naiveproxy/build/fuchsia/symbolizer.py

231 lines
8.5 KiB
Python
Raw Normal View History

2018-08-15 01:19:20 +03:00
# Copyright 2018 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
import logging
import os
import re
import subprocess
# Matches the coarse syntax of a backtrace entry.
_BACKTRACE_PREFIX_RE = re.compile(r'(\[[0-9.]+\] )?bt#(?P<frame_id>\d+): ')
# Matches the specific fields of a backtrace entry.
# Back-trace line matcher/parser assumes that 'pc' is always present, and
# expects that 'sp' and ('binary','pc_offset') may also be provided.
_BACKTRACE_ENTRY_RE = re.compile(
r'pc 0(?:x[0-9a-f]+)?' +
r'(?: sp 0x[0-9a-f]+)?' +
r'(?: \((?P<binary>\S+),(?P<pc_offset>0x[0-9a-f]+)\))?$')
def _GetUnstrippedPath(path):
"""If there is a binary located at |path|, returns a path to its unstripped
source.
Returns None if |path| isn't a binary or doesn't exist in the lib.unstripped
or exe.unstripped directories."""
if path.endswith('.so'):
maybe_unstripped_path = os.path.normpath(
os.path.join(path, os.path.pardir, 'lib.unstripped',
os.path.basename(path)))
else:
maybe_unstripped_path = os.path.normpath(
os.path.join(path, os.path.pardir, 'exe.unstripped',
os.path.basename(path)))
if not os.path.exists(maybe_unstripped_path):
return None
with open(maybe_unstripped_path, 'rb') as f:
file_tag = f.read(4)
if file_tag != '\x7fELF':
logging.warn('Expected an ELF binary: ' + maybe_unstripped_path)
return None
return maybe_unstripped_path
def FilterStream(stream, package_name, manifest_path, output_dir):
"""Looks for backtrace lines from an iterable |stream| and symbolizes them.
Yields a stream of strings with symbolized entries replaced."""
return _SymbolizerFilter(package_name,
manifest_path,
output_dir).SymbolizeStream(stream)
class _SymbolizerFilter(object):
"""Adds backtrace symbolization capabilities to a process output stream."""
def __init__(self, package_name, manifest_path, output_dir):
self._symbols_mapping = {}
self._output_dir = output_dir
self._package_name = package_name
# Compute remote/local path mappings using the manifest data.
for next_line in open(manifest_path):
target, source = next_line.strip().split('=')
stripped_binary_path = _GetUnstrippedPath(os.path.join(output_dir,
source))
if not stripped_binary_path:
continue
self._symbols_mapping[os.path.basename(target)] = stripped_binary_path
self._symbols_mapping[target] = stripped_binary_path
if target == 'bin/app':
self._symbols_mapping[package_name] = stripped_binary_path
logging.debug('Symbols: %s -> %s' % (source, target))
def _SymbolizeEntries(self, entries):
"""Symbolizes the parsed backtrace |entries| by calling addr2line.
Returns a set of (frame_id, result) pairs."""
filename_re = re.compile(r'at ([-._a-zA-Z0-9/+]+):(\d+)')
# Use addr2line to symbolize all the |pc_offset|s in |entries| in one go.
# Entries with no |debug_binary| are also processed here, so that we get
# consistent output in that case, with the cannot-symbolize case.
addr2line_output = None
if entries[0].has_key('debug_binary'):
addr2line_args = (['addr2line', '-Cipf', '-p',
'--exe=' + entries[0]['debug_binary']] +
map(lambda entry: entry['pc_offset'], entries))
addr2line_output = subprocess.check_output(addr2line_args).splitlines()
assert addr2line_output
results = {}
for entry in entries:
raw, frame_id = entry['raw'], entry['frame_id']
prefix = '#%s: ' % frame_id
if not addr2line_output:
# Either there was no addr2line output, or too little of it.
filtered_line = raw
else:
output_line = addr2line_output.pop(0)
# Relativize path to the current working (output) directory if we see
# a filename.
def RelativizePath(m):
relpath = os.path.relpath(os.path.normpath(m.group(1)))
return 'at ' + relpath + ':' + m.group(2)
filtered_line = filename_re.sub(RelativizePath, output_line)
if '??' in filtered_line.split():
# If symbolization fails just output the raw backtrace.
filtered_line = raw
else:
# Release builds may inline things, resulting in "(inlined by)" lines.
inlined_by_prefix = " (inlined by)"
while (addr2line_output and
addr2line_output[0].startswith(inlined_by_prefix)):
inlined_by_line = \
'\n' + (' ' * len(prefix)) + addr2line_output.pop(0)
filtered_line += filename_re.sub(RelativizePath, inlined_by_line)
results[entry['frame_id']] = prefix + filtered_line
return results
def _LookupDebugBinary(self, entry):
"""Looks up the binary listed in |entry| in the |_symbols_mapping|.
Returns the corresponding host-side binary's filename, or None."""
binary = entry['binary']
if not binary:
return None
app_prefix = 'app:'
if binary.startswith(app_prefix):
binary = binary[len(app_prefix):]
# We change directory into /system/ before running the target executable, so
# all paths are relative to "/system/", and will typically start with "./".
# Some crashes still uses the full filesystem path, so cope with that, too.
pkg_prefix = '/pkg/'
cwd_prefix = './'
if binary.startswith(cwd_prefix):
binary = binary[len(cwd_prefix):]
elif binary.startswith(pkg_prefix):
binary = binary[len(pkg_prefix):]
# Allow other paths to pass-through; sometimes neither prefix is present.
if binary in self._symbols_mapping:
return self._symbols_mapping[binary]
# |binary| may be truncated by the crashlogger, so if there is a unique
# match for the truncated name in |symbols_mapping|, use that instead.
matches = filter(lambda x: x.startswith(binary),
self._symbols_mapping.keys())
if len(matches) == 1:
return self._symbols_mapping[matches[0]]
return None
def _SymbolizeBacktrace(self, backtrace):
"""Group |backtrace| entries according to the associated binary, and locate
the path to the debug symbols for that binary, if any."""
batches = {}
for entry in backtrace:
debug_binary = self._LookupDebugBinary(entry)
if debug_binary:
entry['debug_binary'] = debug_binary
batches.setdefault(debug_binary, []).append(entry)
# Run _SymbolizeEntries on each batch and collate the results.
symbolized = {}
for batch in batches.itervalues():
symbolized.update(self._SymbolizeEntries(batch))
# Map each entry to its symbolized form, by frame-id, and return the list.
return map(lambda entry: symbolized[entry['frame_id']], backtrace)
def SymbolizeStream(self, stream):
"""Creates a symbolized logging stream object using the output from
|stream|."""
# A buffer of backtrace entries awaiting symbolization, stored as dicts:
# raw: The original back-trace line that followed the prefix.
# frame_id: backtrace frame number (starting at 0).
# binary: path to executable code corresponding to the current frame.
# pc_offset: memory offset within the executable.
backtrace_entries = []
# Read from the stream until we hit EOF.
for line in stream:
line = line.rstrip()
# Look for the back-trace prefix, otherwise just emit the line.
matched = _BACKTRACE_PREFIX_RE.match(line)
if not matched:
yield line
continue
backtrace_line = line[matched.end():]
# If this was the end of a back-trace then symbolize and emit it.
frame_id = matched.group('frame_id')
if backtrace_line == 'end':
if backtrace_entries:
for processed in self._SymbolizeBacktrace(backtrace_entries):
yield processed
backtrace_entries = []
continue
# Parse the program-counter offset, etc into |backtrace_entries|.
matched = _BACKTRACE_ENTRY_RE.match(backtrace_line)
if matched:
# |binary| and |pc_offset| will be None if not present.
backtrace_entries.append(
{'raw': backtrace_line, 'frame_id': frame_id,
'binary': matched.group('binary'),
'pc_offset': matched.group('pc_offset')})
else:
backtrace_entries.append(
{'raw': backtrace_line, 'frame_id': frame_id,
'binary': None, 'pc_offset': None})