gecko-dev/build/automationutils.py

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#
2012-05-21 11:12:37 +00:00
# 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/.
from __future__ import with_statement
import logging
from operator import itemgetter
import os
import platform
import re
import signal
import subprocess
import sys
import tempfile
from urlparse import urlparse
import zipfile
import mozinfo
__all__ = [
"ZipFileReader",
"addCommonOptions",
"dumpLeakLog",
"isURL",
"processLeakLog",
"getDebuggerInfo",
"DEBUGGER_INFO",
"replaceBackSlashes",
'KeyValueParseError',
'parseKeyValue',
'systemMemory',
'environment',
'dumpScreen',
"ShutdownLeaks"
]
# 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"
},
"cgdb": {
"interactive": True,
"args": "-q --args"
},
"lldb": {
"interactive": True,
"args": "--",
"requiresEscapedArgs": True
},
# Visual Studio Debugger Support
"devenv.exe": {
"interactive": True,
"args": "-debugexe"
},
# Visual C++ Express Debugger Support
"wdexpress.exe": {
"interactive": True,
"args": "-debugexe"
},
# valgrind doesn't explain much about leaks unless you set the
# '--leak-check=full' flag. But there are a lot of objects that are
# semi-deliberately leaked, so we set '--show-possibly-lost=no' to avoid
# uninteresting output from those objects. We set '--smc-check==all-non-file'
# and '--vex-iropt-register-updates=allregs-at-mem-access' so that valgrind
# deals properly with JIT'd JavaScript code.
"valgrind": {
"interactive": False,
"args": " ".join(["--leak-check=full",
"--show-possibly-lost=no",
"--smc-check=all-non-file",
"--vex-iropt-register-updates=allregs-at-mem-access"])
}
}
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
# Python does not provide strsignal() even in the very latest 3.x.
# This is a reasonable fake.
def strsig(n):
# Signal numbers run 0 through NSIG-1; an array with NSIG members
# has exactly that many slots
_sigtbl = [None]*signal.NSIG
for k in dir(signal):
if k.startswith("SIG") and not k.startswith("SIG_") and k != "SIGCLD" and k != "SIGPOLL":
_sigtbl[getattr(signal, k)] = k
# Realtime signals mostly have no names
if hasattr(signal, "SIGRTMIN") and hasattr(signal, "SIGRTMAX"):
for r in range(signal.SIGRTMIN+1, signal.SIGRTMAX+1):
_sigtbl[r] = "SIGRTMIN+" + str(r - signal.SIGRTMIN)
# Fill in any remaining gaps
for i in range(signal.NSIG):
if _sigtbl[i] is None:
_sigtbl[i] = "unrecognized signal, number " + str(i)
if n < 0 or n >= signal.NSIG:
return "out-of-range signal, number "+str(n)
return _sigtbl[n]
def printstatus(status, name = ""):
# 'status' is the exit status
if os.name != 'posix':
# Windows error codes are easier to look up if printed in hexadecimal
if status < 0:
status += 2**32
print "TEST-INFO | %s: exit status %x\n" % (name, status)
elif os.WIFEXITED(status):
print "TEST-INFO | %s: exit %d\n" % (name, os.WEXITSTATUS(status))
elif os.WIFSIGNALED(status):
# The python stdlib doesn't appear to have strsignal(), alas
print "TEST-INFO | {}: killed by {}".format(name,strsig(os.WTERMSIG(status)))
else:
# This is probably a can't-happen condition on Unix, but let's be defensive
print "TEST-INFO | %s: undecodable exit status %04x\n" % (name, status)
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 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(),
"requiresEscapedArgs": getDebuggerInfo("requiresEscapedArgs", False)
}
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
with open(leakLogFile, "r") as leaks:
leakReport = leaks.read()
# 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, processType, leakThreshold):
"""Process a single leak log.
"""
# 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 processType:
# eg 'plugin'
processString = " %s process:" % processType
crashedOnPurpose = False
totalBytesLeaked = None
leakAnalysis = []
leakedObjectNames = []
with open(leakLogFileName, "r") as leaks:
for line in leaks:
if line.find("purposefully crash") > -1:
crashedOnPurpose = True
matches = lineRe.match(line)
if not matches:
# eg: the leak table header row
log.info(line.rstrip())
continue
name = matches.group("name")
size = int(matches.group("size"))
bytesLeaked = int(matches.group("bytesLeaked"))
numLeaked = int(matches.group("numLeaked"))
# Output the raw line from the leak log table if it is the TOTAL row,
# or is for an object row that has been leaked.
if numLeaked != 0 or name == "TOTAL":
log.info(line.rstrip())
# Analyse the leak log, but output later or it will interrupt the leak table
if name == "TOTAL":
totalBytesLeaked = bytesLeaked
if size < 0 or bytesLeaked < 0 or numLeaked < 0:
leakAnalysis.append("TEST-UNEXPECTED-FAIL | leakcheck |%s negative leaks caught!"
% processString)
continue
if name != "TOTAL" and numLeaked != 0:
leakedObjectNames.append(name)
leakAnalysis.append("TEST-INFO | leakcheck |%s leaked %d %s (%s bytes)"
% (processString, numLeaked, name, bytesLeaked))
log.info('\n'.join(leakAnalysis))
if totalBytesLeaked is None:
# We didn't see a line with name 'TOTAL'
if crashedOnPurpose:
log.info("TEST-INFO | leakcheck |%s deliberate crash and thus no leak log"
% processString)
else:
# TODO: This should be a TEST-UNEXPECTED-FAIL, but was changed to a warning
# due to too many intermittent failures (see bug 831223).
log.info("WARNING | leakcheck |%s missing output line for total leaks!"
% processString)
return
if totalBytesLeaked == 0:
log.info("TEST-PASS | leakcheck |%s no leaks detected!" % processString)
return
# totalBytesLeaked was seen and is non-zero.
if totalBytesLeaked > leakThreshold:
if processType and processType == "tab":
# For now, ignore tab process leaks. See bug 1051230.
log.info("WARNING | leakcheck | ignoring leaks in tab process")
prefix = "WARNING"
else:
# Fail the run if we're over the threshold (which defaults to 0)
prefix = "TEST-UNEXPECTED-FAIL"
else:
prefix = "WARNING"
# Create a comma delimited string of the first N leaked objects found,
# to aid with bug summary matching in TBPL. Note: The order of the objects
# had no significance (they're sorted alphabetically).
maxSummaryObjects = 5
leakedObjectSummary = ', '.join(leakedObjectNames[:maxSummaryObjects])
if len(leakedObjectNames) > maxSummaryObjects:
leakedObjectSummary += ', ...'
log.info("%s | leakcheck |%s %d bytes leaked (%s)"
% (prefix, processString, totalBytesLeaked, leakedObjectSummary))
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 | leakcheck | refcount logging is off, so leaks can't be detected!")
return
if leakThreshold != 0:
log.info("TEST-INFO | leakcheck | threshold set at %d bytes" % leakThreshold)
(leakLogFileDir, leakFileBase) = os.path.split(leakLogFile)
fileNameRegExp = re.compile(r".*?_([a-z]*)_pid\d*$")
if leakFileBase[-4:] == ".log":
leakFileBase = leakFileBase[:-4]
fileNameRegExp = re.compile(r".*?_([a-z]*)_pid\d*.log$")
for fileName in os.listdir(leakLogFileDir):
if fileName.find(leakFileBase) != -1:
thisFile = os.path.join(leakLogFileDir, fileName)
processType = None
m = fileNameRegExp.search(fileName)
if m:
processType = m.group(1)
processSingleLeakFile(thisFile, processType, leakThreshold)
def replaceBackSlashes(input):
return input.replace('\\', '/')
class KeyValueParseError(Exception):
"""error when parsing strings of serialized key-values"""
def __init__(self, msg, errors=()):
self.errors = errors
Exception.__init__(self, msg)
def parseKeyValue(strings, separator='=', context='key, value: '):
"""
parse string-serialized key-value pairs in the form of
`key = value`. Returns a list of 2-tuples.
Note that whitespace is not stripped.
"""
# syntax check
missing = [string for string in strings if separator not in string]
if missing:
raise KeyValueParseError("Error: syntax error in %s" % (context,
','.join(missing)),
errors=missing)
return [string.split(separator, 1) for string in strings]
def systemMemory():
"""
Returns total system memory in kilobytes.
Works only on unix-like platforms where `free` is in the path.
"""
return int(os.popen("free").readlines()[1].split()[1])
def environment(xrePath, env=None, crashreporter=True, debugger=False, dmdPath=None, lsanPath=None):
"""populate OS environment variables for mochitest"""
env = os.environ.copy() if env is None else env
assert os.path.isabs(xrePath)
ldLibraryPath = xrePath
envVar = None
dmdLibrary = None
preloadEnvVar = None
if 'toolkit' in mozinfo.info and mozinfo.info['toolkit'] == "gonk":
# Skip all of this, it's only valid for the host.
pass
elif mozinfo.isUnix:
envVar = "LD_LIBRARY_PATH"
env['MOZILLA_FIVE_HOME'] = xrePath
dmdLibrary = "libdmd.so"
preloadEnvVar = "LD_PRELOAD"
elif mozinfo.isMac:
envVar = "DYLD_LIBRARY_PATH"
dmdLibrary = "libdmd.dylib"
preloadEnvVar = "DYLD_INSERT_LIBRARIES"
elif mozinfo.isWin:
envVar = "PATH"
dmdLibrary = "dmd.dll"
preloadEnvVar = "MOZ_REPLACE_MALLOC_LIB"
if envVar:
envValue = ((env.get(envVar), str(ldLibraryPath))
if mozinfo.isWin
else (ldLibraryPath, dmdPath, env.get(envVar)))
env[envVar] = os.path.pathsep.join([path for path in envValue if path])
if dmdPath and dmdLibrary and preloadEnvVar:
env['DMD'] = '1'
env[preloadEnvVar] = os.path.join(dmdPath, dmdLibrary)
# crashreporter
env['GNOME_DISABLE_CRASH_DIALOG'] = '1'
env['XRE_NO_WINDOWS_CRASH_DIALOG'] = '1'
env['NS_TRACE_MALLOC_DISABLE_STACKS'] = '1'
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.
env['MOZ_DISABLE_NONLOCAL_CONNECTIONS'] = '1'
# Set WebRTC logging in case it is not set yet
env.setdefault('NSPR_LOG_MODULES', 'signaling:5,mtransport:5,datachannel:5')
env.setdefault('R_LOG_LEVEL', '6')
env.setdefault('R_LOG_DESTINATION', 'stderr')
env.setdefault('R_LOG_VERBOSE', '1')
# ASan specific environment stuff
asan = bool(mozinfo.info.get("asan"))
if asan and (mozinfo.isLinux or mozinfo.isMac):
try:
# Symbolizer support
llvmsym = os.path.join(xrePath, "llvm-symbolizer")
if os.path.isfile(llvmsym):
env["ASAN_SYMBOLIZER_PATH"] = llvmsym
log.info("INFO | runtests.py | ASan using symbolizer at %s", llvmsym)
else:
log.info("TEST-UNEXPECTED-FAIL | runtests.py | Failed to find ASan symbolizer at %s", llvmsym)
totalMemory = systemMemory()
# Only 4 GB RAM or less available? Use custom ASan options to reduce
# the amount of resources required to do the tests. Standard options
# will otherwise lead to OOM conditions on the current test slaves.
message = "INFO | runtests.py | ASan running in %s configuration"
asanOptions = []
if totalMemory <= 1024 * 1024 * 4:
message = message % 'low-memory'
asanOptions = ['quarantine_size=50331648', 'malloc_context_size=5']
else:
message = message % 'default memory'
if lsanPath:
log.info("LSan enabled.")
asanOptions.append('detect_leaks=1')
lsanOptions = ["exitcode=0"]
suppressionsFile = os.path.join(lsanPath, 'lsan_suppressions.txt')
if os.path.exists(suppressionsFile):
log.info("LSan using suppression file " + suppressionsFile)
lsanOptions.append("suppressions=" + suppressionsFile)
else:
log.info("WARNING | runtests.py | LSan suppressions file does not exist! " + suppressionsFile)
env["LSAN_OPTIONS"] = ':'.join(lsanOptions)
# Run shutdown GCs and CCs to avoid spurious leaks.
env['MOZ_CC_RUN_DURING_SHUTDOWN'] = '1'
if len(asanOptions):
env['ASAN_OPTIONS'] = ':'.join(asanOptions)
except OSError,err:
log.info("Failed determine available memory, disabling ASan low-memory configuration: %s", err.strerror)
except:
log.info("Failed determine available memory, disabling ASan low-memory configuration")
else:
log.info(message)
return env
def dumpScreen(utilityPath):
"""dumps a screenshot of the entire screen to a directory specified by
the MOZ_UPLOAD_DIR environment variable"""
# Need to figure out which OS-dependent tool to use
if mozinfo.isUnix:
utility = [os.path.join(utilityPath, "screentopng")]
utilityname = "screentopng"
elif mozinfo.isMac:
utility = ['/usr/sbin/screencapture', '-C', '-x', '-t', 'png']
utilityname = "screencapture"
elif mozinfo.isWin:
utility = [os.path.join(utilityPath, "screenshot.exe")]
utilityname = "screenshot"
# Get dir where to write the screenshot file
parent_dir = os.environ.get('MOZ_UPLOAD_DIR', None)
if not parent_dir:
log.info('Failed to retrieve MOZ_UPLOAD_DIR env var')
return
# Run the capture
try:
tmpfd, imgfilename = tempfile.mkstemp(prefix='mozilla-test-fail-screenshot_', suffix='.png', dir=parent_dir)
os.close(tmpfd)
returncode = subprocess.call(utility + [imgfilename])
printstatus(returncode, utilityname)
except OSError, err:
log.info("Failed to start %s for screenshot: %s",
utility[0], err.strerror)
return
class ShutdownLeaks(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.
"""
def __init__(self, logger):
self.logger = logger
self.tests = []
self.leakedWindows = {}
self.leakedDocShells = set()
self.currentTest = None
self.seenShutdown = False
def log(self, message):
if message['action'] == 'log':
line = message['message']
if line[2:11] == "DOMWINDOW":
self._logWindow(line)
elif line[2:10] == "DOCSHELL":
self._logDocShell(line)
elif line.startswith("TEST-START | Shutdown"):
self.seenShutdown = True
elif message['action'] == 'test_start':
fileName = message['test'].replace("chrome://mochitests/content/browser/", "")
self.currentTest = {"fileName": fileName, "windows": set(), "docShells": set()}
elif message['action'] == 'test_end':
# don't track a test if no windows or docShells leaked
if self.currentTest and (self.currentTest["windows"] or self.currentTest["docShells"]):
self.tests.append(self.currentTest)
self.currentTest = None
def process(self):
if not self.seenShutdown:
self.logger("TEST-UNEXPECTED-FAIL | ShutdownLeaks | process() called before end of test suite")
for test in self._parseLeakingTests():
for url, count in self._zipLeakedWindows(test["leakedWindows"]):
self.logger("TEST-UNEXPECTED-FAIL | %s | leaked %d window(s) until shutdown [url = %s]" % (test["fileName"], count, url))
if test["leakedDocShells"]:
self.logger("TEST-UNEXPECTED-FAIL | %s | leaked %d docShell(s) until shutdown" % (test["fileName"], len(test["leakedDocShells"])))
def _logWindow(self, line):
created = line[:2] == "++"
pid = self._parseValue(line, "pid")
serial = self._parseValue(line, "serial")
# log line has invalid format
if not pid or not serial:
self.logger("TEST-UNEXPECTED-FAIL | ShutdownLeaks | failed to parse line <%s>" % line)
return
key = pid + "." + serial
if self.currentTest:
windows = self.currentTest["windows"]
if created:
windows.add(key)
else:
windows.discard(key)
elif self.seenShutdown and not created:
self.leakedWindows[key] = self._parseValue(line, "url")
def _logDocShell(self, line):
created = line[:2] == "++"
pid = self._parseValue(line, "pid")
id = self._parseValue(line, "id")
# log line has invalid format
if not pid or not id:
self.logger("TEST-UNEXPECTED-FAIL | ShutdownLeaks | failed to parse line <%s>" % line)
return
key = pid + "." + id
if self.currentTest:
docShells = self.currentTest["docShells"]
if created:
docShells.add(key)
else:
docShells.discard(key)
elif self.seenShutdown and not created:
self.leakedDocShells.add(key)
def _parseValue(self, line, name):
match = re.search("\[%s = (.+?)\]" % name, line)
if match:
return match.group(1)
return None
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)
class LSANLeaks(object):
"""
Parses the log when running an LSAN build, looking for interesting stack frames
in allocation stacks, and prints out reports.
"""
def __init__(self, logger):
self.logger = logger
self.inReport = False
self.foundFrames = set([])
self.recordMoreFrames = None
self.currStack = None
self.maxNumRecordedFrames = 4
# Don't various allocation-related stack frames, as they do not help much to
# distinguish different leaks.
unescapedSkipList = [
"malloc", "js_malloc", "malloc_", "__interceptor_malloc", "moz_malloc", "moz_xmalloc",
"calloc", "js_calloc", "calloc_", "__interceptor_calloc", "moz_calloc", "moz_xcalloc",
"realloc","js_realloc", "realloc_", "__interceptor_realloc", "moz_realloc", "moz_xrealloc",
"new",
"js::MallocProvider",
]
self.skipListRegExp = re.compile("^" + "|".join([re.escape(f) for f in unescapedSkipList]) + "$")
self.startRegExp = re.compile("==\d+==ERROR: LeakSanitizer: detected memory leaks")
self.stackFrameRegExp = re.compile(" #\d+ 0x[0-9a-f]+ in ([^(</]+)")
self.sysLibStackFrameRegExp = re.compile(" #\d+ 0x[0-9a-f]+ \(([^+]+)\+0x[0-9a-f]+\)")
def log(self, line):
if re.match(self.startRegExp, line):
self.inReport = True
return
if not self.inReport:
return
if line.startswith("Direct leak"):
self._finishStack()
self.recordMoreFrames = True
self.currStack = []
return
if line.startswith("Indirect leak"):
self._finishStack()
# Only report direct leaks, in the hope that they are less flaky.
self.recordMoreFrames = False
return
if line.startswith("SUMMARY: AddressSanitizer"):
self._finishStack()
self.inReport = False
return
if not self.recordMoreFrames:
return
stackFrame = re.match(self.stackFrameRegExp, line)
if stackFrame:
# Split the frame to remove any return types.
frame = stackFrame.group(1).split()[-1]
if not re.match(self.skipListRegExp, frame):
self._recordFrame(frame)
return
sysLibStackFrame = re.match(self.sysLibStackFrameRegExp, line)
if sysLibStackFrame:
# System library stack frames will never match the skip list,
# so don't bother checking if they do.
self._recordFrame(sysLibStackFrame.group(1))
# If we don't match either of these, just ignore the frame.
# We'll end up with "unknown stack" if everything is ignored.
def process(self):
for f in self.foundFrames:
self.logger("TEST-UNEXPECTED-FAIL | LeakSanitizer | leak at " + f)
def _finishStack(self):
if self.recordMoreFrames and len(self.currStack) == 0:
self.currStack = ["unknown stack"]
if self.currStack:
self.foundFrames.add(", ".join(self.currStack))
self.currStack = None
self.recordMoreFrames = False
self.numRecordedFrames = 0
def _recordFrame(self, frame):
self.currStack.append(frame)
self.numRecordedFrames += 1
if self.numRecordedFrames >= self.maxNumRecordedFrames:
self.recordMoreFrames = False