#!/usr/bin/env python # # __COPYRIGHT__ # # runtest.py - wrapper script for running SCons tests # # SCons test suite consists of: # # - unit tests - included in *Tests.py files from src/ dir # - end-to-end tests - these are *.py files in test/ directory that # require custom SCons framework from QMTest/ # # This script adds src/ and QMTest/ directories to PYTHONPATH, # performs test discovery and processes them according to options. # # With -p (--package) option, script tests specified package from # build directory and sets PYTHONPATH to reference modules unpacked # during build process for testing purposes (build/test-*). # # -a Run all tests found under the current directory. # It is also possible to specify a list of # subdirectories to search. # # -d Debug. Runs the script under the Python # debugger (pdb.py) so you don't have to # muck with PYTHONPATH yourself. # # -e Starts the script in external mode, for # testing separate Tools and packages. # # -f file Only execute the tests listed in the specified # file. # # -k Suppress printing of count and percent progress for # the single tests. # # -l List available tests and exit. # # -n No execute, just print command lines. # # -o file Save screen output to the specified log file. # # -P Python Use the specified Python interpreter. # # -p package Test against the specified package. # # --passed In the final summary, also report which tests # passed. The default is to only report tests # which failed or returned NO RESULT. # # -q Quiet. By default, runtest.py prints the # command line it will execute before # executing it. This suppresses that print. # # --quit-on-failure Quit on any test failure # # -s Short progress. Prints only the command line # and a percentage value, based on the total and # current number of tests. # All stdout and stderr messages get suppressed (this # does only work with subprocess though)! # # -t Print the execution time of each test. # # -X The scons "script" is an executable; don't # feed it to Python. # # -x scons The scons script to use for tests. # # --xml file Save test results to the specified file in an # SCons-specific XML format. # This is (will be) used for reporting results back # to a central SCons test monitoring infrastructure. # # (Note: There used to be a -v option that specified the SCons # version to be tested, when we were installing in a version-specific # library directory. If we ever resurrect that as the default, then # you can find the appropriate code in the 0.04 version of this script, # rather than reinventing that wheel.) from __future__ import print_function import getopt import glob import os import re import stat import sys import time try: import threading try: # python3 from queue import Queue except ImportError as e: # python2 from Queue import Queue threading_ok = True except ImportError: print("Can't import threading or queue") threading_ok = False import subprocess cwd = os.getcwd() baseline = 0 builddir = os.path.join(cwd, 'build') external = 0 debug = '' execute_tests = 1 jobs = 1 list_only = None printcommand = 1 package = None print_passed_summary = None scons = None scons_exec = None testlistfile = None version = '' print_times = None python = None sp = [] print_progress = 1 suppress_stdout = False suppress_stderr = False allow_pipe_files = True quit_on_failure = False usagestr = """\ Usage: runtest.py [OPTIONS] [TEST ...] runtest.py -h|--help """ helpstr = usagestr + """\ Options: -a --all Run all tests. -b --baseline BASE Run test scripts against baseline BASE. --builddir DIR Directory in which packages were built. -d --debug Run test scripts under the Python debugger. -e --external Run the script in external mode (for testing separate Tools) -f --file FILE Run tests in specified FILE. -k --no-progress Suppress count and percent progress messages. -l --list List available tests and exit. -n --no-exec No execute, just print command lines. --nopipefiles Doesn't use the "file pipe" workaround for subprocess.Popen() for starting tests. WARNING: Only use this when too much file traffic is giving you trouble AND you can be sure that none of your tests create output that exceed 65K chars! You might run into some deadlocks else. -o --output FILE Save the output from a test run to the log file. -P PYTHON Use the specified Python interpreter. -p --package PACKAGE Test against the specified PACKAGE: deb Debian local-tar-gz .tar.gz standalone package local-zip .zip standalone package rpm Red Hat src-tar-gz .tar.gz source package src-zip .zip source package tar-gz .tar.gz distribution zip .zip distribution --passed Summarize which tests passed. -q --quiet Don't print the test being executed. --quit-on-failure Quit on any test failure --runner CLASS Alternative test runner class for unit tests -s --short-progress Short progress, prints only the command line and a percentage value, based on the total and current number of tests. -t --time Print test execution time. -v VERSION Specify the SCons version. --verbose=LEVEL Set verbose level: 1 = print executed commands, 2 = print commands and non-zero output, 3 = print commands and all output. -X Test script is executable, don't feed to Python. -x --exec SCRIPT Test SCRIPT. --xml file Save results to file in SCons XML format. Environment Variables: PRESERVE, PRESERVE_{PASS,FAIL,NO_RESULT}: preserve test subdirs TESTCMD_VERBOSE: turn on verbosity in TestCommand\ """ # "Pass-through" option parsing -- an OptionParser that ignores # unknown options and lets them pile up in the leftover argument # list. Useful to gradually port getopt to optparse. from optparse import OptionParser, BadOptionError class PassThroughOptionParser(OptionParser): def _process_long_opt(self, rargs, values): try: OptionParser._process_long_opt(self, rargs, values) except BadOptionError as err: self.largs.append(err.opt_str) def _process_short_opts(self, rargs, values): try: OptionParser._process_short_opts(self, rargs, values) except BadOptionError as err: self.largs.append(err.opt_str) parser = PassThroughOptionParser(add_help_option=False) parser.add_option('-a', '--all', action='store_true', help="Run all tests.") parser.add_option('-o', '--output', help="Save the output from a test run to the log file.") parser.add_option('--runner', metavar='class', help="Test runner class for unit tests.") parser.add_option('--xml', help="Save results to file in SCons XML format.") (options, args) = parser.parse_args() #print("options:", options) #print("args:", args) opts, args = getopt.getopt(args, "b:def:hj:klnP:p:qsv:Xx:t", ['baseline=', 'builddir=', 'debug', 'external', 'file=', 'help', 'no-progress', 'jobs=', 'list', 'no-exec', 'nopipefiles', 'package=', 'passed', 'python=', 'quiet', 'quit-on-failure', 'short-progress', 'time', 'version=', 'exec=', 'verbose=']) for o, a in opts: if o in ['-b', '--baseline']: baseline = a elif o in ['--builddir']: builddir = a if not os.path.isabs(builddir): builddir = os.path.normpath(os.path.join(cwd, builddir)) elif o in ['-d', '--debug']: for dir in sys.path: pdb = os.path.join(dir, 'pdb.py') if os.path.exists(pdb): debug = pdb break elif o in ['-e', '--external']: external = 1 elif o in ['-f', '--file']: if not os.path.isabs(a): a = os.path.join(cwd, a) testlistfile = a elif o in ['-h', '--help']: print(helpstr) sys.exit(0) elif o in ['-j', '--jobs']: jobs = int(a) elif o in ['-k', '--no-progress']: print_progress = 0 elif o in ['-l', '--list']: list_only = 1 elif o in ['-n', '--no-exec']: execute_tests = None elif o in ['--nopipefiles']: allow_pipe_files = False elif o in ['-p', '--package']: package = a elif o in ['--passed']: print_passed_summary = 1 elif o in ['-P', '--python']: python = a elif o in ['-q', '--quiet']: printcommand = 0 suppress_stdout = True suppress_stderr = True elif o in ['--quit-on-failure']: quit_on_failure = True elif o in ['-s', '--short-progress']: print_progress = 1 suppress_stdout = True suppress_stderr = True elif o in ['-t', '--time']: print_times = 1 elif o in ['--verbose']: os.environ['TESTCMD_VERBOSE'] = a elif o in ['-v', '--version']: version = a elif o in ['-X']: scons_exec = 1 elif o in ['-x', '--exec']: scons = a # --- setup stdout/stderr --- class Unbuffered(object): def __init__(self, file): self.file = file self.softspace = 0 ## backward compatibility; not supported in Py3k def write(self, arg): self.file.write(arg) self.file.flush() def __getattr__(self, attr): return getattr(self.file, attr) sys.stdout = Unbuffered(sys.stdout) sys.stderr = Unbuffered(sys.stderr) if options.output: logfile = open(options.output, 'w') class Tee(object): def __init__(self, openfile, stream): self.file = openfile self.stream = stream def write(self, data): self.file.write(data) self.stream.write(data) sys.stdout = Tee(logfile, sys.stdout) sys.stderr = Tee(logfile, sys.stderr) # --- define helpers ---- if sys.platform in ('win32', 'cygwin'): def whereis(file): pathext = [''] + os.environ['PATHEXT'].split(os.pathsep) for dir in os.environ['PATH'].split(os.pathsep): f = os.path.join(dir, file) for ext in pathext: fext = f + ext if os.path.isfile(fext): return fext return None else: def whereis(file): for dir in os.environ['PATH'].split(os.pathsep): 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]) & 0o111: return f return None sp.append(builddir) sp.append(cwd) # _ws = re.compile('\s') def escape(s): if _ws.search(s): s = '"' + s + '"' s = s.replace('\\', '\\\\') return s if not suppress_stdout and not suppress_stderr: # Without any output suppressed, we let the subprocess # write its stuff freely to stdout/stderr. def spawn_it(command_args): p = subprocess.Popen(' '.join(command_args), shell=True) return (None, None, p.wait()) else: # Else, we catch the output of both pipes... if allow_pipe_files: # The subprocess.Popen() suffers from a well-known # problem. Data for stdout/stderr is read into a # memory buffer of fixed size, 65K which is not very much. # When it fills up, it simply stops letting the child process # write to it. The child will then sit and patiently wait to # be able to write the rest of its output. Hang! # In order to work around this, we follow a suggestion # by Anders Pearson in # http://http://thraxil.org/users/anders/posts/2008/03/13/Subprocess-Hanging-PIPE-is-your-enemy/ # and pass temp file objects to Popen() instead of the ubiquitous # subprocess.PIPE. def spawn_it(command_args): # Create temporary files import tempfile tmp_stdout = tempfile.TemporaryFile(mode='w+t') tmp_stderr = tempfile.TemporaryFile(mode='w+t') # Start subprocess... p = subprocess.Popen(' '.join(command_args), stdout=tmp_stdout, stderr=tmp_stderr, shell=True) # ... and wait for it to finish. ret = p.wait() try: # Rewind to start of files tmp_stdout.seek(0) tmp_stderr.seek(0) # Read output spawned_stdout = tmp_stdout.read() spawned_stderr = tmp_stderr.read() finally: # Remove temp files by closing them tmp_stdout.close() tmp_stderr.close() # Return values return (spawned_stderr, spawned_stdout, ret) else: # We get here only if the user gave the '--nopipefiles' # option, meaning the "temp file" approach for # subprocess.communicate() above shouldn't be used. # He hopefully knows what he's doing, but again we have a # potential deadlock situation in the following code: # If the subprocess writes a lot of data to its stderr, # the pipe will fill up (nobody's reading it yet) and the # subprocess will wait for someone to read it. # But the parent process is trying to read from stdin # (but the subprocess isn't writing anything there). # Hence a deadlock. # Be dragons here! Better don't use this! def spawn_it(command_args): p = subprocess.Popen(' '.join(command_args), stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=True) spawned_stdout = p.stdout.read() spawned_stderr = p.stderr.read() return (spawned_stderr, spawned_stdout, p.wait()) class Base(object): def __init__(self, path, spe=None): self.path = path self.abspath = os.path.abspath(path) if spe: for dir in spe: f = os.path.join(dir, path) if os.path.isfile(f): self.abspath = f break self.status = None class SystemExecutor(Base): def execute(self): self.stderr, self.stdout, s = spawn_it(self.command_args) self.status = s if s < 0 or s > 2: sys.stdout.write("Unexpected exit status %d\n" % s) class PopenExecutor(Base): # For an explanation of the following 'if ... else' # and the 'allow_pipe_files' option, please check out the # definition of spawn_it() above. if allow_pipe_files: def execute(self): # Create temporary files import tempfile tmp_stdout = tempfile.TemporaryFile(mode='w+t') tmp_stderr = tempfile.TemporaryFile(mode='w+t') # Start subprocess... p = subprocess.Popen(self.command_str, stdout=tmp_stdout, stderr=tmp_stderr, shell=True) # ... and wait for it to finish. self.status = p.wait() try: # Rewind to start of files tmp_stdout.seek(0) tmp_stderr.seek(0) # Read output self.stdout = tmp_stdout.read() self.stderr = tmp_stderr.read() finally: # Remove temp files by closing them tmp_stdout.close() tmp_stderr.close() else: def execute(self): p = subprocess.Popen(self.command_str, stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=True) self.stdout = p.stdout.read() self.stderr = p.stderr.read() self.status = p.wait() class XML(PopenExecutor): def header(self, f): f.write(' \n') def write(self, f): f.write(' \n') f.write(' %s\n' % self.path) f.write(' %s\n' % self.command_str) f.write(' %s\n' % self.status) f.write(' %s\n' % self.stdout) f.write(' %s\n' % self.stderr) f.write(' \n' % self.test_time) f.write(' \n') def footer(self, f): f.write(' \n' % self.total_time) f.write(' \n') if options.xml: Test = XML else: Test = SystemExecutor # --- start processing --- if package: dir = { 'deb' : 'usr', 'local-tar-gz' : None, 'local-zip' : None, 'rpm' : 'usr', 'src-tar-gz' : '', 'src-zip' : '', 'tar-gz' : '', 'zip' : '', } # The hard-coded "python2.1" here is the library directory # name on Debian systems, not an executable, so it's all right. lib = { 'deb' : os.path.join('python2.1', 'site-packages') } if package not in dir: sys.stderr.write("Unknown package '%s'\n" % package) sys.exit(2) test_dir = os.path.join(builddir, 'test-%s' % package) if dir[package] is None: scons_script_dir = test_dir globs = glob.glob(os.path.join(test_dir, 'scons-local-*')) if not globs: sys.stderr.write("No `scons-local-*' dir in `%s'\n" % test_dir) sys.exit(2) scons_lib_dir = None pythonpath_dir = globs[len(globs)-1] elif sys.platform == 'win32': scons_script_dir = os.path.join(test_dir, dir[package], 'Scripts') scons_lib_dir = os.path.join(test_dir, dir[package]) pythonpath_dir = scons_lib_dir else: scons_script_dir = os.path.join(test_dir, dir[package], 'bin') l = lib.get(package, 'scons') scons_lib_dir = os.path.join(test_dir, dir[package], 'lib', l) pythonpath_dir = scons_lib_dir scons_runtest_dir = builddir else: sd = None ld = None if not baseline or baseline == '.': base = cwd elif baseline == '-': url = None svn_info = os.popen("svn info 2>&1", "r").read() match = re.search('URL: (.*)', svn_info) if match: url = match.group(1) if not url: sys.stderr.write('runtest.py: could not find a URL:\n') sys.stderr.write(svn_info) sys.exit(1) import tempfile base = tempfile.mkdtemp(prefix='runtest-tmp-') command = 'cd %s && svn co -q %s' % (base, url) base = os.path.join(base, os.path.split(url)[1]) if printcommand: print(command) if execute_tests: os.system(command) else: base = baseline scons_runtest_dir = base if not external: scons_script_dir = sd or os.path.join(base, 'src', 'script') scons_lib_dir = ld or os.path.join(base, 'src', 'engine') else: scons_script_dir = sd or '' scons_lib_dir = ld or '' pythonpath_dir = scons_lib_dir if scons: # Let the version of SCons that the -x option pointed to find # its own modules. os.environ['SCONS'] = scons elif scons_lib_dir: # Because SCons is really aggressive about finding its modules, # it sometimes finds SCons modules elsewhere on the system. # This forces SCons to use the modules that are being tested. os.environ['SCONS_LIB_DIR'] = scons_lib_dir if scons_exec: os.environ['SCONS_EXEC'] = '1' if external: os.environ['SCONS_EXTERNAL_TEST'] = '1' os.environ['SCONS_RUNTEST_DIR'] = scons_runtest_dir os.environ['SCONS_SCRIPT_DIR'] = scons_script_dir os.environ['SCONS_CWD'] = cwd os.environ['SCONS_VERSION'] = version old_pythonpath = os.environ.get('PYTHONPATH') # FIXME: the following is necessary to pull in half of the testing # harness from $srcdir/etc. Those modules should be transfered # to testing/, in which case this manipulation of PYTHONPATH # should be able to go away. pythonpaths = [ pythonpath_dir ] # Add path of the QMTest folder to PYTHONPATH # [ ] move used parts from QMTest to testing/framework/ scriptpath = os.path.dirname(os.path.realpath(__file__)) pythonpaths.append(os.path.join(scriptpath, 'QMTest')) # Add path for testing framework to PYTHONPATH pythonpaths.append(os.path.join(scriptpath, 'testing', 'framework')) os.environ['PYTHONPATH'] = os.pathsep.join(pythonpaths) if old_pythonpath: os.environ['PYTHONPATH'] = os.environ['PYTHONPATH'] + \ os.pathsep + \ old_pythonpath # ---[ test discovery ]------------------------------------ tests = [] unittests = [] endtests = [] def find_Tests_py(directory): """ Look for unit tests """ result = [] for dirpath, dirnames, filenames in os.walk(directory): # Skip folders containing a sconstest.skip file if 'sconstest.skip' in filenames: continue for fname in filenames: if fname.endswith("Tests.py"): result.append(os.path.join(dirpath, fname)) return sorted(result) def find_py(directory): """ Look for end-to-end tests """ result = [] for dirpath, dirnames, filenames in os.walk(directory): # Skip folders containing a sconstest.skip file if 'sconstest.skip' in filenames: continue try: exclude_fp = open(os.path.join(dirpath, ".exclude_tests")) except EnvironmentError: excludes = [] else: excludes = [ e.split('#', 1)[0].strip() for e in exclude_fp.readlines() ] for fname in filenames: if fname.endswith(".py") and fname not in excludes: result.append(os.path.join(dirpath, fname)) return sorted(result) if testlistfile: tests = open(testlistfile, 'r').readlines() tests = [x for x in tests if x[0] != '#'] tests = [x[:-1] for x in tests] tests = [x.strip() for x in tests] else: testpaths = [] # Each test path specifies a test file, or a directory to search for # SCons tests. SCons code layout assumes that any file under the 'src' # subdirectory that ends with 'Tests.py' is a unit test, and Python # script (*.py) under the 'test' subdirectory an end-to-end test. # # Note that there are some tests under 'src' that *begin* with # 'test_', but they're packaging and installation tests, not # functional tests, so we don't execute them by default. (They can # still be executed by hand, though, and are routinely executed # by the Aegis packaging build to make sure that we're building # things correctly.) if options.all: testpaths = ['src', 'test'] elif args: testpaths = args for tp in testpaths: # Clean up path so it can match startswith's below # sys.stderr.write("Changed:%s->"%tp) # remove leading ./ or .\ if tp[0] == '.' and tp[1] in (os.sep, os.altsep): tp = tp[2:] # tp = os.path.normpath(tp) # sys.stderr.write('->%s<-'%tp) # sys.stderr.write("to:%s\n"%tp) for path in glob.glob(tp): if os.path.isdir(path): if path.startswith('src'): for p in find_Tests_py(path): unittests.append(p) elif path.startswith('test'): for p in find_py(path): endtests.append(p) else: if path.endswith("Tests.py"): unittests.append(path) else: endtests.append(path) tests.extend(unittests) tests.extend(endtests) tests.sort() if not tests: sys.stderr.write(usagestr + """ runtest.py: No tests were found. Tests can be specified on the command line, read from file with -f option, or discovered with -a to run all tests. """) sys.exit(1) # ---[ test processing ]----------------------------------- tests = [Test(t) for t in tests] if list_only: for t in tests: sys.stdout.write(t.path + "\n") sys.exit(0) if not python: if os.name == 'java': python = os.path.join(sys.prefix, 'jython') else: python = sys.executable os.environ["python_executable"] = python # time.clock() is the suggested interface for doing benchmarking timings, # but time.time() does a better job on Linux systems, so let that be # the non-Windows default. if sys.platform == 'win32': time_func = time.clock else: time_func = time.time if print_times: print_time_func = lambda fmt, time: sys.stdout.write(fmt % time) else: print_time_func = lambda fmt, time: None total_start_time = time_func() total_num_tests = len(tests) tests_completed = 0 tests_passing = 0 tests_failing = 0 def run_test(t, io_lock, async=True): global tests_completed, tests_passing, tests_failing header = "" command_args = ['-tt'] if debug: command_args.append(debug) command_args.append(t.path) if options.runner and t.path in unittests: # For example --runner TestUnit.TAPTestRunner command_args.append('--runner ' + options.runner) t.command_args = [python] + command_args t.command_str = " ".join([escape(python)] + command_args) if printcommand: if print_progress: tests_completed += 1 n = tests_completed # approx indicator of where we are header += ("%d/%d (%.2f%s) %s\n" % (n, total_num_tests, float(n)*100.0/float(total_num_tests), '%', t.command_str)) else: header += t.command_str + "\n" if not suppress_stdout and not suppress_stderr: sys.stdout.write(header) head, tail = os.path.split(t.abspath) fixture_dirs = [] if head: fixture_dirs.append(head) fixture_dirs.append(os.path.join(scriptpath, 'test', 'fixture')) os.environ['FIXTURE_DIRS'] = ':'.join(fixture_dirs) test_start_time = time_func() if execute_tests: t.execute() if t.status == 0: tests_passing += 1 else: tests_failing += 1 t.test_time = time_func() - test_start_time if io_lock: io_lock.acquire() if suppress_stdout or suppress_stderr: sys.stdout.write(header) if not suppress_stdout and t.stdout: print(t.stdout) if not suppress_stderr and t.stderr: print(t.stderr) print_time_func("Test execution time: %.1f seconds\n", t.test_time) if io_lock: io_lock.release() if quit_on_failure and t.status == 1: print("Exiting due to error") print(t.status) sys.exit(1) class RunTest(threading.Thread): def __init__(self, queue, io_lock): threading.Thread.__init__(self) self.queue = queue self.io_lock = io_lock def run(self): while True: t = self.queue.get() run_test(t, io_lock, True) self.queue.task_done() if jobs > 1 and threading_ok: print("Running tests using %d jobs"%jobs) # Start worker threads queue = Queue() io_lock = threading.Lock() for i in range(1, jobs): t = RunTest(queue, io_lock) t.daemon = True t.start() # Give tasks to workers for t in tests: queue.put(t) queue.join() else: # Run tests serially if jobs > 1: print("Ignoring -j%d option; no python threading module available."%jobs) for t in tests: run_test(t, None, False) # --- all tests are complete by the time we get here --- if len(tests) > 0: tests[0].total_time = time_func() - total_start_time print_time_func("Total execution time for all tests: %.1f seconds\n", tests[0].total_time) passed = [t for t in tests if t.status == 0] fail = [t for t in tests if t.status == 1] no_result = [t for t in tests if t.status == 2] if len(tests) != 1 and execute_tests: if passed and print_passed_summary: if len(passed) == 1: sys.stdout.write("\nPassed the following test:\n") else: sys.stdout.write("\nPassed the following %d tests:\n" % len(passed)) paths = [x.path for x in passed] sys.stdout.write("\t" + "\n\t".join(paths) + "\n") if fail: if len(fail) == 1: sys.stdout.write("\nFailed the following test:\n") else: sys.stdout.write("\nFailed the following %d tests:\n" % len(fail)) paths = [x.path for x in fail] sys.stdout.write("\t" + "\n\t".join(paths) + "\n") if no_result: if len(no_result) == 1: sys.stdout.write("\nNO RESULT from the following test:\n") else: sys.stdout.write("\nNO RESULT from the following %d tests:\n" % len(no_result)) paths = [x.path for x in no_result] sys.stdout.write("\t" + "\n\t".join(paths) + "\n") if options.xml: if options.xml == '-': f = sys.stdout else: f = open(options.xml, 'w') tests[0].header(f) #f.write("test_result = [\n") for t in tests: t.write(f) tests[0].footer(f) #f.write("];\n") if options.xml != '-': f.close() if len(fail): sys.exit(1) elif len(no_result): sys.exit(2) else: sys.exit(0) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: