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|
"""
TestCmd.py: a testing framework for commands and scripts.
The TestCmd module provides a framework for portable automated testing
of executable commands and scripts (in any language, not just Python),
especially commands and scripts that require file system interaction.
In addition to running tests and evaluating conditions, the TestCmd
module manages and cleans up one or more temporary workspace
directories, and provides methods for creating files and directories in
those workspace directories from in-line data, here-documents), allowing
tests to be completely self-contained.
A TestCmd environment object is created via the usual invocation:
import TestCmd
test = TestCmd.TestCmd()
There are a bunch of keyword arguments available at instantiation:
test = TestCmd.TestCmd(description = 'string',
program = 'program_or_script_to_test',
interpreter = 'script_interpreter',
workdir = 'prefix',
subdir = 'subdir',
verbose = Boolean,
match = default_match_function,
match_stdout = default_match_stdout_function,
match_stderr = default_match_stderr_function,
diff = default_diff_stderr_function,
diff_stdout = default_diff_stdout_function,
diff_stderr = default_diff_stderr_function,
combine = Boolean)
There are a bunch of methods that let you do different things:
test.verbose_set(1)
test.description_set('string')
test.program_set('program_or_script_to_test')
test.interpreter_set('script_interpreter')
test.interpreter_set(['script_interpreter', 'arg'])
test.workdir_set('prefix')
test.workdir_set('')
test.workpath('file')
test.workpath('subdir', 'file')
test.subdir('subdir', ...)
test.rmdir('subdir', ...)
test.write('file', "contents\n")
test.write(['subdir', 'file'], "contents\n")
test.read('file')
test.read(['subdir', 'file'])
test.read('file', mode)
test.read(['subdir', 'file'], mode)
test.writable('dir', 1)
test.writable('dir', None)
test.preserve(condition, ...)
test.cleanup(condition)
test.command_args(program = 'program_or_script_to_run',
interpreter = 'script_interpreter',
arguments = 'arguments to pass to program')
test.run(program = 'program_or_script_to_run',
interpreter = 'script_interpreter',
arguments = 'arguments to pass to program',
chdir = 'directory_to_chdir_to',
stdin = 'input to feed to the program\n')
universal_newlines = True)
p = test.start(program = 'program_or_script_to_run',
interpreter = 'script_interpreter',
arguments = 'arguments to pass to program',
universal_newlines = None)
test.finish(self, p)
test.pass_test()
test.pass_test(condition)
test.pass_test(condition, function)
test.fail_test()
test.fail_test(condition)
test.fail_test(condition, function)
test.fail_test(condition, function, skip)
test.fail_test(condition, function, skip, message)
test.no_result()
test.no_result(condition)
test.no_result(condition, function)
test.no_result(condition, function, skip)
test.stdout()
test.stdout(run)
test.stderr()
test.stderr(run)
test.symlink(target, link)
test.banner(string)
test.banner(string, width)
test.diff(actual, expected)
test.diff_stderr(actual, expected)
test.diff_stdout(actual, expected)
test.match(actual, expected)
test.match_stderr(actual, expected)
test.match_stdout(actual, expected)
test.set_match_function(match, stdout, stderr)
test.match_exact("actual 1\nactual 2\n", "expected 1\nexpected 2\n")
test.match_exact(["actual 1\n", "actual 2\n"],
["expected 1\n", "expected 2\n"])
test.match_caseinsensitive("Actual 1\nACTUAL 2\n", "expected 1\nEXPECTED 2\n")
test.match_re("actual 1\nactual 2\n", regex_string)
test.match_re(["actual 1\n", "actual 2\n"], list_of_regexes)
test.match_re_dotall("actual 1\nactual 2\n", regex_string)
test.match_re_dotall(["actual 1\n", "actual 2\n"], list_of_regexes)
test.tempdir()
test.tempdir('temporary-directory')
test.sleep()
test.sleep(seconds)
test.where_is('foo')
test.where_is('foo', 'PATH1:PATH2')
test.where_is('foo', 'PATH1;PATH2', '.suffix3;.suffix4')
test.unlink('file')
test.unlink('subdir', 'file')
The TestCmd module provides pass_test(), fail_test(), and no_result()
unbound functions that report test results for use with the Aegis change
management system. These methods terminate the test immediately,
reporting PASSED, FAILED, or NO RESULT respectively, and exiting with
status 0 (success), 1 or 2 respectively. This allows for a distinction
between an actual failed test and a test that could not be properly
evaluated because of an external condition (such as a full file system
or incorrect permissions).
import TestCmd
TestCmd.pass_test()
TestCmd.pass_test(condition)
TestCmd.pass_test(condition, function)
TestCmd.fail_test()
TestCmd.fail_test(condition)
TestCmd.fail_test(condition, function)
TestCmd.fail_test(condition, function, skip)
TestCmd.fail_test(condition, function, skip, message)
TestCmd.no_result()
TestCmd.no_result(condition)
TestCmd.no_result(condition, function)
TestCmd.no_result(condition, function, skip)
The TestCmd module also provides unbound global functions that handle
matching in the same way as the match_*() methods described above.
import TestCmd
test = TestCmd.TestCmd(match = TestCmd.match_exact)
test = TestCmd.TestCmd(match = TestCmd.match_caseinsensitive)
test = TestCmd.TestCmd(match = TestCmd.match_re)
test = TestCmd.TestCmd(match = TestCmd.match_re_dotall)
These functions are also available as static methods:
import TestCmd
test = TestCmd.TestCmd(match = TestCmd.TestCmd.match_exact)
test = TestCmd.TestCmd(match = TestCmd.TestCmd.match_caseinsensitive)
test = TestCmd.TestCmd(match = TestCmd.TestCmd.match_re)
test = TestCmd.TestCmd(match = TestCmd.TestCmd.match_re_dotall)
These static methods can be accessed by a string naming the method:
import TestCmd
test = TestCmd.TestCmd(match = 'match_exact')
test = TestCmd.TestCmd(match = 'match_caseinsensitive')
test = TestCmd.TestCmd(match = 'match_re')
test = TestCmd.TestCmd(match = 'match_re_dotall')
The TestCmd module provides unbound global functions that can be used
for the "diff" argument to TestCmd.TestCmd instantiation:
import TestCmd
test = TestCmd.TestCmd(match = TestCmd.match_re,
diff = TestCmd.diff_re)
test = TestCmd.TestCmd(diff = TestCmd.simple_diff)
test = TestCmd.TestCmd(diff = TestCmd.context_diff)
test = TestCmd.TestCmd(diff = TestCmd.unified_diff)
These functions are also available as static methods:
import TestCmd
test = TestCmd.TestCmd(match = TestCmd.TestCmd.match_re,
diff = TestCmd.TestCmd.diff_re)
test = TestCmd.TestCmd(diff = TestCmd.TestCmd.simple_diff)
test = TestCmd.TestCmd(diff = TestCmd.TestCmd.context_diff)
test = TestCmd.TestCmd(diff = TestCmd.TestCmd.unified_diff)
These static methods can be accessed by a string naming the method:
import TestCmd
test = TestCmd.TestCmd(match = 'match_re', diff = 'diff_re')
test = TestCmd.TestCmd(diff = 'simple_diff')
test = TestCmd.TestCmd(diff = 'context_diff')
test = TestCmd.TestCmd(diff = 'unified_diff')
The "diff" argument can also be used with standard difflib functions:
import difflib
test = TestCmd.TestCmd(diff = difflib.context_diff)
test = TestCmd.TestCmd(diff = difflib.unified_diff)
Lastly, the where_is() method also exists in an unbound function
version.
import TestCmd
TestCmd.where_is('foo')
TestCmd.where_is('foo', 'PATH1:PATH2')
TestCmd.where_is('foo', 'PATH1;PATH2', '.suffix3;.suffix4')
"""
# 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.
from __future__ import division
__author__ = "Steven Knight <knight at baldmt dot com>"
__revision__ = "TestCmd.py 1.3.D001 2010/06/03 12:58:27 knight"
__version__ = "1.3"
import atexit
import difflib
import errno
import os
import re
import shutil
import signal
import stat
import sys
import tempfile
import threading
import time
import traceback
import types
class null(object):
pass
_Null = null()
try:
from collections import UserList, UserString
except ImportError:
# no 'collections' module or no UserFoo in collections
exec('from UserList import UserList')
exec('from UserString import UserString')
try:
# pre-2.7 doesn't have the memoryview() built-in
memoryview
except NameError:
class memoryview:
def __init__(self, obj):
# wrapping buffer in () keeps the fixer from changing it
self.obj = (buffer)(obj)
def __getitem__(self, indx):
if isinstance(indx, slice):
return self.obj[indx.start:indx.stop]
else:
return self.obj[indx]
__all__ = [
'diff_re',
'fail_test',
'no_result',
'pass_test',
'match_exact',
'match_caseinsensitive',
'match_re',
'match_re_dotall',
'python',
'_python_',
'TestCmd'
]
def is_List(e):
return isinstance(e, (list, UserList))
try:
eval('unicode')
except NameError:
def is_String(e):
return isinstance(e, (str, UserString))
else:
def is_String(e):
return isinstance(e, (str, unicode, UserString))
tempfile.template = 'testcmd.'
if os.name in ('posix', 'nt'):
tempfile.template = 'testcmd.' + str(os.getpid()) + '.'
else:
tempfile.template = 'testcmd.'
re_space = re.compile('\s')
def _caller(tblist, skip):
string = ""
arr = []
for file, line, name, text in tblist:
if file[-10:] == "TestCmd.py":
break
arr = [(file, line, name, text)] + arr
atfrom = "at"
for file, line, name, text in arr[skip:]:
if name in ("?", "<module>"):
name = ""
else:
name = " (" + name + ")"
string = string + ("%s line %d of %s%s\n" % (atfrom, line, file, name))
atfrom = "\tfrom"
return string
def fail_test(self = None, condition = 1, function = None, skip = 0, message=None):
"""Cause the test to fail.
By default, the fail_test() method reports that the test FAILED
and exits with a status of 1. If a condition argument is supplied,
the test fails only if the condition is true.
"""
if not condition:
return
if not function is None:
function()
of = ""
desc = ""
sep = " "
if not self is None:
if self.program:
of = " of " + self.program
sep = "\n\t"
if self.description:
desc = " [" + self.description + "]"
sep = "\n\t"
at = _caller(traceback.extract_stack(), skip)
if message:
msg = "\t%s\n"%message
else:
msg = ""
sys.stderr.write("FAILED test" + of + desc + sep + at + msg)
sys.exit(1)
def no_result(self = None, condition = 1, function = None, skip = 0):
"""Causes a test to exit with no valid result.
By default, the no_result() method reports NO RESULT for the test
and exits with a status of 2. If a condition argument is supplied,
the test fails only if the condition is true.
"""
if not condition:
return
if not function is None:
function()
of = ""
desc = ""
sep = " "
if not self is None:
if self.program:
of = " of " + self.program
sep = "\n\t"
if self.description:
desc = " [" + self.description + "]"
sep = "\n\t"
at = _caller(traceback.extract_stack(), skip)
sys.stderr.write("NO RESULT for test" + of + desc + sep + at)
sys.exit(2)
def pass_test(self = None, condition = 1, function = None):
"""Causes a test to pass.
By default, the pass_test() method reports PASSED for the test
and exits with a status of 0. If a condition argument is supplied,
the test passes only if the condition is true.
"""
if not condition:
return
if not function is None:
function()
sys.stderr.write("PASSED\n")
sys.exit(0)
def match_exact(lines = None, matches = None):
"""
"""
if not is_List(lines):
lines = lines.split("\n")
if not is_List(matches):
matches = matches.split("\n")
if len(lines) != len(matches):
return
for i in range(len(lines)):
if lines[i] != matches[i]:
return
return 1
def match_caseinsensitive(lines = None, matches = None):
"""
"""
if not is_List(lines):
lines = lines.split("\n")
if not is_List(matches):
matches = matches.split("\n")
if len(lines) != len(matches):
return
for i in range(len(lines)):
if lines[i].lower() != matches[i].lower():
return
return 1
def match_re(lines = None, res = None):
"""
"""
if not is_List(lines):
# CRs mess up matching (Windows) so split carefully
lines = re.split('\r?\n', lines)
if not is_List(res):
res = res.split("\n")
if len(lines) != len(res):
print "match_re: expected %d lines, found %d"%(len(res), len(lines))
return
for i in range(len(lines)):
s = "^" + res[i] + "$"
try:
expr = re.compile(s)
except re.error, e:
msg = "Regular expression error in %s: %s"
raise re.error(msg % (repr(s), e.args[0]))
if not expr.search(lines[i]):
print "match_re: mismatch at line %d:\n search re='%s'\n line='%s'"%(i,s,lines[i])
return
return 1
def match_re_dotall(lines = None, res = None):
"""
"""
if not isinstance(lines, str):
lines = "\n".join(lines)
if not isinstance(res, str):
res = "\n".join(res)
s = "^" + res + "$"
try:
expr = re.compile(s, re.DOTALL)
except re.error, e:
msg = "Regular expression error in %s: %s"
raise re.error(msg % (repr(s), e.args[0]))
return expr.match(lines)
def simple_diff(a, b, fromfile='', tofile='',
fromfiledate='', tofiledate='', n=3, lineterm='\n'):
"""
A function with the same calling signature as difflib.context_diff
(diff -c) and difflib.unified_diff (diff -u) but which prints
output like the simple, unadorned 'diff" command.
"""
sm = difflib.SequenceMatcher(None, a, b)
def comma(x1, x2):
return x1+1 == x2 and str(x2) or '%s,%s' % (x1+1, x2)
result = []
for op, a1, a2, b1, b2 in sm.get_opcodes():
if op == 'delete':
result.append("%sd%d" % (comma(a1, a2), b1))
result.extend([ '< ' + l for l in a[a1:a2] ])
elif op == 'insert':
result.append("%da%s" % (a1, comma(b1, b2)))
result.extend([ '> ' + l for l in b[b1:b2] ])
elif op == 'replace':
result.append("%sc%s" % (comma(a1, a2), comma(b1, b2)))
result.extend([ '< ' + l for l in a[a1:a2] ])
result.append('---')
result.extend([ '> ' + l for l in b[b1:b2] ])
return result
def diff_re(a, b, fromfile='', tofile='',
fromfiledate='', tofiledate='', n=3, lineterm='\n'):
"""
A simple "diff" of two sets of lines when the expected lines
are regular expressions. This is a really dumb thing that
just compares each line in turn, so it doesn't look for
chunks of matching lines and the like--but at least it lets
you know exactly which line first didn't compare correctl...
"""
result = []
diff = len(a) - len(b)
if diff < 0:
a = a + ['']*(-diff)
elif diff > 0:
b = b + ['']*diff
i = 0
for aline, bline in zip(a, b):
s = "^" + aline + "$"
try:
expr = re.compile(s)
except re.error, e:
msg = "Regular expression error in %s: %s"
raise re.error(msg % (repr(s), e.args[0]))
if not expr.search(bline):
result.append("%sc%s" % (i+1, i+1))
result.append('< ' + repr(a[i]))
result.append('---')
result.append('> ' + repr(b[i]))
i = i+1
return result
if os.name == 'posix':
def escape(arg):
"escape shell special characters"
slash = '\\'
special = '"$'
arg = arg.replace(slash, slash+slash)
for c in special:
arg = arg.replace(c, slash+c)
if re_space.search(arg):
arg = '"' + arg + '"'
return arg
else:
# Windows does not allow special characters in file names
# anyway, so no need for an escape function, we will just quote
# the arg.
def escape(arg):
if re_space.search(arg):
arg = '"' + arg + '"'
return arg
if os.name == 'java':
python = os.path.join(sys.prefix, 'jython')
else:
python = os.environ.get('python_executable', sys.executable)
_python_ = escape(python)
if sys.platform == 'win32':
default_sleep_seconds = 2
def where_is(file, path=None, pathext=None):
if path is None:
path = os.environ['PATH']
if is_String(path):
path = path.split(os.pathsep)
if pathext is None:
pathext = os.environ['PATHEXT']
if is_String(pathext):
pathext = pathext.split(os.pathsep)
for ext in pathext:
if ext.lower() == file[-len(ext):].lower():
pathext = ['']
break
for dir in path:
f = os.path.join(dir, file)
for ext in pathext:
fext = f + ext
if os.path.isfile(fext):
return fext
return None
else:
def where_is(file, path=None, pathext=None):
if path is None:
path = os.environ['PATH']
if is_String(path):
path = path.split(os.pathsep)
for dir in path:
f = os.path.join(dir, file)
if os.path.isfile(f):
try:
st = os.stat(f)
except OSError:
continue
if stat.S_IMODE(st[stat.ST_MODE]) & 0111:
return f
return None
default_sleep_seconds = 1
import subprocess
try:
subprocess.Popen.terminate
except AttributeError:
if sys.platform == 'win32':
import win32process
def terminate(self):
win32process.TerminateProcess(self._handle, 1)
else:
def terminate(self):
os.kill(self.pid, signal.SIGTERM)
method = types.MethodType(terminate, None, subprocess.Popen)
setattr(subprocess.Popen, 'terminate', method)
# From Josiah Carlson,
# ASPN : Python Cookbook : Module to allow Asynchronous subprocess use on Windows and Posix platforms
# http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/440554
PIPE = subprocess.PIPE
if subprocess.mswindows:
try:
from win32file import ReadFile, WriteFile
from win32pipe import PeekNamedPipe
except ImportError:
# If PyWin32 is not available, try ctypes instead
# XXX These replicate _just_enough_ PyWin32 behaviour for our purposes
import ctypes; from ctypes.wintypes import DWORD
def ReadFile(hFile, bufSize, ol=None):
assert ol is None
lpBuffer = ctypes.create_string_buffer(bufSize)
bytesRead = DWORD()
bErr = ctypes.windll.kernel32.ReadFile(
hFile, lpBuffer, bufSize, ctypes.byref(bytesRead), ol)
if not bErr: raise ctypes.WinError()
return (0, ctypes.string_at(lpBuffer, bytesRead.value))
def WriteFile(hFile, data, ol=None):
assert ol is None
bytesWritten = DWORD()
bErr = ctypes.windll.kernel32.WriteFile(
hFile, data, len(data), ctypes.byref(bytesWritten), ol)
if not bErr: raise ctypes.WinError()
return (0, bytesWritten.value)
def PeekNamedPipe(hPipe, size):
assert size == 0
bytesAvail = DWORD()
bErr = ctypes.windll.kernel32.PeekNamedPipe(
hPipe, None, size, None, ctypes.byref(bytesAvail), None)
if not bErr: raise ctypes.WinError()
return ("", bytesAvail.value, None)
import msvcrt
else:
import select
import fcntl
try: fcntl.F_GETFL
except AttributeError: fcntl.F_GETFL = 3
try: fcntl.F_SETFL
except AttributeError: fcntl.F_SETFL = 4
class Popen(subprocess.Popen):
def recv(self, maxsize=None):
return self._recv('stdout', maxsize)
def recv_err(self, maxsize=None):
return self._recv('stderr', maxsize)
def send_recv(self, input='', maxsize=None):
return self.send(input), self.recv(maxsize), self.recv_err(maxsize)
def get_conn_maxsize(self, which, maxsize):
if maxsize is None:
maxsize = 1024
elif maxsize < 1:
maxsize = 1
return getattr(self, which), maxsize
def _close(self, which):
getattr(self, which).close()
setattr(self, which, None)
if subprocess.mswindows:
def send(self, input):
if not self.stdin:
return None
try:
x = msvcrt.get_osfhandle(self.stdin.fileno())
(errCode, written) = WriteFile(x, input)
except ValueError:
return self._close('stdin')
except (subprocess.pywintypes.error, Exception), why:
if why.args[0] in (109, errno.ESHUTDOWN):
return self._close('stdin')
raise
return written
def _recv(self, which, maxsize):
conn, maxsize = self.get_conn_maxsize(which, maxsize)
if conn is None:
return None
try:
x = msvcrt.get_osfhandle(conn.fileno())
(read, nAvail, nMessage) = PeekNamedPipe(x, 0)
if maxsize < nAvail:
nAvail = maxsize
if nAvail > 0:
(errCode, read) = ReadFile(x, nAvail, None)
except ValueError:
return self._close(which)
except (subprocess.pywintypes.error, Exception), why:
if why.args[0] in (109, errno.ESHUTDOWN):
return self._close(which)
raise
#if self.universal_newlines:
# read = self._translate_newlines(read)
return read
else:
def send(self, input):
if not self.stdin:
return None
if not select.select([], [self.stdin], [], 0)[1]:
return 0
try:
written = os.write(self.stdin.fileno(), input)
except OSError, why:
if why.args[0] == errno.EPIPE: #broken pipe
return self._close('stdin')
raise
return written
def _recv(self, which, maxsize):
conn, maxsize = self.get_conn_maxsize(which, maxsize)
if conn is None:
return None
try:
flags = fcntl.fcntl(conn, fcntl.F_GETFL)
except TypeError:
flags = None
else:
if not conn.closed:
fcntl.fcntl(conn, fcntl.F_SETFL, flags| os.O_NONBLOCK)
try:
if not select.select([conn], [], [], 0)[0]:
return ''
r = conn.read(maxsize)
if not r:
return self._close(which)
#if self.universal_newlines:
# r = self._translate_newlines(r)
return r
finally:
if not conn.closed and not flags is None:
fcntl.fcntl(conn, fcntl.F_SETFL, flags)
disconnect_message = "Other end disconnected!"
def recv_some(p, t=.1, e=1, tr=5, stderr=0):
if tr < 1:
tr = 1
x = time.time()+t
y = []
r = ''
pr = p.recv
if stderr:
pr = p.recv_err
while time.time() < x or r:
r = pr()
if r is None:
if e:
raise Exception(disconnect_message)
else:
break
elif r:
y.append(r)
else:
time.sleep(max((x-time.time())/tr, 0))
return ''.join(y)
def send_all(p, data):
while len(data):
sent = p.send(data)
if sent is None:
raise Exception(disconnect_message)
data = memoryview(data)[sent:]
_Cleanup = []
def _clean():
global _Cleanup
cleanlist = [ c for c in _Cleanup if c ]
del _Cleanup[:]
cleanlist.reverse()
for test in cleanlist:
test.cleanup()
atexit.register(_clean)
class TestCmd(object):
"""Class TestCmd
"""
def __init__(self, description = None,
program = None,
interpreter = None,
workdir = None,
subdir = None,
verbose = None,
match = None,
match_stdout = None,
match_stderr = None,
diff = None,
diff_stdout = None,
diff_stderr = None,
combine = 0,
universal_newlines = 1,
timeout = None):
self.external = os.environ.get('SCONS_EXTERNAL_TEST', 0)
self._cwd = os.getcwd()
self.description_set(description)
self.program_set(program)
self.interpreter_set(interpreter)
if verbose is None:
try:
verbose = max( 0, int(os.environ.get('TESTCMD_VERBOSE', 0)) )
except ValueError:
verbose = 0
self.verbose_set(verbose)
self.combine = combine
self.universal_newlines = universal_newlines
self.process = None
self.set_timeout(timeout)
self.set_match_function(match, match_stdout, match_stderr)
self.set_diff_function(diff, diff_stdout, diff_stderr)
self._dirlist = []
self._preserve = {'pass_test': 0, 'fail_test': 0, 'no_result': 0}
if 'PRESERVE' in os.environ and not os.environ['PRESERVE'] is '':
self._preserve['pass_test'] = os.environ['PRESERVE']
self._preserve['fail_test'] = os.environ['PRESERVE']
self._preserve['no_result'] = os.environ['PRESERVE']
else:
try:
self._preserve['pass_test'] = os.environ['PRESERVE_PASS']
except KeyError:
pass
try:
self._preserve['fail_test'] = os.environ['PRESERVE_FAIL']
except KeyError:
pass
try:
self._preserve['no_result'] = os.environ['PRESERVE_NO_RESULT']
except KeyError:
pass
self._stdout = []
self._stderr = []
self.status = None
self.condition = 'no_result'
self.workdir_set(workdir)
self.subdir(subdir)
self.script_srcdir = None
def __del__(self):
self.cleanup()
def __repr__(self):
return "%x" % id(self)
banner_char = '='
banner_width = 80
def banner(self, s, width=None):
if width is None:
width = self.banner_width
return s + self.banner_char * (width - len(s))
escape = staticmethod(escape)
def canonicalize(self, path):
if is_List(path):
path = os.path.join(*tuple(path))
if not os.path.isabs(path):
path = os.path.join(self.workdir, path)
return path
def chmod(self, path, mode):
"""Changes permissions on the specified file or directory
path name."""
path = self.canonicalize(path)
os.chmod(path, mode)
def cleanup(self, condition = None):
"""Removes any temporary working directories for the specified
TestCmd environment. If the environment variable PRESERVE was
set when the TestCmd environment was created, temporary working
directories are not removed. If any of the environment variables
PRESERVE_PASS, PRESERVE_FAIL, or PRESERVE_NO_RESULT were set
when the TestCmd environment was created, then temporary working
directories are not removed if the test passed, failed, or had
no result, respectively. Temporary working directories are also
preserved for conditions specified via the preserve method.
Typically, this method is not called directly, but is used when
the script exits to clean up temporary working directories as
appropriate for the exit status.
"""
if not self._dirlist:
return
os.chdir(self._cwd)
self.workdir = None
if condition is None:
condition = self.condition
if self._preserve[condition]:
for dir in self._dirlist:
print unicode("Preserved directory " + dir + "\n"),
else:
list = self._dirlist[:]
list.reverse()
for dir in list:
self.writable(dir, 1)
shutil.rmtree(dir, ignore_errors = 1)
self._dirlist = []
global _Cleanup
if self in _Cleanup:
_Cleanup.remove(self)
def command_args(self, program = None,
interpreter = None,
arguments = None):
if not self.external:
if program:
if isinstance(program, str) and not os.path.isabs(program):
program = os.path.join(self._cwd, program)
else:
program = self.program
if not interpreter:
interpreter = self.interpreter
else:
if not program:
program = self.program
if not interpreter:
interpreter = self.interpreter
if not isinstance(program, (list, tuple)):
program = [program]
cmd = list(program)
if interpreter:
if not isinstance(interpreter, (list, tuple)):
interpreter = [interpreter]
cmd = list(interpreter) + cmd
if arguments:
if isinstance(arguments, str):
arguments = arguments.split()
cmd.extend(arguments)
return cmd
def description_set(self, description):
"""Set the description of the functionality being tested.
"""
self.description = description
def set_diff_function(self, diff=_Null, stdout=_Null, stderr=_Null):
"""Sets the specified diff functions.
"""
if diff is not _Null:
self._diff_function = diff
if stdout is not _Null:
self._diff_stdout_function = stdout
if stderr is not _Null:
self._diff_stderr_function = stderr
def diff(self, a, b, name=None, diff_function=None, *args, **kw):
if diff_function is None:
try:
diff_function = getattr(self, self._diff_function)
except TypeError:
diff_function = self._diff_function
if diff_function is None:
diff_function = self.simple_diff
if name is not None:
print self.banner(name)
args = (a.splitlines(), b.splitlines()) + args
for line in diff_function(*args, **kw):
print line
def diff_stderr(self, a, b, *args, **kw):
"""Compare actual and expected file contents.
"""
try:
diff_stderr_function = getattr(self, self._diff_stderr_function)
except TypeError:
diff_stderr_function = self._diff_stderr_function
return self.diff(a, b, diff_function=diff_stderr_function, *args, **kw)
def diff_stdout(self, a, b, *args, **kw):
"""Compare actual and expected file contents.
"""
try:
diff_stdout_function = getattr(self, self._diff_stdout_function)
except TypeError:
diff_stdout_function = self._diff_stdout_function
return self.diff(a, b, diff_function=diff_stdout_function, *args, **kw)
simple_diff = staticmethod(simple_diff)
diff_re = staticmethod(diff_re)
context_diff = staticmethod(difflib.context_diff)
unified_diff = staticmethod(difflib.unified_diff)
def fail_test(self, condition = 1, function = None, skip = 0, message = None):
"""Cause the test to fail.
"""
if not condition:
return
self.condition = 'fail_test'
fail_test(self = self,
condition = condition,
function = function,
skip = skip,
message = message)
def interpreter_set(self, interpreter):
"""Set the program to be used to interpret the program
under test as a script.
"""
self.interpreter = interpreter
def set_match_function(self, match=_Null, stdout=_Null, stderr=_Null):
"""Sets the specified match functions.
"""
if match is not _Null:
self._match_function = match
if stdout is not _Null:
self._match_stdout_function = stdout
if stderr is not _Null:
self._match_stderr_function = stderr
def match(self, lines, matches):
"""Compare actual and expected file contents.
"""
try:
match_function = getattr(self, self._match_function)
except TypeError:
match_function = self._match_function
if match_function is None:
# Default is regular expression matches.
match_function = self.match_re
return match_function(lines, matches)
def match_stderr(self, lines, matches):
"""Compare actual and expected file contents.
"""
try:
match_stderr_function = getattr(self, self._match_stderr_function)
except TypeError:
match_stderr_function = self._match_stderr_function
if match_stderr_function is None:
# Default is to use whatever match= is set to.
match_stderr_function = self.match
return match_stderr_function(lines, matches)
def match_stdout(self, lines, matches):
"""Compare actual and expected file contents.
"""
try:
match_stdout_function = getattr(self, self._match_stdout_function)
except TypeError:
match_stdout_function = self._match_stdout_function
if match_stdout_function is None:
# Default is to use whatever match= is set to.
match_stdout_function = self.match
return match_stdout_function(lines, matches)
match_exact = staticmethod(match_exact)
match_caseinsensitive = staticmethod(match_caseinsensitive)
match_re = staticmethod(match_re)
match_re_dotall = staticmethod(match_re_dotall)
def no_result(self, condition = 1, function = None, skip = 0):
"""Report that the test could not be run.
"""
if not condition:
return
self.condition = 'no_result'
no_result(self = self,
condition = condition,
function = function,
skip = skip)
def pass_test(self, condition = 1, function = None):
"""Cause the test to pass.
"""
if not condition:
return
self.condition = 'pass_test'
pass_test(self = self, condition = condition, function = function)
def preserve(self, *conditions):
"""Arrange for the temporary working directories for the
specified TestCmd environment to be preserved for one or more
conditions. If no conditions are specified, arranges for
the temporary working directories to be preserved for all
conditions.
"""
if conditions is ():
conditions = ('pass_test', 'fail_test', 'no_result')
for cond in conditions:
self._preserve[cond] = 1
def program_set(self, program):
"""Set the executable program or script to be tested.
"""
if not self.external:
if program and not os.path.isabs(program):
program = os.path.join(self._cwd, program)
self.program = program
def read(self, file, mode = 'rb'):
"""Reads and returns the contents of the specified file name.
The file name may be a list, in which case the elements are
concatenated with the os.path.join() method. The file is
assumed to be under the temporary working directory unless it
is an absolute path name. The I/O mode for the file may
be specified; it must begin with an 'r'. The default is
'rb' (binary read).
"""
file = self.canonicalize(file)
if mode[0] != 'r':
raise ValueError("mode must begin with 'r'")
return open(file, mode).read()
def rmdir(self, dir):
"""Removes the specified dir name.
The dir name may be a list, in which case the elements are
concatenated with the os.path.join() method. The dir is
assumed to be under the temporary working directory unless it
is an absolute path name.
The dir must be empty.
"""
dir = self.canonicalize(dir)
os.rmdir(dir)
def _timeout(self):
self.process.terminate()
self.timer.cancel()
self.timer = None
def set_timeout(self, timeout):
self.timeout = timeout
self.timer = None
def parse_path(self, path, suppress_current=False):
"""Return a list with the single path components of path.
"""
head, tail = os.path.split(path)
result = []
if not tail:
if head == path:
return [head]
else:
result.append(tail)
head, tail = os.path.split(head)
while head and tail:
result.append(tail)
head, tail = os.path.split(head)
result.append(head or tail)
result.reverse()
return result
def dir_fixture(self, srcdir, dstdir=None):
"""Copies the contents of the specified folder srcdir from
the directory of the called script, to the current
working directory.
The srcdir name may be a list, in which case the elements are
concatenated with the os.path.join() method. The dstdir is
assumed to be under the temporary working directory, it gets
created automatically, if it does not already exist.
"""
if srcdir and self.script_srcdir and not os.path.isabs(srcdir):
spath = os.path.join(self.script_srcdir, srcdir)
else:
spath = srcdir
if dstdir:
dstdir = self.canonicalize(dstdir)
else:
dstdir = '.'
if dstdir != '.' and not os.path.exists(dstdir):
dstlist = self.parse_path(dstdir)
if len(dstlist) > 0 and dstlist[0] == ".":
dstlist = dstlist[1:]
for idx in range(len(dstlist)):
self.subdir(dstlist[:idx+1])
if dstdir and self.workdir:
dstdir = os.path.join(self.workdir, dstdir)
for entry in os.listdir(spath):
epath = os.path.join(spath, entry)
dpath = os.path.join(dstdir, entry)
if os.path.isdir(epath):
# Copy the subfolder
shutil.copytree(epath, dpath)
else:
shutil.copy(epath, dpath)
def file_fixture(self, srcfile, dstfile=None):
"""Copies the file srcfile from the directory of
the called script, to the current working directory.
The dstfile is assumed to be under the temporary working
directory unless it is an absolute path name.
If dstfile is specified its target directory gets created
automatically, if it does not already exist.
"""
srcpath, srctail = os.path.split(srcfile)
if srcpath:
if self.script_srcdir and not os.path.isabs(srcpath):
spath = os.path.join(self.script_srcdir, srcfile)
else:
spath = srcfile
else:
spath = os.path.join(self.script_srcdir, srcfile)
if not dstfile:
if srctail:
dpath = os.path.join(self.workdir, srctail)
else:
return
else:
dstpath, dsttail = os.path.split(dstfile)
if dstpath:
if not os.path.exists(os.path.join(self.workdir, dstpath)):
dstlist = self.parse_path(dstpath)
if len(dstlist) > 0 and dstlist[0] == ".":
dstlist = dstlist[1:]
for idx in range(len(dstlist)):
self.subdir(dstlist[:idx+1])
dpath = os.path.join(self.workdir, dstfile)
shutil.copy(spath, dpath)
def start(self, program = None,
interpreter = None,
arguments = None,
universal_newlines = None,
timeout = _Null,
**kw):
"""
Starts a program or script for the test environment.
The specified program will have the original directory
prepended unless it is enclosed in a [list].
"""
cmd = self.command_args(program, interpreter, arguments)
if self.verbose:
cmd_string = ' '.join([ self.escape(c) for c in cmd ])
sys.stderr.write(cmd_string + "\n")
if universal_newlines is None:
universal_newlines = self.universal_newlines
# On Windows, if we make stdin a pipe when we plan to send
# no input, and the test program exits before
# Popen calls msvcrt.open_osfhandle, that call will fail.
# So don't use a pipe for stdin if we don't need one.
stdin = kw.get('stdin', None)
if stdin is not None:
stdin = subprocess.PIPE
combine = kw.get('combine', self.combine)
if combine:
stderr_value = subprocess.STDOUT
else:
stderr_value = subprocess.PIPE
if timeout is _Null:
timeout = self.timeout
if timeout:
self.timer = threading.Timer(float(timeout), self._timeout)
self.timer.start()
p = Popen(cmd,
stdin=stdin,
stdout=subprocess.PIPE,
stderr=stderr_value,
universal_newlines=universal_newlines)
self.process = p
return p
def finish(self, popen=None, **kw):
"""
Finishes and waits for the process being run under control of
the specified popen argument, recording the exit status,
standard output and error output.
"""
if popen is None:
popen = self.process
stdout, stderr = popen.communicate()
if self.timer:
self.timer.cancel()
self.timer = None
self.status = popen.returncode
self.process = None
self._stdout.append(stdout or '')
self._stderr.append(stderr or '')
def run(self, program = None,
interpreter = None,
arguments = None,
chdir = None,
stdin = None,
universal_newlines = None,
timeout = _Null):
"""Runs a test of the program or script for the test
environment. Standard output and error output are saved for
future retrieval via the stdout() and stderr() methods.
The specified program will have the original directory
prepended unless it is enclosed in a [list].
"""
if self.external:
if not program:
program = self.program
if not interpreter:
interpreter = self.interpreter
if chdir:
oldcwd = os.getcwd()
if not os.path.isabs(chdir):
chdir = os.path.join(self.workpath(chdir))
if self.verbose:
sys.stderr.write("chdir(" + chdir + ")\n")
os.chdir(chdir)
p = self.start(program = program,
interpreter = interpreter,
arguments = arguments,
universal_newlines = universal_newlines,
timeout = timeout,
stdin = stdin)
if is_List(stdin):
stdin = ''.join(stdin)
# TODO(sgk): figure out how to re-use the logic in the .finish()
# method above. Just calling it from here causes problems with
# subclasses that redefine .finish(). We could abstract this
# into Yet Another common method called both here and by .finish(),
# but that seems ill-thought-out.
stdout, stderr = p.communicate(input=stdin)
if self.timer:
self.timer.cancel()
self.timer = None
self.status = p.returncode
self.process = None
self._stdout.append(stdout or '')
self._stderr.append(stderr or '')
if chdir:
os.chdir(oldcwd)
if self.verbose >= 2:
write = sys.stdout.write
write('============ STATUS: %d\n' % self.status)
out = self.stdout()
if out or self.verbose >= 3:
write('============ BEGIN STDOUT (len=%d):\n' % len(out))
write(out)
write('============ END STDOUT\n')
err = self.stderr()
if err or self.verbose >= 3:
write('============ BEGIN STDERR (len=%d)\n' % len(err))
write(err)
write('============ END STDERR\n')
def sleep(self, seconds = default_sleep_seconds):
"""Sleeps at least the specified number of seconds. If no
number is specified, sleeps at least the minimum number of
seconds necessary to advance file time stamps on the current
system. Sleeping more seconds is all right.
"""
time.sleep(seconds)
def stderr(self, run = None):
"""Returns the error output from the specified run number.
If there is no specified run number, then returns the error
output of the last run. If the run number is less than zero,
then returns the error output from that many runs back from the
current run.
"""
if not run:
run = len(self._stderr)
elif run < 0:
run = len(self._stderr) + run
run = run - 1
return self._stderr[run]
def stdout(self, run = None):
"""Returns the standard output from the specified run number.
If there is no specified run number, then returns the standard
output of the last run. If the run number is less than zero,
then returns the standard output from that many runs back from
the current run.
"""
if not run:
run = len(self._stdout)
elif run < 0:
run = len(self._stdout) + run
run = run - 1
return self._stdout[run]
def subdir(self, *subdirs):
"""Create new subdirectories under the temporary working
directory, one for each argument. An argument may be a list,
in which case the list elements are concatenated using the
os.path.join() method. Subdirectories multiple levels deep
must be created using a separate argument for each level:
test.subdir('sub', ['sub', 'dir'], ['sub', 'dir', 'ectory'])
Returns the number of subdirectories actually created.
"""
count = 0
for sub in subdirs:
if sub is None:
continue
if is_List(sub):
sub = os.path.join(*tuple(sub))
new = os.path.join(self.workdir, sub)
try:
os.mkdir(new)
except OSError:
pass
else:
count = count + 1
return count
def symlink(self, target, link):
"""Creates a symlink to the specified target.
The link name may be a list, in which case the elements are
concatenated with the os.path.join() method. The link is
assumed to be under the temporary working directory unless it
is an absolute path name. The target is *not* assumed to be
under the temporary working directory.
"""
link = self.canonicalize(link)
try:
os.symlink(target, link)
except AttributeError:
pass # Windows has no symlink
def tempdir(self, path=None):
"""Creates a temporary directory.
A unique directory name is generated if no path name is specified.
The directory is created, and will be removed when the TestCmd
object is destroyed.
"""
if path is None:
try:
path = tempfile.mktemp(prefix=tempfile.template)
except TypeError:
path = tempfile.mktemp()
os.mkdir(path)
# Symlinks in the path will report things
# differently from os.getcwd(), so chdir there
# and back to fetch the canonical path.
cwd = os.getcwd()
try:
os.chdir(path)
path = os.getcwd()
finally:
os.chdir(cwd)
# Uppercase the drive letter since the case of drive
# letters is pretty much random on win32:
drive,rest = os.path.splitdrive(path)
if drive:
path = drive.upper() + rest
#
self._dirlist.append(path)
global _Cleanup
if self not in _Cleanup:
_Cleanup.append(self)
return path
def touch(self, path, mtime=None):
"""Updates the modification time on the specified file or
directory path name. The default is to update to the
current time if no explicit modification time is specified.
"""
path = self.canonicalize(path)
atime = os.path.getatime(path)
if mtime is None:
mtime = time.time()
os.utime(path, (atime, mtime))
def unlink(self, file):
"""Unlinks the specified file name.
The file name may be a list, in which case the elements are
concatenated with the os.path.join() method. The file is
assumed to be under the temporary working directory unless it
is an absolute path name.
"""
file = self.canonicalize(file)
os.unlink(file)
def verbose_set(self, verbose):
"""Set the verbose level.
"""
self.verbose = verbose
def where_is(self, file, path=None, pathext=None):
"""Find an executable file.
"""
if is_List(file):
file = os.path.join(*tuple(file))
if not os.path.isabs(file):
file = where_is(file, path, pathext)
return file
def workdir_set(self, path):
"""Creates a temporary working directory with the specified
path name. If the path is a null string (''), a unique
directory name is created.
"""
if (path != None):
if path == '':
path = None
path = self.tempdir(path)
self.workdir = path
def workpath(self, *args):
"""Returns the absolute path name to a subdirectory or file
within the current temporary working directory. Concatenates
the temporary working directory name with the specified
arguments using the os.path.join() method.
"""
return os.path.join(self.workdir, *tuple(args))
def readable(self, top, read=1):
"""Make the specified directory tree readable (read == 1)
or not (read == None).
This method has no effect on Windows systems, which use a
completely different mechanism to control file readability.
"""
if sys.platform == 'win32':
return
if read:
def do_chmod(fname):
try: st = os.stat(fname)
except OSError: pass
else: os.chmod(fname, stat.S_IMODE(st[stat.ST_MODE]|stat.S_IREAD))
else:
def do_chmod(fname):
try: st = os.stat(fname)
except OSError: pass
else: os.chmod(fname, stat.S_IMODE(st[stat.ST_MODE]&~stat.S_IREAD))
if os.path.isfile(top):
# If it's a file, that's easy, just chmod it.
do_chmod(top)
elif read:
# It's a directory and we're trying to turn on read
# permission, so it's also pretty easy, just chmod the
# directory and then chmod every entry on our walk down the
# tree.
do_chmod(top)
for dirpath, dirnames, filenames in os.walk(top):
for name in dirnames + filenames:
do_chmod(os.path.join(dirpath, name))
else:
# It's a directory and we're trying to turn off read
# permission, which means we have to chmod the directories
# in the tree bottom-up, lest disabling read permission from
# the top down get in the way of being able to get at lower
# parts of the tree.
for dirpath, dirnames, filenames in os.walk(top, topdown=0):
for name in dirnames + filenames:
do_chmod(os.path.join(dirpath, name))
do_chmod(top)
def writable(self, top, write=1):
"""Make the specified directory tree writable (write == 1)
or not (write == None).
"""
if sys.platform == 'win32':
if write:
def do_chmod(fname):
try: os.chmod(fname, stat.S_IWRITE)
except OSError: pass
else:
def do_chmod(fname):
try: os.chmod(fname, stat.S_IREAD)
except OSError: pass
else:
if write:
def do_chmod(fname):
try: st = os.stat(fname)
except OSError: pass
else: os.chmod(fname, stat.S_IMODE(st[stat.ST_MODE]|0200))
else:
def do_chmod(fname):
try: st = os.stat(fname)
except OSError: pass
else: os.chmod(fname, stat.S_IMODE(st[stat.ST_MODE]&~0200))
if os.path.isfile(top):
do_chmod(top)
else:
do_chmod(top)
for dirpath, dirnames, filenames in os.walk(top, topdown=0):
for name in dirnames + filenames:
do_chmod(os.path.join(dirpath, name))
def executable(self, top, execute=1):
"""Make the specified directory tree executable (execute == 1)
or not (execute == None).
This method has no effect on Windows systems, which use a
completely different mechanism to control file executability.
"""
if sys.platform == 'win32':
return
if execute:
def do_chmod(fname):
try: st = os.stat(fname)
except OSError: pass
else: os.chmod(fname, stat.S_IMODE(st[stat.ST_MODE]|stat.S_IEXEC))
else:
def do_chmod(fname):
try: st = os.stat(fname)
except OSError: pass
else: os.chmod(fname, stat.S_IMODE(st[stat.ST_MODE]&~stat.S_IEXEC))
if os.path.isfile(top):
# If it's a file, that's easy, just chmod it.
do_chmod(top)
elif execute:
# It's a directory and we're trying to turn on execute
# permission, so it's also pretty easy, just chmod the
# directory and then chmod every entry on our walk down the
# tree.
do_chmod(top)
for dirpath, dirnames, filenames in os.walk(top):
for name in dirnames + filenames:
do_chmod(os.path.join(dirpath, name))
else:
# It's a directory and we're trying to turn off execute
# permission, which means we have to chmod the directories
# in the tree bottom-up, lest disabling execute permission from
# the top down get in the way of being able to get at lower
# parts of the tree.
for dirpath, dirnames, filenames in os.walk(top, topdown=0):
for name in dirnames + filenames:
do_chmod(os.path.join(dirpath, name))
do_chmod(top)
def write(self, file, content, mode = 'wb'):
"""Writes the specified content text (second argument) to the
specified file name (first argument). The file name may be
a list, in which case the elements are concatenated with the
os.path.join() method. The file is created under the temporary
working directory. Any subdirectories in the path must already
exist. The I/O mode for the file may be specified; it must
begin with a 'w'. The default is 'wb' (binary write).
"""
file = self.canonicalize(file)
if mode[0] != 'w':
raise ValueError("mode must begin with 'w'")
open(file, mode).write(content)
# Local Variables:
# tab-width:4
# indent-tabs-mode:nil
# End:
# vim: set expandtab tabstop=4 shiftwidth=4:
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