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samba-mirror/selftest/subunithelper.py
2018-10-23 05:50:25 +02:00

728 lines
25 KiB
Python

# Python module for parsing and generating the Subunit protocol
# (Samba-specific)
# Copyright (C) 2008-2009 Jelmer Vernooij <jelmer@samba.org>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from __future__ import print_function
__all__ = ['parse_results']
import datetime
import re
import sys
import os
from samba import subunit
from samba.subunit.run import TestProtocolClient
from samba.subunit import iso8601
import unittest
from samba.compat import binary_type
VALID_RESULTS = set(['success', 'successful', 'failure', 'fail', 'skip',
'knownfail', 'error', 'xfail', 'skip-testsuite',
'testsuite-failure', 'testsuite-xfail',
'testsuite-success', 'testsuite-error',
'uxsuccess', 'testsuite-uxsuccess'])
class TestsuiteEnabledTestResult(unittest.TestResult):
def start_testsuite(self, name):
raise NotImplementedError(self.start_testsuite)
def parse_results(msg_ops, statistics, fh):
exitcode = 0
open_tests = {}
while fh:
l = fh.readline()
if l == "":
break
parts = l.split(None, 1)
if not len(parts) == 2 or not l.startswith(parts[0]):
msg_ops.output_msg(l)
continue
command = parts[0].rstrip(":")
arg = parts[1]
if command in ("test", "testing"):
msg_ops.control_msg(l)
name = arg.rstrip()
test = subunit.RemotedTestCase(name)
if name in open_tests:
msg_ops.addError(open_tests.pop(name), subunit.RemoteError(u"Test already running"))
msg_ops.startTest(test)
open_tests[name] = test
elif command == "time":
msg_ops.control_msg(l)
try:
dt = iso8601.parse_date(arg.rstrip("\n"))
except TypeError as e:
print("Unable to parse time line: %s" % arg.rstrip("\n"))
else:
msg_ops.time(dt)
elif command in VALID_RESULTS:
msg_ops.control_msg(l)
result = command
grp = re.match("(.*?)( \[)?([ \t]*)( multipart)?\n", arg)
(testname, hasreason) = (grp.group(1), grp.group(2))
if hasreason:
reason = ""
# reason may be specified in next lines
terminated = False
while fh:
l = fh.readline()
if l == "":
break
msg_ops.control_msg(l)
if l[-2:] == "]\n":
reason += l[:-2]
terminated = True
break
else:
reason += l
if isinstance(reason, binary_type):
remote_error = subunit.RemoteError(reason.decode("utf-8"))
else:
remote_error = subunit.RemoteError(reason)
if not terminated:
statistics['TESTS_ERROR'] += 1
msg_ops.addError(subunit.RemotedTestCase(testname), subunit.RemoteError(u"reason (%s) interrupted" % result))
return 1
else:
reason = None
remote_error = subunit.RemoteError(u"No reason specified")
if result in ("success", "successful"):
try:
test = open_tests.pop(testname)
except KeyError:
statistics['TESTS_ERROR'] += 1
exitcode = 1
msg_ops.addError(subunit.RemotedTestCase(testname), subunit.RemoteError(u"Test was never started"))
else:
statistics['TESTS_EXPECTED_OK'] += 1
msg_ops.addSuccess(test)
elif result in ("xfail", "knownfail"):
try:
test = open_tests.pop(testname)
except KeyError:
statistics['TESTS_ERROR'] += 1
exitcode = 1
msg_ops.addError(subunit.RemotedTestCase(testname), subunit.RemoteError(u"Test was never started"))
else:
statistics['TESTS_EXPECTED_FAIL'] += 1
msg_ops.addExpectedFailure(test, remote_error)
elif result in ("uxsuccess", ):
try:
test = open_tests.pop(testname)
except KeyError:
statistics['TESTS_ERROR'] += 1
exitcode = 1
msg_ops.addError(subunit.RemotedTestCase(testname), subunit.RemoteError(u"Test was never started"))
else:
statistics['TESTS_UNEXPECTED_OK'] += 1
msg_ops.addUnexpectedSuccess(test)
exitcode = 1
elif result in ("failure", "fail"):
try:
test = open_tests.pop(testname)
except KeyError:
statistics['TESTS_ERROR'] += 1
exitcode = 1
msg_ops.addError(subunit.RemotedTestCase(testname), subunit.RemoteError(u"Test was never started"))
else:
statistics['TESTS_UNEXPECTED_FAIL'] += 1
exitcode = 1
msg_ops.addFailure(test, remote_error)
elif result == "skip":
statistics['TESTS_SKIP'] += 1
# Allow tests to be skipped without prior announcement of test
try:
test = open_tests.pop(testname)
except KeyError:
test = subunit.RemotedTestCase(testname)
msg_ops.addSkip(test, reason)
elif result == "error":
statistics['TESTS_ERROR'] += 1
exitcode = 1
try:
test = open_tests.pop(testname)
except KeyError:
test = subunit.RemotedTestCase(testname)
msg_ops.addError(test, remote_error)
elif result == "skip-testsuite":
msg_ops.skip_testsuite(testname)
elif result == "testsuite-success":
msg_ops.end_testsuite(testname, "success", reason)
elif result == "testsuite-failure":
msg_ops.end_testsuite(testname, "failure", reason)
exitcode = 1
elif result == "testsuite-xfail":
msg_ops.end_testsuite(testname, "xfail", reason)
elif result == "testsuite-uxsuccess":
msg_ops.end_testsuite(testname, "uxsuccess", reason)
exitcode = 1
elif result == "testsuite-error":
msg_ops.end_testsuite(testname, "error", reason)
exitcode = 1
else:
raise AssertionError("Recognized but unhandled result %r" %
result)
elif command == "testsuite":
msg_ops.start_testsuite(arg.strip())
elif command == "progress":
arg = arg.strip()
if arg == "pop":
msg_ops.progress(None, subunit.PROGRESS_POP)
elif arg == "push":
msg_ops.progress(None, subunit.PROGRESS_PUSH)
elif arg[0] in '+-':
msg_ops.progress(int(arg), subunit.PROGRESS_CUR)
else:
msg_ops.progress(int(arg), subunit.PROGRESS_SET)
else:
msg_ops.output_msg(l)
while open_tests:
test = subunit.RemotedTestCase(open_tests.popitem()[1])
msg_ops.addError(test, subunit.RemoteError(u"was started but never finished!"))
statistics['TESTS_ERROR'] += 1
exitcode = 1
return exitcode
class SubunitOps(TestProtocolClient, TestsuiteEnabledTestResult):
def progress(self, count, whence):
if whence == subunit.PROGRESS_POP:
self._stream.write("progress: pop\n")
elif whence == subunit.PROGRESS_PUSH:
self._stream.write("progress: push\n")
elif whence == subunit.PROGRESS_SET:
self._stream.write("progress: %d\n" % count)
elif whence == subunit.PROGRESS_CUR:
raise NotImplementedError
# The following are Samba extensions:
def start_testsuite(self, name):
self._stream.write("testsuite: %s\n" % name)
def skip_testsuite(self, name, reason=None):
if reason:
self._stream.write("skip-testsuite: %s [\n%s\n]\n" % (name, reason))
else:
self._stream.write("skip-testsuite: %s\n" % name)
def end_testsuite(self, name, result, reason=None):
if reason:
self._stream.write("testsuite-%s: %s [\n%s\n]\n" % (result, name, reason))
else:
self._stream.write("testsuite-%s: %s\n" % (result, name))
def output_msg(self, msg):
self._stream.write(msg)
def read_test_regexes(*names):
ret = {}
files = []
for name in names:
# if we are given a directory, we read all the files it contains
# (except the ones that end with "~").
if os.path.isdir(name):
files.extend([os.path.join(name, x)
for x in os.listdir(name)
if x[-1] != '~'])
else:
files.append(name)
for filename in files:
f = open(filename, 'r')
try:
for l in f:
l = l.strip()
if l == "" or l[0] == "#":
continue
if "#" in l:
(regex, reason) = l.split("#", 1)
ret[regex.strip()] = reason.strip()
else:
ret[l] = None
finally:
f.close()
return ret
def find_in_list(regexes, fullname):
for regex, reason in regexes.items():
if re.match(regex, fullname):
if reason is None:
return ""
return reason
return None
class ImmediateFail(Exception):
"""Raised to abort immediately."""
def __init__(self):
super(ImmediateFail, self).__init__("test failed and fail_immediately set")
class FilterOps(unittest.TestResult):
def control_msg(self, msg):
pass # We regenerate control messages, so ignore this
def time(self, time):
self._ops.time(time)
def progress(self, delta, whence):
self._ops.progress(delta, whence)
def output_msg(self, msg):
if self.output is None:
sys.stdout.write(msg)
else:
self.output += msg
def startTest(self, test):
self.seen_output = True
test = self._add_prefix(test)
if self.strip_ok_output:
self.output = ""
self._ops.startTest(test)
def _add_prefix(self, test):
return subunit.RemotedTestCase(self.prefix + test.id() + self.suffix)
def addError(self, test, err=None):
test = self._add_prefix(test)
self.error_added += 1
self.total_error += 1
self._ops.addError(test, err)
self.output = None
if self.fail_immediately:
raise ImmediateFail()
def addSkip(self, test, reason=None):
self.seen_output = True
test = self._add_prefix(test)
self._ops.addSkip(test, reason)
self.output = None
def addExpectedFailure(self, test, err=None):
test = self._add_prefix(test)
self._ops.addExpectedFailure(test, err)
self.output = None
def addUnexpectedSuccess(self, test):
test = self._add_prefix(test)
self.uxsuccess_added += 1
self.total_uxsuccess += 1
self._ops.addUnexpectedSuccess(test)
if self.output:
self._ops.output_msg(self.output)
self.output = None
if self.fail_immediately:
raise ImmediateFail()
def addFailure(self, test, err=None):
test = self._add_prefix(test)
xfail_reason = find_in_list(self.expected_failures, test.id())
if xfail_reason is None:
xfail_reason = find_in_list(self.flapping, test.id())
if xfail_reason is not None:
self.xfail_added += 1
self.total_xfail += 1
self._ops.addExpectedFailure(test, err)
else:
self.fail_added += 1
self.total_fail += 1
self._ops.addFailure(test, err)
if self.output:
self._ops.output_msg(self.output)
if self.fail_immediately:
raise ImmediateFail()
self.output = None
def addSuccess(self, test):
test = self._add_prefix(test)
xfail_reason = find_in_list(self.expected_failures, test.id())
if xfail_reason is not None:
self.uxsuccess_added += 1
self.total_uxsuccess += 1
self._ops.addUnexpectedSuccess(test)
if self.output:
self._ops.output_msg(self.output)
if self.fail_immediately:
raise ImmediateFail()
else:
self._ops.addSuccess(test)
self.output = None
def skip_testsuite(self, name, reason=None):
self._ops.skip_testsuite(name, reason)
def start_testsuite(self, name):
self._ops.start_testsuite(name)
self.error_added = 0
self.fail_added = 0
self.xfail_added = 0
self.uxsuccess_added = 0
def end_testsuite(self, name, result, reason=None):
xfail = False
if self.xfail_added > 0:
xfail = True
if self.fail_added > 0 or self.error_added > 0 or self.uxsuccess_added > 0:
xfail = False
if xfail and result in ("fail", "failure"):
result = "xfail"
if self.uxsuccess_added > 0 and result != "uxsuccess":
result = "uxsuccess"
if reason is None:
reason = "Subunit/Filter Reason"
reason += "\n uxsuccess[%d]" % self.uxsuccess_added
if self.fail_added > 0 and result != "failure":
result = "failure"
if reason is None:
reason = "Subunit/Filter Reason"
reason += "\n failures[%d]" % self.fail_added
if self.error_added > 0 and result != "error":
result = "error"
if reason is None:
reason = "Subunit/Filter Reason"
reason += "\n errors[%d]" % self.error_added
self._ops.end_testsuite(name, result, reason)
if result not in ("success", "xfail"):
if self.output:
self._ops.output_msg(self.output)
if self.fail_immediately:
raise ImmediateFail()
self.output = None
def __init__(self, out, prefix=None, suffix=None, expected_failures=None,
strip_ok_output=False, fail_immediately=False,
flapping=None):
self._ops = out
self.seen_output = False
self.output = None
self.prefix = prefix
self.suffix = suffix
if expected_failures is not None:
self.expected_failures = expected_failures
else:
self.expected_failures = {}
if flapping is not None:
self.flapping = flapping
else:
self.flapping = {}
self.strip_ok_output = strip_ok_output
self.xfail_added = 0
self.fail_added = 0
self.uxsuccess_added = 0
self.total_xfail = 0
self.total_error = 0
self.total_fail = 0
self.total_uxsuccess = 0
self.error_added = 0
self.fail_immediately = fail_immediately
class PerfFilterOps(unittest.TestResult):
def progress(self, delta, whence):
pass
def output_msg(self, msg):
pass
def control_msg(self, msg):
pass
def skip_testsuite(self, name, reason=None):
self._ops.skip_testsuite(name, reason)
def start_testsuite(self, name):
self.suite_has_time = False
def end_testsuite(self, name, result, reason=None):
pass
def _add_prefix(self, test):
return subunit.RemotedTestCase(self.prefix + test.id() + self.suffix)
def time(self, time):
self.latest_time = time
#self._ops.output_msg("found time %s\n" % time)
self.suite_has_time = True
def get_time(self):
if self.suite_has_time:
return self.latest_time
return datetime.datetime.utcnow()
def startTest(self, test):
self.seen_output = True
test = self._add_prefix(test)
self.starts[test.id()] = self.get_time()
def addSuccess(self, test):
test = self._add_prefix(test)
tid = test.id()
if tid not in self.starts:
self._ops.addError(test, "%s succeeded without ever starting!" % tid)
delta = self.get_time() - self.starts[tid]
self._ops.output_msg("elapsed-time: %s: %f\n" % (tid, delta.total_seconds()))
def addFailure(self, test, err=''):
tid = test.id()
delta = self.get_time() - self.starts[tid]
self._ops.output_msg("failure: %s failed after %f seconds (%s)\n" %
(tid, delta.total_seconds(), err))
def addError(self, test, err=''):
tid = test.id()
delta = self.get_time() - self.starts[tid]
self._ops.output_msg("error: %s failed after %f seconds (%s)\n" %
(tid, delta.total_seconds(), err))
def __init__(self, out, prefix='', suffix=''):
self._ops = out
self.prefix = prefix or ''
self.suffix = suffix or ''
self.starts = {}
self.seen_output = False
self.suite_has_time = False
class PlainFormatter(TestsuiteEnabledTestResult):
def __init__(self, verbose, immediate, statistics,
totaltests=None):
super(PlainFormatter, self).__init__()
self.verbose = verbose
self.immediate = immediate
self.statistics = statistics
self.start_time = None
self.test_output = {}
self.suitesfailed = []
self.suites_ok = 0
self.skips = {}
self.index = 0
self.name = None
self._progress_level = 0
self.totalsuites = totaltests
self.last_time = None
@staticmethod
def _format_time(delta):
minutes, seconds = divmod(delta.seconds, 60)
hours, minutes = divmod(minutes, 60)
ret = ""
if hours:
ret += "%dh" % hours
if minutes:
ret += "%dm" % minutes
ret += "%ds" % seconds
return ret
def progress(self, offset, whence):
if whence == subunit.PROGRESS_POP:
self._progress_level -= 1
elif whence == subunit.PROGRESS_PUSH:
self._progress_level += 1
elif whence == subunit.PROGRESS_SET:
if self._progress_level == 0:
self.totalsuites = offset
elif whence == subunit.PROGRESS_CUR:
raise NotImplementedError
def time(self, dt):
if self.start_time is None:
self.start_time = dt
self.last_time = dt
def start_testsuite(self, name):
self.index += 1
self.name = name
if not self.verbose:
self.test_output[name] = ""
total_tests = (self.statistics['TESTS_EXPECTED_OK'] +
self.statistics['TESTS_EXPECTED_FAIL'] +
self.statistics['TESTS_ERROR'] +
self.statistics['TESTS_UNEXPECTED_FAIL'] +
self.statistics['TESTS_UNEXPECTED_OK'])
out = "[%d(%d)" % (self.index, total_tests)
if self.totalsuites is not None:
out += "/%d" % self.totalsuites
if self.start_time is not None:
out += " at " + self._format_time(self.last_time - self.start_time)
if self.suitesfailed:
out += ", %d errors" % (len(self.suitesfailed),)
out += "] %s" % name
if self.immediate:
sys.stdout.write(out + "\n")
else:
sys.stdout.write(out + ": ")
def output_msg(self, output):
if self.verbose:
sys.stdout.write(output)
elif self.name is not None:
self.test_output[self.name] += output
else:
sys.stdout.write(output)
def control_msg(self, output):
pass
def end_testsuite(self, name, result, reason):
out = ""
unexpected = False
if name not in self.test_output:
print("no output for name[%s]" % name)
if result in ("success", "xfail"):
self.suites_ok += 1
else:
self.output_msg("ERROR: Testsuite[%s]\n" % name)
if reason is not None:
self.output_msg("REASON: %s\n" % (reason,))
self.suitesfailed.append(name)
if self.immediate and not self.verbose and name in self.test_output:
out += self.test_output[name]
unexpected = True
if not self.immediate:
if not unexpected:
out += " ok\n"
else:
out += " " + result.upper() + "\n"
sys.stdout.write(out)
def startTest(self, test):
pass
def addSuccess(self, test):
self.end_test(test.id(), "success", False)
def addError(self, test, err=None):
self.end_test(test.id(), "error", True, err)
def addFailure(self, test, err=None):
self.end_test(test.id(), "failure", True, err)
def addSkip(self, test, reason=None):
self.end_test(test.id(), "skip", False, reason)
def addExpectedFailure(self, test, err=None):
self.end_test(test.id(), "xfail", False, err)
def addUnexpectedSuccess(self, test):
self.end_test(test.id(), "uxsuccess", True)
def end_test(self, testname, result, unexpected, err=None):
if not unexpected:
self.test_output[self.name] = ""
if not self.immediate:
sys.stdout.write({
'failure': 'f',
'xfail': 'X',
'skip': 's',
'success': '.'}.get(result, "?(%s)" % result))
return
if self.name not in self.test_output:
self.test_output[self.name] = ""
self.test_output[self.name] += "UNEXPECTED(%s): %s\n" % (result, testname)
if err is not None:
self.test_output[self.name] += "REASON: %s\n" % str(err[1]).strip()
if self.immediate and not self.verbose:
sys.stdout.write(self.test_output[self.name])
self.test_output[self.name] = ""
if not self.immediate:
sys.stdout.write({
'error': 'E',
'failure': 'F',
'uxsuccess': 'U',
'success': 'S'}.get(result, "?"))
def write_summary(self, path):
f = open(path, 'w+')
if self.suitesfailed:
f.write("= Failed tests =\n")
for suite in self.suitesfailed:
f.write("== %s ==\n" % suite)
if suite in self.test_output:
f.write(self.test_output[suite] + "\n\n")
f.write("\n")
if not self.immediate and not self.verbose:
for suite in self.suitesfailed:
print("=" * 78)
print("FAIL: %s" % suite)
if suite in self.test_output:
print(self.test_output[suite])
print("")
f.write("= Skipped tests =\n")
for reason in self.skips.keys():
f.write(reason + "\n")
for name in self.skips[reason]:
f.write("\t%s\n" % name)
f.write("\n")
f.close()
if (not self.suitesfailed and
not self.statistics['TESTS_UNEXPECTED_FAIL'] and
not self.statistics['TESTS_UNEXPECTED_OK'] and
not self.statistics['TESTS_ERROR']):
ok = (self.statistics['TESTS_EXPECTED_OK'] +
self.statistics['TESTS_EXPECTED_FAIL'])
print("\nALL OK (%d tests in %d testsuites)" % (ok, self.suites_ok))
else:
print("\nFAILED (%d failures, %d errors and %d unexpected successes in %d testsuites)" % (
self.statistics['TESTS_UNEXPECTED_FAIL'],
self.statistics['TESTS_ERROR'],
self.statistics['TESTS_UNEXPECTED_OK'],
len(self.suitesfailed)))
def skip_testsuite(self, name, reason="UNKNOWN"):
self.skips.setdefault(reason, []).append(name)
if self.totalsuites:
self.totalsuites -= 1