harfbuzz-ng roll
[chromium-blink-merge.git] / tools / nocompile_driver.py
blobca711278d77ca2a4cdf4c723d851702daf56b6d7
1 #!/usr/bin/env python
2 # Copyright (c) 2011 The Chromium Authors. All rights reserved.
3 # Use of this source code is governed by a BSD-style license that can be
4 # found in the LICENSE file.
6 """Implements a simple "negative compile" test for C++ on linux.
8 Sometimes a C++ API needs to ensure that various usages cannot compile. To
9 enable unittesting of these assertions, we use this python script to
10 invoke gcc on a source file and assert that compilation fails.
12 For more info, see:
13 http://dev.chromium.org/developers/testing/no-compile-tests
14 """
16 import ast
17 import locale
18 import os
19 import re
20 import select
21 import shlex
22 import subprocess
23 import sys
24 import time
27 # Matches lines that start with #if and have the substring TEST in the
28 # conditional. Also extracts the comment. This allows us to search for
29 # lines like the following:
31 # #ifdef NCTEST_NAME_OF_TEST // [r'expected output']
32 # #if defined(NCTEST_NAME_OF_TEST) // [r'expected output']
33 # #if NCTEST_NAME_OF_TEST // [r'expected output']
34 # #elif NCTEST_NAME_OF_TEST // [r'expected output']
35 # #elif DISABLED_NCTEST_NAME_OF_TEST // [r'expected output']
37 # inside the unittest file.
38 NCTEST_CONFIG_RE = re.compile(r'^#(?:el)?if.*\s+(\S*NCTEST\S*)\s*(//.*)?')
41 # Matches and removes the defined() preprocesor predicate. This is useful
42 # for test cases that use the preprocessor if-statement form:
44 # #if defined(NCTEST_NAME_OF_TEST)
46 # Should be used to post-process the results found by NCTEST_CONFIG_RE.
47 STRIP_DEFINED_RE = re.compile(r'defined\((.*)\)')
50 # Used to grab the expectation from comment at the end of an #ifdef. See
51 # NCTEST_CONFIG_RE's comment for examples of what the format should look like.
53 # The extracted substring should be a python array of regular expressions.
54 EXTRACT_EXPECTATION_RE = re.compile(r'//\s*(\[.*\])')
57 # The header for the result file so that it can be compiled.
58 RESULT_FILE_HEADER = """
59 // This file is generated by the no compile test from:
60 // %s
62 #include "base/logging.h"
63 #include "testing/gtest/include/gtest/gtest.h"
65 """
68 # The GUnit test function to output on a successful test completion.
69 SUCCESS_GUNIT_TEMPLATE = """
70 TEST(%s, %s) {
71 LOG(INFO) << "Took %f secs. Started at %f, ended at %f";
73 """
75 # The GUnit test function to output for a disabled test.
76 DISABLED_GUNIT_TEMPLATE = """
77 TEST(%s, %s) { }
78 """
81 # Timeout constants.
82 NCTEST_TERMINATE_TIMEOUT_SEC = 60
83 NCTEST_KILL_TIMEOUT_SEC = NCTEST_TERMINATE_TIMEOUT_SEC + 2
84 BUSY_LOOP_MAX_TIME_SEC = NCTEST_KILL_TIMEOUT_SEC * 2
87 def ValidateInput(parallelism, sourcefile_path, cflags, resultfile_path):
88 """Make sure the arguments being passed in are sane."""
89 assert parallelism >= 1
90 assert type(sourcefile_path) is str
91 assert type(cflags) is str
92 assert type(resultfile_path) is str
95 def ParseExpectation(expectation_string):
96 """Extracts expectation definition from the trailing comment on the ifdef.
98 See the comment on NCTEST_CONFIG_RE for examples of the format we are parsing.
100 Args:
101 expectation_string: A string like "// [r'some_regex']"
103 Returns:
104 A list of compiled regular expressions indicating all possible valid
105 compiler outputs. If the list is empty, all outputs are considered valid.
107 assert expectation_string is not None
109 match = EXTRACT_EXPECTATION_RE.match(expectation_string)
110 assert match
112 raw_expectation = ast.literal_eval(match.group(1))
113 assert type(raw_expectation) is list
115 expectation = []
116 for regex_str in raw_expectation:
117 assert type(regex_str) is str
118 expectation.append(re.compile(regex_str))
119 return expectation
122 def ExtractTestConfigs(sourcefile_path):
123 """Parses the soruce file for test configurations.
125 Each no-compile test in the file is separated by an ifdef macro. We scan
126 the source file with the NCTEST_CONFIG_RE to find all ifdefs that look like
127 they demark one no-compile test and try to extract the test configuration
128 from that.
130 Args:
131 sourcefile_path: The path to the source file.
133 Returns:
134 A list of test configurations. Each test configuration is a dictionary of
135 the form:
137 { name: 'NCTEST_NAME'
138 suite_name: 'SOURCE_FILE_NAME'
139 expectations: [re.Pattern, re.Pattern] }
141 The |suite_name| is used to generate a pretty gtest output on successful
142 completion of the no compile test.
144 The compiled regexps in |expectations| define the valid outputs of the
145 compiler. If any one of the listed patterns matches either the stderr or
146 stdout from the compilation, and the compilation failed, then the test is
147 considered to have succeeded. If the list is empty, than we ignore the
148 compiler output and just check for failed compilation. If |expectations|
149 is actually None, then this specifies a compiler sanity check test, which
150 should expect a SUCCESSFUL compilation.
152 sourcefile = open(sourcefile_path, 'r')
154 # Convert filename from underscores to CamelCase.
155 words = os.path.splitext(os.path.basename(sourcefile_path))[0].split('_')
156 words = [w.capitalize() for w in words]
157 suite_name = 'NoCompile' + ''.join(words)
159 # Start with at least the compiler sanity test. You need to always have one
160 # sanity test to show that compiler flags and configuration are not just
161 # wrong. Otherwise, having a misconfigured compiler, or an error in the
162 # shared portions of the .nc file would cause all tests to erroneously pass.
163 test_configs = [{'name': 'NCTEST_SANITY',
164 'suite_name': suite_name,
165 'expectations': None}]
167 for line in sourcefile:
168 match_result = NCTEST_CONFIG_RE.match(line)
169 if not match_result:
170 continue
172 groups = match_result.groups()
174 # Grab the name and remove the defined() predicate if there is one.
175 name = groups[0]
176 strip_result = STRIP_DEFINED_RE.match(name)
177 if strip_result:
178 name = strip_result.group(1)
180 # Read expectations if there are any.
181 test_configs.append({'name': name,
182 'suite_name': suite_name,
183 'expectations': ParseExpectation(groups[1])})
184 sourcefile.close()
185 return test_configs
188 def StartTest(sourcefile_path, cflags, config):
189 """Start one negative compile test.
191 Args:
192 sourcefile_path: The path to the source file.
193 cflags: A string with all the CFLAGS to give to gcc. This string will be
194 split by shelex so be careful with escaping.
195 config: A dictionary describing the test. See ExtractTestConfigs
196 for a description of the config format.
198 Returns:
199 A dictionary containing all the information about the started test. The
200 fields in the dictionary are as follows:
201 { 'proc': A subprocess object representing the compiler run.
202 'cmdline': The exectued command line.
203 'name': The name of the test.
204 'suite_name': The suite name to use when generating the gunit test
205 result.
206 'terminate_timeout': The timestamp in seconds since the epoch after
207 which the test should be terminated.
208 'kill_timeout': The timestamp in seconds since the epoch after which
209 the test should be given a hard kill signal.
210 'started_at': A timestamp in seconds since the epoch for when this test
211 was started.
212 'aborted_at': A timestamp in seconds since the epoch for when this test
213 was aborted. If the test completed successfully,
214 this value is 0.
215 'finished_at': A timestamp in seconds since the epoch for when this
216 test was successfully complete. If the test is aborted,
217 or running, this value is 0.
218 'expectations': A dictionary with the test expectations. See
219 ParseExpectation() for the structure.
222 # TODO(ajwong): Get the compiler from gyp.
223 cmdline = ['g++']
224 cmdline.extend(shlex.split(cflags))
225 name = config['name']
226 expectations = config['expectations']
227 if expectations is not None:
228 cmdline.append('-D%s' % name)
229 cmdline.extend(['-o', '/dev/null', '-c', '-x', 'c++', sourcefile_path])
231 process = subprocess.Popen(cmdline, stdout=subprocess.PIPE,
232 stderr=subprocess.PIPE)
233 now = time.time()
234 return {'proc': process,
235 'cmdline': ' '.join(cmdline),
236 'name': name,
237 'suite_name': config['suite_name'],
238 'terminate_timeout': now + NCTEST_TERMINATE_TIMEOUT_SEC,
239 'kill_timeout': now + NCTEST_KILL_TIMEOUT_SEC,
240 'started_at': now,
241 'aborted_at': 0,
242 'finished_at': 0,
243 'expectations': expectations}
246 def PassTest(resultfile, test):
247 """Logs the result of a test started by StartTest(), or a disabled test
248 configuration.
250 Args:
251 resultfile: File object for .cc file that results are written to.
252 test: An instance of the dictionary returned by StartTest(), a
253 configuration from ExtractTestConfigs().
255 # The 'started_at' key is only added if a test has been started.
256 if 'started_at' in test:
257 resultfile.write(SUCCESS_GUNIT_TEMPLATE % (
258 test['suite_name'], test['name'],
259 test['finished_at'] - test['started_at'],
260 test['started_at'], test['finished_at']))
261 else:
262 resultfile.write(DISABLED_GUNIT_TEMPLATE % (
263 test['suite_name'], test['name']))
266 def FailTest(resultfile, test, error, stdout=None, stderr=None):
267 """Logs the result of a test started by StartTest()
269 Args:
270 resultfile: File object for .cc file that results are written to.
271 test: An instance of the dictionary returned by StartTest()
272 error: The printable reason for the failure.
273 stdout: The test's output to stdout.
274 stderr: The test's output to stderr.
276 resultfile.write('#error %s Failed: %s\n' % (test['name'], error))
277 resultfile.write('#error compile line: %s\n' % test['cmdline'])
278 if stdout and len(stdout) != 0:
279 resultfile.write('#error %s stdout:\n' % test['name'])
280 for line in stdout.split('\n'):
281 resultfile.write('#error %s\n' % line)
283 if stderr and len(stderr) != 0:
284 resultfile.write('#error %s stderr:\n' % test['name'])
285 for line in stderr.split('\n'):
286 resultfile.write('#error %s\n' % line)
287 resultfile.write('\n')
290 def WriteStats(resultfile, suite_name, timings):
291 """Logs the peformance timings for each stage of the script into a fake test.
293 Args:
294 resultfile: File object for .cc file that results are written to.
295 suite_name: The name of the GUnit suite this test belongs to.
296 timings: Dictionary with timestamps for each stage of the script run.
298 stats_template = ("Started %f, Ended %f, Total %fs, Extract %fs, "
299 "Compile %fs, Process %fs")
300 total_secs = timings['results_processed'] - timings['started']
301 extract_secs = timings['extract_done'] - timings['started']
302 compile_secs = timings['compile_done'] - timings['extract_done']
303 process_secs = timings['results_processed'] - timings['compile_done']
304 resultfile.write('TEST(%s, Stats) { LOG(INFO) << "%s"; }\n' % (
305 suite_name, stats_template % (
306 timings['started'], timings['results_processed'], total_secs,
307 extract_secs, compile_secs, process_secs)))
310 def ProcessTestResult(resultfile, test):
311 """Interprets and logs the result of a test started by StartTest()
313 Args:
314 resultfile: File object for .cc file that results are written to.
315 test: The dictionary from StartTest() to process.
317 # Snap a copy of stdout and stderr into the test dictionary immediately
318 # cause we can only call this once on the Popen object, and lots of stuff
319 # below will want access to it.
320 proc = test['proc']
321 (stdout, stderr) = proc.communicate()
323 if test['aborted_at'] != 0:
324 FailTest(resultfile, test, "Compile timed out. Started %f ended %f." %
325 (test['started_at'], test['aborted_at']))
326 return
328 if test['expectations'] is None:
329 # This signals a compiler sanity check test. Fail iff compilation failed.
330 if proc.poll() == 0:
331 PassTest(resultfile, test)
332 return
333 else:
334 FailTest(resultfile, test, 'Sanity compile failed. Is compiler borked?',
335 stdout, stderr)
336 return
337 elif proc.poll() == 0:
338 # Handle failure due to successful compile.
339 FailTest(resultfile, test,
340 'Unexpected successful compilation.',
341 stdout, stderr)
342 return
343 else:
344 # Check the output has the right expectations. If there are no
345 # expectations, then we just consider the output "matched" by default.
346 if len(test['expectations']) == 0:
347 PassTest(resultfile, test)
348 return
350 # Otherwise test against all expectations.
351 for regexp in test['expectations']:
352 if (regexp.search(stdout) is not None or
353 regexp.search(stderr) is not None):
354 PassTest(resultfile, test)
355 return
356 expectation_str = ', '.join(
357 ["r'%s'" % regexp.pattern for regexp in test['expectations']])
358 FailTest(resultfile, test,
359 'Expectations [%s] did not match output.' % expectation_str,
360 stdout, stderr)
361 return
364 def CompleteAtLeastOneTest(resultfile, executing_tests):
365 """Blocks until at least one task is removed from executing_tests.
367 This function removes completed tests from executing_tests, logging failures
368 and output. If no tests can be removed, it will enter a poll-loop until one
369 test finishes or times out. On a timeout, this function is responsible for
370 terminating the process in the appropriate fashion.
372 Args:
373 executing_tests: A dict mapping a string containing the test name to the
374 test dict return from StartTest().
376 Returns:
377 A list of tests that have finished.
379 finished_tests = []
380 busy_loop_timeout = time.time() + BUSY_LOOP_MAX_TIME_SEC
381 while len(finished_tests) == 0:
382 # If we don't make progress for too long, assume the code is just dead.
383 assert busy_loop_timeout > time.time()
385 # Select on the output pipes.
386 read_set = []
387 for test in executing_tests.values():
388 read_set.extend([test['proc'].stderr, test['proc'].stdout])
389 result = select.select(read_set, [], read_set, NCTEST_TERMINATE_TIMEOUT_SEC)
391 # Now attempt to process results.
392 now = time.time()
393 for test in executing_tests.values():
394 proc = test['proc']
395 if proc.poll() is not None:
396 test['finished_at'] = now
397 finished_tests.append(test)
398 elif test['terminate_timeout'] < now:
399 proc.terminate()
400 test['aborted_at'] = now
401 elif test['kill_timeout'] < now:
402 proc.kill()
403 test['aborted_at'] = now
405 for test in finished_tests:
406 del executing_tests[test['name']]
407 return finished_tests
410 def main():
411 if len(sys.argv) != 5:
412 print ('Usage: %s <parallelism> <sourcefile> <cflags> <resultfile>' %
413 sys.argv[0])
414 sys.exit(1)
416 # Force us into the "C" locale so the compiler doesn't localize its output.
417 # In particular, this stops gcc from using smart quotes when in english UTF-8
418 # locales. This makes the expectation writing much easier.
419 os.environ['LC_ALL'] = 'C'
421 parallelism = int(sys.argv[1])
422 sourcefile_path = sys.argv[2]
423 cflags = sys.argv[3]
424 resultfile_path = sys.argv[4]
426 timings = {'started': time.time()}
428 ValidateInput(parallelism, sourcefile_path, cflags, resultfile_path)
430 test_configs = ExtractTestConfigs(sourcefile_path)
431 timings['extract_done'] = time.time()
433 resultfile = open(resultfile_path, 'w')
434 resultfile.write(RESULT_FILE_HEADER % sourcefile_path)
436 # Run the no-compile tests, but ensure we do not run more than |parallelism|
437 # tests at once.
438 timings['header_written'] = time.time()
439 executing_tests = {}
440 finished_tests = []
441 for config in test_configs:
442 # CompleteAtLeastOneTest blocks until at least one test finishes. Thus, this
443 # acts as a semaphore. We cannot use threads + a real semaphore because
444 # subprocess forks, which can cause all sorts of hilarity with threads.
445 if len(executing_tests) >= parallelism:
446 finished_tests.extend(CompleteAtLeastOneTest(resultfile, executing_tests))
448 if config['name'].startswith('DISABLED_'):
449 PassTest(resultfile, config)
450 else:
451 test = StartTest(sourcefile_path, cflags, config)
452 assert test['name'] not in executing_tests
453 executing_tests[test['name']] = test
455 # If there are no more test to start, we still need to drain the running
456 # ones.
457 while len(executing_tests) > 0:
458 finished_tests.extend(CompleteAtLeastOneTest(resultfile, executing_tests))
459 timings['compile_done'] = time.time()
461 for test in finished_tests:
462 ProcessTestResult(resultfile, test)
463 timings['results_processed'] = time.time()
465 # We always know at least a sanity test was run.
466 WriteStats(resultfile, finished_tests[0]['suite_name'], timings)
468 resultfile.close()
471 if __name__ == '__main__':
472 main()