gecko-dev/build/mobile/remoteautomation.py

396 lines
16 KiB
Python

# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
import glob
import time
import re
import os
import tempfile
import shutil
import subprocess
import sys
from automation import Automation
from devicemanager import DMError
from mozlog.structured import get_default_logger
import mozcrash
# signatures for logcat messages that we don't care about much
fennecLogcatFilters = [ "The character encoding of the HTML document was not declared",
"Use of Mutation Events is deprecated. Use MutationObserver instead.",
"Unexpected value from nativeGetEnabledTags: 0" ]
class RemoteAutomation(Automation):
_devicemanager = None
def __init__(self, deviceManager, appName = '', remoteLog = None,
processArgs=None):
self._devicemanager = deviceManager
self._appName = appName
self._remoteProfile = None
self._remoteLog = remoteLog
self._processArgs = processArgs or {};
# Default our product to fennec
self._product = "fennec"
self.lastTestSeen = "remoteautomation.py"
Automation.__init__(self)
def setDeviceManager(self, deviceManager):
self._devicemanager = deviceManager
def setAppName(self, appName):
self._appName = appName
def setRemoteProfile(self, remoteProfile):
self._remoteProfile = remoteProfile
def setProduct(self, product):
self._product = product
def setRemoteLog(self, logfile):
self._remoteLog = logfile
# Set up what we need for the remote environment
def environment(self, env=None, xrePath=None, crashreporter=True, debugger=False, dmdPath=None, lsanPath=None):
# Because we are running remote, we don't want to mimic the local env
# so no copying of os.environ
if env is None:
env = {}
if dmdPath:
env['DMD'] = '1'
env['MOZ_REPLACE_MALLOC_LIB'] = os.path.join(dmdPath, 'libdmd.so')
# Except for the mochitest results table hiding option, which isn't
# passed to runtestsremote.py as an actual option, but through the
# MOZ_HIDE_RESULTS_TABLE environment variable.
if 'MOZ_HIDE_RESULTS_TABLE' in os.environ:
env['MOZ_HIDE_RESULTS_TABLE'] = os.environ['MOZ_HIDE_RESULTS_TABLE']
if crashreporter and not debugger:
env['MOZ_CRASHREPORTER_NO_REPORT'] = '1'
env['MOZ_CRASHREPORTER'] = '1'
else:
env['MOZ_CRASHREPORTER_DISABLE'] = '1'
# Crash on non-local network connections by default.
# MOZ_DISABLE_NONLOCAL_CONNECTIONS can be set to "0" to temporarily
# enable non-local connections for the purposes of local testing.
# Don't override the user's choice here. See bug 1049688.
env.setdefault('MOZ_DISABLE_NONLOCAL_CONNECTIONS', '1')
return env
def waitForFinish(self, proc, utilityPath, timeout, maxTime, startTime, debuggerInfo, symbolsPath):
""" Wait for tests to finish.
If maxTime seconds elapse or no output is detected for timeout
seconds, kill the process and fail the test.
"""
# maxTime is used to override the default timeout, we should honor that
status = proc.wait(timeout = maxTime, noOutputTimeout = timeout)
self.lastTestSeen = proc.getLastTestSeen
topActivity = self._devicemanager.getTopActivity()
if topActivity == proc.procName:
proc.kill(True)
if status == 1:
if maxTime:
print "TEST-UNEXPECTED-FAIL | %s | application ran for longer than " \
"allowed maximum time of %s seconds" % (self.lastTestSeen, maxTime)
else:
print "TEST-UNEXPECTED-FAIL | %s | application ran for longer than " \
"allowed maximum time" % (self.lastTestSeen)
if status == 2:
print "TEST-UNEXPECTED-FAIL | %s | application timed out after %d seconds with no output" \
% (self.lastTestSeen, int(timeout))
return status
def deleteANRs(self):
# empty ANR traces.txt file; usually need root permissions
# we make it empty and writable so we can test the ANR reporter later
traces = "/data/anr/traces.txt"
try:
self._devicemanager.shellCheckOutput(['echo', '', '>', traces], root=True)
self._devicemanager.shellCheckOutput(['chmod', '666', traces], root=True)
except DMError:
print "Error deleting %s" % traces
pass
def checkForANRs(self):
traces = "/data/anr/traces.txt"
if self._devicemanager.fileExists(traces):
try:
t = self._devicemanager.pullFile(traces)
print "Contents of %s:" % traces
print t
# Once reported, delete traces
self.deleteANRs()
except DMError:
print "Error pulling %s" % traces
except IOError:
print "Error pulling %s" % traces
else:
print "%s not found" % traces
def deleteTombstones(self):
# delete any existing tombstone files from device
remoteDir = "/data/tombstones"
try:
self._devicemanager.shellCheckOutput(['rm', '-r', remoteDir], root=True)
except DMError:
# This may just indicate that the tombstone directory is missing
pass
def checkForTombstones(self):
# pull any tombstones from device and move to MOZ_UPLOAD_DIR
remoteDir = "/data/tombstones"
blobberUploadDir = os.environ.get('MOZ_UPLOAD_DIR', None)
if blobberUploadDir:
if not os.path.exists(blobberUploadDir):
os.mkdir(blobberUploadDir)
if self._devicemanager.dirExists(remoteDir):
# copy tombstone files from device to local blobber upload directory
try:
self._devicemanager.shellCheckOutput(['chmod', '777', remoteDir], root=True)
self._devicemanager.shellCheckOutput(['chmod', '666', os.path.join(remoteDir, '*')], root=True)
self._devicemanager.getDirectory(remoteDir, blobberUploadDir, False)
except DMError:
# This may just indicate that no tombstone files are present
pass
self.deleteTombstones()
# add a .txt file extension to each tombstone file name, so
# that blobber will upload it
for f in glob.glob(os.path.join(blobberUploadDir, "tombstone_??")):
# add a unique integer to the file name, in case there are
# multiple tombstones generated with the same name, for
# instance, after multiple robocop tests
for i in xrange(1, sys.maxint):
newname = "%s.%d.txt" % (f, i)
if not os.path.exists(newname):
os.rename(f, newname)
break
else:
print "%s does not exist; tombstone check skipped" % remoteDir
else:
print "MOZ_UPLOAD_DIR not defined; tombstone check skipped"
def checkForCrashes(self, directory, symbolsPath):
self.checkForANRs()
self.checkForTombstones()
logcat = self._devicemanager.getLogcat(filterOutRegexps=fennecLogcatFilters)
javaException = mozcrash.check_for_java_exception(logcat)
if javaException:
return True
# If crash reporting is disabled (MOZ_CRASHREPORTER!=1), we can't say
# anything.
if not self.CRASHREPORTER:
return False
try:
dumpDir = tempfile.mkdtemp()
remoteCrashDir = self._remoteProfile + '/minidumps/'
if not self._devicemanager.dirExists(remoteCrashDir):
# If crash reporting is enabled (MOZ_CRASHREPORTER=1), the
# minidumps directory is automatically created when Fennec
# (first) starts, so its lack of presence is a hint that
# something went wrong.
print "Automation Error: No crash directory (%s) found on remote device" % remoteCrashDir
# Whilst no crash was found, the run should still display as a failure
return True
self._devicemanager.getDirectory(remoteCrashDir, dumpDir)
logger = get_default_logger()
if logger is not None:
crashed = mozcrash.log_crashes(logger, dumpDir, symbolsPath, test=self.lastTestSeen)
else:
crashed = Automation.checkForCrashes(self, dumpDir, symbolsPath)
finally:
try:
shutil.rmtree(dumpDir)
except:
print "WARNING: unable to remove directory: %s" % dumpDir
return crashed
def buildCommandLine(self, app, debuggerInfo, profileDir, testURL, extraArgs):
# If remote profile is specified, use that instead
if (self._remoteProfile):
profileDir = self._remoteProfile
# Hack for robocop, if app & testURL == None and extraArgs contains the rest of the stuff, lets
# assume extraArgs is all we need
if app == "am" and extraArgs[0] == "instrument":
return app, extraArgs
cmd, args = Automation.buildCommandLine(self, app, debuggerInfo, profileDir, testURL, extraArgs)
# Remove -foreground if it exists, if it doesn't this just returns
try:
args.remove('-foreground')
except:
pass
#TODO: figure out which platform require NO_EM_RESTART
# return app, ['--environ:NO_EM_RESTART=1'] + args
return app, args
def Process(self, cmd, stdout = None, stderr = None, env = None, cwd = None):
if stdout == None or stdout == -1 or stdout == subprocess.PIPE:
stdout = self._remoteLog
return self.RProcess(self._devicemanager, cmd, stdout, stderr, env, cwd, self._appName,
**self._processArgs)
# be careful here as this inner class doesn't have access to outer class members
class RProcess(object):
# device manager process
dm = None
def __init__(self, dm, cmd, stdout=None, stderr=None, env=None, cwd=None, app=None,
messageLogger=None):
self.dm = dm
self.stdoutlen = 0
self.lastTestSeen = "remoteautomation.py"
self.proc = dm.launchProcess(cmd, stdout, cwd, env, True)
self.messageLogger = messageLogger
if (self.proc is None):
if cmd[0] == 'am':
self.proc = stdout
else:
raise Exception("unable to launch process")
self.procName = cmd[0].split('/')[-1]
if cmd[0] == 'am' and cmd[1] == "instrument":
self.procName = app
print "Robocop process name: "+self.procName
# Setting timeout at 1 hour since on a remote device this takes much longer
self.timeout = 3600
# The benefit of the following sleep is unclear; it was formerly 15 seconds
time.sleep(1)
# Used to buffer log messages until we meet a line break
self.logBuffer = ""
@property
def pid(self):
pid = self.dm.processExist(self.procName)
# HACK: we should probably be more sophisticated about monitoring
# running processes for the remote case, but for now we'll assume
# that this method can be called when nothing exists and it is not
# an error
if pid is None:
return 0
return pid
def read_stdout(self):
""" Fetch the full remote log file using devicemanager and return just
the new log entries since the last call (as a list of messages or lines).
"""
if not self.dm.fileExists(self.proc):
return []
try:
newLogContent = self.dm.pullFile(self.proc, self.stdoutlen)
except DMError:
# we currently don't retry properly in the pullFile
# function in dmSUT, so an error here is not necessarily
# the end of the world
return []
if not newLogContent:
return []
self.stdoutlen += len(newLogContent)
if self.messageLogger is None:
testStartFilenames = re.findall(r"TEST-START \| ([^\s]*)", newLogContent)
if testStartFilenames:
self.lastTestSeen = testStartFilenames[-1]
print newLogContent
return [newLogContent]
self.logBuffer += newLogContent
lines = self.logBuffer.split('\n')
if not lines:
return
# We only keep the last (unfinished) line in the buffer
self.logBuffer = lines[-1]
del lines[-1]
messages = []
for line in lines:
# This passes the line to the logger (to be logged or buffered)
# and returns a list of structured messages (dict)
parsed_messages = self.messageLogger.write(line)
for message in parsed_messages:
if message['action'] == 'test_start':
self.lastTestSeen = message['test']
messages += parsed_messages
return messages
@property
def getLastTestSeen(self):
return self.lastTestSeen
# Wait for the remote process to end (or for its activity to go to background).
# While waiting, periodically retrieve the process output and print it.
# If the process is still running after *timeout* seconds, return 1;
# If the process is still running but no output is received in *noOutputTimeout*
# seconds, return 2;
# Else, once the process exits/goes to background, return 0.
def wait(self, timeout = None, noOutputTimeout = None):
timer = 0
noOutputTimer = 0
interval = 20
if timeout == None:
timeout = self.timeout
status = 0
while (self.dm.getTopActivity() == self.procName):
# retrieve log updates every 60 seconds
if timer % 60 == 0:
messages = self.read_stdout()
if messages:
noOutputTimer = 0
time.sleep(interval)
timer += interval
noOutputTimer += interval
if (timer > timeout):
status = 1
break
if (noOutputTimeout and noOutputTimer > noOutputTimeout):
status = 2
break
# Flush anything added to stdout during the sleep
self.read_stdout()
return status
def kill(self, stagedShutdown = False):
if stagedShutdown:
# Trigger an ANR report with "kill -3" (SIGQUIT)
self.dm.killProcess(self.procName, 3)
time.sleep(3)
# Trigger a breakpad dump with "kill -6" (SIGABRT)
self.dm.killProcess(self.procName, 6)
# Wait for process to end
retries = 0
while retries < 3:
pid = self.dm.processExist(self.procName)
if pid and pid > 0:
print "%s still alive after SIGABRT: waiting..." % self.procName
time.sleep(5)
else:
return
retries += 1
self.dm.killProcess(self.procName, 9)
pid = self.dm.processExist(self.procName)
if pid and pid > 0:
self.dm.killProcess(self.procName)
else:
self.dm.killProcess(self.procName)