Add ICU message format support
[chromium-blink-merge.git] / tools / mac / symbolicate_crash.py
blob731cc85f8dc7c32f84ad8c12988a58281d4bf0d5
1 #!/usr/bin/env python
2 # Copyright (c) 2012 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 """
7 This script can take an Apple-style CrashReporter log and symbolicate it. This
8 is useful for when a user's reports aren't being uploaded, for example.
10 Only versions 6, 7, 8, and 9 reports are supported. For more information on the
11 file format, reference this document:
12 TN2123 <http://developer.apple.com/library/mac/#technotes/tn2004/tn2123.html>
14 Information on symbolication was gleaned from:
15 <http://developer.apple.com/tools/xcode/symbolizingcrashdumps.html>
16 """
18 import optparse
19 import os.path
20 import re
21 import subprocess
22 import sys
24 # Maps binary image identifiers to binary names (minus the .dSYM portion) found
25 # in the archive. These are the only objects that will be looked up.
26 SYMBOL_IMAGE_MAP = {
27 'com.google.Chrome': 'Google Chrome.app',
28 'com.google.Chrome.framework': 'Google Chrome Framework.framework',
29 'com.google.Chrome.helper': 'Google Chrome Helper.app'
32 class CrashReport(object):
33 """A parsed representation of an Apple CrashReport text file."""
34 def __init__(self, file_name):
35 super(CrashReport, self).__init__()
36 self.report_info = {}
37 self.threads = []
38 self._binary_images = {}
40 fd = open(file_name, 'r')
41 self._ParseHeader(fd)
43 # Try and get the report version. If it's not a version we handle, abort.
44 self.report_version = int(self.report_info['Report Version'])
45 # Version 6: 10.5 and 10.6 crash report
46 # Version 7: 10.6 spindump report
47 # Version 8: 10.7 spindump report
48 # Version 9: 10.7 crash report
49 valid_versions = (6, 7, 8, 9)
50 if self.report_version not in valid_versions:
51 raise Exception("Only crash reports of versions %s are accepted." %
52 str(valid_versions))
54 # If this is a spindump (version 7 or 8 report), use a special parser. The
55 # format is undocumented, but is similar to version 6. However, the spindump
56 # report contains user and kernel stacks for every process on the system.
57 if self.report_version == 7 or self.report_version == 8:
58 self._ParseSpindumpStack(fd)
59 else:
60 self._ParseStack(fd)
62 self._ParseBinaryImages(fd)
63 fd.close()
65 def Symbolicate(self, symbol_path):
66 """Symbolicates a crash report stack trace."""
67 # In order to be efficient, collect all the offsets that will be passed to
68 # atos by the image name.
69 offsets_by_image = self._CollectAddressesForImages(SYMBOL_IMAGE_MAP.keys())
71 # For each image, run atos with the list of addresses.
72 for image_name, addresses in offsets_by_image.items():
73 # If this image was not loaded or is in no stacks, skip.
74 if image_name not in self._binary_images or not len(addresses):
75 continue
77 # Combine the |image_name| and |symbol_path| into the path of the dSYM.
78 dsym_file = self._GetDSymPath(symbol_path, image_name)
80 # From the list of 2-Tuples of (frame, address), create a list of just
81 # addresses.
82 address_list = map(lambda x: x[1], addresses)
84 # Look up the load address of the image.
85 binary_base = self._binary_images[image_name][0]
87 # This returns a list of just symbols. The indices will match up with the
88 # list of |addresses|.
89 symbol_names = self._RunAtos(binary_base, dsym_file, address_list)
90 if not symbol_names:
91 print 'Error loading symbols for ' + image_name
92 continue
94 # Attaches a list of symbol names to stack frames. This assumes that the
95 # order of |addresses| has stayed the same as |symbol_names|.
96 self._AddSymbolsToFrames(symbol_names, addresses)
98 def _ParseHeader(self, fd):
99 """Parses the header section of a crash report, which contains the OS and
100 application version information."""
101 # The header is made up of different sections, depending on the type of
102 # report and the report version. Almost all have a format of a key and
103 # value separated by a colon. Accumulate all of these artifacts into a
104 # dictionary until the first thread stack is reached.
105 thread_re = re.compile('^[ \t]*Thread ([a-f0-9]+)')
106 line = ''
107 while not thread_re.match(line):
108 # Skip blank lines. There are typically three or four sections separated
109 # by newlines in the header.
110 line = line.strip()
111 if line:
112 parts = line.split(':', 1)
113 # Certain lines in different report versions don't follow the key-value
114 # format, so skip them.
115 if len(parts) == 2:
116 # There's a varying amount of space padding after the ':' to align all
117 # the values; strip that.
118 self.report_info[parts[0]] = parts[1].lstrip()
119 line = fd.readline()
121 # When this loop exits, the header has been read in full. However, the first
122 # thread stack heading has been read past. Seek backwards from the current
123 # position by the length of the line so that it is re-read when
124 # _ParseStack() is entered.
125 fd.seek(-len(line), os.SEEK_CUR)
127 def _ParseStack(self, fd):
128 """Parses the stack dump of a crash report and creates a list of threads
129 and their stack traces."""
130 # Compile a regex that matches the start of a thread stack. Note that this
131 # must be specific to not include the thread state section, which comes
132 # right after all the stack traces.
133 line_re = re.compile('^Thread ([0-9]+)( Crashed)?:(.*)')
135 # On entry into this function, the fd has been walked up to the "Thread 0"
136 # line.
137 line = fd.readline().rstrip()
138 in_stack = False
139 thread = None
140 while line_re.match(line) or in_stack:
141 # Check for start of the thread stack.
142 matches = line_re.match(line)
144 if not line.strip():
145 # A blank line indicates a break in the thread stack.
146 in_stack = False
147 elif matches:
148 # If this is the start of a thread stack, create the CrashThread.
149 in_stack = True
150 thread = CrashThread(matches.group(1))
151 thread.name = matches.group(3)
152 thread.did_crash = matches.group(2) != None
153 self.threads.append(thread)
154 else:
155 # All other lines are stack frames.
156 thread.stack.append(self._ParseStackFrame(line))
157 # Read the next line.
158 line = fd.readline()
160 def _ParseStackFrame(self, line):
161 """Takes in a single line of text and transforms it into a StackFrame."""
162 frame = StackFrame(line)
164 # A stack frame is in the format of:
165 # |<frame-number> <binary-image> 0x<address> <symbol> <offset>|.
166 regex = '^([0-9]+) +(.+)[ \t]+(0x[0-9a-f]+) (.*) \+ ([0-9]+)$'
167 matches = re.match(regex, line)
168 if matches is None:
169 return frame
171 # Create a stack frame with the information extracted from the regex.
172 frame.frame_id = matches.group(1)
173 frame.image = matches.group(2)
174 frame.address = int(matches.group(3), 0) # Convert HEX to an int.
175 frame.original_symbol = matches.group(4)
176 frame.offset = matches.group(5)
177 frame.line = None
178 return frame
180 def _ParseSpindumpStack(self, fd):
181 """Parses a spindump stack report. In this format, each thread stack has
182 both a user and kernel trace. Only the user traces are symbolicated."""
184 # The stack trace begins with the thread header, which is identified by a
185 # HEX number. The thread names appear to be incorrect in spindumps.
186 user_thread_re = re.compile('^ Thread ([0-9a-fx]+)')
188 # When this method is called, the fd has been walked right up to the first
189 # line.
190 line = fd.readline()
191 in_user_stack = False
192 in_kernel_stack = False
193 thread = None
194 frame_id = 0
195 while user_thread_re.match(line) or in_user_stack or in_kernel_stack:
196 # Check for the start of a thread.
197 matches = user_thread_re.match(line)
199 if not line.strip():
200 # A blank line indicates the start of a new thread. The blank line comes
201 # after the kernel stack before a new thread header.
202 in_kernel_stack = False
203 elif matches:
204 # This is the start of a thread header. The next line is the heading for
205 # the user stack, followed by the actual trace.
206 thread = CrashThread(matches.group(1))
207 frame_id = 0
208 self.threads.append(thread)
209 in_user_stack = True
210 line = fd.readline() # Read past the 'User stack:' header.
211 elif line.startswith(' Kernel stack:'):
212 # The kernel stack header comes immediately after the last frame (really
213 # the top frame) in the user stack, without a blank line.
214 in_user_stack = False
215 in_kernel_stack = True
216 elif in_user_stack:
217 # If this is a line while in the user stack, parse it as a stack frame.
218 thread.stack.append(self._ParseSpindumpStackFrame(line))
219 # Loop with the next line.
220 line = fd.readline()
222 # When the loop exits, the file has been read through the 'Binary images:'
223 # header. Seek backwards so that _ParseBinaryImages() does the right thing.
224 fd.seek(-len(line), os.SEEK_CUR)
226 def _ParseSpindumpStackFrame(self, line):
227 """Parses a spindump-style stackframe."""
228 frame = StackFrame(line)
230 # The format of the frame is either:
231 # A: |<space><steps> <symbol> + <offset> (in <image-name>) [<address>]|
232 # B: |<space><steps> ??? (in <image-name> + <offset>) [<address>]|
233 regex_a = '^([ ]+[0-9]+) (.*) \+ ([0-9]+) \(in (.*)\) \[(0x[0-9a-f]+)\]'
234 regex_b = '^([ ]+[0-9]+) \?\?\?( \(in (.*) \+ ([0-9]+)\))? \[(0x[0-9a-f]+)\]'
236 # Create the stack frame with the information extracted from the regex.
237 matches = re.match(regex_a, line)
238 if matches:
239 frame.frame_id = matches.group(1)[4:] # Remove some leading spaces.
240 frame.original_symbol = matches.group(2)
241 frame.offset = matches.group(3)
242 frame.image = matches.group(4)
243 frame.address = int(matches.group(5), 0)
244 frame.line = None
245 return frame
247 # If pattern A didn't match (which it will most of the time), try B.
248 matches = re.match(regex_b, line)
249 if matches:
250 frame.frame_id = matches.group(1)[4:] # Remove some leading spaces.
251 frame.image = matches.group(3)
252 frame.offset = matches.group(4)
253 frame.address = int(matches.group(5), 0)
254 frame.line = None
255 return frame
257 # Otherwise, this frame could not be matched and just use the raw input.
258 frame.line = frame.line.strip()
259 return frame
261 def _ParseBinaryImages(self, fd):
262 """Parses out the binary images section in order to get the load offset."""
263 # The parser skips some sections, so advance until the "Binary Images"
264 # header is reached.
265 while not fd.readline().lstrip().startswith("Binary Images:"): pass
267 # Create a regex to match the lines of format:
268 # |0x<start> - 0x<end> <binary-image> <version> (<version>) <<UUID>> <path>|
269 image_re = re.compile(
270 '[ ]*(0x[0-9a-f]+) -[ \t]+(0x[0-9a-f]+) [+ ]([a-zA-Z0-9._\-]+)')
272 # This section is in this format:
273 # |<start address> - <end address> <image name>|.
274 while True:
275 line = fd.readline()
276 if not line.strip():
277 # End when a blank line is hit.
278 return
279 # Match the line to the regex.
280 match = image_re.match(line)
281 if match:
282 # Store the offsets by image name so it can be referenced during
283 # symbolication. These are hex numbers with leading '0x', so int() can
284 # convert them to decimal if base=0.
285 address_range = (int(match.group(1), 0), int(match.group(2), 0))
286 self._binary_images[match.group(3)] = address_range
288 def _CollectAddressesForImages(self, images):
289 """Iterates all the threads and stack frames and all the stack frames that
290 are in a list of binary |images|. The result is a dictionary, keyed by the
291 image name that maps to a list of tuples. Each is a 2-Tuple of
292 (stack_frame, address)"""
293 # Create the collection and initialize it with empty lists for each image.
294 collection = {}
295 for image in images:
296 collection[image] = []
298 # Perform the iteration.
299 for thread in self.threads:
300 for frame in thread.stack:
301 image_name = self._ImageForAddress(frame.address)
302 if image_name in images:
303 # Replace the image name in the frame in case it was elided.
304 frame.image = image_name
305 collection[frame.image].append((frame, frame.address))
307 # Return the result.
308 return collection
310 def _ImageForAddress(self, address):
311 """Given a PC address, returns the bundle identifier of the image in which
312 the address resides."""
313 for image_name, address_range in self._binary_images.items():
314 if address >= address_range[0] and address <= address_range[1]:
315 return image_name
316 return None
318 def _GetDSymPath(self, base_path, image_name):
319 """Takes a base path for the symbols and an image name. It looks the name up
320 in SYMBOL_IMAGE_MAP and creates a full path to the dSYM in the bundle."""
321 image_file = SYMBOL_IMAGE_MAP[image_name]
322 return os.path.join(base_path, image_file + '.dSYM', 'Contents',
323 'Resources', 'DWARF',
324 os.path.splitext(image_file)[0]) # Chop off the extension.
326 def _RunAtos(self, load_address, dsym_file, addresses):
327 """Runs the atos with the provided arguments. |addresses| is used as stdin.
328 Returns a list of symbol information in the same order as |addresses|."""
329 args = ['atos', '-l', str(load_address), '-o', dsym_file]
331 # Get the arch type. This is of the format |X86 (Native)|.
332 if 'Code Type' in self.report_info:
333 arch = self.report_info['Code Type'].lower().split(' ')
334 if len(arch) == 2:
335 arch = arch[0]
336 if arch == 'x86':
337 # The crash report refers to i386 as x86, but atos doesn't know what
338 # that is.
339 arch = 'i386'
340 args.extend(['-arch', arch])
342 proc = subprocess.Popen(args, stdin=subprocess.PIPE, stdout=subprocess.PIPE)
343 addresses = map(hex, addresses)
344 (stdout, stderr) = proc.communicate(' '.join(addresses))
345 if proc.returncode:
346 return None
347 return stdout.rstrip().split('\n')
349 def _AddSymbolsToFrames(self, symbols, address_tuples):
350 """Takes a single value (the list) from _CollectAddressesForImages and does
351 a smart-zip with the data returned by atos in |symbols|. Note that the
352 indices must match for this to succeed."""
353 if len(symbols) != len(address_tuples):
354 print 'symbols do not match'
356 # Each line of output from atos is in this format:
357 # |<symbol> (in <image>) (<file>:<line>)|.
358 line_regex = re.compile('(.+) \(in (.+)\) (\((.+):([0-9]+)\))?')
360 # Zip the two data sets together.
361 for i in range(len(symbols)):
362 symbol_parts = line_regex.match(symbols[i])
363 if not symbol_parts:
364 continue # Error.
365 frame = address_tuples[i][0]
366 frame.symbol = symbol_parts.group(1)
367 frame.image = symbol_parts.group(2)
368 frame.file_name = symbol_parts.group(4)
369 frame.line_number = symbol_parts.group(5)
372 class CrashThread(object):
373 """A CrashThread represents a stacktrace of a single thread """
374 def __init__(self, thread_id):
375 super(CrashThread, self).__init__()
376 self.thread_id = thread_id
377 self.name = None
378 self.did_crash = False
379 self.stack = []
381 def __repr__(self):
382 name = ''
383 if self.name:
384 name = ': ' + self.name
385 return 'Thread ' + self.thread_id + name + '\n' + \
386 '\n'.join(map(str, self.stack))
389 class StackFrame(object):
390 """A StackFrame is owned by a CrashThread."""
391 def __init__(self, line):
392 super(StackFrame, self).__init__()
393 # The original line. This will be set to None if symbolication was
394 # successfuly.
395 self.line = line
397 self.frame_id = 0
398 self.image = None
399 self.address = 0x0
400 self.original_symbol = None
401 self.offset = 0x0
402 # The following members are set after symbolication.
403 self.symbol = None
404 self.file_name = None
405 self.line_number = 0
407 def __repr__(self):
408 # If symbolication failed, just use the original line.
409 if self.line:
410 return ' %s' % self.line
412 # Use different location information depending on symbolicated data.
413 location = None
414 if self.file_name:
415 location = ' - %s:%s' % (self.file_name, self.line_number)
416 else:
417 location = ' + %s' % self.offset
419 # Same with the symbol information.
420 symbol = self.original_symbol
421 if self.symbol:
422 symbol = self.symbol
424 return ' %s\t0x%x\t[%s\t%s]\t%s' % (self.frame_id, self.address,
425 self.image, location, symbol)
428 def PrettyPrintReport(report):
429 """Takes a crash report and prints it like the crash server would."""
430 print 'Process : ' + report.report_info['Process']
431 print 'Version : ' + report.report_info['Version']
432 print 'Date : ' + report.report_info['Date/Time']
433 print 'OS Version : ' + report.report_info['OS Version']
434 print
435 if 'Crashed Thread' in report.report_info:
436 print 'Crashed Thread : ' + report.report_info['Crashed Thread']
437 print
438 if 'Event' in report.report_info:
439 print 'Event : ' + report.report_info['Event']
440 print
442 for thread in report.threads:
443 print
444 if thread.did_crash:
445 exc_type = report.report_info['Exception Type'].split(' ')[0]
446 exc_code = report.report_info['Exception Codes'].replace('at', '@')
447 print '*CRASHED* ( ' + exc_type + ' / ' + exc_code + ' )'
448 # Version 7 reports have spindump-style output (with a stepped stack trace),
449 # so remove the first tab to get better alignment.
450 if report.report_version == 7:
451 for line in repr(thread).split('\n'):
452 print line.replace('\t', ' ', 1)
453 else:
454 print thread
457 def Main(args):
458 """Program main."""
459 parser = optparse.OptionParser(
460 usage='%prog [options] symbol_path crash_report',
461 description='This will parse and symbolicate an Apple CrashReporter v6-9 '
462 'file.')
463 parser.add_option('-s', '--std-path', action='store_true', dest='std_path',
464 help='With this flag, the symbol_path is a containing '
465 'directory, in which a dSYM files are stored in a '
466 'directory named by the version. Example: '
467 '[symbolicate_crash.py -s ./symbols/ report.crash] will '
468 'look for dSYMs in ./symbols/15.0.666.0/ if the report is '
469 'from that verison.')
470 (options, args) = parser.parse_args(args[1:])
472 # Check that we have something to symbolicate.
473 if len(args) != 2:
474 parser.print_usage()
475 return 1
477 report = CrashReport(args[1])
478 symbol_path = None
480 # If not using the standard layout, this is a full path to the symbols.
481 if not options.std_path:
482 symbol_path = args[0]
483 # Otherwise, use the report version to locate symbols in a directory.
484 else:
485 # This is in the format of |M.N.B.P (B.P)|. Get just the part before the
486 # space.
487 chrome_version = report.report_info['Version'].split(' ')[0]
488 symbol_path = os.path.join(args[0], chrome_version)
490 # Check that the symbols exist.
491 if not os.path.isdir(symbol_path):
492 print >>sys.stderr, 'Symbol path %s is not a directory' % symbol_path
493 return 2
495 print >>sys.stderr, 'Using symbols from ' + symbol_path
496 print >>sys.stderr, '=' * 80
498 report.Symbolicate(symbol_path)
499 PrettyPrintReport(report)
500 return 0
503 if __name__ == '__main__':
504 sys.exit(Main(sys.argv))