[llvm-readobj] - Implement LLVM-style dumping for .stack_sizes sections.
[llvm-complete.git] / utils / abtest.py
blob69a86f6482d13af2f19ad6c503ab72d3f1d532fc
1 #!/usr/bin/env python
3 # Given a previous good compile narrow down miscompiles.
4 # Expects two directories named "before" and "after" each containing a set of
5 # assembly or object files where the "after" version is assumed to be broken.
6 # You also have to provide a script called "link_test". It is called with a
7 # list of files which should be linked together and result tested. "link_test"
8 # should returns with exitcode 0 if the linking and testing succeeded.
10 # abtest.py operates by taking all files from the "before" directory and
11 # in each step replacing one of them with a file from the "bad" directory.
13 # Additionally you can perform the same steps with a single .s file. In this
14 # mode functions are identified by " -- Begin function FunctionName" and
15 # " -- End function" markers. The abtest.py then takes all
16 # function from the file in the "before" directory and replaces one function
17 # with the corresponding function from the "bad" file in each step.
19 # Example usage to identify miscompiled files:
20 # 1. Create a link_test script, make it executable. Simple Example:
21 # clang "$@" -o /tmp/test && /tmp/test || echo "PROBLEM"
22 # 2. Run the script to figure out which files are miscompiled:
23 # > ./abtest.py
24 # somefile.s: ok
25 # someotherfile.s: skipped: same content
26 # anotherfile.s: failed: './link_test' exitcode != 0
27 # ...
28 # Example usage to identify miscompiled functions inside a file:
29 # 3. Run the tests on a single file (assuming before/file.s and
30 # after/file.s exist)
31 # > ./abtest.py file.s
32 # funcname1 [0/XX]: ok
33 # funcname2 [1/XX]: ok
34 # funcname3 [2/XX]: skipped: same content
35 # funcname4 [3/XX]: failed: './link_test' exitcode != 0
36 # ...
37 from fnmatch import filter
38 from sys import stderr
39 import argparse
40 import filecmp
41 import os
42 import subprocess
43 import sys
46 LINKTEST = "./link_test"
47 ESCAPE = "\033[%sm"
48 BOLD = ESCAPE % "1"
49 RED = ESCAPE % "31"
50 NORMAL = ESCAPE % "0"
51 FAILED = RED + "failed" + NORMAL
54 def find(dir, file_filter=None):
55 files = [
56 walkdir[0]+"/"+file
57 for walkdir in os.walk(dir)
58 for file in walkdir[2]
60 if file_filter is not None:
61 files = filter(files, file_filter)
62 return sorted(files)
65 def error(message):
66 stderr.write("Error: %s\n" % (message,))
69 def warn(message):
70 stderr.write("Warning: %s\n" % (message,))
73 def info(message):
74 stderr.write("Info: %s\n" % (message,))
77 def announce_test(name):
78 stderr.write("%s%s%s: " % (BOLD, name, NORMAL))
79 stderr.flush()
82 def announce_result(result):
83 stderr.write(result)
84 stderr.write("\n")
85 stderr.flush()
88 def format_namelist(l):
89 result = ", ".join(l[0:3])
90 if len(l) > 3:
91 result += "... (%d total)" % len(l)
92 return result
95 def check_sanity(choices, perform_test):
96 announce_test("sanity check A")
97 all_a = {name: a_b[0] for name, a_b in choices}
98 res_a = perform_test(all_a)
99 if res_a is not True:
100 error("Picking all choices from A failed to pass the test")
101 sys.exit(1)
103 announce_test("sanity check B (expecting failure)")
104 all_b = {name: a_b[1] for name, a_b in choices}
105 res_b = perform_test(all_b)
106 if res_b is not False:
107 error("Picking all choices from B did unexpectedly pass the test")
108 sys.exit(1)
111 def check_sequentially(choices, perform_test):
112 known_good = set()
113 all_a = {name: a_b[0] for name, a_b in choices}
114 n = 1
115 for name, a_b in sorted(choices):
116 picks = dict(all_a)
117 picks[name] = a_b[1]
118 announce_test("checking %s [%d/%d]" % (name, n, len(choices)))
119 n += 1
120 res = perform_test(picks)
121 if res is True:
122 known_good.add(name)
123 return known_good
126 def check_bisect(choices, perform_test):
127 known_good = set()
128 if len(choices) == 0:
129 return known_good
131 choice_map = dict(choices)
132 all_a = {name: a_b[0] for name, a_b in choices}
134 def test_partition(partition, upcoming_partition):
135 # Compute the maximum number of checks we have to do in the worst case.
136 max_remaining_steps = len(partition) * 2 - 1
137 if upcoming_partition is not None:
138 max_remaining_steps += len(upcoming_partition) * 2 - 1
139 for x in partitions_to_split:
140 max_remaining_steps += (len(x) - 1) * 2
142 picks = dict(all_a)
143 for x in partition:
144 picks[x] = choice_map[x][1]
145 announce_test("checking %s [<=%d remaining]" %
146 (format_namelist(partition), max_remaining_steps))
147 res = perform_test(picks)
148 if res is True:
149 known_good.update(partition)
150 elif len(partition) > 1:
151 partitions_to_split.insert(0, partition)
153 # TODO:
154 # - We could optimize based on the knowledge that when splitting a failed
155 # partition into two and one side checks out okay then we can deduce that
156 # the other partition must be a failure.
157 all_choice_names = [name for name, _ in choices]
158 partitions_to_split = [all_choice_names]
159 while len(partitions_to_split) > 0:
160 partition = partitions_to_split.pop()
162 middle = len(partition) // 2
163 left = partition[0:middle]
164 right = partition[middle:]
166 if len(left) > 0:
167 test_partition(left, right)
168 assert len(right) > 0
169 test_partition(right, None)
171 return known_good
174 def extract_functions(file):
175 functions = []
176 in_function = None
177 for line in open(file):
178 marker = line.find(" -- Begin function ")
179 if marker != -1:
180 if in_function is not None:
181 warn("Missing end of function %s" % (in_function,))
182 funcname = line[marker + 19:-1]
183 in_function = funcname
184 text = line
185 continue
187 marker = line.find(" -- End function")
188 if marker != -1:
189 text += line
190 functions.append((in_function, text))
191 in_function = None
192 continue
194 if in_function is not None:
195 text += line
196 return functions
199 def replace_functions(source, dest, replacements):
200 out = open(dest, "w")
201 skip = False
202 in_function = None
203 for line in open(source):
204 marker = line.find(" -- Begin function ")
205 if marker != -1:
206 if in_function is not None:
207 warn("Missing end of function %s" % (in_function,))
208 funcname = line[marker + 19:-1]
209 in_function = funcname
210 replacement = replacements.get(in_function)
211 if replacement is not None:
212 out.write(replacement)
213 skip = True
214 else:
215 marker = line.find(" -- End function")
216 if marker != -1:
217 in_function = None
218 if skip:
219 skip = False
220 continue
222 if not skip:
223 out.write(line)
226 def testrun(files):
227 linkline = "%s %s" % (LINKTEST, " ".join(files),)
228 res = subprocess.call(linkline, shell=True)
229 if res != 0:
230 announce_result(FAILED + ": '%s' exitcode != 0" % LINKTEST)
231 return False
232 else:
233 announce_result("ok")
234 return True
237 def prepare_files(gooddir, baddir):
238 files_a = find(gooddir, "*")
239 files_b = find(baddir, "*")
241 basenames_a = set(map(os.path.basename, files_a))
242 basenames_b = set(map(os.path.basename, files_b))
244 for name in files_b:
245 basename = os.path.basename(name)
246 if basename not in basenames_a:
247 warn("There is no corresponding file to '%s' in %s" %
248 (name, gooddir))
249 choices = []
250 skipped = []
251 for name in files_a:
252 basename = os.path.basename(name)
253 if basename not in basenames_b:
254 warn("There is no corresponding file to '%s' in %s" %
255 (name, baddir))
257 file_a = gooddir + "/" + basename
258 file_b = baddir + "/" + basename
259 if filecmp.cmp(file_a, file_b):
260 skipped.append(basename)
261 continue
263 choice = (basename, (file_a, file_b))
264 choices.append(choice)
266 if len(skipped) > 0:
267 info("Skipped (same content): %s" % format_namelist(skipped))
269 def perform_test(picks):
270 files = []
271 # Note that we iterate over files_a so we don't change the order
272 # (cannot use `picks` as it is a dictionary without order)
273 for x in files_a:
274 basename = os.path.basename(x)
275 picked = picks.get(basename)
276 if picked is None:
277 assert basename in skipped
278 files.append(x)
279 else:
280 files.append(picked)
281 return testrun(files)
283 return perform_test, choices
286 def prepare_functions(to_check, gooddir, goodfile, badfile):
287 files_good = find(gooddir, "*")
289 functions_a = extract_functions(goodfile)
290 functions_a_map = dict(functions_a)
291 functions_b_map = dict(extract_functions(badfile))
293 for name in functions_b_map.keys():
294 if name not in functions_a_map:
295 warn("Function '%s' missing from good file" % name)
296 choices = []
297 skipped = []
298 for name, candidate_a in functions_a:
299 candidate_b = functions_b_map.get(name)
300 if candidate_b is None:
301 warn("Function '%s' missing from bad file" % name)
302 continue
303 if candidate_a == candidate_b:
304 skipped.append(name)
305 continue
306 choice = name, (candidate_a, candidate_b)
307 choices.append(choice)
309 if len(skipped) > 0:
310 info("Skipped (same content): %s" % format_namelist(skipped))
312 combined_file = '/tmp/combined2.s'
313 files = []
314 found_good_file = False
315 for c in files_good:
316 if os.path.basename(c) == to_check:
317 found_good_file = True
318 files.append(combined_file)
319 continue
320 files.append(c)
321 assert found_good_file
323 def perform_test(picks):
324 for name, x in picks.items():
325 assert x == functions_a_map[name] or x == functions_b_map[name]
326 replace_functions(goodfile, combined_file, picks)
327 return testrun(files)
328 return perform_test, choices
331 def main():
332 parser = argparse.ArgumentParser()
333 parser.add_argument('--a', dest='dir_a', default='before')
334 parser.add_argument('--b', dest='dir_b', default='after')
335 parser.add_argument('--insane', help='Skip sanity check',
336 action='store_true')
337 parser.add_argument('--seq',
338 help='Check sequentially instead of bisection',
339 action='store_true')
340 parser.add_argument('file', metavar='file', nargs='?')
341 config = parser.parse_args()
343 gooddir = config.dir_a
344 baddir = config.dir_b
346 # Preparation phase: Creates a dictionary mapping names to a list of two
347 # choices each. The bisection algorithm will pick one choice for each name
348 # and then run the perform_test function on it.
349 if config.file is not None:
350 goodfile = gooddir + "/" + config.file
351 badfile = baddir + "/" + config.file
352 perform_test, choices = prepare_functions(config.file, gooddir,
353 goodfile, badfile)
354 else:
355 perform_test, choices = prepare_files(gooddir, baddir)
357 info("%d bisection choices" % len(choices))
359 # "Checking whether build environment is sane ..."
360 if not config.insane:
361 if not os.access(LINKTEST, os.X_OK):
362 error("Expect '%s' to be present and executable" % (LINKTEST,))
363 exit(1)
365 check_sanity(choices, perform_test)
367 if config.seq:
368 known_good = check_sequentially(choices, perform_test)
369 else:
370 known_good = check_bisect(choices, perform_test)
372 stderr.write("")
373 if len(known_good) != len(choices):
374 stderr.write("== Failing ==\n")
375 for name, _ in choices:
376 if name not in known_good:
377 stderr.write("%s\n" % name)
378 else:
379 # This shouldn't happen when the sanity check works...
380 # Maybe link_test isn't deterministic?
381 stderr.write("Could not identify failing parts?!?")
384 if __name__ == '__main__':
385 main()