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483 lines
20 KiB
Python
483 lines
20 KiB
Python
# Copyright 2014 The Chromium Authors. All rights reserved.
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# Use of this source code is governed by a BSD-style license that can be
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# found in the LICENSE file.
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import collections
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import datetime
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import logging
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import multiprocessing
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import os
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import posixpath
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import Queue
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import re
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import subprocess
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import sys
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import threading
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import time
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# addr2line builds a possibly infinite memory cache that can exhaust
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# the computer's memory if allowed to grow for too long. This constant
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# controls how many lookups we do before restarting the process. 4000
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# gives near peak performance without extreme memory usage.
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ADDR2LINE_RECYCLE_LIMIT = 4000
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ELF_MAGIC = '\x7f\x45\x4c\x46'
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def ContainsElfMagic(file_path):
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if os.path.getsize(file_path) < 4:
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return False
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try:
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with open(file_path, 'r') as f:
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b = f.read(4)
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return b == ELF_MAGIC
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except IOError:
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return False
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class ELFSymbolizer(object):
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"""An uber-fast (multiprocessing, pipelined and asynchronous) ELF symbolizer.
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This class is a frontend for addr2line (part of GNU binutils), designed to
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symbolize batches of large numbers of symbols for a given ELF file. It
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supports sharding symbolization against many addr2line instances and
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pipelining of multiple requests per each instance (in order to hide addr2line
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internals and OS pipe latencies).
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The interface exhibited by this class is a very simple asynchronous interface,
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which is based on the following three methods:
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- SymbolizeAsync(): used to request (enqueue) resolution of a given address.
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- The |callback| method: used to communicated back the symbol information.
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- Join(): called to conclude the batch to gather the last outstanding results.
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In essence, before the Join method returns, this class will have issued as
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many callbacks as the number of SymbolizeAsync() calls. In this regard, note
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that due to multiprocess sharding, callbacks can be delivered out of order.
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Some background about addr2line:
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- it is invoked passing the elf path in the cmdline, piping the addresses in
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its stdin and getting results on its stdout.
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- it has pretty large response times for the first requests, but it
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works very well in streaming mode once it has been warmed up.
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- it doesn't scale by itself (on more cores). However, spawning multiple
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instances at the same time on the same file is pretty efficient as they
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keep hitting the pagecache and become mostly CPU bound.
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- it might hang or crash, mostly for OOM. This class deals with both of these
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problems.
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Despite the "scary" imports and the multi* words above, (almost) no multi-
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threading/processing is involved from the python viewpoint. Concurrency
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here is achieved by spawning several addr2line subprocesses and handling their
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output pipes asynchronously. Therefore, all the code here (with the exception
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of the Queue instance in Addr2Line) should be free from mind-blowing
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thread-safety concerns.
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The multiprocess sharding works as follows:
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The symbolizer tries to use the lowest number of addr2line instances as
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possible (with respect of |max_concurrent_jobs|) and enqueue all the requests
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in a single addr2line instance. For few symbols (i.e. dozens) sharding isn't
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worth the startup cost.
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The multiprocess logic kicks in as soon as the queues for the existing
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instances grow. Specifically, once all the existing instances reach the
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|max_queue_size| bound, a new addr2line instance is kicked in.
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In the case of a very eager producer (i.e. all |max_concurrent_jobs| instances
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have a backlog of |max_queue_size|), back-pressure is applied on the caller by
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blocking the SymbolizeAsync method.
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This module has been deliberately designed to be dependency free (w.r.t. of
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other modules in this project), to allow easy reuse in external projects.
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"""
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def __init__(self, elf_file_path, addr2line_path, callback, inlines=False,
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max_concurrent_jobs=None, addr2line_timeout=30, max_queue_size=50,
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source_root_path=None, strip_base_path=None):
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"""Args:
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elf_file_path: path of the elf file to be symbolized.
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addr2line_path: path of the toolchain's addr2line binary.
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callback: a callback which will be invoked for each resolved symbol with
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the two args (sym_info, callback_arg). The former is an instance of
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|ELFSymbolInfo| and contains the symbol information. The latter is an
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embedder-provided argument which is passed to SymbolizeAsync().
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inlines: when True, the ELFSymbolInfo will contain also the details about
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the outer inlining functions. When False, only the innermost function
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will be provided.
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max_concurrent_jobs: Max number of addr2line instances spawned.
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Parallelize responsibly, addr2line is a memory and I/O monster.
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max_queue_size: Max number of outstanding requests per addr2line instance.
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addr2line_timeout: Max time (in seconds) to wait for a addr2line response.
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After the timeout, the instance will be considered hung and respawned.
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source_root_path: In some toolchains only the name of the source file is
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is output, without any path information; disambiguation searches
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through the source directory specified by |source_root_path| argument
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for files whose name matches, adding the full path information to the
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output. For example, if the toolchain outputs "unicode.cc" and there
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is a file called "unicode.cc" located under |source_root_path|/foo,
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the tool will replace "unicode.cc" with
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"|source_root_path|/foo/unicode.cc". If there are multiple files with
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the same name, disambiguation will fail because the tool cannot
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determine which of the files was the source of the symbol.
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strip_base_path: Rebases the symbols source paths onto |source_root_path|
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(i.e replace |strip_base_path| with |source_root_path).
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"""
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assert(os.path.isfile(addr2line_path)), 'Cannot find ' + addr2line_path
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self.elf_file_path = elf_file_path
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self.addr2line_path = addr2line_path
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self.callback = callback
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self.inlines = inlines
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self.max_concurrent_jobs = (max_concurrent_jobs or
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min(multiprocessing.cpu_count(), 4))
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self.max_queue_size = max_queue_size
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self.addr2line_timeout = addr2line_timeout
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self.requests_counter = 0 # For generating monotonic request IDs.
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self._a2l_instances = [] # Up to |max_concurrent_jobs| _Addr2Line inst.
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# If necessary, create disambiguation lookup table
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self.disambiguate = source_root_path is not None
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self.disambiguation_table = {}
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self.strip_base_path = strip_base_path
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if self.disambiguate:
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self.source_root_path = os.path.abspath(source_root_path)
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self._CreateDisambiguationTable()
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# Create one addr2line instance. More instances will be created on demand
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# (up to |max_concurrent_jobs|) depending on the rate of the requests.
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self._CreateNewA2LInstance()
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def SymbolizeAsync(self, addr, callback_arg=None):
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"""Requests symbolization of a given address.
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This method is not guaranteed to return immediately. It generally does, but
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in some scenarios (e.g. all addr2line instances have full queues) it can
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block to create back-pressure.
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Args:
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addr: address to symbolize.
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callback_arg: optional argument which will be passed to the |callback|."""
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assert isinstance(addr, int)
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# Process all the symbols that have been resolved in the meanwhile.
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# Essentially, this drains all the addr2line(s) out queues.
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for a2l_to_purge in self._a2l_instances:
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a2l_to_purge.ProcessAllResolvedSymbolsInQueue()
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a2l_to_purge.RecycleIfNecessary()
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# Find the best instance according to this logic:
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# 1. Find an existing instance with the shortest queue.
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# 2. If all of instances' queues are full, but there is room in the pool,
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# (i.e. < |max_concurrent_jobs|) create a new instance.
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# 3. If there were already |max_concurrent_jobs| instances and all of them
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# had full queues, make back-pressure.
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# 1.
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def _SortByQueueSizeAndReqID(a2l):
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return (a2l.queue_size, a2l.first_request_id)
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a2l = min(self._a2l_instances, key=_SortByQueueSizeAndReqID)
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# 2.
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if (a2l.queue_size >= self.max_queue_size and
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len(self._a2l_instances) < self.max_concurrent_jobs):
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a2l = self._CreateNewA2LInstance()
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# 3.
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if a2l.queue_size >= self.max_queue_size:
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a2l.WaitForNextSymbolInQueue()
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a2l.EnqueueRequest(addr, callback_arg)
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def Join(self):
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"""Waits for all the outstanding requests to complete and terminates."""
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for a2l in self._a2l_instances:
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a2l.WaitForIdle()
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a2l.Terminate()
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def _CreateNewA2LInstance(self):
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assert len(self._a2l_instances) < self.max_concurrent_jobs
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a2l = ELFSymbolizer.Addr2Line(self)
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self._a2l_instances.append(a2l)
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return a2l
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def _CreateDisambiguationTable(self):
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""" Non-unique file names will result in None entries"""
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start_time = time.time()
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logging.info('Collecting information about available source files...')
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self.disambiguation_table = {}
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for root, _, filenames in os.walk(self.source_root_path):
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for f in filenames:
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self.disambiguation_table[f] = os.path.join(root, f) if (f not in
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self.disambiguation_table) else None
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logging.info('Finished collecting information about '
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'possible files (took %.1f s).',
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(time.time() - start_time))
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class Addr2Line(object):
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"""A python wrapper around an addr2line instance.
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The communication with the addr2line process looks as follows:
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[STDIN] [STDOUT] (from addr2line's viewpoint)
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> f001111
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> f002222
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< Symbol::Name(foo, bar) for f001111
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< /path/to/source/file.c:line_number
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> f003333
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< Symbol::Name2() for f002222
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< /path/to/source/file.c:line_number
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< Symbol::Name3() for f003333
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< /path/to/source/file.c:line_number
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"""
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SYM_ADDR_RE = re.compile(r'([^:]+):(\?|\d+).*')
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def __init__(self, symbolizer):
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self._symbolizer = symbolizer
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self._lib_file_name = posixpath.basename(symbolizer.elf_file_path)
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# The request queue (i.e. addresses pushed to addr2line's stdin and not
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# yet retrieved on stdout)
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self._request_queue = collections.deque()
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# This is essentially len(self._request_queue). It has been optimized to a
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# separate field because turned out to be a perf hot-spot.
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self.queue_size = 0
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# Keep track of the number of symbols a process has processed to
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# avoid a single process growing too big and using all the memory.
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self._processed_symbols_count = 0
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# Objects required to handle the addr2line subprocess.
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self._proc = None # Subprocess.Popen(...) instance.
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self._thread = None # Threading.thread instance.
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self._out_queue = None # Queue.Queue instance (for buffering a2l stdout).
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self._RestartAddr2LineProcess()
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def EnqueueRequest(self, addr, callback_arg):
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"""Pushes an address to addr2line's stdin (and keeps track of it)."""
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self._symbolizer.requests_counter += 1 # For global "age" of requests.
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req_idx = self._symbolizer.requests_counter
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self._request_queue.append((addr, callback_arg, req_idx))
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self.queue_size += 1
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self._WriteToA2lStdin(addr)
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def WaitForIdle(self):
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"""Waits until all the pending requests have been symbolized."""
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while self.queue_size > 0:
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self.WaitForNextSymbolInQueue()
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def WaitForNextSymbolInQueue(self):
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"""Waits for the next pending request to be symbolized."""
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if not self.queue_size:
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return
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# This outer loop guards against a2l hanging (detecting stdout timeout).
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while True:
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start_time = datetime.datetime.now()
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timeout = datetime.timedelta(seconds=self._symbolizer.addr2line_timeout)
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# The inner loop guards against a2l crashing (checking if it exited).
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while datetime.datetime.now() - start_time < timeout:
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# poll() returns !None if the process exited. a2l should never exit.
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if self._proc.poll():
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logging.warning('addr2line crashed, respawning (lib: %s).',
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self._lib_file_name)
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self._RestartAddr2LineProcess()
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# TODO(primiano): the best thing to do in this case would be
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# shrinking the pool size as, very likely, addr2line is crashed
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# due to low memory (and the respawned one will die again soon).
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try:
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lines = self._out_queue.get(block=True, timeout=0.25)
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except Queue.Empty:
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# On timeout (1/4 s.) repeat the inner loop and check if either the
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# addr2line process did crash or we waited its output for too long.
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continue
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# In nominal conditions, we get straight to this point.
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self._ProcessSymbolOutput(lines)
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return
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# If this point is reached, we waited more than |addr2line_timeout|.
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logging.warning('Hung addr2line process, respawning (lib: %s).',
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self._lib_file_name)
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self._RestartAddr2LineProcess()
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def ProcessAllResolvedSymbolsInQueue(self):
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"""Consumes all the addr2line output lines produced (without blocking)."""
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if not self.queue_size:
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return
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while True:
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try:
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lines = self._out_queue.get_nowait()
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except Queue.Empty:
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break
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self._ProcessSymbolOutput(lines)
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def RecycleIfNecessary(self):
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"""Restarts the process if it has been used for too long.
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A long running addr2line process will consume excessive amounts
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of memory without any gain in performance."""
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if self._processed_symbols_count >= ADDR2LINE_RECYCLE_LIMIT:
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self._RestartAddr2LineProcess()
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def Terminate(self):
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"""Kills the underlying addr2line process.
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The poller |_thread| will terminate as well due to the broken pipe."""
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try:
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self._proc.kill()
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self._proc.communicate() # Essentially wait() without risking deadlock.
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except Exception: # pylint: disable=broad-except
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# An exception while terminating? How interesting.
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pass
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self._proc = None
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def _WriteToA2lStdin(self, addr):
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self._proc.stdin.write('%s\n' % hex(addr))
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if self._symbolizer.inlines:
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# In the case of inlines we output an extra blank line, which causes
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# addr2line to emit a (??,??:0) tuple that we use as a boundary marker.
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self._proc.stdin.write('\n')
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self._proc.stdin.flush()
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def _ProcessSymbolOutput(self, lines):
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"""Parses an addr2line symbol output and triggers the client callback."""
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(_, callback_arg, _) = self._request_queue.popleft()
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self.queue_size -= 1
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innermost_sym_info = None
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sym_info = None
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for (line1, line2) in lines:
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prev_sym_info = sym_info
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name = line1 if not line1.startswith('?') else None
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source_path = None
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source_line = None
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m = ELFSymbolizer.Addr2Line.SYM_ADDR_RE.match(line2)
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if m:
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if not m.group(1).startswith('?'):
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source_path = m.group(1)
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if not m.group(2).startswith('?'):
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source_line = int(m.group(2))
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else:
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logging.warning('Got invalid symbol path from addr2line: %s', line2)
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# In case disambiguation is on, and needed
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was_ambiguous = False
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disambiguated = False
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if self._symbolizer.disambiguate:
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if source_path and not posixpath.isabs(source_path):
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path = self._symbolizer.disambiguation_table.get(source_path)
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was_ambiguous = True
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disambiguated = path is not None
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source_path = path if disambiguated else source_path
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# Use absolute paths (so that paths are consistent, as disambiguation
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# uses absolute paths)
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if source_path and not was_ambiguous:
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source_path = os.path.abspath(source_path)
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if source_path and self._symbolizer.strip_base_path:
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# Strip the base path
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source_path = re.sub('^' + self._symbolizer.strip_base_path,
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self._symbolizer.source_root_path or '', source_path)
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sym_info = ELFSymbolInfo(name, source_path, source_line, was_ambiguous,
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disambiguated)
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if prev_sym_info:
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prev_sym_info.inlined_by = sym_info
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if not innermost_sym_info:
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innermost_sym_info = sym_info
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self._processed_symbols_count += 1
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self._symbolizer.callback(innermost_sym_info, callback_arg)
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def _RestartAddr2LineProcess(self):
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if self._proc:
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self.Terminate()
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# The only reason of existence of this Queue (and the corresponding
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# Thread below) is the lack of a subprocess.stdout.poll_avail_lines().
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# Essentially this is a pipe able to extract a couple of lines atomically.
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self._out_queue = Queue.Queue()
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# Start the underlying addr2line process in line buffered mode.
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cmd = [self._symbolizer.addr2line_path, '--functions', '--demangle',
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'--exe=' + self._symbolizer.elf_file_path]
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if self._symbolizer.inlines:
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cmd += ['--inlines']
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self._proc = subprocess.Popen(cmd, bufsize=1, stdout=subprocess.PIPE,
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stdin=subprocess.PIPE, stderr=sys.stderr, close_fds=True)
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# Start the poller thread, which simply moves atomically the lines read
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# from the addr2line's stdout to the |_out_queue|.
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self._thread = threading.Thread(
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target=ELFSymbolizer.Addr2Line.StdoutReaderThread,
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args=(self._proc.stdout, self._out_queue, self._symbolizer.inlines))
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self._thread.daemon = True # Don't prevent early process exit.
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self._thread.start()
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self._processed_symbols_count = 0
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# Replay the pending requests on the new process (only for the case
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# of a hung addr2line timing out during the game).
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for (addr, _, _) in self._request_queue:
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self._WriteToA2lStdin(addr)
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@staticmethod
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def StdoutReaderThread(process_pipe, queue, inlines):
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"""The poller thread fn, which moves the addr2line stdout to the |queue|.
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This is the only piece of code not running on the main thread. It merely
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writes to a Queue, which is thread-safe. In the case of inlines, it
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detects the ??,??:0 marker and sends the lines atomically, such that the
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main thread always receives all the lines corresponding to one symbol in
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one shot."""
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try:
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lines_for_one_symbol = []
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while True:
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line1 = process_pipe.readline().rstrip('\r\n')
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line2 = process_pipe.readline().rstrip('\r\n')
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if not line1 or not line2:
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break
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inline_has_more_lines = inlines and (len(lines_for_one_symbol) == 0 or
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(line1 != '??' and line2 != '??:0'))
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if not inlines or inline_has_more_lines:
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lines_for_one_symbol += [(line1, line2)]
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if inline_has_more_lines:
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continue
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queue.put(lines_for_one_symbol)
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lines_for_one_symbol = []
|
|
process_pipe.close()
|
|
|
|
# Every addr2line processes will die at some point, please die silently.
|
|
except (IOError, OSError):
|
|
pass
|
|
|
|
@property
|
|
def first_request_id(self):
|
|
"""Returns the request_id of the oldest pending request in the queue."""
|
|
return self._request_queue[0][2] if self._request_queue else 0
|
|
|
|
|
|
class ELFSymbolInfo(object):
|
|
"""The result of the symbolization passed as first arg. of each callback."""
|
|
|
|
def __init__(self, name, source_path, source_line, was_ambiguous=False,
|
|
disambiguated=False):
|
|
"""All the fields here can be None (if addr2line replies with '??')."""
|
|
self.name = name
|
|
self.source_path = source_path
|
|
self.source_line = source_line
|
|
# In the case of |inlines|=True, the |inlined_by| points to the outer
|
|
# function inlining the current one (and so on, to form a chain).
|
|
self.inlined_by = None
|
|
self.disambiguated = disambiguated
|
|
self.was_ambiguous = was_ambiguous
|
|
|
|
def __str__(self):
|
|
return '%s [%s:%d]' % (
|
|
self.name or '??', self.source_path or '??', self.source_line or 0)
|