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#!/usr/bin/env 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
import copy
import json
import os
import pipes
import platform
import random
import re
import shutil
import signal
import subprocess
import sys
import tempfile
import time
import traceback
from argparse import Namespace
from collections import defaultdict, deque, namedtuple
from contextlib import contextmanager
from datetime import datetime, timedelta
from functools import partial
from multiprocessing import cpu_count
from subprocess import PIPE, STDOUT, Popen
from tempfile import gettempdir, mkdtemp
from threading import Event, Thread, Timer, current_thread
import mozdebug
import six
from mozserve import Http3Server
try:
import psutil
HAVE_PSUTIL = True
except Exception:
HAVE_PSUTIL = False
from xpcshellcommandline import parser_desktop
SCRIPT_DIR = os.path.abspath(os.path.realpath(os.path.dirname(__file__)))
try:
from mozbuild.base import MozbuildObject
build = MozbuildObject.from_environment(cwd=SCRIPT_DIR)
except ImportError:
build = None
HARNESS_TIMEOUT = 5 * 60
TBPL_RETRY = 4 # defined in mozharness
# benchmarking on tbpl revealed that this works best for now
# TODO: This has been evaluated/set many years ago and we might want to
# benchmark this again.
# These days with e10s/fission the number of real processes/threads running
# can be significantly higher, with both consequences on runtime and memory
# consumption. So be aware that NUM_THREADS is just saying how many tests will
# be started maximum in parallel and that depending on the tests there is
# only a weak correlation to the effective number of processes or threads.
# Be also aware that we can override this value with the threadCount option
# on the command line to tweak it for a concrete CPU/memory combination.
NUM_THREADS = int(cpu_count() * 4)
if sys.platform == "win32":
NUM_THREADS = NUM_THREADS / 2
EXPECTED_LOG_ACTIONS = set(
[
"crash_reporter_init",
"test_status",
"log",
]
)
# --------------------------------------------------------------
#
here = os.path.dirname(__file__)
mozbase = os.path.realpath(os.path.join(os.path.dirname(here), "mozbase"))
if os.path.isdir(mozbase):
for package in os.listdir(mozbase):
sys.path.append(os.path.join(mozbase, package))
import mozcrash
import mozfile
import mozinfo
from manifestparser import TestManifest
from manifestparser.filters import chunk_by_slice, failures, pathprefix, tags
from manifestparser.util import normsep
from mozlog import commandline
from mozprofile import Profile
from mozprofile.cli import parse_preferences
from mozrunner.utils import get_stack_fixer_function
# --------------------------------------------------------------
# TODO: perhaps this should be in a more generally shared location?
# This regex matches all of the C0 and C1 control characters
# (U+0000 through U+001F; U+007F; U+0080 through U+009F),
# except TAB (U+0009), CR (U+000D), LF (U+000A) and backslash (U+005C).
# A raw string is deliberately not used.
_cleanup_encoding_re = re.compile("[\x00-\x08\x0b\x0c\x0e-\x1f\x7f-\x9f\\\\]")
def get_full_group_name(test):
group = test["manifest"]
if "ancestor_manifest" in test:
ancestor_manifest = normsep(test["ancestor_manifest"])
# Only change the group id if ancestor is not the generated root manifest.
if "/" in ancestor_manifest:
group = "{}:{}".format(ancestor_manifest, group)
return group
def _cleanup_encoding_repl(m):
c = m.group(0)
return "\\\\" if c == "\\" else "\\x{0:02X}".format(ord(c))
def cleanup_encoding(s):
"""S is either a byte or unicode string. Either way it may
contain control characters, unpaired surrogates, reserved code
points, etc. If it is a byte string, it is assumed to be
UTF-8, but it may not be *correct* UTF-8. Return a
sanitized unicode object."""
if not isinstance(s, six.string_types):
if isinstance(s, six.binary_type):
return six.ensure_str(s)
else:
return six.text_type(s)
if isinstance(s, six.binary_type):
s = s.decode("utf-8", "replace")
# Replace all C0 and C1 control characters with \xNN escapes.
return _cleanup_encoding_re.sub(_cleanup_encoding_repl, s)
@contextmanager
def popenCleanupHack():
"""
The basic idea is that on old versions of Python on Windows,
we need to clear subprocess._cleanup before we call Popen(),
then restore it afterwards.
"""
savedCleanup = None
if mozinfo.isWin and sys.version_info[0] == 3 and sys.version_info < (3, 7, 5):
savedCleanup = subprocess._cleanup
subprocess._cleanup = lambda: None
try:
yield
finally:
if savedCleanup:
subprocess._cleanup = savedCleanup
""" Control-C handling """
gotSIGINT = False
def markGotSIGINT(signum, stackFrame):
global gotSIGINT
gotSIGINT = True
class XPCShellTestThread(Thread):
def __init__(
self,
test_object,
retry=True,
verbose=False,
usingTSan=False,
usingCrashReporter=False,
**kwargs
):
Thread.__init__(self)
self.daemon = True
self.test_object = test_object
self.retry = retry
self.verbose = verbose
self.usingTSan = usingTSan
self.usingCrashReporter = usingCrashReporter
self.appPath = kwargs.get("appPath")
self.xrePath = kwargs.get("xrePath")
self.utility_path = kwargs.get("utility_path")
self.testingModulesDir = kwargs.get("testingModulesDir")
self.debuggerInfo = kwargs.get("debuggerInfo")
self.jsDebuggerInfo = kwargs.get("jsDebuggerInfo")
self.headJSPath = kwargs.get("headJSPath")
self.testharnessdir = kwargs.get("testharnessdir")
self.profileName = kwargs.get("profileName")
self.singleFile = kwargs.get("singleFile")
self.env = copy.deepcopy(kwargs.get("env"))
self.symbolsPath = kwargs.get("symbolsPath")
self.logfiles = kwargs.get("logfiles")
self.app_binary = kwargs.get("app_binary")
self.xpcshell = kwargs.get("xpcshell")
self.xpcsRunArgs = kwargs.get("xpcsRunArgs")
self.failureManifest = kwargs.get("failureManifest")
self.jscovdir = kwargs.get("jscovdir")
self.stack_fixer_function = kwargs.get("stack_fixer_function")
self._rootTempDir = kwargs.get("tempDir")
self.cleanup_dir_list = kwargs.get("cleanup_dir_list")
self.pStdout = kwargs.get("pStdout")
self.pStderr = kwargs.get("pStderr")
self.keep_going = kwargs.get("keep_going")
self.log = kwargs.get("log")
self.app_dir_key = kwargs.get("app_dir_key")
self.interactive = kwargs.get("interactive")
self.rootPrefsFile = kwargs.get("rootPrefsFile")
self.extraPrefs = kwargs.get("extraPrefs")
self.verboseIfFails = kwargs.get("verboseIfFails")
self.headless = kwargs.get("headless")
self.runFailures = kwargs.get("runFailures")
self.timeoutAsPass = kwargs.get("timeoutAsPass")
self.crashAsPass = kwargs.get("crashAsPass")
self.conditionedProfileDir = kwargs.get("conditionedProfileDir")
if self.runFailures:
self.retry = False
# Default the test prefsFile to the rootPrefsFile.
self.prefsFile = self.rootPrefsFile
# only one of these will be set to 1. adding them to the totals in
# the harness
self.passCount = 0
self.todoCount = 0
self.failCount = 0
# Context for output processing
self.output_lines = []
self.has_failure_output = False
self.saw_crash_reporter_init = False
self.saw_proc_start = False
self.saw_proc_end = False
self.command = None
self.harness_timeout = kwargs.get("harness_timeout")
self.timedout = False
self.infra = False
# event from main thread to signal work done
self.event = kwargs.get("event")
self.done = False # explicitly set flag so we don't rely on thread.isAlive
def run(self):
try:
self.run_test()
except PermissionError as e:
self.infra = True
self.exception = e
self.traceback = traceback.format_exc()
except Exception as e:
self.exception = e
self.traceback = traceback.format_exc()
else:
self.exception = None
self.traceback = None
if self.retry:
self.log.info(
"%s failed or timed out, will retry." % self.test_object["id"]
)
self.done = True
self.event.set()
def kill(self, proc):
"""
Simple wrapper to kill a process.
On a remote system, this is overloaded to handle remote process communication.
"""
return proc.kill()
def removeDir(self, dirname):
"""
Simple wrapper to remove (recursively) a given directory.
On a remote system, we need to overload this to work on the remote filesystem.
"""
mozfile.remove(dirname)
def poll(self, proc):
"""
Simple wrapper to check if a process has terminated.
On a remote system, this is overloaded to handle remote process communication.
"""
return proc.poll()
def createLogFile(self, test_file, stdout):
"""
For a given test file and stdout buffer, create a log file.
On a remote system we have to fix the test name since it can contain directories.
"""
with open(test_file + ".log", "w") as f:
f.write(stdout)
def getReturnCode(self, proc):
"""
Simple wrapper to get the return code for a given process.
On a remote system we overload this to work with the remote process management.
"""
if proc is not None and hasattr(proc, "returncode"):
return proc.returncode
return -1
def communicate(self, proc):
"""
Simple wrapper to communicate with a process.
On a remote system, this is overloaded to handle remote process communication.
"""
# Processing of incremental output put here to
# sidestep issues on remote platforms, where what we know
# as proc is a file pulled off of a device.
if proc.stdout:
while True:
line = proc.stdout.readline()
if not line:
break
self.process_line(line)
if self.saw_proc_start and not self.saw_proc_end:
self.has_failure_output = True
return proc.communicate()
def launchProcess(
self, cmd, stdout, stderr, env, cwd, timeout=None, test_name=None
):
"""
Simple wrapper to launch a process.
On a remote system, this is more complex and we need to overload this function.
"""
# timeout is needed by remote xpcshell to extend the
# remote device timeout. It is not used in this function.
if six.PY3:
cwd = six.ensure_str(cwd)
for i in range(len(cmd)):
cmd[i] = six.ensure_str(cmd[i])
if HAVE_PSUTIL:
popen_func = psutil.Popen
else:
popen_func = Popen
with popenCleanupHack():
proc = popen_func(cmd, stdout=stdout, stderr=stderr, env=env, cwd=cwd)
return proc
def checkForCrashes(self, dump_directory, symbols_path, test_name=None):
"""
Simple wrapper to check for crashes.
On a remote system, this is more complex and we need to overload this function.
"""
quiet = False
if self.crashAsPass:
quiet = True
return mozcrash.log_crashes(
self.log, dump_directory, symbols_path, test=test_name, quiet=quiet
)
def logCommand(self, name, completeCmd, testdir):
self.log.info("%s | full command: %r" % (name, completeCmd))
self.log.info("%s | current directory: %r" % (name, testdir))
# Show only those environment variables that are changed from
# the ambient environment.
changedEnv = set("%s=%s" % i for i in six.iteritems(self.env)) - set(
"%s=%s" % i for i in six.iteritems(os.environ)
)
self.log.info("%s | environment: %s" % (name, list(changedEnv)))
shell_command_tokens = [
pipes.quote(tok) for tok in list(changedEnv) + completeCmd
]
self.log.info(
"%s | as shell command: (cd %s; %s)"
% (name, pipes.quote(testdir), " ".join(shell_command_tokens))
)
def killTimeout(self, proc):
if proc is not None and hasattr(proc, "pid"):
mozcrash.kill_and_get_minidump(
proc.pid, self.tempDir, utility_path=self.utility_path
)
else:
self.log.info("not killing -- proc or pid unknown")
def postCheck(self, proc):
"""Checks for a still-running test process, kills it and fails the test if found.
We can sometimes get here before the process has terminated, which would
cause removeDir() to fail - so check for the process and kill it if needed.
"""
if proc and self.poll(proc) is None:
if HAVE_PSUTIL:
try:
self.kill(proc)
except psutil.NoSuchProcess:
pass
else:
self.kill(proc)
message = "%s | Process still running after test!" % self.test_object["id"]
if self.retry:
self.log.info(message)
return
self.log.error(message)
self.log_full_output()
self.failCount = 1
def testTimeout(self, proc):
if self.test_object["expected"] == "pass":
expected = "PASS"
else:
expected = "FAIL"
if self.retry:
self.log.test_end(
self.test_object["id"],
"TIMEOUT",
expected="TIMEOUT",
message="Test timed out",
)
else:
result = "TIMEOUT"
if self.timeoutAsPass:
expected = "FAIL"
result = "FAIL"
self.failCount = 1
self.log.test_end(
self.test_object["id"],
result,
expected=expected,
message="Test timed out",
)
self.log_full_output()
self.done = True
self.timedout = True
self.killTimeout(proc)
self.log.info("xpcshell return code: %s" % self.getReturnCode(proc))
self.postCheck(proc)
self.clean_temp_dirs(self.test_object["path"])
def updateTestPrefsFile(self):
# If the Manifest file has some additional prefs, merge the
# prefs set in the user.js file stored in the _rootTempdir
# with the prefs from the manifest and the prefs specified
# in the extraPrefs option.
if "prefs" in self.test_object:
# Merge the user preferences in a fake profile dir in a
# local temporary dir (self.tempDir is the remoteTmpDir
# for the RemoteXPCShellTestThread subclass and so we
# can't use that tempDir here).
localTempDir = mkdtemp(prefix="xpc-other-", dir=self._rootTempDir)
filename = "user.js"
interpolation = {"server": "dummyserver"}
profile = Profile(profile=localTempDir, restore=False)
# _rootTempDir contains a user.js file, generated by buildPrefsFile
profile.merge(self._rootTempDir, interpolation=interpolation)
prefs = self.test_object["prefs"].strip().split()
name = self.test_object["id"]
if self.verbose:
self.log.info(
"%s: Per-test extra prefs will be set:\n {}".format(
"\n ".join(prefs)
)
% name
)
profile.set_preferences(parse_preferences(prefs), filename=filename)
# Make sure that the extra prefs form the command line are overriding
# any prefs inherited from the shared profile data or the manifest prefs.
profile.set_preferences(
parse_preferences(self.extraPrefs), filename=filename
)
return os.path.join(profile.profile, filename)
# Return the root prefsFile if there is no other prefs to merge.
# This is the path set by buildPrefsFile.
return self.rootPrefsFile
@property
def conditioned_profile_copy(self):
"""Returns a copy of the original conditioned profile that was created."""
condprof_copy = os.path.join(tempfile.mkdtemp(), "profile")
shutil.copytree(
self.conditionedProfileDir,
condprof_copy,
ignore=shutil.ignore_patterns("lock"),
)
self.log.info("Created a conditioned-profile copy: %s" % condprof_copy)
return condprof_copy
def buildCmdTestFile(self, name):
"""
Build the command line arguments for the test file.
On a remote system, this may be overloaded to use a remote path structure.
"""
return ["-e", 'const _TEST_FILE = ["%s"];' % name.replace("\\", "/")]
def setupTempDir(self):
tempDir = mkdtemp(prefix="xpc-other-", dir=self._rootTempDir)
self.env["XPCSHELL_TEST_TEMP_DIR"] = tempDir
if self.interactive:
self.log.info("temp dir is %s" % tempDir)
return tempDir
def setupProfileDir(self):
"""
Create a temporary folder for the profile and set appropriate environment variables.
When running check-interactive and check-one, the directory is well-defined and
retained for inspection once the tests complete.
On a remote system, this may be overloaded to use a remote path structure.
"""
if self.conditionedProfileDir:
profileDir = self.conditioned_profile_copy
elif self.interactive or self.singleFile:
profileDir = os.path.join(gettempdir(), self.profileName, "xpcshellprofile")
try:
# This could be left over from previous runs
self.removeDir(profileDir)
except Exception:
pass
os.makedirs(profileDir)
else:
profileDir = mkdtemp(prefix="xpc-profile-", dir=self._rootTempDir)
self.env["XPCSHELL_TEST_PROFILE_DIR"] = profileDir
if self.interactive or self.singleFile:
self.log.info("profile dir is %s" % profileDir)
return profileDir
def setupMozinfoJS(self):
mozInfoJSPath = os.path.join(self.profileDir, "mozinfo.json")
mozInfoJSPath = mozInfoJSPath.replace("\\", "\\\\")
mozinfo.output_to_file(mozInfoJSPath)
return mozInfoJSPath
def buildCmdHead(self):
"""
Build the command line arguments for the head files,
along with the address of the webserver which some tests require.
On a remote system, this is overloaded to resolve quoting issues over a
secondary command line.
"""
headfiles = self.getHeadFiles(self.test_object)
cmdH = ", ".join(['"' + f.replace("\\", "/") + '"' for f in headfiles])
dbgport = 0 if self.jsDebuggerInfo is None else self.jsDebuggerInfo.port
return [
"-e",
"const _HEAD_FILES = [%s];" % cmdH,
"-e",
"const _JSDEBUGGER_PORT = %d;" % dbgport,
]
def getHeadFiles(self, test):
"""Obtain lists of head- files. Returns a list of head files."""
def sanitize_list(s, kind):
for f in s.strip().split(" "):
f = f.strip()
if len(f) < 1:
continue
path = os.path.normpath(os.path.join(test["here"], f))
if not os.path.exists(path):
raise Exception("%s file does not exist: %s" % (kind, path))
if not os.path.isfile(path):
raise Exception("%s file is not a file: %s" % (kind, path))
yield path
headlist = test.get("head", "")
return list(sanitize_list(headlist, "head"))
def buildXpcsCmd(self):
"""
Load the root head.js file as the first file in our test path, before other head,
and test files. On a remote system, we overload this to add additional command
line arguments, so this gets overloaded.
"""
# - NOTE: if you rename/add any of the constants set here, update
# do_load_child_test_harness() in head.js
if not self.appPath:
self.appPath = self.xrePath
if self.app_binary:
xpcsCmd = [
self.app_binary,
"--xpcshell",
]
else:
xpcsCmd = [
self.xpcshell,
]
xpcsCmd += [
"-g",
self.xrePath,
"-a",
self.appPath,
"-m",
"-e",
'const _HEAD_JS_PATH = "%s";' % self.headJSPath,
"-e",
'const _MOZINFO_JS_PATH = "%s";' % self.mozInfoJSPath,
"-e",
'const _PREFS_FILE = "%s";' % self.prefsFile.replace("\\", "\\\\"),
]
if self.testingModulesDir:
# Escape backslashes in string literal.
sanitized = self.testingModulesDir.replace("\\", "\\\\")
xpcsCmd.extend(["-e", 'const _TESTING_MODULES_DIR = "%s";' % sanitized])
xpcsCmd.extend(["-f", os.path.join(self.testharnessdir, "head.js")])
if self.debuggerInfo:
xpcsCmd = [self.debuggerInfo.path] + self.debuggerInfo.args + xpcsCmd
return xpcsCmd
def cleanupDir(self, directory, name):
if not os.path.exists(directory):
return
# up to TRY_LIMIT attempts (one every second), because
# the Windows filesystem is slow to react to the changes
TRY_LIMIT = 25
try_count = 0
while try_count < TRY_LIMIT:
try:
self.removeDir(directory)
except OSError:
self.log.info("Failed to remove directory: %s. Waiting." % directory)
# We suspect the filesystem may still be making changes. Wait a
# little bit and try again.
time.sleep(1)
try_count += 1
else:
# removed fine
return
# we try cleaning up again later at the end of the run
self.cleanup_dir_list.append(directory)
def clean_temp_dirs(self, name):
# We don't want to delete the profile when running check-interactive
# or check-one.
if self.profileDir and not self.interactive and not self.singleFile:
self.cleanupDir(self.profileDir, name)
self.cleanupDir(self.tempDir, name)
def parse_output(self, output):
"""Parses process output for structured messages and saves output as it is
read. Sets self.has_failure_output in case of evidence of a failure"""
for line_string in output.splitlines():
self.process_line(line_string)
if self.saw_proc_start and not self.saw_proc_end:
self.has_failure_output = True
def fix_text_output(self, line):
line = cleanup_encoding(line)
if self.stack_fixer_function is not None:
line = self.stack_fixer_function(line)
if isinstance(line, bytes):
line = line.decode("utf-8")
return line
def log_line(self, line):
"""Log a line of output (either a parser json object or text output from
the test process"""
if isinstance(line, six.string_types) or isinstance(line, bytes):
line = self.fix_text_output(line).rstrip("\r\n")
self.log.process_output(self.proc_ident, line, command=self.command)
else:
if "message" in line:
line["message"] = self.fix_text_output(line["message"])
if "xpcshell_process" in line:
line["thread"] = " ".join(
[current_thread().name, line["xpcshell_process"]]
)
else:
line["thread"] = current_thread().name
self.log.log_raw(line)
def log_full_output(self):
"""Logs any buffered output from the test process, and clears the buffer."""
if not self.output_lines:
return
self.log.info(">>>>>>>")
for line in self.output_lines:
self.log_line(line)
self.log.info("<<<<<<<")
self.output_lines = []
def report_message(self, message):
"""Stores or logs a json log message in mozlog format."""
if self.verbose:
self.log_line(message)
else:
self.output_lines.append(message)
def process_line(self, line_string):
"""Parses a single line of output, determining its significance and
reporting a message.
"""
if isinstance(line_string, bytes):
# Transform binary to string representation
line_string = line_string.decode(sys.stdout.encoding, errors="replace")
if not line_string.strip():
return
try:
line_object = json.loads(line_string)
if not isinstance(line_object, dict):
self.report_message(line_string)
return
except ValueError:
self.report_message(line_string)
return
if (
"action" not in line_object
or line_object["action"] not in EXPECTED_LOG_ACTIONS
):
# The test process output JSON.
self.report_message(line_string)
return
if line_object["action"] == "crash_reporter_init":
self.saw_crash_reporter_init = True
return
action = line_object["action"]
self.has_failure_output = (
self.has_failure_output
or "expected" in line_object
or action == "log"
and line_object["level"] == "ERROR"
)
self.report_message(line_object)
if action == "log" and line_object["message"] == "CHILD-TEST-STARTED":
self.saw_proc_start = True
elif action == "log" and line_object["message"] == "CHILD-TEST-COMPLETED":
self.saw_proc_end = True
def run_test(self):
"""Run an individual xpcshell test."""
global gotSIGINT
name = self.test_object["id"]
path = self.test_object["path"]
group = get_full_group_name(self.test_object)
# Check for skipped tests
if "disabled" in self.test_object:
message = self.test_object["disabled"]
if not message:
message = "disabled from xpcshell manifest"
self.log.test_start(name, group=group)
self.log.test_end(name, "SKIP", message=message, group=group)
self.retry = False
self.keep_going = True
return
# Check for known-fail tests
expect_pass = self.test_object["expected"] == "pass"
# By default self.appPath will equal the gre dir. If specified in the
# xpcshell.toml file, set a different app dir for this test.
if self.app_dir_key and self.app_dir_key in self.test_object:
rel_app_dir = self.test_object[self.app_dir_key]
rel_app_dir = os.path.join(self.xrePath, rel_app_dir)
self.appPath = os.path.abspath(rel_app_dir)
else:
self.appPath = None
test_dir = os.path.dirname(path)
# Create a profile and a temp dir that the JS harness can stick
# a profile and temporary data in
self.profileDir = self.setupProfileDir()
self.tempDir = self.setupTempDir()
self.mozInfoJSPath = self.setupMozinfoJS()
# Setup per-manifest prefs and write them into the tempdir.
self.prefsFile = self.updateTestPrefsFile()
# The order of the command line is important:
# 1) Arguments for xpcshell itself
self.command = self.buildXpcsCmd()
# 2) Arguments for the head files
self.command.extend(self.buildCmdHead())
# 3) Arguments for the test file
self.command.extend(self.buildCmdTestFile(path))
self.command.extend(["-e", 'const _TEST_NAME = "%s";' % name])
# 4) Arguments for code coverage
if self.jscovdir:
self.command.extend(
["-e", 'const _JSCOV_DIR = "%s";' % self.jscovdir.replace("\\", "/")]
)
# 5) Runtime arguments
if "debug" in self.test_object:
self.command.append("-d")
self.command.extend(self.xpcsRunArgs)
if self.test_object.get("dmd") == "true":
self.env["PYTHON"] = sys.executable
self.env["BREAKPAD_SYMBOLS_PATH"] = self.symbolsPath
if self.test_object.get("snap") == "true":
self.env["SNAP_NAME"] = "firefox"
self.env["SNAP_INSTANCE_NAME"] = "firefox"
if self.test_object.get("subprocess") == "true":
self.env["PYTHON"] = sys.executable
if (
self.test_object.get("headless", "true" if self.headless else None)
== "true"
):
self.env["MOZ_HEADLESS"] = "1"
self.env["DISPLAY"] = "77" # Set a fake display.
testTimeoutInterval = self.harness_timeout
# Allow a test to request a multiple of the timeout if it is expected to take long
if "requesttimeoutfactor" in self.test_object:
testTimeoutInterval *= int(self.test_object["requesttimeoutfactor"])
testTimer = None
if not self.interactive and not self.debuggerInfo and not self.jsDebuggerInfo:
testTimer = Timer(testTimeoutInterval, lambda: self.testTimeout(proc))
testTimer.start()
proc = None
process_output = None
try:
self.log.test_start(name, group=group)
if self.verbose:
self.logCommand(name, self.command, test_dir)
proc = self.launchProcess(
self.command,
stdout=self.pStdout,
stderr=self.pStderr,
env=self.env,
cwd=test_dir,
timeout=testTimeoutInterval,
test_name=name,
)
if hasattr(proc, "pid"):
self.proc_ident = proc.pid
else:
# On mobile, "proc" is just a file.
self.proc_ident = name
if self.interactive:
self.log.info("%s | Process ID: %d" % (name, self.proc_ident))
# Communicate returns a tuple of (stdout, stderr), however we always
# redirect stderr to stdout, so the second element is ignored.
process_output, _ = self.communicate(proc)
if self.interactive:
# Not sure what else to do here...
self.keep_going = True
return
if testTimer:
testTimer.cancel()
if process_output:
# For the remote case, stdout is not yet depleted, so we parse
# it here all at once.
self.parse_output(process_output)
return_code = self.getReturnCode(proc)
# TSan'd processes return 66 if races are detected. This isn't
# good in the sense that there's no way to distinguish between
# a process that would normally have returned zero but has races,
# and a race-free process that returns 66. But I don't see how
# to do better. This ambiguity is at least constrained to the
# with-TSan case. It doesn't affect normal builds.
#
# This also assumes that the magic value 66 isn't overridden by
# a TSAN_OPTIONS=exitcode=<number> environment variable setting.
#
TSAN_EXIT_CODE_WITH_RACES = 66
return_code_ok = return_code == 0 or (
self.usingTSan and return_code == TSAN_EXIT_CODE_WITH_RACES
)
# Due to the limitation on the remote xpcshell test, the process
# return code does not represent the process crash.
# If crash_reporter_init log has not been seen and the return code
# is 0, it means the process crashed before setting up the crash
# reporter.
#
# NOTE: Crash reporter is not enabled on some configuration, such
# as ASAN and TSAN. Those configuration shouldn't be using
# remote xpcshell test, and the crash should be caught by
# the process return code.
# NOTE: self.saw_crash_reporter_init is False also when adb failed
# to launch process, and in that case the return code is
# not 0.
# (see launchProcess in remotexpcshelltests.py)
ended_before_crash_reporter_init = (
return_code_ok
and self.usingCrashReporter
and not self.saw_crash_reporter_init
)
passed = (
(not self.has_failure_output)
and not ended_before_crash_reporter_init
and return_code_ok
)
status = "PASS" if passed else "FAIL"
expected = "PASS" if expect_pass else "FAIL"
message = "xpcshell return code: %d" % return_code
if self.timedout:
return
if status != expected or ended_before_crash_reporter_init:
if ended_before_crash_reporter_init:
self.log.test_end(
name,
"CRASH",
expected=expected,
message="Test ended before setting up the crash reporter",
group=group,
)
elif self.retry:
self.log.test_end(
name,
status,
expected=status,
message="Test failed or timed out, will retry",
group=group,
)
self.clean_temp_dirs(path)
if self.verboseIfFails and not self.verbose:
self.log_full_output()
return
else:
self.log.test_end(
name, status, expected=expected, message=message, group=group
)
self.log_full_output()
self.failCount += 1
if self.failureManifest:
with open(self.failureManifest, "a") as f:
f.write("[%s]\n" % self.test_object["path"])
for k, v in self.test_object.items():
f.write("%s = %s\n" % (k, v))
else:
# If TSan reports a race, dump the output, else we can't
# diagnose what the problem was. See comments above about
# the significance of TSAN_EXIT_CODE_WITH_RACES.
if self.usingTSan and return_code == TSAN_EXIT_CODE_WITH_RACES:
self.log_full_output()
self.log.test_end(
name, status, expected=expected, message=message, group=group
)
if self.verbose:
self.log_full_output()
self.retry = False
if expect_pass:
self.passCount = 1
else:
self.todoCount = 1
if self.checkForCrashes(self.tempDir, self.symbolsPath, test_name=name):
if self.retry:
self.clean_temp_dirs(path)
return
# If we assert during shutdown there's a chance the test has passed
# but we haven't logged full output, so do so here.
self.log_full_output()
self.failCount = 1
if self.logfiles and process_output:
self.createLogFile(name, process_output)
finally:
self.postCheck(proc)
self.clean_temp_dirs(path)
if gotSIGINT:
self.log.error("Received SIGINT (control-C) during test execution")
if self.keep_going:
gotSIGINT = False
else:
self.keep_going = False
return
self.keep_going = True
class XPCShellTests(object):
def __init__(self, log=None):
"""Initializes node status and logger."""
self.log = log
self.harness_timeout = HARNESS_TIMEOUT
self.nodeProc = {}
self.http3Server = None
self.conditioned_profile_dir = None
def getTestManifest(self, manifest):
if isinstance(manifest, TestManifest):
return manifest
elif manifest is not None:
manifest = os.path.normpath(os.path.abspath(manifest))
if os.path.isfile(manifest):
return TestManifest([manifest], strict=True)
else:
toml_path = os.path.join(manifest, "xpcshell.toml")
else:
toml_path = os.path.join(SCRIPT_DIR, "tests", "xpcshell.toml")
if os.path.exists(toml_path):
return TestManifest([toml_path], strict=True)
else:
self.log.error(
"Failed to find manifest at %s; use --manifest "
"to set path explicitly." % toml_path
)
sys.exit(1)
def normalizeTest(self, root, test_object):
path = test_object.get("file_relpath", test_object["relpath"])
if "dupe-manifest" in test_object and "ancestor_manifest" in test_object:
test_object["id"] = "%s:%s" % (
os.path.basename(test_object["ancestor_manifest"]),
path,
)
else:
test_object["id"] = path
if root:
test_object["manifest"] = os.path.relpath(test_object["manifest"], root)
if os.sep != "/":
for key in ("id", "manifest"):
test_object[key] = test_object[key].replace(os.sep, "/")
return test_object
def buildTestList(self, test_tags=None, test_paths=None, verify=False):
"""Reads the xpcshell.toml manifest and set self.alltests to an array.
Given the parameters, this method compiles a list of tests to be run
that matches the criteria set by parameters.
If any chunking of tests are to occur, it is also done in this method.
If no tests are added to the list of tests to be run, an error
is logged. A sys.exit() signal is sent to the caller.
Args:
test_tags (list, optional): list of strings.
test_paths (list, optional): list of strings derived from the command
line argument provided by user, specifying
tests to be run.
verify (bool, optional): boolean value.
"""
if test_paths is None:
test_paths = []
mp = self.getTestManifest(self.manifest)
root = mp.rootdir
if build and not root:
root = build.topsrcdir
normalize = partial(self.normalizeTest, root)
filters = []
if test_tags:
filters.append(tags(test_tags))
path_filter = None
if test_paths:
path_filter = pathprefix(test_paths)
filters.append(path_filter)
noDefaultFilters = False
if self.runFailures:
filters.append(failures(self.runFailures))
noDefaultFilters = True
if self.totalChunks > 1:
filters.append(chunk_by_slice(self.thisChunk, self.totalChunks))
try:
self.alltests = list(
map(
normalize,
mp.active_tests(
filters=filters,
noDefaultFilters=noDefaultFilters,
**mozinfo.info,
),
)
)
except TypeError:
sys.stderr.write("*** offending mozinfo.info: %s\n" % repr(mozinfo.info))
raise
if path_filter and path_filter.missing:
self.log.warning(
"The following path(s) didn't resolve any tests:\n {}".format(
" \n".join(sorted(path_filter.missing))
)
)
if len(self.alltests) == 0:
if (
test_paths
and path_filter.missing == set(test_paths)
and os.environ.get("MOZ_AUTOMATION") == "1"
):
# This can happen in CI when a manifest doesn't exist due to a
# build config variable in moz.build traversal. Don't generate
# an error in this case. Adding a todo count avoids mozharness
# raising an error.
self.todoCount += len(path_filter.missing)
else:
self.log.error(
"no tests to run using specified "
"combination of filters: {}".format(mp.fmt_filters())
)
sys.exit(1)
if len(self.alltests) == 1 and not verify:
self.singleFile = os.path.basename(self.alltests[0]["path"])
else:
self.singleFile = None
if self.dump_tests:
self.dump_tests = os.path.expanduser(self.dump_tests)
assert os.path.exists(os.path.dirname(self.dump_tests))
with open(self.dump_tests, "w") as dumpFile:
dumpFile.write(json.dumps({"active_tests": self.alltests}))
self.log.info("Dumping active_tests to %s file." % self.dump_tests)
sys.exit()
def setAbsPath(self):
"""
Set the absolute path for xpcshell and xrepath. These 3 variables
depend on input from the command line and we need to allow for absolute paths.
This function is overloaded for a remote solution as os.path* won't work remotely.
"""
self.testharnessdir = os.path.dirname(os.path.abspath(__file__))
self.headJSPath = self.testharnessdir.replace("\\", "/") + "/head.js"
if self.xpcshell is not None:
self.xpcshell = os.path.abspath(self.xpcshell)
if self.app_binary is not None:
self.app_binary = os.path.abspath(self.app_binary)
if self.xrePath is None:
binary_path = self.app_binary or self.xpcshell
self.xrePath = os.path.dirname(binary_path)
if mozinfo.isMac:
# Check if we're run from an OSX app bundle and override
# self.xrePath if we are.
appBundlePath = os.path.join(
os.path.dirname(os.path.dirname(self.xpcshell)), "Resources"
)
if os.path.exists(os.path.join(appBundlePath, "application.ini")):
self.xrePath = appBundlePath
else:
self.xrePath = os.path.abspath(self.xrePath)
if self.mozInfo is None:
self.mozInfo = os.path.join(self.testharnessdir, "mozinfo.json")
def buildPrefsFile(self, extraPrefs):
# Create the prefs.js file
# In test packages used in CI, the profile_data directory is installed
# in the SCRIPT_DIR.
profile_data_dir = os.path.join(SCRIPT_DIR, "profile_data")
# If possible, read profile data from topsrcdir. This prevents us from
# requiring a re-build to pick up newly added extensions in the
# <profile>/extensions directory.
if build:
path = os.path.join(build.topsrcdir, "testing", "profiles")
if os.path.isdir(path):
profile_data_dir = path
# Still not found? Look for testing/profiles relative to testing/xpcshell.
if not os.path.isdir(profile_data_dir):
path = os.path.abspath(os.path.join(SCRIPT_DIR, "..", "profiles"))
if os.path.isdir(path):
profile_data_dir = path
with open(os.path.join(profile_data_dir, "profiles.json"), "r") as fh:
base_profiles = json.load(fh)["xpcshell"]
# values to use when interpolating preferences
interpolation = {
"server": "dummyserver",
}
profile = Profile(profile=self.tempDir, restore=False)
prefsFile = os.path.join(profile.profile, "user.js")
# Empty the user.js file in case the file existed before.
with open(prefsFile, "w"):
pass
for name in base_profiles:
path = os.path.join(profile_data_dir, name)
profile.merge(path, interpolation=interpolation)
# add command line prefs
prefs = parse_preferences(extraPrefs)
profile.set_preferences(prefs)
self.prefsFile = prefsFile
return prefs
def buildCoreEnvironment(self):
"""
Add environment variables likely to be used across all platforms, including
remote systems.
"""
# Make assertions fatal
self.env["XPCOM_DEBUG_BREAK"] = "stack-and-abort"
# Crash reporting interferes with debugging
if not self.debuggerInfo:
self.env["MOZ_CRASHREPORTER"] = "1"
# Don't launch the crash reporter client
self.env["MOZ_CRASHREPORTER_NO_REPORT"] = "1"
# Don't permit remote connections by default.
# MOZ_DISABLE_NONLOCAL_CONNECTIONS can be set to "0" to temporarily
# enable non-local connections for the purposes of local testing.
self.env.setdefault("MOZ_DISABLE_NONLOCAL_CONNECTIONS", "1")
if self.mozInfo.get("topsrcdir") is not None:
self.env["MOZ_DEVELOPER_REPO_DIR"] = self.mozInfo["topsrcdir"]
if self.mozInfo.get("topobjdir") is not None:
self.env["MOZ_DEVELOPER_OBJ_DIR"] = self.mozInfo["topobjdir"]
# Disable the content process sandbox for the xpcshell tests. They
# currently attempt to do things like bind() sockets, which is not
# compatible with the sandbox.
self.env["MOZ_DISABLE_CONTENT_SANDBOX"] = "1"
if os.getenv("MOZ_FETCHES_DIR", None):
self.env["MOZ_FETCHES_DIR"] = os.getenv("MOZ_FETCHES_DIR", None)
if self.mozInfo.get("socketprocess_networking"):
self.env["MOZ_FORCE_USE_SOCKET_PROCESS"] = "1"
else:
self.env["MOZ_DISABLE_SOCKET_PROCESS"] = "1"
def buildEnvironment(self):
"""
Create and returns a dictionary of self.env to include all the appropriate env
variables and values. On a remote system, we overload this to set different
values and are missing things like os.environ and PATH.
"""
self.env = dict(os.environ)
self.buildCoreEnvironment()
if sys.platform == "win32":
self.env["PATH"] = self.env["PATH"] + ";" + self.xrePath
elif sys.platform in ("os2emx", "os2knix"):
os.environ["BEGINLIBPATH"] = self.xrePath + ";" + self.env["BEGINLIBPATH"]
os.environ["LIBPATHSTRICT"] = "T"
elif sys.platform == "osx" or sys.platform == "darwin":
self.env["DYLD_LIBRARY_PATH"] = os.path.join(
os.path.dirname(self.xrePath), "MacOS"
)
else: # unix or linux?
if "LD_LIBRARY_PATH" not in self.env or self.env["LD_LIBRARY_PATH"] is None:
self.env["LD_LIBRARY_PATH"] = self.xrePath
else:
self.env["LD_LIBRARY_PATH"] = ":".join(
[self.xrePath, self.env["LD_LIBRARY_PATH"]]
)
usingASan = "asan" in self.mozInfo and self.mozInfo["asan"]
usingTSan = "tsan" in self.mozInfo and self.mozInfo["tsan"]
if usingASan or usingTSan:
# symbolizer support
if "ASAN_SYMBOLIZER_PATH" in self.env and os.path.isfile(
self.env["ASAN_SYMBOLIZER_PATH"]
):
llvmsym = self.env["ASAN_SYMBOLIZER_PATH"]
else:
llvmsym = os.path.join(
self.xrePath, "llvm-symbolizer" + self.mozInfo["bin_suffix"]
)
if os.path.isfile(llvmsym):
if usingASan:
self.env["ASAN_SYMBOLIZER_PATH"] = llvmsym
else:
oldTSanOptions = self.env.get("TSAN_OPTIONS", "")
self.env["TSAN_OPTIONS"] = "external_symbolizer_path={} {}".format(
llvmsym, oldTSanOptions
)
self.log.info("runxpcshelltests.py | using symbolizer at %s" % llvmsym)
else:
self.log.error(
"TEST-UNEXPECTED-FAIL | runxpcshelltests.py | "
"Failed to find symbolizer at %s" % llvmsym
)
return self.env
def getPipes(self):
"""
Determine the value of the stdout and stderr for the test.
Return value is a list (pStdout, pStderr).
"""
if self.interactive:
pStdout = None
pStderr = None
else:
if self.debuggerInfo and self.debuggerInfo.interactive:
pStdout = None
pStderr = None
else:
if sys.platform == "os2emx":
pStdout = None
else:
pStdout = PIPE
pStderr = STDOUT
return pStdout, pStderr
def verifyDirPath(self, dirname):
"""
Simple wrapper to get the absolute path for a given directory name.
On a remote system, we need to overload this to work on the remote filesystem.
"""
return os.path.abspath(dirname)
def trySetupNode(self):
"""
Run node for HTTP/2 tests, if available, and updates mozinfo as appropriate.
"""
if os.getenv("MOZ_ASSUME_NODE_RUNNING", None):
self.log.info("Assuming required node servers are already running")
if not os.getenv("MOZHTTP2_PORT", None):
self.log.warning(
"MOZHTTP2_PORT environment variable not set. "
"Tests requiring http/2 will fail."
)
return
# We try to find the node executable in the path given to us by the user in
# the MOZ_NODE_PATH environment variable
nodeBin = os.getenv("MOZ_NODE_PATH", None)
if not nodeBin and build:
nodeBin = build.substs.get("NODEJS")
if not nodeBin:
self.log.warning(
"MOZ_NODE_PATH environment variable not set. "
"Tests requiring http/2 will fail."
)
return
if not os.path.exists(nodeBin) or not os.path.isfile(nodeBin):
error = "node not found at MOZ_NODE_PATH %s" % (nodeBin)
self.log.error(error)
raise IOError(error)
self.log.info("Found node at %s" % (nodeBin,))
def read_streams(name, proc, pipe):
output = "stdout" if pipe == proc.stdout else "stderr"
for line in iter(pipe.readline, ""):
self.log.info("node %s [%s] %s" % (name, output, line))
def startServer(name, serverJs):
if not os.path.exists(serverJs):
error = "%s not found at %s" % (name, serverJs)
self.log.error(error)
raise IOError(error)
# OK, we found our server, let's try to get it running
self.log.info("Found %s at %s" % (name, serverJs))
try:
# We pipe stdin to node because the server will exit when its
# stdin reaches EOF
with popenCleanupHack():
process = Popen(
[nodeBin, serverJs],
stdin=PIPE,
stdout=PIPE,
stderr=PIPE,
env=self.env,
cwd=os.getcwd(),
universal_newlines=True,
start_new_session=True,
)
self.nodeProc[name] = process
# Check to make sure the server starts properly by waiting for it to
# tell us it's started
msg = process.stdout.readline()
if "server listening" in msg:
searchObj = re.search(
r"HTTP2 server listening on ports ([0-9]+),([0-9]+)", msg, 0
)
if searchObj:
self.env["MOZHTTP2_PORT"] = searchObj.group(1)
self.env["MOZNODE_EXEC_PORT"] = searchObj.group(2)
t1 = Thread(
target=read_streams,
args=(name, process, process.stdout),
daemon=True,
)
t1.start()
t2 = Thread(
target=read_streams,
args=(name, process, process.stderr),
daemon=True,
)
t2.start()
except OSError as e:
# This occurs if the subprocess couldn't be started
self.log.error("Could not run %s server: %s" % (name, str(e)))
raise
myDir = os.path.split(os.path.abspath(__file__))[0]
startServer("moz-http2", os.path.join(myDir, "moz-http2", "moz-http2.js"))
def shutdownNode(self):
"""
Shut down our node process, if it exists
"""
for name, proc in six.iteritems(self.nodeProc):
self.log.info("Node %s server shutting down ..." % name)
if proc.poll() is not None:
self.log.info("Node server %s already dead %s" % (name, proc.poll()))
elif sys.platform != "win32":
# Kill process and all its spawned children.
os.killpg(proc.pid, signal.SIGTERM)
else:
proc.terminate()
self.nodeProc = {}
def startHttp3Server(self):
"""
Start a Http3 test server.
"""
binSuffix = ""
if sys.platform == "win32":
binSuffix = ".exe"
http3ServerPath = self.http3ServerPath
if not http3ServerPath:
http3ServerPath = os.path.join(
SCRIPT_DIR, "http3server", "http3server" + binSuffix
)
if build:
http3ServerPath = os.path.join(
build.topobjdir, "dist", "bin", "http3server" + binSuffix
)
dbPath = os.path.join(SCRIPT_DIR, "http3server", "http3serverDB")
if build:
dbPath = os.path.join(build.topsrcdir, "netwerk", "test", "http3serverDB")
options = {}
options["http3ServerPath"] = http3ServerPath
options["profilePath"] = dbPath
options["isMochitest"] = False
options["isWin"] = sys.platform == "win32"
serverEnv = self.env.copy()
serverLog = self.env.get("MOZHTTP3_SERVER_LOG")
if serverLog is not None:
serverEnv["RUST_LOG"] = serverLog
self.http3Server = Http3Server(options, serverEnv, self.log)
self.http3Server.start()
for key, value in self.http3Server.ports().items():
self.env[key] = value
self.env["MOZHTTP3_ECH"] = self.http3Server.echConfig()
def shutdownHttp3Server(self):
if self.http3Server is None:
return
self.http3Server.stop()
self.http3Server = None
def buildXpcsRunArgs(self):
"""
Add arguments to run the test or make it interactive.
"""
if self.interactive:
self.xpcsRunArgs = [
"-e",
'print("To start the test, type |_execute_test();|.");',
"-i",
]
else:
self.xpcsRunArgs = ["-e", "_execute_test(); quit(0);"]
def addTestResults(self, test):
self.passCount += test.passCount
self.failCount += test.failCount
self.todoCount += test.todoCount
def updateMozinfo(self, prefs, options):
# Handle filenames in mozInfo
if not isinstance(self.mozInfo, dict):
mozInfoFile = self.mozInfo
if not os.path.isfile(mozInfoFile):
self.log.error(
"Error: couldn't find mozinfo.json at '%s'. Perhaps you "
"need to use --build-info-json?" % mozInfoFile
)
return False
self.mozInfo = json.load(open(mozInfoFile))
# mozinfo.info is used as kwargs. Some builds are done with
# an older Python that can't handle Unicode keys in kwargs.
# All of the keys in question should be ASCII.
fixedInfo = {}
for k, v in self.mozInfo.items():
if isinstance(k, bytes):
k = k.decode("utf-8")
fixedInfo[k] = v
self.mozInfo = fixedInfo
self.mozInfo["fission"] = prefs.get("fission.autostart", True)
self.mozInfo["sessionHistoryInParent"] = self.mozInfo[
"fission"
] or not prefs.get("fission.disableSessionHistoryInParent", False)
self.mozInfo["serviceworker_e10s"] = True
self.mozInfo["verify"] = options.get("verify", False)
self.mozInfo["socketprocess_networking"] = prefs.get(
"network.http.network_access_on_socket_process.enabled", False
)
self.mozInfo["condprof"] = options.get("conditionedProfile", False)
self.mozInfo["msix"] = options.get(
"app_binary"
) is not None and "WindowsApps" in options.get("app_binary", "")
self.mozInfo["is_ubuntu"] = "Ubuntu" in platform.version()
mozinfo.update(self.mozInfo)
return True
@property
def conditioned_profile_copy(self):
"""Returns a copy of the original conditioned profile that was created."""
condprof_copy = os.path.join(tempfile.mkdtemp(), "profile")
shutil.copytree(
self.conditioned_profile_dir,
condprof_copy,
ignore=shutil.ignore_patterns("lock"),
)
self.log.info("Created a conditioned-profile copy: %s" % condprof_copy)
return condprof_copy
def downloadConditionedProfile(self, profile_scenario, app):
from condprof.client import get_profile
from condprof.util import get_current_platform, get_version
if self.conditioned_profile_dir:
# We already have a directory, so provide a copy that
# will get deleted after it's done with
return self.conditioned_profile_dir
# create a temp file to help ensure uniqueness
temp_download_dir = tempfile.mkdtemp()
self.log.info(
"Making temp_download_dir from inside get_conditioned_profile {}".format(
temp_download_dir
)
)
# call condprof's client API to yield our platform-specific
# conditioned-profile binary
platform = get_current_platform()
version = None
if isinstance(app, str):
version = get_version(app)
if not profile_scenario:
profile_scenario = "settled"
try:
cond_prof_target_dir = get_profile(
temp_download_dir,
platform,
profile_scenario,
repo="mozilla-central",
version=version,
retries=2,
)
except Exception:
if version is None:
# any other error is a showstopper
self.log.critical("Could not get the conditioned profile")
traceback.print_exc()
raise
version = None
try:
self.log.info("Retrying a profile with no version specified")
cond_prof_target_dir = get_profile(
temp_download_dir,
platform,
profile_scenario,
repo="mozilla-central",
version=version,
)
except Exception:
self.log.critical("Could not get the conditioned profile")
traceback.print_exc()
raise
# now get the full directory path to our fetched conditioned profile
self.conditioned_profile_dir = os.path.join(
temp_download_dir, cond_prof_target_dir
)
if not os.path.exists(cond_prof_target_dir):
self.log.critical(
"Can't find target_dir {}, from get_profile()"
"temp_download_dir {}, platform {}, scenario {}".format(
cond_prof_target_dir, temp_download_dir, platform, profile_scenario
)
)
raise OSError
self.log.info(
"Original self.conditioned_profile_dir is now set: {}".format(
self.conditioned_profile_dir
)
)
return self.conditioned_profile_copy
def runSelfTest(self):
import unittest
import selftest
this = self
class XPCShellTestsTests(selftest.XPCShellTestsTests):
def __init__(self, name):
unittest.TestCase.__init__(self, name)
self.testing_modules = this.testingModulesDir
self.xpcshellBin = this.xpcshell
self.app_binary = this.app_binary
self.utility_path = this.utility_path
self.symbols_path = this.symbolsPath
old_info = dict(mozinfo.info)
try:
suite = unittest.TestLoader().loadTestsFromTestCase(XPCShellTestsTests)
return unittest.TextTestRunner(verbosity=2).run(suite).wasSuccessful()
finally:
# The self tests modify mozinfo, so we need to reset it.
mozinfo.info.clear()
mozinfo.update(old_info)
def runTests(self, options, testClass=XPCShellTestThread, mobileArgs=None):
"""
Run xpcshell tests.
"""
global gotSIGINT
# Number of times to repeat test(s) in --verify mode
VERIFY_REPEAT = 10
if isinstance(options, Namespace):
options = vars(options)
# Try to guess modules directory.
# This somewhat grotesque hack allows the buildbot machines to find the
# modules directory without having to configure the buildbot hosts. This
# code path should never be executed in local runs because the build system
# should always set this argument.
if not options.get("testingModulesDir"):
possible = os.path.join(here, os.path.pardir, "modules")
if os.path.isdir(possible):
testingModulesDir = possible
if options.get("rerun_failures"):
if os.path.exists(options.get("failure_manifest")):
rerun_manifest = os.path.join(
os.path.dirname(options["failure_manifest"]), "rerun.toml"
)
shutil.copyfile(options["failure_manifest"], rerun_manifest)
os.remove(options["failure_manifest"])
else:
self.log.error("No failures were found to re-run.")
sys.exit(1)
if options.get("testingModulesDir"):
# The resource loader expects native paths. Depending on how we were
# invoked, a UNIX style path may sneak in on Windows. We try to
# normalize that.
testingModulesDir = os.path.normpath(options["testingModulesDir"])
if not os.path.isabs(testingModulesDir):
testingModulesDir = os.path.abspath(testingModulesDir)
if not testingModulesDir.endswith(os.path.sep):
testingModulesDir += os.path.sep
self.debuggerInfo = None
if options.get("debugger"):
self.debuggerInfo = mozdebug.get_debugger_info(
options.get("debugger"),
options.get("debuggerArgs"),
options.get("debuggerInteractive"),
)
self.jsDebuggerInfo = None
if options.get("jsDebugger"):
# A namedtuple let's us keep .port instead of ['port']
JSDebuggerInfo = namedtuple("JSDebuggerInfo", ["port"])
self.jsDebuggerInfo = JSDebuggerInfo(port=options["jsDebuggerPort"])
self.app_binary = options.get("app_binary")
self.xpcshell = options.get("xpcshell")
self.http3ServerPath = options.get("http3server")
self.xrePath = options.get("xrePath")
self.utility_path = options.get("utility_path")
self.appPath = options.get("appPath")
self.symbolsPath = options.get("symbolsPath")
self.tempDir = os.path.normpath(options.get("tempDir") or tempfile.gettempdir())
self.manifest = options.get("manifest")
self.dump_tests = options.get("dump_tests")
self.interactive = options.get("interactive")
self.verbose = options.get("verbose")
self.verboseIfFails = options.get("verboseIfFails")
self.keepGoing = options.get("keepGoing")
self.logfiles = options.get("logfiles")
self.totalChunks = options.get("totalChunks", 1)
self.thisChunk = options.get("thisChunk")
self.profileName = options.get("profileName") or "xpcshell"
self.mozInfo = options.get("mozInfo")
self.testingModulesDir = testingModulesDir
self.sequential = options.get("sequential")
self.failure_manifest = options.get("failure_manifest")
self.threadCount = options.get("threadCount") or NUM_THREADS
self.jscovdir = options.get("jscovdir")
self.headless = options.get("headless")
self.runFailures = options.get("runFailures")
self.timeoutAsPass = options.get("timeoutAsPass")
self.crashAsPass = options.get("crashAsPass")
self.conditionedProfile = options.get("conditionedProfile")
self.repeat = options.get("repeat", 0)
self.testCount = 0
self.passCount = 0
self.failCount = 0
self.todoCount = 0
if self.conditionedProfile:
self.conditioned_profile_dir = self.downloadConditionedProfile(
"full", self.appPath
)
options["self_test"] = False
if not options["test_tags"]:
options["test_tags"] = []
options["test_tags"].append("condprof")
self.setAbsPath()
eprefs = options.get("extraPrefs") or []
# enable fission by default
if options.get("disableFission"):
eprefs.append("fission.autostart=false")
else:
# should be by default, just in case
eprefs.append("fission.autostart=true")
prefs = self.buildPrefsFile(eprefs)
self.buildXpcsRunArgs()
self.event = Event()
if not self.updateMozinfo(prefs, options):
return False
self.log.info(
"These variables are available in the mozinfo environment and "
"can be used to skip tests conditionally:"
)
for info in sorted(self.mozInfo.items(), key=lambda item: item[0]):
self.log.info(" {key}: {value}".format(key=info[0], value=info[1]))
if options.get("self_test"):
if not self.runSelfTest():
return False
if (
("tsan" in self.mozInfo and self.mozInfo["tsan"])
or ("asan" in self.mozInfo and self.mozInfo["asan"])
) and not options.get("threadCount"):
# TSan/ASan require significantly more memory, so reduce the amount of parallel
# tests we run to avoid OOMs and timeouts. We always keep a minimum of 2 for
# non-sequential execution.
# pylint --py3k W1619
self.threadCount = max(self.threadCount / 2, 2)
self.stack_fixer_function = None
if self.utility_path and os.path.exists(self.utility_path):
self.stack_fixer_function = get_stack_fixer_function(
self.utility_path, self.symbolsPath
)
# buildEnvironment() needs mozInfo, so we call it after mozInfo is initialized.
self.buildEnvironment()
# The appDirKey is a optional entry in either the default or individual test
# sections that defines a relative application directory for test runs. If
# defined we pass 'grePath/$appDirKey' for the -a parameter of the xpcshell
# test harness.
appDirKey = None
if "appname" in self.mozInfo:
appDirKey = self.mozInfo["appname"] + "-appdir"
# We have to do this before we run tests that depend on having the node
# http/2 server.
self.trySetupNode()
self.startHttp3Server()
pStdout, pStderr = self.getPipes()
self.buildTestList(
options.get("test_tags"), options.get("testPaths"), options.get("verify")
)
if self.singleFile:
self.sequential = True
if options.get("shuffle"):
random.shuffle(self.alltests)
self.cleanup_dir_list = []
kwargs = {
"appPath": self.appPath,
"xrePath": self.xrePath,
"utility_path": self.utility_path,
"testingModulesDir": self.testingModulesDir,
"debuggerInfo": self.debuggerInfo,
"jsDebuggerInfo": self.jsDebuggerInfo,
"headJSPath": self.headJSPath,
"tempDir": self.tempDir,
"testharnessdir": self.testharnessdir,
"profileName": self.profileName,
"singleFile": self.singleFile,
"env": self.env, # making a copy of this in the testthreads
"symbolsPath": self.symbolsPath,
"logfiles": self.logfiles,
"app_binary": self.app_binary,
"xpcshell": self.xpcshell,
"xpcsRunArgs": self.xpcsRunArgs,
"failureManifest": self.failure_manifest,
"jscovdir": self.jscovdir,
"harness_timeout": self.harness_timeout,
"stack_fixer_function": self.stack_fixer_function,
"event": self.event,
"cleanup_dir_list": self.cleanup_dir_list,
"pStdout": pStdout,
"pStderr": pStderr,
"keep_going": self.keepGoing,
"log": self.log,
"interactive": self.interactive,
"app_dir_key": appDirKey,
"rootPrefsFile": self.prefsFile,
"extraPrefs": options.get("extraPrefs") or [],
"verboseIfFails": self.verboseIfFails,
"headless": self.headless,
"runFailures": self.runFailures,
"timeoutAsPass": self.timeoutAsPass,
"crashAsPass": self.crashAsPass,
"conditionedProfileDir": self.conditioned_profile_dir,
"repeat": self.repeat,
}
if self.sequential:
# Allow user to kill hung xpcshell subprocess with SIGINT
# when we are only running tests sequentially.
signal.signal(signal.SIGINT, markGotSIGINT)
if self.debuggerInfo:
# Force a sequential run
self.sequential = True
# If we have an interactive debugger, disable SIGINT entirely.
if self.debuggerInfo.interactive:
signal.signal(signal.SIGINT, lambda signum, frame: None)
if "lldb" in self.debuggerInfo.path:
self.log.info(
"It appears that you're using LLDB to debug this test. "
+ "Please use the 'process launch' command instead of "
"the 'run' command to start xpcshell."
)
if self.jsDebuggerInfo:
# The js debugger magic needs more work to do the right thing
# if debugging multiple files.
if len(self.alltests) != 1:
self.log.error(
"Error: --jsdebugger can only be used with a single test!"
)
return False
# The test itself needs to know whether it is a tsan build, since
# that has an effect on interpretation of the process return value.
usingTSan = "tsan" in self.mozInfo and self.mozInfo["tsan"]
usingCrashReporter = (
"crashreporter" in self.mozInfo and self.mozInfo["crashreporter"]
)
# create a queue of all tests that will run
tests_queue = deque()
# also a list for the tests that need to be run sequentially
sequential_tests = []
status = None
if options.get("repeat", 0) > 0:
self.sequential = True
if not options.get("verify"):
for test_object in self.alltests:
# Test identifiers are provided for the convenience of logging. These
# start as path names but are rewritten in case tests from the same path
# are re-run.
path = test_object["path"]
if self.singleFile and not path.endswith(self.singleFile):
continue
# if we have --repeat, duplicate the tests as needed
for i in range(0, options.get("repeat", 0) + 1):
self.testCount += 1
test = testClass(
test_object,
verbose=self.verbose or test_object.get("verbose") == "true",
usingTSan=usingTSan,
usingCrashReporter=usingCrashReporter,
mobileArgs=mobileArgs,
**kwargs,
)
if "run-sequentially" in test_object or self.sequential:
sequential_tests.append(test)
else:
tests_queue.append(test)
status = self.runTestList(
tests_queue, sequential_tests, testClass, mobileArgs, **kwargs
)
else:
#
# Test verification: Run each test many times, in various configurations,
# in hopes of finding intermittent failures.
#
def step1():
# Run tests sequentially. Parallel mode would also work, except that
# the logging system gets confused when 2 or more tests with the same
# name run at the same time.
sequential_tests = []
for i in range(VERIFY_REPEAT):
self.testCount += 1
test = testClass(
test_object, retry=False, mobileArgs=mobileArgs, **kwargs
)
sequential_tests.append(test)
status = self.runTestList(
tests_queue, sequential_tests, testClass, mobileArgs, **kwargs
)
return status
def step2():
# Run tests sequentially, with MOZ_CHAOSMODE enabled.
sequential_tests = []
self.env["MOZ_CHAOSMODE"] = "0xfb"
# chaosmode runs really slow, allow tests extra time to pass
self.harness_timeout = self.harness_timeout * 2
for i in range(VERIFY_REPEAT):
self.testCount += 1
test = testClass(
test_object, retry=False, mobileArgs=mobileArgs, **kwargs
)
sequential_tests.append(test)
status = self.runTestList(
tests_queue, sequential_tests, testClass, mobileArgs, **kwargs
)
self.harness_timeout = self.harness_timeout / 2
return status
steps = [
("1. Run each test %d times, sequentially." % VERIFY_REPEAT, step1),
(
"2. Run each test %d times, sequentially, in chaos mode."
% VERIFY_REPEAT,
step2,
),
]
startTime = datetime.now()
maxTime = timedelta(seconds=options["verifyMaxTime"])
for test_object in self.alltests:
stepResults = {}
for descr, step in steps:
stepResults[descr] = "not run / incomplete"
finalResult = "PASSED"
for descr, step in steps:
if (datetime.now() - startTime) > maxTime:
self.log.info(
"::: Test verification is taking too long: Giving up!"
)
self.log.info(
"::: So far, all checks passed, but not "
"all checks were run."
)
break
self.log.info(":::")
self.log.info('::: Running test verification step "%s"...' % descr)
self.log.info(":::")
status = step()
if status is not True:
stepResults[descr] = "FAIL"
finalResult = "FAILED!"
break
stepResults[descr] = "Pass"
self.log.info(":::")
self.log.info(
"::: Test verification summary for: %s" % test_object["path"]
)
self.log.info(":::")
for descr in sorted(stepResults.keys()):
self.log.info("::: %s : %s" % (descr, stepResults[descr]))
self.log.info(":::")
self.log.info("::: Test verification %s" % finalResult)
self.log.info(":::")
self.shutdownNode()
self.shutdownHttp3Server()
return status
def start_test(self, test):
test.start()
def test_ended(self, test):
pass
def runTestList(
self, tests_queue, sequential_tests, testClass, mobileArgs, **kwargs
):
if self.sequential:
self.log.info("Running tests sequentially.")
else:
self.log.info("Using at most %d threads." % self.threadCount)
# keep a set of threadCount running tests and start running the
# tests in the queue at most threadCount at a time
running_tests = set()
keep_going = True
infra_abort = False
exceptions = []
tracebacks = []
self.try_again_list = []
tests_by_manifest = defaultdict(list)
for test in self.alltests:
group = get_full_group_name(test)
tests_by_manifest[group].append(test["id"])
self.log.suite_start(tests_by_manifest, name="xpcshell")
while tests_queue or running_tests:
# if we're not supposed to continue and all of the running tests
# are done, stop
if not keep_going and not running_tests:
break
# if there's room to run more tests, start running them
while (
keep_going and tests_queue and (len(running_tests) < self.threadCount)
):
test = tests_queue.popleft()
running_tests.add(test)
self.start_test(test)
# queue is full (for now) or no more new tests,
# process the finished tests so far
# wait for at least one of the tests to finish
self.event.wait(1)
self.event.clear()
# find what tests are done (might be more than 1)
done_tests = set()
for test in running_tests:
if test.done:
self.test_ended(test)
done_tests.add(test)
test.join(
1
) # join with timeout so we don't hang on blocked threads
# if the test had trouble, we will try running it again
# at the end of the run
if test.retry or test.is_alive():
# if the join call timed out, test.is_alive => True
self.try_again_list.append(test.test_object)
continue
# did the test encounter any exception?
if test.exception:
exceptions.append(test.exception)
tracebacks.append(test.traceback)
# we won't add any more tests, will just wait for
# the currently running ones to finish
keep_going = False
infra_abort = infra_abort and test.infra
keep_going = keep_going and test.keep_going
self.addTestResults(test)
# make room for new tests to run
running_tests.difference_update(done_tests)
if infra_abort:
return TBPL_RETRY # terminate early
if keep_going:
# run the other tests sequentially
for test in sequential_tests:
if not keep_going:
self.log.error(
"TEST-UNEXPECTED-FAIL | Received SIGINT (control-C), so "
"stopped run. (Use --keep-going to keep running tests "
"after killing one with SIGINT)"
)
break
self.start_test(test)
test.join()
self.test_ended(test)
if (test.failCount > 0 or test.passCount <= 0) and os.environ.get(
"MOZ_AUTOMATION", 0
) != 0:
self.try_again_list.append(test.test_object)
continue
self.addTestResults(test)
# did the test encounter any exception?
if test.exception:
exceptions.append(test.exception)
tracebacks.append(test.traceback)
break
keep_going = test.keep_going
# retry tests that failed when run in parallel
if self.try_again_list:
self.log.info("Retrying tests that failed when run in parallel.")
for test_object in self.try_again_list:
test = testClass(
test_object,
retry=False,
verbose=self.verbose,
mobileArgs=mobileArgs,
**kwargs,
)
self.start_test(test)
test.join()
self.test_ended(test)
self.addTestResults(test)
# did the test encounter any exception?
if test.exception:
exceptions.append(test.exception)
tracebacks.append(test.traceback)
break
keep_going = test.keep_going
# restore default SIGINT behaviour
signal.signal(signal.SIGINT, signal.SIG_DFL)
# Clean up any slacker directories that might be lying around
# Some might fail because of windows taking too long to unlock them.
# We don't do anything if this fails because the test machines will have
# their $TEMP dirs cleaned up on reboot anyway.
for directory in self.cleanup_dir_list:
try:
shutil.rmtree(directory)
except Exception:
self.log.info("%s could not be cleaned up." % directory)
if exceptions:
self.log.info("Following exceptions were raised:")
for t in tracebacks:
self.log.error(t)
raise exceptions[0]
if self.testCount == 0 and os.environ.get("MOZ_AUTOMATION") != "1":
self.log.error("No tests run. Did you pass an invalid --test-path?")
self.failCount = 1
# doing this allows us to pass the mozharness parsers that
# report an orange job for failCount>0
if self.runFailures:
passed = self.passCount
self.passCount = self.failCount
self.failCount = passed
self.log.info("INFO | Result summary:")
self.log.info("INFO | Passed: %d" % self.passCount)
self.log.info("INFO | Failed: %d" % self.failCount)
self.log.info("INFO | Todo: %d" % self.todoCount)
self.log.info("INFO | Retried: %d" % len(self.try_again_list))
if gotSIGINT and not keep_going:
self.log.error(
"TEST-UNEXPECTED-FAIL | Received SIGINT (control-C), so stopped run. "
"(Use --keep-going to keep running tests after "
"killing one with SIGINT)"
)
return False
self.log.suite_end()
return self.runFailures or self.failCount == 0
def main():
parser = parser_desktop()
options = parser.parse_args()
log = commandline.setup_logging("XPCShell", options, {"tbpl": sys.stdout})
if options.xpcshell is None and options.app_binary is None:
log.error(
"Must provide path to xpcshell using --xpcshell or Firefox using --app-binary"
)
sys.exit(1)
if options.xpcshell is not None and options.app_binary is not None:
log.error(
"Cannot provide --xpcshell and --app-binary - they are mutually exclusive options. Choose one."
)
sys.exit(1)
xpcsh = XPCShellTests(log)
if options.interactive and not options.testPath:
log.error("Error: You must specify a test filename in interactive mode!")
sys.exit(1)
result = xpcsh.runTests(options)
if result == TBPL_RETRY:
sys.exit(4)
if not result:
sys.exit(1)
if __name__ == "__main__":
main()