetraceevents):
testruns, error = parseTraceLog(live)
if sysvals.dmesgfile:
for data in testruns:
data.extractErrorInfo()
else:
testruns = loadKernelLog()
for data in testruns:
parseKernelLog(data)
if(sysvals.ftracefile and (sysvals.usecallgraph or sysvals.usetraceevents)):
appendIncompleteTraceLog(testruns)
sysvals.vprint('Command:\n %s' % sysvals.cmdline)
for data in testruns:
if data.battery:
a1, c1, a2, c2 = data.battery
s = 'Battery:\n Before - AC: %s, Charge: %d\n After - AC: %s, Charge: %d' % \
(a1, int(c1), a2, int(c2))
sysvals.vprint(s)
data.printDetails()
if sysvals.cgdump:
for data in testruns:
data.debugPrint()
sys.exit(0)
if len(testruns) < 1:
pprint('ERROR: Not enough test data to build a timeline')
return (testruns, {'error': 'timeline generation failed'})
sysvals.vprint('Creating the html timeline (%s)...' % sysvals.htmlfile)
createHTML(testruns, error)
pprint('DONE')
data = testruns[0]
stamp = data.stamp
stamp['suspend'], stamp['resume'] = data.getTimeValues()
if data.fwValid:
stamp['fwsuspend'], stamp['fwresume'] = data.fwSuspend, data.fwResume
if error:
stamp['error'] = error
return (testruns, stamp)
# Function: rerunTest
# Description:
# generate an output from an existing set of ftrace/dmesg logs
def rerunTest():
if sysvals.ftracefile:
doesTraceLogHaveTraceEvents()
if not sysvals.dmesgfile and not sysvals.usetraceevents:
doError('recreating this html output requires a dmesg file')
sysvals.setOutputFile()
if os.path.exists(sysvals.htmlfile):
if not os.path.isfile(sysvals.htmlfile):
doError('a directory already exists with this name: %s' % sysvals.htmlfile)
elif not os.access(sysvals.htmlfile, os.W_OK):
doError('missing permission to write to %s' % sysvals.htmlfile)
testruns, stamp = processData(False)
sysvals.logmsg = ''
return stamp
# Function: runTest
# Description:
# execute a suspend/resume, gather the logs, and generate the output
def runTest(n=0):
# prepare for the test
sysvals.initFtrace()
sysvals.initTestOutput('suspend')
# execute the test
executeSuspend()
sysvals.cleanupFtrace()
if sysvals.skiphtml:
sysvals.sudoUserchown(sysvals.testdir)
return
testruns, stamp = processData(True)
for data in testruns:
del data
sysvals.sudoUserchown(sysvals.testdir)
sysvals.outputResult(stamp, n)
if 'error' in stamp:
return 2
return 0
def find_in_html(html, start, end, firstonly=True):
n, out = 0, []
while n < len(html):
m = re.search(start, html[n:])
if not m:
break
i = m.end()
m = re.search(end, html[n+i:])
if not m:
break
j = m.start()
str = html[n+i:n+i+j]
if end == 'ms':
num = re.search(r'[-+]?\d*\.\d+|\d+', str)
str = num.group() if num else 'NaN'
if firstonly:
return str
out.append(str)
n += i+j
if firstonly:
return ''
return out
def data_from_html(file, outpath, devlist=False):
html = open(file, 'r').read()
suspend = find_in_html(html, 'Kernel Suspend', 'ms')
resume = find_in_html(html, 'Kernel Resume', 'ms')
line = find_in_html(html, '<div class="stamp">', '</div>')
stmp = line.split()
if not suspend or not resume or len(stmp) != 8:
return False
try:
dt = datetime.strptime(' '.join(stmp[3:]), '%B %d %Y, %I:%M:%S %p')
except:
return False
tstr = dt.strftime('%Y/%m/%d %H:%M:%S')
error = find_in_html(html, '<table class="testfail"><tr><td>', '</td>')
if error:
m = re.match('[a-z]* failed in (?P<p>[a-z0-9_]*) phase', error)
if m:
result = 'fail in %s' % m.group('p')
else:
result = 'fail'
else:
result = 'pass'
ilist = []
e = find_in_html(html, 'class="err"[\w=":;\.%\- ]*>', '→</div>', False)
for i in list(set(e)):
ilist.append('%sx%d' % (i, e.count(i)) if e.count(i) > 1 else i)
low = find_in_html(html, 'freeze time: <b>', ' ms</b>')
if low and '|' in low:
ilist.append('FREEZEx%d' % len(low.split('|')))
devices = dict()
for line in html.split('\n'):
m = re.match(' *<div id=\"[a,0-9]*\" *title=\"(?P<title>.*)\" class=\"thread.*', line)
if not m or 'thread kth' in line or 'thread sec' in line:
continue
m = re.match('(?P<n>.*) \((?P<t>[0-9,\.]*) ms\) (?P<p>.*)', m.group('title'))
if not m:
continue
name, time, phase = m.group('n'), m.group('t'), m.group('p')
if ' async' in name or ' sync' in name:
name = ' '.join(name.split(' ')[:-1])
d = phase.split('_')[0]
if d not in devices:
devices[d] = dict()
if name not in devices[d]:
devices[d][name] = 0.0
devices[d][name] += float(time)
worst = {'suspend': {'name':'', 'time': 0.0},
'resume': {'name':'', 'time': 0.0}}
for d in devices:
if d not in worst:
worst[d] = dict()
dev = devices[d]
if len(dev.keys()) > 0:
n = sorted(dev, key=dev.get, reverse=True)[0]
worst[d]['name'], worst[d]['time'] = n, dev[n]
data = {
'mode': stmp[2],
'host': stmp[0],
'kernel': stmp[1],
'time': tstr,
'result': result,
'issues': ' '.join(ilist),
'suspend': suspend,
'resume': resume,
'sus_worst': worst['suspend']['name'],
'sus_worsttime': worst['suspend']['time'],
'res_worst': worst['resume']['name'],
'res_worsttime': worst['resume']['time'],
'url': os.path.relpath(file, outpath),
}
if devlist:
data['devlist'] = devices
return data
# Function: runSummary
# Description:
# create a summary of tests in a sub-directory
def runSummary(subdir, local=True, genhtml=False):
inpath = os.path.abspath(subdir)
outpath = os.path.abspath('.') if local else inpath
pprint('Generating a summary of folder "%s"' % inpath)
if genhtml:
for dirname, dirnames, filenames in os.walk(subdir):
sysvals.dmesgfile = sysvals.ftracefile = sysvals.htmlfile = ''
for filename in filenames:
if(re.match('.*_dmesg.txt', filename)):
sysvals.dmesgfile = os.path.join(dirname, filename)
elif(re.match('.*_ftrace.txt', filename)):
sysvals.ftracefile = os.path.join(dirname, filename)
sysvals.setOutputFile()
if sysvals.ftracefile and sysvals.htmlfile and \
not os.path.exists(sysvals.htmlfile):
pprint('FTRACE: %s' % sysvals.ftracefile)
if sysvals.dmesgfile:
pprint('DMESG : %s' % sysvals.dmesgfile)
rerunTest()
testruns = []
desc = {'host':[],'mode':[],'kernel':[]}
for dirname, dirnames, filenames in os.walk(subdir):
for filename in filenames:
if(not re.match('.*.html', filename)):
continue
data = data_from_html(os.path.join(dirname, filename), outpath)
if(not data):
continue
testruns.append(data)
for key in desc:
if data[key] not in desc[key]:
desc[key].append(data[key])
outfile = os.path.join(outpath, 'summary.html')
pprint('Summary file: %s' % outfile)
if len(desc['host']) == len(desc['mode']) == len(desc['kernel']) == 1:
title = '%s %s %s' % (desc['host'][0], desc['kernel'][0], desc['mode'][0])
else:
title = inpath
createHTMLSummarySimple(testruns, outfile, title)
# Function: checkArgBool
# Description:
# check if a boolean string value is true or false
def checkArgBool(name, value):
if value in switchvalues:
if value in switchoff:
return False
return True
doError('invalid boolean --> (%s: %s), use "true/false" or "1/0"' % (name, value), True)
return False
# Function: configFromFile
# Description:
# Configure the script via the info in a config file
def configFromFile(file):
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()
option = opt.lower()
if(option == 'verbose'):
sysvals.verbose = checkArgBool(option, value)
elif(option == 'addlogs'):
sysvals.dmesglog = sysvals.ftracelog = checkArgBool(option, value)
elif(option == 'dev'):
sysvals.usedevsrc = checkArgBool(option, value)
elif(option == 'proc'):
sysvals.useprocmon = checkArgBool(option, value)
elif(option == 'x2'):
if checkArgBool(option, value):
sysvals.execcount = 2
elif(option == 'callgraph'):
sysvals.usecallgraph = checkArgBool(option, value)
elif(option == 'override-timeline-functions'):
overridekprobes = checkArgBool(option, value)
elif(option == 'override-dev-timeline-functions'):
overridedevkprobes = checkArgBool(option, value)
elif(option == 'skiphtml'):
sysvals.skiphtml = checkArgBool(option, value)
elif(option == 'sync'):
sysvals.sync = checkArgBool(option, value)
elif(option == 'rs' or option == 'runtimesuspend'):
if value in switchvalues:
if value in switchoff:
sysvals.rs = -1
else:
sysvals.rs = 1
else:
doError('invalid value --> (%s: %s), use "enable/disable"' % (option, value), True)
elif(option == 'display'):
disopt = ['on', 'off', 'standby', 'suspend']
if value not in disopt:
doError('invalid value --> (%s: %s), use %s' % (option, value, disopt), True)
sysvals.display = value
elif(option == 'gzip'):
sysvals.gzip = checkArgBool(option, value)
elif(option == 'cgfilter'):
sysvals.setCallgraphFilter(value)
elif(option == 'cgskip'):
if value in switchoff:
sysvals.cgskip = ''
else:
sysvals.cgskip = sysvals.configFile(val)
if(not sysvals.cgskip):
doError('%s does not exist' % sysvals.cgskip)
elif(option == 'cgtest'):
sysvals.cgtest = getArgInt('cgtest', value, 0, 1, False)
elif(option == 'cgphase'):
d = Data(0)
if value not in d.sortedPhases():
doError('invalid phase --> (%s: %s), valid phases are %s'\
% (option, value, d.sortedPhases()), True)
sysvals.cgphase = value
elif(option == 'fadd'):
file = sysvals.configFile(value)
if(not file):
doError('%s does not exist' % value)
sysvals.addFtraceFilterFunctions(file)
elif(option == 'result'):
sysvals.result = value
elif(option == 'multi'):
nums = value.split()
if len(nums) != 2:
doError('multi requires 2 integers (exec_count and delay)', True)
sysvals.multitest['run'] = True
sysvals.multitest['count'] = getArgInt('multi: n d (exec count)', nums[0], 2, 1000000, False)
sysvals.multitest['delay'] = getArgInt('multi: n d (delay between tests)', nums[1], 0, 3600, False)
elif(option == 'devicefilter'):
sysvals.setDeviceFilter(value)
elif(option == 'expandcg'):
sysvals.cgexp = checkArgBool(option, value)
elif(option == 'srgap'):
if checkArgBool(option, value):
sysvals.srgap = 5
elif(option == 'mode'):
sysvals.suspendmode = value
elif(option == 'command' or option == 'cmd'):
sysvals.testcommand = value
elif(option == 'x2delay'):
sysvals.x2delay = getArgInt('x2delay', value, 0, 60000, False)
elif(option == 'predelay'):
sysvals.predelay = getArgInt('predelay', value, 0, 60000, False)
elif(option == 'postdelay'):
sysvals.postdelay = getArgInt('postdelay', value, 0, 60000, False)
elif(option == 'maxdepth'):
sysvals.max_graph_depth = getArgInt('maxdepth', value, 0, 1000, False)
elif(option == 'rtcwake'):
if value in switchoff:
sysvals.rtcwake = False
else:
sysvals.rtcwake = True
sysvals.rtcwaketime = getArgInt('rtcwake', value, 0, 3600, False)
elif(option == 'timeprec'):
sysvals.setPrecision(getArgInt('timeprec', value, 0, 6, False))
elif(option == 'mindev'):
sysvals.mindevlen = getArgFloat('mindev', value, 0.0, 10000.0, False)
elif(option == 'callloop-maxgap'):
sysvals.callloopmaxgap = getArgFloat('callloop-maxgap', value, 0.0, 1.0, False)
elif(option == 'callloop-maxlen'):
sysvals.callloopmaxgap = getArgFloat('callloop-maxlen', value, 0.0, 1.0, False)
elif(option == 'mincg'):
sysvals.mincglen = getArgFloat('mincg', value, 0.0, 10000.0, False)
elif(option == 'bufsize'):
sysvals.bufsize = getArgInt('bufsize', value, 1, 1024*1024*8, False)
elif(option == 'output-dir'):
sysvals.outdir = sysvals.setOutputFolder(value)
if sysvals.suspendmode == 'command' and not sysvals.testcommand:
doError('No command supplied for mode "command"')
# compatibility errors
if sysvals.usedevsrc and sysvals.usecallgraph:
doError('-dev is not compatible with -f')
if sysvals.usecallgraph and sysvals.useprocmon:
doError('-proc is not compatible with -f')
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))
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)
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))
if (dev and name in sysvals.dev_tracefuncs) or (not dev and name in sysvals.tracefuncs):
doError('Duplicate timeline function found "%s"' % (name))
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():
pprint('\n%s v%s\n'\
'Usage: sudo sleepgraph <options> <commands>\n'\
'\n'\
'Description:\n'\
' This tool is designed to assist kernel and OS developers in optimizing\n'\
' their linux stack\'s suspend/resume time. Using a kernel image built\n'\
' with a few extra options enabled, the tool will execute a suspend and\n'\
' capture dmesg and ftrace data until resume is complete. This data is\n'\
' transformed into a device timeline and an optional callgraph to give\n'\
' a detailed view of which devices/subsystems are taking the most\n'\
' time in suspend/resume.\n'\
'\n'\
' If no specific command is given, the default behavior is to initiate\n'\
' a suspend/resume and capture the dmesg/ftrace output as an html timeline.\n'\
'\n'\
' Generates output files in subdirectory: suspend-yymmdd-HHMMSS\n'\
' HTML output: <hostname>_<mode>.html\n'\
' raw dmesg output: <hostname>_<mode>_dmesg.txt\n'\
' raw ftrace output: <hostname>_<mode>_ftrace.txt\n'\
'\n'\
'Options:\n'\
' -h Print this help text\n'\
' -v Print the current tool version\n'\
' -config fn Pull arguments and config options from file fn\n'\
' -verbose Print extra information during execution and analysis\n'\
' -m mode Mode to initiate for suspend (default: %s)\n'\
' -o name Overrides the output subdirectory name when running a new test\n'\
' default: suspend-{date}-{time}\n'\
' -rtcwake t Wakeup t seconds after suspend, set t to "off" to disable (default: 15)\n'\
' -addlogs Add the dmesg and ftrace logs to the html output\n'\
' -srgap Add a visible gap in the timeline between sus/res (default: disabled)\n'\
' -skiphtml Run the test and capture the trace logs, but skip the timeline (default: disabled)\n'\
' -result fn Export a results table to a text file for parsing.\n'\
' [testprep]\n'\
' -sync Sync the filesystems before starting the test\n'\
' -rs on/off Enable/disable runtime suspend for all devices, restore all after test\n'\
' -display m Change the display mode to m for the test (on/off/standby/suspend)\n'\
' [advanced]\n'\
' -gzip Gzip the trace and dmesg logs to save space\n'\
' -cmd {s} Run the timeline over a custom command, e.g. "sync -d"\n'\
' -proc Add usermode process info into the timeline (default: disabled)\n'\
' -dev Add kernel function calls and threads to the timeline (default: disabled)\n'\
' -x2 Run two suspend/resumes back to back (default: disabled)\n'\
' -x2delay t Include t ms delay between multiple test runs (default: 0 ms)\n'\
' -predelay t Include t ms delay before 1st suspend (default: 0 ms)\n'\
' -postdelay t Include t ms delay after last resume (default: 0 ms)\n'\
' -mindev ms Discard all device blocks shorter than ms milliseconds (e.g. 0.001 for us)\n'\
' -multi n d Execute <n> consecutive tests at <d> seconds intervals. The outputs will\n'\
' be created in a new subdirectory with a summary page.\n'\
' [debug]\n'\
' -f Use ftrace to create device callgraphs (default: disabled)\n'\
' -maxdepth N limit the callgraph data to N call levels (default: 0=all)\n'\
' -expandcg pre-expand the callgraph data in the html output (default: disabled)\n'\
' -fadd file Add functions to be graphed in the timeline from a list in a text file\n'\
' -filter "d1,d2,..." Filter out all but this comma-delimited list of device names\n'\
' -mincg ms Discard all callgraphs shorter than ms milliseconds (e.g. 0.001 for us)\n'\
' -cgphase P Only show callgraph data for phase P (e.g. suspend_late)\n'\
' -cgtest N Only show callgraph data for test N (e.g. 0 or 1 in an x2 run)\n'\
' -timeprec N Number of significant digits in timestamps (0:S, [3:ms], 6:us)\n'\
' -cgfilter S Filter the callgraph output in the timeline\n'\
' -cgskip file Callgraph functions to skip, off to disable (default: cgskip.txt)\n'\
' -bufsize N Set trace buffer size to N kilo-bytes (default: all of free memory)\n'\
' -devdump Print out all the raw device data for each phase\n'\
' -cgdump Print out all the raw callgraph data\n'\
'\n'\
'Other commands:\n'\
' -modes List available suspend modes\n'\
' -status Test to see if the system is enabled to run this tool\n'\
' -fpdt Print out the contents of the ACPI Firmware Performance Data Table\n'\
' -battery Print out battery info (if available)\n'\
' -x<mode> Test xset by toggling the given mode (on/off/standby/suspend)\n'\
' -sysinfo Print out system info extracted from BIOS\n'\
' -devinfo Print out the pm settings of all devices which support runtime suspend\n'\
' -flist Print the list of functions currently being captured in ftrace\n'\
' -flistall Print all functions capable of being captured in ftrace\n'\
' -summary dir Create a summary of tests in this dir [-genhtml builds missing html]\n'\
' [redo]\n'\
' -ftrace ftracefile Create HTML output using ftrace input (used with -dmesg)\n'\
' -dmesg dmesgfile Create HTML output using dmesg (used with -ftrace)\n'\
'' % (sysvals.title, sysvals.version, sysvals.suspendmode))
return True
# ----------------- MAIN --------------------
# exec start (skipped if script is loaded as library)
if __name__ == '__main__':
genhtml = False
cmd = ''
simplecmds = ['-sysinfo', '-modes', '-fpdt', '-flist', '-flistall',
'-devinfo', '-status', '-battery', '-xon', '-xoff', '-xstandby',
'-xsuspend', '-xinit', '-xreset', '-xstat']
if '-f' in sys.argv:
sysvals.cgskip = sysvals.configFile('cgskip.txt')
# 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(0)
elif(arg == '-v'):
pprint("Version %s" % sysvals.version)
sys.exit(0)
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 == '-skiphtml'):
sysvals.skiphtml = True
elif(arg == '-cgdump'):
sysvals.cgdump = True
elif(arg == '-devdump'):
sysvals.devdump = True
elif(arg == '-genhtml'):
genhtml = True
elif(arg == '-addlogs'):
sysvals.dmesglog = sysvals.ftracelog = True
elif(arg == '-addlogdmesg'):
sysvals.dmesglog = True
elif(arg == '-addlogftrace'):
sysvals.ftracelog = True
elif(arg == '-verbose'):
sysvals.verbose = True
elif(arg == '-proc'):
sysvals.useprocmon = True
elif(arg == '-dev'):
sysvals.usedevsrc = True
elif(arg == '-sync'):
sysvals.sync = True
elif(arg == '-gzip'):
sysvals.gzip = True
elif(arg == '-rs'):
try:
val = args.next()
except:
doError('-rs requires "enable" or "disable"', True)
if val.lower() in switchvalues:
if val.lower() in switchoff:
sysvals.rs = -1
else:
sysvals.rs = 1
else:
doError('invalid option: %s, use "enable/disable" or "on/off"' % val, True)
elif(arg == '-display'):
try:
val = args.next()
except:
doError('-display requires an mode value', True)
disopt = ['on', 'off', 'standby', 'suspend']
if val.lower() not in disopt:
doError('valid display mode values are %s' % disopt, True)
sysvals.display = val.lower()
elif(arg == '-maxdepth'):
sysvals.max_graph_depth = getArgInt('-maxdepth', args, 0, 1000)
elif(arg == '-rtcwake'):
try:
val = args.next()
except:
doError('No rtcwake time supplied', True)
if val.lower() in switchoff:
sysvals.rtcwake = False
else:
sysvals.rtcwake = True
sysvals.rtcwaketime = getArgInt('-rtcwake', val, 0, 3600, False)
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 == '-bufsize'):
sysvals.bufsize = getArgInt('-bufsize', args, 1, 1024*1024*8)
elif(arg == '-cgtest'):
sysvals.cgtest = getArgInt('-cgtest', args, 0, 1)
elif(arg == '-cgphase'):
try:
val = args.next()
except:
doError('No phase name supplied', True)
d = Data(0)
if val not in d.phasedef:
doError('invalid phase --> (%s: %s), valid phases are %s'\
% (arg, val, d.phasedef.keys()), True)
sysvals.cgphase = val
elif(arg == '-cgfilter'):
try:
val = args.next()
except:
doError('No callgraph functions supplied', True)
sysvals.setCallgraphFilter(val)
elif(arg == '-cgskip'):
try:
val = args.next()
except:
doError('No file supplied', True)
if val.lower() in switchoff:
sysvals.cgskip = ''
else:
sysvals.cgskip = sysvals.configFile(val)
if(not sysvals.cgskip):
doError('%s does not exist' % sysvals.cgskip)
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'):
sysvals.multitest['run'] = True
sysvals.multitest['count'] = getArgInt('-multi n d (exec count)', args, 2, 1000000)
sysvals.multitest['delay'] = getArgInt('-multi n d (delay between tests)', args, 0, 3600)
elif(arg == '-o'):
try:
val = args.next()
except:
doError('No subdirectory name supplied', True)
sysvals.outdir = sysvals.setOutputFolder(val)
elif(arg == '-config'):
try:
val = args.next()
except:
doError('No text file supplied', True)
file = sysvals.configFile(val)
if(not file):
doError('%s does not exist' % val)
configFromFile(file)
elif(arg == '-fadd'):
try:
val = args.next()
except:
doError('No text file supplied', True)
file = sysvals.configFile(val)
if(not file):
doError('%s does not exist' % val)
sysvals.addFtraceFilterFunctions(file)
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)
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)
elif(arg == '-summary'):
try:
val = args.next()
except:
doError('No directory supplied', True)
cmd = 'summary'
sysvals.outdir = val
sysvals.notestrun = True
if(os.path.isdir(val) == False):
doError('%s is not accesible' % val)
elif(arg == '-filter'):
try:
val = args.next()
except:
doError('No devnames supplied', True)
sysvals.setDeviceFilter(val)
elif(arg == '-result'):
try:
val = args.next()
except:
doError('No result file supplied', True)
sysvals.result = val
sysvals.signalHandlerInit()
else:
doError('Invalid argument: '+arg, True)
# compatibility errors
if(sysvals.usecallgraph and sysvals.usedevsrc):
doError('-dev is not compatible with -f')
if(sysvals.usecallgraph and sysvals.useprocmon):
doError('-proc is not compatible with -f')
if sysvals.usecallgraph and sysvals.cgskip:
sysvals.vprint('Using cgskip file: %s' % sysvals.cgskip)
sysvals.setCallgraphBlacklist(sysvals.cgskip)
# callgraph size cannot exceed device size
if sysvals.mincglen < sysvals.mindevlen:
sysvals.mincglen = sysvals.mindevlen
# remove existing buffers before calculating memory
if(sysvals.usecallgraph or sysvals.usedevsrc):
sysvals.fsetVal('16', 'buffer_size_kb')
sysvals.cpuInfo()
# just run a utility command and exit
if(cmd != ''):
ret = 0
if(cmd == 'status'):
if not statusCheck(True):
ret = 1
elif(cmd == 'fpdt'):
if not getFPDT(True):
ret = 1
elif(cmd == 'battery'):
out = getBattery()
if out:
pprint('AC Connect : %s\nBattery Charge: %d' % out)
else:
pprint('no battery found')
ret = 1
elif(cmd == 'sysinfo'):
sysvals.printSystemInfo(True)
elif(cmd == 'devinfo'):
deviceInfo()
elif(cmd == 'modes'):
print getModes()
elif(cmd == 'flist'):
sysvals.getFtraceFilterFunctions(True)
elif(cmd == 'flistall'):
sysvals.getFtraceFilterFunctions(False)
elif(cmd == 'summary'):
runSummary(sysvals.outdir, True, genhtml)
elif(cmd in ['xon', 'xoff', 'xstandby', 'xsuspend', 'xinit', 'xreset']):
sysvals.verbose = True
ret = displayControl(cmd[1:])
elif(cmd == 'xstat'):
pprint('Display Status: %s' % displayControl('stat').upper())
sys.exit(ret)
# if instructed, re-analyze existing data files
if(sysvals.notestrun):
stamp = rerunTest()
sysvals.outputResult(stamp)
sys.exit(0)
# verify that we can run a test
error = statusCheck()
if(error):
doError(error)
# extract mem/disk extra modes and convert
mode = sysvals.suspendmode
if mode.startswith('mem'):
memmode = mode.split('-', 1)[-1] if '-' in mode else 'deep'
if memmode == 'shallow':
mode = 'standby'
elif memmode == 's2idle':
mode = 'freeze'
else:
mode = 'mem'
sysvals.memmode = memmode
sysvals.suspendmode = mode
if mode.startswith('disk-'):
sysvals.diskmode = mode.split('-', 1)[-1]
sysvals.suspendmode = 'disk'
sysvals.systemInfo(dmidecode(sysvals.mempath))
setRuntimeSuspend(True)
if sysvals.display:
displayControl('init')
ret = 0
if sysvals.multitest['run']:
# run multiple tests in a separate subdirectory
if not sysvals.outdir:
s = 'suspend-x%d' % sysvals.multitest['count']
sysvals.outdir = datetime.now().strftime(s+'-%y%m%d-%H%M%S')
if not os.path.isdir(sysvals.outdir):
os.mkdir(sysvals.outdir)
for i in range(sysvals.multitest['count']):
if(i != 0):
pprint('Waiting %d seconds...' % (sysvals.multitest['delay']))
time.sleep(sysvals.multitest['delay'])
pprint('TEST (%d/%d) START' % (i+1, sysvals.multitest['count']))
fmt = 'suspend-%y%m%d-%H%M%S'
sysvals.testdir = os.path.join(sysvals.outdir, datetime.now().strftime(fmt))
ret = runTest(i+1)
pprint('TEST (%d/%d) COMPLETE' % (i+1, sysvals.multitest['count']))
sysvals.logmsg = ''
if not sysvals.skiphtml:
runSummary(sysvals.outdir, False, False)
sysvals.sudoUserchown(sysvals.outdir)
else:
if sysvals.outdir:
sysvals.testdir = sysvals.outdir
# run the test in the current directory
ret = runTest()
if sysvals.display:
displayControl('reset')
setRuntimeSuspend(False)
sys.exit(ret)
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