build/automationutils.py
author Gregory Szorc <gps@mozilla.com>
Wed, 28 Jan 2015 13:37:00 -0800
branchCAL130_20120427_RELBRANCH
changeset 120182 cbd207860d1f832b35e33fa58b1ce86329eada6f
parent 91805 4b9fb42c0d52def41cd51c849920f38308baeb61
child 92221 9e63a64ef822fe0155cce7a74e8953325113d2b2
child 96546 3e1e3e341477798e5cbd5445a2cb867002c370b0
permissions -rw-r--r--
Close old release branch CAL130_20120427_RELBRANCH

#
# ***** BEGIN LICENSE BLOCK *****
# Version: MPL 1.1/GPL 2.0/LGPL 2.1
#
# The contents of this file are subject to the Mozilla Public License Version
# 1.1 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
# http://www.mozilla.org/MPL/
#
# Software distributed under the License is distributed on an "AS IS" basis,
# WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
# for the specific language governing rights and limitations under the
# License.
#
# The Original Code is mozilla.org code.
#
# The Initial Developer of the Original Code is The Mozilla Foundation
# Portions created by the Initial Developer are Copyright (C) 2009
# the Initial Developer. All Rights Reserved.
#
# Contributor(s):
#   Serge Gautherie <sgautherie.bz@free.fr>
#   Ted Mielczarek <ted.mielczarek@gmail.com>
#
# Alternatively, the contents of this file may be used under the terms of
# either the GNU General Public License Version 2 or later (the "GPL"), or
# the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
# in which case the provisions of the GPL or the LGPL are applicable instead
# of those above. If you wish to allow use of your version of this file only
# under the terms of either the GPL or the LGPL, and not to allow others to
# use your version of this file under the terms of the MPL, indicate your
# decision by deleting the provisions above and replace them with the notice
# and other provisions required by the GPL or the LGPL. If you do not delete
# the provisions above, a recipient may use your version of this file under
# the terms of any one of the MPL, the GPL or the LGPL.
#
# ***** END LICENSE BLOCK ***** */

from __future__ import with_statement
import glob, logging, os, platform, shutil, subprocess, sys, tempfile, urllib2, zipfile
import re
from urlparse import urlparse
from operator import itemgetter

__all__ = [
  "ZipFileReader",
  "addCommonOptions",
  "checkForCrashes",
  "dumpLeakLog",
  "isURL",
  "processLeakLog",
  "getDebuggerInfo",
  "DEBUGGER_INFO",
  "replaceBackSlashes",
  "wrapCommand",
  "ShutdownLeakLogger"
  ]

# Map of debugging programs to information about them, like default arguments
# and whether or not they are interactive.
DEBUGGER_INFO = {
  # gdb requires that you supply the '--args' flag in order to pass arguments
  # after the executable name to the executable.
  "gdb": {
    "interactive": True,
    "args": "-q --args"
  },

  # valgrind doesn't explain much about leaks unless you set the
  # '--leak-check=full' flag.
  "valgrind": {
    "interactive": False,
    "args": "--leak-check=full"
  }
}

class ZipFileReader(object):
  """
  Class to read zip files in Python 2.5 and later. Limited to only what we
  actually use.
  """

  def __init__(self, filename):
    self._zipfile = zipfile.ZipFile(filename, "r")

  def __del__(self):
    self._zipfile.close()

  def _getnormalizedpath(self, path):
    """
    Gets a normalized path from 'path' (or the current working directory if
    'path' is None). Also asserts that the path exists.
    """
    if path is None:
      path = os.curdir
    path = os.path.normpath(os.path.expanduser(path))
    assert os.path.isdir(path)
    return path

  def _extractname(self, name, path):
    """
    Extracts a file with the given name from the zip file to the given path.
    Also creates any directories needed along the way.
    """
    filename = os.path.normpath(os.path.join(path, name))
    if name.endswith("/"):
      os.makedirs(filename)
    else:
      path = os.path.split(filename)[0]
      if not os.path.isdir(path):
        os.makedirs(path)
      with open(filename, "wb") as dest:
        dest.write(self._zipfile.read(name))

  def namelist(self):
    return self._zipfile.namelist()

  def read(self, name):
    return self._zipfile.read(name)

  def extract(self, name, path = None):
    if hasattr(self._zipfile, "extract"):
      return self._zipfile.extract(name, path)

    # This will throw if name is not part of the zip file.
    self._zipfile.getinfo(name)

    self._extractname(name, self._getnormalizedpath(path))

  def extractall(self, path = None):
    if hasattr(self._zipfile, "extractall"):
      return self._zipfile.extractall(path)

    path = self._getnormalizedpath(path)

    for name in self._zipfile.namelist():
      self._extractname(name, path)

log = logging.getLogger()

def isURL(thing):
  """Return True if |thing| looks like a URL."""
  # We want to download URLs like http://... but not Windows paths like c:\...
  return len(urlparse(thing).scheme) >= 2

def addCommonOptions(parser, defaults={}):
  parser.add_option("--xre-path",
                    action = "store", type = "string", dest = "xrePath",
                    # individual scripts will set a sane default
                    default = None,
                    help = "absolute path to directory containing XRE (probably xulrunner)")
  if 'SYMBOLS_PATH' not in defaults:
    defaults['SYMBOLS_PATH'] = None
  parser.add_option("--symbols-path",
                    action = "store", type = "string", dest = "symbolsPath",
                    default = defaults['SYMBOLS_PATH'],
                    help = "absolute path to directory containing breakpad symbols, or the URL of a zip file containing symbols")
  parser.add_option("--debugger",
                    action = "store", dest = "debugger",
                    help = "use the given debugger to launch the application")
  parser.add_option("--debugger-args",
                    action = "store", dest = "debuggerArgs",
                    help = "pass the given args to the debugger _before_ "
                           "the application on the command line")
  parser.add_option("--debugger-interactive",
                    action = "store_true", dest = "debuggerInteractive",
                    help = "prevents the test harness from redirecting "
                        "stdout and stderr for interactive debuggers")

def checkForCrashes(dumpDir, symbolsPath, testName=None):
  stackwalkPath = os.environ.get('MINIDUMP_STACKWALK', None)
  # try to get the caller's filename if no test name is given
  if testName is None:
    try:
      testName = os.path.basename(sys._getframe(1).f_code.co_filename)
    except:
      testName = "unknown"

  # Check preconditions
  dumps = glob.glob(os.path.join(dumpDir, '*.dmp'))
  if len(dumps) == 0:
    return False

  foundCrash = False
  removeSymbolsPath = False

  # If our symbols are at a remote URL, download them now
  if isURL(symbolsPath):
    print "Downloading symbols from: " + symbolsPath
    removeSymbolsPath = True
    # Get the symbols and write them to a temporary zipfile
    data = urllib2.urlopen(symbolsPath)
    symbolsFile = tempfile.TemporaryFile()
    symbolsFile.write(data.read())
    # extract symbols to a temporary directory (which we'll delete after
    # processing all crashes)
    symbolsPath = tempfile.mkdtemp()
    zfile = ZipFileReader(symbolsFile)
    zfile.extractall(symbolsPath)

  try:
    for d in dumps:
      log.info("PROCESS-CRASH | %s | application crashed (minidump found)", testName)
      print "Crash dump filename: " + d
      if symbolsPath and stackwalkPath and os.path.exists(stackwalkPath):
        # run minidump stackwalk
        p = subprocess.Popen([stackwalkPath, d, symbolsPath],
                             stdout=subprocess.PIPE,
                             stderr=subprocess.PIPE)
        (out, err) = p.communicate()
        if len(out) > 3:
          # minidump_stackwalk is chatty, so ignore stderr when it succeeds.
          print out
        else:
          print "stderr from minidump_stackwalk:"
          print err
        if p.returncode != 0:
          print "minidump_stackwalk exited with return code %d" % p.returncode
      else:
        if not symbolsPath:
          print "No symbols path given, can't process dump."
        if not stackwalkPath:
          print "MINIDUMP_STACKWALK not set, can't process dump."
        elif stackwalkPath and not os.path.exists(stackwalkPath):
          print "MINIDUMP_STACKWALK binary not found: %s" % stackwalkPath
      dumpSavePath = os.environ.get('MINIDUMP_SAVE_PATH', None)
      if dumpSavePath:
        shutil.move(d, dumpSavePath)
        print "Saved dump as %s" % os.path.join(dumpSavePath,
                                                os.path.basename(d))
      else:
        os.remove(d)
      extra = os.path.splitext(d)[0] + ".extra"
      if os.path.exists(extra):
        os.remove(extra)
      foundCrash = True
  finally:
    if removeSymbolsPath:
      shutil.rmtree(symbolsPath)

  return foundCrash

def getFullPath(directory, path):
  "Get an absolute path relative to 'directory'."
  return os.path.normpath(os.path.join(directory, os.path.expanduser(path)))

def searchPath(directory, path):
  "Go one step beyond getFullPath and try the various folders in PATH"
  # Try looking in the current working directory first.
  newpath = getFullPath(directory, path)
  if os.path.isfile(newpath):
    return newpath

  # At this point we have to fail if a directory was given (to prevent cases
  # like './gdb' from matching '/usr/bin/./gdb').
  if not os.path.dirname(path):
    for dir in os.environ['PATH'].split(os.pathsep):
      newpath = os.path.join(dir, path)
      if os.path.isfile(newpath):
        return newpath
  return None

def getDebuggerInfo(directory, debugger, debuggerArgs, debuggerInteractive = False):

  debuggerInfo = None

  if debugger:
    debuggerPath = searchPath(directory, debugger)
    if not debuggerPath:
      print "Error: Path %s doesn't exist." % debugger
      sys.exit(1)

    debuggerName = os.path.basename(debuggerPath).lower()

    def getDebuggerInfo(type, default):
      if debuggerName in DEBUGGER_INFO and type in DEBUGGER_INFO[debuggerName]:
        return DEBUGGER_INFO[debuggerName][type]
      return default

    debuggerInfo = {
      "path": debuggerPath,
      "interactive" : getDebuggerInfo("interactive", False),
      "args": getDebuggerInfo("args", "").split()
    }

    if debuggerArgs:
      debuggerInfo["args"] = debuggerArgs.split()
    if debuggerInteractive:
      debuggerInfo["interactive"] = debuggerInteractive

  return debuggerInfo


def dumpLeakLog(leakLogFile, filter = False):
  """Process the leak log, without parsing it.

  Use this function if you want the raw log only.
  Use it preferably with the |XPCOM_MEM_LEAK_LOG| environment variable.
  """

  # Don't warn (nor "info") if the log file is not there.
  if not os.path.exists(leakLogFile):
    return

  leaks = open(leakLogFile, "r")
  leakReport = leaks.read()
  leaks.close()

  # Only |XPCOM_MEM_LEAK_LOG| reports can be actually filtered out.
  # Only check whether an actual leak was reported.
  if filter and not "0 TOTAL " in leakReport:
    return

  # Simply copy the log.
  log.info(leakReport.rstrip("\n"))

def processSingleLeakFile(leakLogFileName, PID, processType, leakThreshold):
  """Process a single leak log, corresponding to the specified
  process PID and type.
  """

  #                  Per-Inst  Leaked      Total  Rem ...
  #   0 TOTAL              17     192  419115886    2 ...
  # 833 nsTimerImpl        60     120      24726    2 ...
  lineRe = re.compile(r"^\s*\d+\s+(?P<name>\S+)\s+"
                      r"(?P<size>-?\d+)\s+(?P<bytesLeaked>-?\d+)\s+"
                      r"-?\d+\s+(?P<numLeaked>-?\d+)")

  processString = ""
  if PID and processType:
    processString = "| %s process %s " % (processType, PID)
  leaks = open(leakLogFileName, "r")
  for line in leaks:
    matches = lineRe.match(line)
    if (matches and
        int(matches.group("numLeaked")) == 0 and
        matches.group("name") != "TOTAL"):
      continue
    log.info(line.rstrip())
  leaks.close()

  leaks = open(leakLogFileName, "r")
  seenTotal = False
  crashedOnPurpose = False
  prefix = "TEST-PASS"
  numObjects = 0
  for line in leaks:
    if line.find("purposefully crash") > -1:
      crashedOnPurpose = True
    matches = lineRe.match(line)
    if not matches:
      continue
    name = matches.group("name")
    size = int(matches.group("size"))
    bytesLeaked = int(matches.group("bytesLeaked"))
    numLeaked = int(matches.group("numLeaked"))
    if size < 0 or bytesLeaked < 0 or numLeaked < 0:
      log.info("TEST-UNEXPECTED-FAIL %s| automationutils.processLeakLog() | negative leaks caught!" %
               processString)
      if name == "TOTAL":
        seenTotal = True
    elif name == "TOTAL":
      seenTotal = True
      # Check for leaks.
      if bytesLeaked < 0 or bytesLeaked > leakThreshold:
        prefix = "TEST-UNEXPECTED-FAIL"
        leakLog = "TEST-UNEXPECTED-FAIL %s| automationutils.processLeakLog() | leaked" \
                  " %d bytes during test execution" % (processString, bytesLeaked)
      elif bytesLeaked > 0:
        leakLog = "TEST-PASS %s| automationutils.processLeakLog() | WARNING leaked" \
                  " %d bytes during test execution" % (processString, bytesLeaked)
      else:
        leakLog = "TEST-PASS %s| automationutils.processLeakLog() | no leaks detected!" \
                  % processString
      # Remind the threshold if it is not 0, which is the default/goal.
      if leakThreshold != 0:
        leakLog += " (threshold set at %d bytes)" % leakThreshold
      # Log the information.
      log.info(leakLog)
    else:
      if numLeaked != 0:
        if numLeaked > 1:
          instance = "instances"
          rest = " each (%s bytes total)" % matches.group("bytesLeaked")
        else:
          instance = "instance"
          rest = ""
        numObjects += 1
        if numObjects > 5:
          # don't spam brief tinderbox logs with tons of leak output
          prefix = "TEST-INFO"
        log.info("%(prefix)s %(process)s| automationutils.processLeakLog() | leaked %(numLeaked)d %(instance)s of %(name)s "
                 "with size %(size)s bytes%(rest)s" %
                 { "prefix": prefix,
                   "process": processString,
                   "numLeaked": numLeaked,
                   "instance": instance,
                   "name": name,
                   "size": matches.group("size"),
                   "rest": rest })
  if not seenTotal:
    if crashedOnPurpose:
      log.info("INFO | automationutils.processLeakLog() | process %s was " \
               "deliberately crashed and thus has no leak log" % PID)
    else:
      log.info("TEST-UNEXPECTED-FAIL %s| automationutils.processLeakLog() | missing output line for total leaks!" %
             processString)
  leaks.close()


def processLeakLog(leakLogFile, leakThreshold = 0):
  """Process the leak log, including separate leak logs created
  by child processes.

  Use this function if you want an additional PASS/FAIL summary.
  It must be used with the |XPCOM_MEM_BLOAT_LOG| environment variable.
  """

  if not os.path.exists(leakLogFile):
    log.info("WARNING | automationutils.processLeakLog() | refcount logging is off, so leaks can't be detected!")
    return

  (leakLogFileDir, leakFileBase) = os.path.split(leakLogFile)
  pidRegExp = re.compile(r".*?_([a-z]*)_pid(\d*)$")
  if leakFileBase[-4:] == ".log":
    leakFileBase = leakFileBase[:-4]
    pidRegExp = re.compile(r".*?_([a-z]*)_pid(\d*).log$")

  for fileName in os.listdir(leakLogFileDir):
    if fileName.find(leakFileBase) != -1:
      thisFile = os.path.join(leakLogFileDir, fileName)
      processPID = 0
      processType = None
      m = pidRegExp.search(fileName)
      if m:
        processType = m.group(1)
        processPID = m.group(2)
      processSingleLeakFile(thisFile, processPID, processType, leakThreshold)

def replaceBackSlashes(input):
  return input.replace('\\', '/')

def wrapCommand(cmd):
  """
  If running on OS X 10.5 or older, wrap |cmd| so that it will
  be executed as an i386 binary, in case it's a 32-bit/64-bit universal
  binary.
  """
  if platform.system() == "Darwin" and \
     hasattr(platform, 'mac_ver') and \
     platform.mac_ver()[0][:4] < '10.6':
    return ["arch", "-arch", "i386"] + cmd
  # otherwise just execute the command normally
  return cmd

class ShutdownLeakLogger(object):
  """
  Parses the mochitest run log when running a debug build, assigns all leaked
  DOM windows (that are still around after test suite shutdown, despite running
  the GC) to the tests that created them and prints leak statistics.
  """
  MAX_LEAK_COUNT = 121

  def __init__(self, logger):
    self.logger = logger
    self.tests = []
    self.leakedWindows = {}
    self.leakedDocShells = set()
    self.currentTest = None
    self.seenShutdown = False

  def log(self, line):
    if line[2:11] == "DOMWINDOW":
      self._logWindow(line)
    elif line[2:10] == "DOCSHELL":
      self._logDocShell(line)
    elif line.startswith("TEST-START"):
      fileName = line.split(" ")[-1].strip().replace("chrome://mochitests/content/browser/", "")
      self.currentTest = {"fileName": fileName, "windows": set(), "docShells": set()}
    elif line.startswith("INFO TEST-END"):
      # don't track a test if no windows or docShells leaked
      if self.currentTest["windows"] or self.currentTest["docShells"]:
        self.tests.append(self.currentTest)
      self.currentTest = None
    elif line.startswith("INFO TEST-START | Shutdown"):
      self.seenShutdown = True

  def parse(self):
    leakingTests = self._parseLeakingTests()

    if leakingTests:
      totalWindows = sum(len(test["leakedWindows"]) for test in leakingTests)
      totalDocShells = sum(len(test["leakedDocShells"]) for test in leakingTests)
      msgType = "INFO" if totalWindows + totalDocShells <= self.MAX_LEAK_COUNT else "UNEXPECTED-FAIL"
      self.logger.info("TEST-%s | ShutdownLeaks | leaked %d DOMWindow(s) and %d DocShell(s) until shutdown", msgType, totalWindows, totalDocShells)

    for test in leakingTests:
      self.logger.info("\n[%s]", test["fileName"])

      for url, count in self._zipLeakedWindows(test["leakedWindows"]):
        self.logger.info("  %d window(s) [url = %s]", count, url)

      if test["leakedDocShells"]:
        self.logger.info("  %d docShell(s)", len(test["leakedDocShells"]))

  def _logWindow(self, line):
    created = line[:2] == "++"
    id = self._parseValue(line, "serial")

    if self.currentTest:
      windows = self.currentTest["windows"]
      if created:
        windows.add(id)
      else:
        windows.discard(id)
    elif self.seenShutdown and not created:
      self.leakedWindows[id] = self._parseValue(line, "url")

  def _logDocShell(self, line):
    created = line[:2] == "++"
    id = self._parseValue(line, "id")

    if self.currentTest:
      docShells = self.currentTest["docShells"]
      if created:
        docShells.add(id)
      else:
        docShells.discard(id)
    elif self.seenShutdown and not created:
      self.leakedDocShells.add(id)

  def _parseValue(self, line, name):
    return re.search("\[%s = (.+?)\]" % name, line).group(1)

  def _parseLeakingTests(self):
    leakingTests = []

    for test in self.tests:
      test["leakedWindows"] = [self.leakedWindows[id] for id in test["windows"] if id in self.leakedWindows]
      test["leakedDocShells"] = [id for id in test["docShells"] if id in self.leakedDocShells]
      test["leakCount"] = len(test["leakedWindows"]) + len(test["leakedDocShells"])

      if test["leakCount"]:
        leakingTests.append(test)

    return sorted(leakingTests, key=itemgetter("leakCount"), reverse=True)

  def _zipLeakedWindows(self, leakedWindows):
    counts = []
    counted = set()

    for url in leakedWindows:
      if not url in counted:
        counts.append((url, leakedWindows.count(url)))
        counted.add(url)

    return sorted(counts, key=itemgetter(1), reverse=True)