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authorLuca Falavigna <dktrkranz@debian.org>2014-04-26 15:11:58 +0200
committerLuca Falavigna <dktrkranz@debian.org>2014-04-26 15:11:58 +0200
commit140d836e9cd54fb67b969fd82ef7ed19ba574d40 (patch)
tree0df3e32ee39603d43f9b90fd2f2e1f7cce4249d4 /QMTest/TestCommon.py
parentcb3425abe0bc2d05caf401ca24b82a25a81f009d (diff)
Imported Upstream version 2.3.1upstream/2.3.1
Diffstat (limited to 'QMTest/TestCommon.py')
-rw-r--r--QMTest/TestCommon.py739
1 files changed, 739 insertions, 0 deletions
diff --git a/QMTest/TestCommon.py b/QMTest/TestCommon.py
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--- /dev/null
+++ b/QMTest/TestCommon.py
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+"""
+TestCommon.py: a testing framework for commands and scripts
+ with commonly useful error handling
+
+The TestCommon module provides a simple, high-level interface for writing
+tests of executable commands and scripts, especially commands and scripts
+that interact with the file system. All methods throw exceptions and
+exit on failure, with useful error messages. This makes a number of
+explicit checks unnecessary, making the test scripts themselves simpler
+to write and easier to read.
+
+The TestCommon class is a subclass of the TestCmd class. In essence,
+TestCommon is a wrapper that handles common TestCmd error conditions in
+useful ways. You can use TestCommon directly, or subclass it for your
+program and add additional (or override) methods to tailor it to your
+program's specific needs. Alternatively, the TestCommon class serves
+as a useful example of how to define your own TestCmd subclass.
+
+As a subclass of TestCmd, TestCommon provides access to all of the
+variables and methods from the TestCmd module. Consequently, you can
+use any variable or method documented in the TestCmd module without
+having to explicitly import TestCmd.
+
+A TestCommon environment object is created via the usual invocation:
+
+ import TestCommon
+ test = TestCommon.TestCommon()
+
+You can use all of the TestCmd keyword arguments when instantiating a
+TestCommon object; see the TestCmd documentation for details.
+
+Here is an overview of the methods and keyword arguments that are
+provided by the TestCommon class:
+
+ test.must_be_writable('file1', ['file2', ...])
+
+ test.must_contain('file', 'required text\n')
+
+ test.must_contain_all_lines(output, lines, ['title', find])
+
+ test.must_contain_any_line(output, lines, ['title', find])
+
+ test.must_contain_exactly_lines(output, lines, ['title', find])
+
+ test.must_exist('file1', ['file2', ...])
+
+ test.must_match('file', "expected contents\n")
+
+ test.must_not_be_writable('file1', ['file2', ...])
+
+ test.must_not_contain('file', 'banned text\n')
+
+ test.must_not_contain_any_line(output, lines, ['title', find])
+
+ test.must_not_exist('file1', ['file2', ...])
+
+ test.run(options = "options to be prepended to arguments",
+ stdout = "expected standard output from the program",
+ stderr = "expected error output from the program",
+ status = expected_status,
+ match = match_function)
+
+The TestCommon module also provides the following variables
+
+ TestCommon.python
+ TestCommon._python_
+ TestCommon.exe_suffix
+ TestCommon.obj_suffix
+ TestCommon.shobj_prefix
+ TestCommon.shobj_suffix
+ TestCommon.lib_prefix
+ TestCommon.lib_suffix
+ TestCommon.dll_prefix
+ TestCommon.dll_suffix
+
+"""
+
+# Copyright 2000-2010 Steven Knight
+# This module is free software, and you may redistribute it and/or modify
+# it under the same terms as Python itself, so long as this copyright message
+# and disclaimer are retained in their original form.
+#
+# IN NO EVENT SHALL THE AUTHOR BE LIABLE TO ANY PARTY FOR DIRECT, INDIRECT,
+# SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OF
+# THIS CODE, EVEN IF THE AUTHOR HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH
+# DAMAGE.
+#
+# THE AUTHOR SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
+# PARTICULAR PURPOSE. THE CODE PROVIDED HEREUNDER IS ON AN "AS IS" BASIS,
+# AND THERE IS NO OBLIGATION WHATSOEVER TO PROVIDE MAINTENANCE,
+# SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
+
+__author__ = "Steven Knight <knight at baldmt dot com>"
+__revision__ = "TestCommon.py 1.3.D001 2010/06/03 12:58:27 knight"
+__version__ = "1.3"
+
+import copy
+import os
+import stat
+import sys
+import glob
+
+try:
+ from collections import UserList
+except ImportError:
+ # no 'collections' module or no UserList in collections
+ exec('from UserList import UserList')
+
+from TestCmd import *
+from TestCmd import __all__
+
+__all__.extend([ 'TestCommon',
+ 'exe_suffix',
+ 'obj_suffix',
+ 'shobj_prefix',
+ 'shobj_suffix',
+ 'lib_prefix',
+ 'lib_suffix',
+ 'dll_prefix',
+ 'dll_suffix',
+ ])
+
+try:
+ sorted
+except NameError:
+ # Pre-2.4 Python has no sorted() function.
+ #
+ # The pre-2.4 Python list.sort() method does not support
+ # list.sort(key=) nor list.sort(reverse=) keyword arguments, so
+ # we must implement the functionality of those keyword arguments
+ # by hand instead of passing them to list.sort().
+ def sorted(iterable, cmp=None, key=None, reverse=False):
+ if key is not None:
+ result = [(key(x), x) for x in iterable]
+ else:
+ result = iterable[:]
+ if cmp is None:
+ # Pre-2.3 Python does not support list.sort(None).
+ result.sort()
+ else:
+ result.sort(cmp)
+ if key is not None:
+ result = [t1 for t0,t1 in result]
+ if reverse:
+ result.reverse()
+ return result
+
+# Variables that describe the prefixes and suffixes on this system.
+if sys.platform == 'win32':
+ exe_suffix = '.exe'
+ obj_suffix = '.obj'
+ shobj_suffix = '.obj'
+ shobj_prefix = ''
+ lib_prefix = ''
+ lib_suffix = '.lib'
+ dll_prefix = ''
+ dll_suffix = '.dll'
+elif sys.platform == 'cygwin':
+ exe_suffix = '.exe'
+ obj_suffix = '.o'
+ shobj_suffix = '.os'
+ shobj_prefix = ''
+ lib_prefix = 'lib'
+ lib_suffix = '.a'
+ dll_prefix = 'cyg'
+ dll_suffix = '.dll'
+elif sys.platform.find('irix') != -1:
+ exe_suffix = ''
+ obj_suffix = '.o'
+ shobj_suffix = '.o'
+ shobj_prefix = ''
+ lib_prefix = 'lib'
+ lib_suffix = '.a'
+ dll_prefix = 'lib'
+ dll_suffix = '.so'
+elif sys.platform.find('darwin') != -1:
+ exe_suffix = ''
+ obj_suffix = '.o'
+ shobj_suffix = '.os'
+ shobj_prefix = ''
+ lib_prefix = 'lib'
+ lib_suffix = '.a'
+ dll_prefix = 'lib'
+ dll_suffix = '.dylib'
+elif sys.platform.find('sunos') != -1:
+ exe_suffix = ''
+ obj_suffix = '.o'
+ shobj_suffix = '.o'
+ shobj_prefix = 'so_'
+ lib_prefix = 'lib'
+ lib_suffix = '.a'
+ dll_prefix = 'lib'
+ dll_suffix = '.so'
+else:
+ exe_suffix = ''
+ obj_suffix = '.o'
+ shobj_suffix = '.os'
+ shobj_prefix = ''
+ lib_prefix = 'lib'
+ lib_suffix = '.a'
+ dll_prefix = 'lib'
+ dll_suffix = '.so'
+
+def is_List(e):
+ return isinstance(e, (list, UserList))
+
+def is_Tuple(e):
+ return isinstance(e, tuple)
+
+def is_Sequence(e):
+ return (not hasattr(e, "strip") and
+ hasattr(e, "__getitem__") or
+ hasattr(e, "__iter__"))
+
+def is_writable(f):
+ mode = os.stat(f)[stat.ST_MODE]
+ return mode & stat.S_IWUSR
+
+def separate_files(flist):
+ existing = []
+ missing = []
+ for f in flist:
+ if os.path.exists(f):
+ existing.append(f)
+ else:
+ missing.append(f)
+ return existing, missing
+
+if os.name == 'posix':
+ def _failed(self, status = 0):
+ if self.status is None or status is None:
+ return None
+ return _status(self) != status
+ def _status(self):
+ return self.status
+elif os.name == 'nt':
+ def _failed(self, status = 0):
+ return not (self.status is None or status is None) and \
+ self.status != status
+ def _status(self):
+ return self.status
+
+class TestCommon(TestCmd):
+
+ # Additional methods from the Perl Test::Cmd::Common module
+ # that we may wish to add in the future:
+ #
+ # $test->subdir('subdir', ...);
+ #
+ # $test->copy('src_file', 'dst_file');
+
+ def __init__(self, **kw):
+ """Initialize a new TestCommon instance. This involves just
+ calling the base class initialization, and then changing directory
+ to the workdir.
+ """
+ TestCmd.__init__(self, **kw)
+ os.chdir(self.workdir)
+
+ def options_arguments(self, options, arguments):
+ """Merges the "options" keyword argument with the arguments."""
+ if options:
+ if arguments is None:
+ return options
+ if isinstance(options, str):
+ options = [options]
+ if isinstance(arguments, str):
+ arguments = [arguments]
+ arguments = ' '.join(options + arguments)
+ return arguments
+
+ def must_be_writable(self, *files):
+ """Ensures that the specified file(s) exist and are writable.
+ An individual file can be specified as a list of directory names,
+ in which case the pathname will be constructed by concatenating
+ them. Exits FAILED if any of the files does not exist or is
+ not writable.
+ """
+ files = [is_List(x) and os.path.join(*x) or x for x in files]
+ existing, missing = separate_files(files)
+ unwritable = [x for x in existing if not is_writable(x)]
+ if missing:
+ print "Missing files: `%s'" % "', `".join(missing)
+ if unwritable:
+ print "Unwritable files: `%s'" % "', `".join(unwritable)
+ self.fail_test(missing + unwritable)
+
+ def must_contain(self, file, required, mode = 'rb', find = None):
+ """Ensures that the specified file contains the required text.
+ """
+ file_contents = self.read(file, mode)
+ if find is None:
+ def find(o, l):
+ try:
+ return o.index(l)
+ except ValueError:
+ return None
+ contains = find(file_contents, required)
+ if not contains:
+ print "File `%s' does not contain required string." % file
+ print self.banner('Required string ')
+ print required
+ print self.banner('%s contents ' % file)
+ print file_contents
+ self.fail_test(not contains)
+
+ def must_contain_all_lines(self, output, lines, title=None, find=None):
+ """Ensures that the specified output string (first argument)
+ contains all of the specified lines (second argument).
+
+ An optional third argument can be used to describe the type
+ of output being searched, and only shows up in failure output.
+
+ An optional fourth argument can be used to supply a different
+ function, of the form "find(line, output), to use when searching
+ for lines in the output.
+ """
+ if find is None:
+ def find(o, l):
+ try:
+ return o.index(l)
+ except ValueError:
+ return None
+ missing = []
+ if is_List(output):
+ output = '\n'.join(output)
+
+ for line in lines:
+ if find(output, line) is None:
+ missing.append(line)
+
+ if missing:
+ if title is None:
+ title = 'output'
+ sys.stdout.write("Missing expected lines from %s:\n" % title)
+ for line in missing:
+ sys.stdout.write(' ' + repr(line) + '\n')
+ sys.stdout.write(self.banner(title + ' ') + '\n')
+ sys.stdout.write(output)
+ self.fail_test()
+
+ def must_contain_any_line(self, output, lines, title=None, find=None):
+ """Ensures that the specified output string (first argument)
+ contains at least one of the specified lines (second argument).
+
+ An optional third argument can be used to describe the type
+ of output being searched, and only shows up in failure output.
+
+ An optional fourth argument can be used to supply a different
+ function, of the form "find(line, output), to use when searching
+ for lines in the output.
+ """
+ if find is None:
+ def find(o, l):
+ try:
+ return o.index(l)
+ except ValueError:
+ return None
+ for line in lines:
+ if find(output, line) is not None:
+ return
+
+ if title is None:
+ title = 'output'
+ sys.stdout.write("Missing any expected line from %s:\n" % title)
+ for line in lines:
+ sys.stdout.write(' ' + repr(line) + '\n')
+ sys.stdout.write(self.banner(title + ' ') + '\n')
+ sys.stdout.write(output)
+ self.fail_test()
+
+ def must_contain_exactly_lines(self, output, expect, title=None, find=None):
+ """Ensures that the specified output string (first argument)
+ contains all of the lines in the expected string (second argument)
+ with none left over.
+
+ An optional third argument can be used to describe the type
+ of output being searched, and only shows up in failure output.
+
+ An optional fourth argument can be used to supply a different
+ function, of the form "find(line, output), to use when searching
+ for lines in the output. The function must return the index
+ of the found line in the output, or None if the line is not found.
+ """
+ out = output.splitlines()
+ if is_List(expect):
+ exp = [ e.rstrip('\n') for e in expect ]
+ else:
+ exp = expect.splitlines()
+ if sorted(out) == sorted(exp):
+ # early out for exact match
+ return
+ if find is None:
+ def find(o, l):
+ try:
+ return o.index(l)
+ except ValueError:
+ return None
+ missing = []
+ for line in exp:
+ found = find(out, line)
+ if found is None:
+ missing.append(line)
+ else:
+ out.pop(found)
+
+ if not missing and not out:
+ # all lines were matched
+ return
+
+ if title is None:
+ title = 'output'
+ if missing:
+ sys.stdout.write("Missing expected lines from %s:\n" % title)
+ for line in missing:
+ sys.stdout.write(' ' + repr(line) + '\n')
+ sys.stdout.write(self.banner('Missing %s ' % title) + '\n')
+ if out:
+ sys.stdout.write("Extra unexpected lines from %s:\n" % title)
+ for line in out:
+ sys.stdout.write(' ' + repr(line) + '\n')
+ sys.stdout.write(self.banner('Extra %s ' % title) + '\n')
+ sys.stdout.flush()
+ self.fail_test()
+
+ def must_contain_lines(self, lines, output, title=None, find = None):
+ # Deprecated; retain for backwards compatibility.
+ return self.must_contain_all_lines(output, lines, title, find)
+
+ def must_exist(self, *files):
+ """Ensures that the specified file(s) must exist. An individual
+ file be specified as a list of directory names, in which case the
+ pathname will be constructed by concatenating them. Exits FAILED
+ if any of the files does not exist.
+ """
+ files = [is_List(x) and os.path.join(*x) or x for x in files]
+ missing = [x for x in files if not os.path.exists(x) and not os.path.islink(x) ]
+ if missing:
+ print "Missing files: `%s'" % "', `".join(missing)
+ self.fail_test(missing)
+
+ def must_exist_one_of(self, files):
+ """Ensures that at least one of the specified file(s) exists.
+ The filenames can be given as a list, where each entry may be
+ a single path string, or a tuple of folder names and the final
+ filename that get concatenated.
+ Supports wildcard names like 'foo-1.2.3-*.rpm'.
+ Exits FAILED if none of the files exists.
+ """
+ missing = []
+ for x in files:
+ if is_List(x) or is_Tuple(x):
+ xpath = os.path.join(*x)
+ else:
+ xpath = is_Sequence(x) and os.path.join(x) or x
+ if glob.glob(xpath):
+ return
+ missing.append(xpath)
+ print "Missing one of: `%s'" % "', `".join(missing)
+ self.fail_test(missing)
+
+ def must_match(self, file, expect, mode = 'rb', match=None):
+ """Matches the contents of the specified file (first argument)
+ against the expected contents (second argument). The expected
+ contents are a list of lines or a string which will be split
+ on newlines.
+ """
+ file_contents = self.read(file, mode)
+ if not match:
+ match = self.match
+ try:
+ self.fail_test(not match(file_contents, expect))
+ except KeyboardInterrupt:
+ raise
+ except:
+ print "Unexpected contents of `%s'" % file
+ self.diff(expect, file_contents, 'contents ')
+ raise
+
+ def must_not_contain(self, file, banned, mode = 'rb', find = None):
+ """Ensures that the specified file doesn't contain the banned text.
+ """
+ file_contents = self.read(file, mode)
+ if find is None:
+ def find(o, l):
+ try:
+ return o.index(l)
+ except ValueError:
+ return None
+ contains = find(file_contents, banned)
+ if contains:
+ print "File `%s' contains banned string." % file
+ print self.banner('Banned string ')
+ print banned
+ print self.banner('%s contents ' % file)
+ print file_contents
+ self.fail_test(contains)
+
+ def must_not_contain_any_line(self, output, lines, title=None, find=None):
+ """Ensures that the specified output string (first argument)
+ does not contain any of the specified lines (second argument).
+
+ An optional third argument can be used to describe the type
+ of output being searched, and only shows up in failure output.
+
+ An optional fourth argument can be used to supply a different
+ function, of the form "find(line, output), to use when searching
+ for lines in the output.
+ """
+ if find is None:
+ def find(o, l):
+ try:
+ return o.index(l)
+ except ValueError:
+ return None
+ unexpected = []
+ for line in lines:
+ if find(output, line) is not None:
+ unexpected.append(line)
+
+ if unexpected:
+ if title is None:
+ title = 'output'
+ sys.stdout.write("Unexpected lines in %s:\n" % title)
+ for line in unexpected:
+ sys.stdout.write(' ' + repr(line) + '\n')
+ sys.stdout.write(self.banner(title + ' ') + '\n')
+ sys.stdout.write(output)
+ self.fail_test()
+
+ def must_not_contain_lines(self, lines, output, title=None, find=None):
+ return self.must_not_contain_any_line(output, lines, title, find)
+
+ def must_not_exist(self, *files):
+ """Ensures that the specified file(s) must not exist.
+ An individual file be specified as a list of directory names, in
+ which case the pathname will be constructed by concatenating them.
+ Exits FAILED if any of the files exists.
+ """
+ files = [is_List(x) and os.path.join(*x) or x for x in files]
+ existing = [x for x in files if os.path.exists(x) or os.path.islink(x)]
+ if existing:
+ print "Unexpected files exist: `%s'" % "', `".join(existing)
+ self.fail_test(existing)
+
+ def must_not_exist_any_of(self, files):
+ """Ensures that none of the specified file(s) exists.
+ The filenames can be given as a list, where each entry may be
+ a single path string, or a tuple of folder names and the final
+ filename that get concatenated.
+ Supports wildcard names like 'foo-1.2.3-*.rpm'.
+ Exits FAILED if any of the files exists.
+ """
+ existing = []
+ for x in files:
+ if is_List(x) or is_Tuple(x):
+ xpath = os.path.join(*x)
+ else:
+ xpath = is_Sequence(x) and os.path.join(x) or x
+ if glob.glob(xpath):
+ existing.append(xpath)
+ if existing:
+ print "Unexpected files exist: `%s'" % "', `".join(existing)
+ self.fail_test(existing)
+
+ def must_not_be_writable(self, *files):
+ """Ensures that the specified file(s) exist and are not writable.
+ An individual file can be specified as a list of directory names,
+ in which case the pathname will be constructed by concatenating
+ them. Exits FAILED if any of the files does not exist or is
+ writable.
+ """
+ files = [is_List(x) and os.path.join(*x) or x for x in files]
+ existing, missing = separate_files(files)
+ writable = list(filter(is_writable, existing))
+ if missing:
+ print "Missing files: `%s'" % "', `".join(missing)
+ if writable:
+ print "Writable files: `%s'" % "', `".join(writable)
+ self.fail_test(missing + writable)
+
+ def _complete(self, actual_stdout, expected_stdout,
+ actual_stderr, expected_stderr, status, match):
+ """
+ Post-processes running a subcommand, checking for failure
+ status and displaying output appropriately.
+ """
+ if _failed(self, status):
+ expect = ''
+ if status != 0:
+ expect = " (expected %s)" % str(status)
+ print "%s returned %s%s" % (self.program, _status(self), expect)
+ print self.banner('STDOUT ')
+ print actual_stdout
+ print self.banner('STDERR ')
+ print actual_stderr
+ self.fail_test()
+ if (expected_stdout is not None
+ and not match(actual_stdout, expected_stdout)):
+ self.diff(expected_stdout, actual_stdout, 'STDOUT ')
+ if actual_stderr:
+ print self.banner('STDERR ')
+ print actual_stderr
+ self.fail_test()
+ if (expected_stderr is not None
+ and not match(actual_stderr, expected_stderr)):
+ print self.banner('STDOUT ')
+ print actual_stdout
+ self.diff(expected_stderr, actual_stderr, 'STDERR ')
+ self.fail_test()
+
+ def start(self, program = None,
+ interpreter = None,
+ options = None,
+ arguments = None,
+ universal_newlines = None,
+ **kw):
+ """
+ Starts a program or script for the test environment, handling
+ any exceptions.
+ """
+ arguments = self.options_arguments(options, arguments)
+ try:
+ return TestCmd.start(self, program, interpreter, arguments,
+ universal_newlines, **kw)
+ except KeyboardInterrupt:
+ raise
+ except Exception, e:
+ print self.banner('STDOUT ')
+ try:
+ print self.stdout()
+ except IndexError:
+ pass
+ print self.banner('STDERR ')
+ try:
+ print self.stderr()
+ except IndexError:
+ pass
+ cmd_args = self.command_args(program, interpreter, arguments)
+ sys.stderr.write('Exception trying to execute: %s\n' % cmd_args)
+ raise e
+
+ def finish(self, popen, stdout = None, stderr = '', status = 0, **kw):
+ """
+ Finishes and waits for the process being run under control of
+ the specified popen argument. Additional arguments are similar
+ to those of the run() method:
+
+ stdout The expected standard output from
+ the command. A value of None means
+ don't test standard output.
+
+ stderr The expected error output from
+ the command. A value of None means
+ don't test error output.
+
+ status The expected exit status from the
+ command. A value of None means don't
+ test exit status.
+ """
+ TestCmd.finish(self, popen, **kw)
+ match = kw.get('match', self.match)
+ self._complete(self.stdout(), stdout,
+ self.stderr(), stderr, status, match)
+
+ def run(self, options = None, arguments = None,
+ stdout = None, stderr = '', status = 0, **kw):
+ """Runs the program under test, checking that the test succeeded.
+
+ The parameters are the same as the base TestCmd.run() method,
+ with the addition of:
+
+ options Extra options that get appended to the beginning
+ of the arguments.
+
+ stdout The expected standard output from
+ the command. A value of None means
+ don't test standard output.
+
+ stderr The expected error output from
+ the command. A value of None means
+ don't test error output.
+
+ status The expected exit status from the
+ command. A value of None means don't
+ test exit status.
+
+ By default, this expects a successful exit (status = 0), does
+ not test standard output (stdout = None), and expects that error
+ output is empty (stderr = "").
+ """
+ kw['arguments'] = self.options_arguments(options, arguments)
+ try:
+ match = kw['match']
+ del kw['match']
+ except KeyError:
+ match = self.match
+ TestCmd.run(self, **kw)
+ self._complete(self.stdout(), stdout,
+ self.stderr(), stderr, status, match)
+
+ def skip_test(self, message="Skipping test.\n"):
+ """Skips a test.
+
+ Proper test-skipping behavior is dependent on the external
+ TESTCOMMON_PASS_SKIPS environment variable. If set, we treat
+ the skip as a PASS (exit 0), and otherwise treat it as NO RESULT.
+ In either case, we print the specified message as an indication
+ that the substance of the test was skipped.
+
+ (This was originally added to support development under Aegis.
+ Technically, skipping a test is a NO RESULT, but Aegis would
+ treat that as a test failure and prevent the change from going to
+ the next step. Since we ddn't want to force anyone using Aegis
+ to have to install absolutely every tool used by the tests, we
+ would actually report to Aegis that a skipped test has PASSED
+ so that the workflow isn't held up.)
+ """
+ if message:
+ sys.stdout.write(message)
+ sys.stdout.flush()
+ pass_skips = os.environ.get('TESTCOMMON_PASS_SKIPS')
+ if pass_skips in [None, 0, '0']:
+ # skip=1 means skip this function when showing where this
+ # result came from. They only care about the line where the
+ # script called test.skip_test(), not the line number where
+ # we call test.no_result().
+ self.no_result(skip=1)
+ else:
+ # We're under the development directory for this change,
+ # so this is an Aegis invocation; pass the test (exit 0).
+ self.pass_test()
+
+# Local Variables:
+# tab-width:4
+# indent-tabs-mode:nil
+# End:
+# vim: set expandtab tabstop=4 shiftwidth=4: