scripts/symbolize - zircon - Git at Google

 #!/usr/bin/env python

 # Copyright 2016 The Fuchsia Authors
 #
 # Use of this source code is governed by a MIT-style
 # license that can be found in the LICENSE file or at
 # https://opensource.org/licenses/MIT

 """

 This tool will symbolize a crash from Zircon's crash logger, adding
 function names and, if available, source code locations (filenames and
 line numbers from debug info).

 Example usage #1:
   ./scripts/run-zircon -a x86-64 | ./scripts/symbolize devmgr.elf --build-dir=build-zircon-pc-x86-64

 Example usage #2:
   ./scripts/symbolize devmgr.elf --build-dir=build-zircon-pc-x86-64
   <copy and paste output from Zircon>

 Example usage #3 (for zircon kernel output):
   ./scripts/symbolize --build-dir=build-zircon-pc-x86-64
   <copy and paste output from Zircon>


 """

 import argparse
 import errno
 import os
 import re
 import subprocess
 import sys

 SCRIPT_DIR = os.path.abspath(os.path.dirname(__file__))
 PREBUILTS_BASE_DIR = os.path.abspath(os.path.join(os.path.dirname(SCRIPT_DIR), "prebuilt",
                                                   "downloads"))
 GCC_VERSION = '6.3.0'
 name_to_full_path = {}


 def find_func(find_args, dirname, names):
     if find_args["path"] != "":  # found something!
         return
     if dirname.find("sysroot") != -1:
         return
     for name in names:
         if name == find_args["name"]:
             find_args["path"] = dirname
             return


 def find_file_in_build_dir(name, build_dirs):
     find_args = {"name": name, "path": ""}
     for location in build_dirs:
         os.path.walk(location, find_func, find_args)
         if find_args["path"] != "":
             return os.path.abspath(os.path.join(find_args["path"], name))
     return None


 def buildid_to_full_path(buildid, build_dirs):
     for build_dir in build_dirs:
         id_file_path = os.path.join(build_dir, "ids.txt")
         if os.path.exists(id_file_path):
             with open(id_file_path) as id_file:
                 for line in id_file:
                     id, path = line.split()
                     if id == buildid:
                         return path
     return None


 def find_file_in_boot_manifest(boot_app_name, build_dirs):
     manifest_path = find_file_in_build_dir("bootfs.manifest", build_dirs)
     if manifest_path:
         with open(manifest_path) as manifest_file:
             for line in manifest_file:
                 out_path, in_path = line.rstrip().split("=")
                 if out_path == boot_app_name:
                     if in_path.endswith(".strip"):
                         in_path = in_path[:-len(".strip")]
                     return in_path
     return None


 def find_dso_full_path_uncached(dso, exe_name, name_to_buildid, build_dirs):
     if dso in name_to_buildid:
         found_path = buildid_to_full_path(name_to_buildid[dso], build_dirs)
         if found_path:
             return found_path

     # The name 'app' indicates the real app name is unknown.
     # If the process has a name property that will be printed, but
     # it has a max of 32 characters so it may be insufficient.
     # Crashlogger prefixes such names with "app:" for our benefit.
     if dso == "app" or dso.startswith("app:"):
         # If an executable was passed on the command-line, try using that
         if exe_name:
             found_path = find_file_in_build_dir(exe_name, build_dirs)
             if found_path:
                 return found_path

         # If this looks like a program in boot fs, consult the manifest
         if dso.startswith("app:/boot/"):
             boot_app_name = dso[len("app:/boot/"):]
             found_path = find_file_in_boot_manifest(boot_app_name, build_dirs)
             if found_path:
                 return found_path
         return None

     # First, try an exact match for the filename
     found_path = find_file_in_build_dir(dso, build_dirs)
     if not found_path:
         # If that fails, and this file doesn't end with .so, try the executable
         # name
         if not dso.endswith(".so"):
             found_path = find_file_in_build_dir(exe_name, build_dirs)
     if not found_path:
         # If that still fails and this looks like an absolute path, try the
         # last path component
         if dso.startswith("/"):
             short_name = dso[dso.rfind("/"):]
             found_path = find_file_in_build_dir(short_name, build_dirs)
     return found_path


 def find_dso_full_path(dso, exe_name, name_to_buildid, build_dirs):
     if dso in name_to_full_path:
         return name_to_full_path[dso]
     found_path = find_dso_full_path_uncached(dso, exe_name, name_to_buildid, build_dirs)
     if found_path:
         name_to_full_path[dso] = found_path
     return found_path


 def tool_path(arch, tool):
     if sys.platform.startswith("linux"):
         platform = "Linux"
     elif sys.platform.startswith("darwin"):
         platform = "Darwin"
     else:
         raise Exception("Unsupported platform!")
     return ("%s/%s-elf-%s-%s-x86_64/bin/%s-elf-%s" %
             (PREBUILTS_BASE_DIR, arch, GCC_VERSION, platform, arch, tool))


 def run_tool(arch, tool, *args):
     cmd = [tool_path(arch, tool)] + list(args)
     try:
         output = subprocess.check_output(cmd)
     except Exception as e:
         print "Calling %s failed: command %s error %s" % (tool, cmd, e)
         return False
     return output

 # On BSD platforms there are cases where writing to stdout can return EAGAIN.
 # In that event, retry the line again. This only manifests itself when piping
 # qemu's stdout directly to this script.
 def writelines(lines):
     for line in lines:
         writeline(line)


 def writeline(line):
     while True:
         try:
             sys.stdout.write(line)
         except IOError as e:
             if e.errno == errno.EAGAIN:
                 continue
         break


 def main():
     parser = argparse.ArgumentParser(
         description=__doc__,
         formatter_class=argparse.RawDescriptionHelpFormatter)
     parser.add_argument("--file", "-f", nargs="?", type=argparse.FileType("r"),
                         default=sys.stdin,
                         help="File to read from, stdin by default")
     parser.add_argument("--build-dir", "-b", nargs="*",
                         help="List of additional build directories to search")
     parser.add_argument("--disassemble", "-d", action="store_true",
                         help="Show disassembly of each function")
     parser.add_argument("--stack_size", "-s", type=int,
                         default=256*1024,
                         help="Change the assumed size of the stack (e.g. use 1048576 for ftl or mtl default thread size")
     parser.add_argument("--echo", dest="echo", action="store_true",
                         help="Echo lines of input (on by default)")
     parser.add_argument("--no-echo", dest="echo", action="store_false",
                         help="Don't echo lines of input")
     parser.add_argument("app", nargs="?", help="Name of primary application")
     parser.set_defaults(echo=True)
     args = parser.parse_args()

     zircon_build_dir = os.path.join(
         os.path.dirname(SCRIPT_DIR), "build-zircon-pc-x86-64")
     if not os.path.exists(zircon_build_dir):
         zircon_build_dir = os.path.join(
             os.path.dirname(SCRIPT_DIR), os.pardir, "out", "build-zircon", "build-zircon-pc-x86-64")
     build_dirs = [zircon_build_dir]
     if args.build_dir:
         build_dirs = args.build_dir + build_dirs
     else:
         fuchsia_build_dir = os.path.abspath(os.path.join(
             os.path.dirname(SCRIPT_DIR), os.pardir, "out", "debug-x86-64"))
         build_dirs.insert(0, fuchsia_build_dir)

     # Parsing vars
     arch = "x86_64"
     name_to_buildid = {}
     processed_lines = []
     prev_sp = None
     prev_frame_num = None
     frame_sizes = []
     total_stack_size = 0

     # Regex for parsing
     # Either nothing, or something like "[00007.268] 00304.00325> "
     full_prefix = "^(|\[\d+\.\d+\] \d+\.\d+> )"
     btre = re.compile(full_prefix + "bt#(\d+):")
     bt_with_offset_re = re.compile(full_prefix +
         "bt#(\d+): pc 0x[0-9a-f]+ sp (0x[0-9a-f]+) \(([^,]+),(0x[0-9a-f]+)\)$")
     bt_end_re = re.compile(full_prefix + "bt#(\d+): end")
     arch_re = re.compile(full_prefix + "arch: ([\\S]+)$")
     build_id_re = re.compile(full_prefix +
         "dso: id=([0-9a-z]+) base=(0x[0-9a-f]+) name=(.+)$")
     disasm_re = re.compile("^ *(0x[0-9a-f]+)( .+)$")

     # Zircon backtraces
     zircon_crash_re = re.compile("^ZIRCON KERNEL PANIC$")
     # TODO(cja): Add ARM to the regex
     zircon_pc_re = re.compile("RIP: (0x[0-9a-z]+)")
     zircon_bt_re = re.compile(full_prefix +
         "bt#(\d+): (\dx[0-9a-fA-F]+)$")
     zircon_elf_path = ''
     zircon_bt = False
     zircon_pc = ''

     while True:
         line = args.file.readline()
         if args.echo and not args.file.isatty():
             writeline(line)
         end_of_file = (line == '')
         # Strip any trailing carriage return character ("\r"), since
         # these appear in the serial console output from QEMU.
         line = line.rstrip()
         if bt_end_re.match(line):
             if len(processed_lines) != 0:
                 writeline("\nstart of symbolized stack:\n")
                 writelines(processed_lines)
                 writeline("end of symbolized stack\n")

                 if total_stack_size > args.stack_size - 8*1024:
                     if total_stack_size >= args.stack_size:
                         message = "Overflowed stack"
                     else:
                         message = "Potentially overflowed stack"
                     writeline("WARNING: %s (total usage: %d, stack size: %d)\n" % (message, total_stack_size, args.stack_size))
                     for frame, size in frame_sizes:
                         writeline("#%s: %d bytes\n" % (frame, size))
                 # Since we don't have the last stack frame, leave some leeway
                 # when warning about stackoverflow
                 processed_lines = []
                 frames_sizes = []
                 name_to_buildid = {}
                 total_stack_size = 0
                 prev_sp = None
                 zircon_bt = False
             if end_of_file:
                 break
         m = arch_re.match(line)
         if m:
             arch = m.group(2)
             continue
         m = build_id_re.match(line)
         if m:
             buildid = m.group(2)
             bias = int(m.group(3), 16)
             name = m.group(4)
             name_to_buildid[name] = buildid
             continue
         m = btre.match(line)
         if m and not zircon_bt:
             frame_num = m.group(2)
             m = bt_with_offset_re.match(line)
             if m:
                 sp = int(m.group(3), 16)
                 if prev_sp is not None:
                     frame_size = sp - prev_sp
                     total_stack_size += frame_size
                     frame_sizes.append((prev_frame_num, frame_size))
                 prev_sp = sp
                 prev_frame_num = frame_num

                 dso = m.group(4)
                 off = m.group(5)
                 dso_full_path = find_dso_full_path(
                     dso, args.app, name_to_buildid, build_dirs)
                 if dso_full_path:
                     addr2line_output = run_tool(arch, "addr2line", "-Cipfe",
                                                 dso_full_path, off)
                     if addr2line_output:
                         processed_lines.append(
                             "#%s: %s" % (frame_num, addr2line_output))
                     if args.disassemble:
                         pc = int(off, 16)
                         disassembly = run_tool(
                             arch, "gdb", "--nx", "--batch", "-ex",
                             "disassemble %#x" % pc, dso_full_path)
                         if disassembly:
                             for line in disassembly.splitlines():
                                 m = disasm_re.match(line)
                                 if m:
                                     timestamp, addr, rest = m.groups()
                                     addr = int(addr, 16)
                                     if addr == pc:
                                         prefix = "=> "
                                     else:
                                         prefix = "   "
                                         line = "%s%#.16x%s" % (prefix, bias + addr, rest)
                                     processed_lines.append(line + "\n")
                     continue

             # fallthru print if we don't recognize the format of the backtrace entry
             processed_lines.append("#%s: (unknown)\n" % (frame_num,))

         # Zircon Specific Handling
         if zircon_crash_re.search(line):
             zircon_elf_path = find_file_in_build_dir("zircon.elf", build_dirs)
             if zircon_elf_path:
                 zircon_bt = True
             else:
                 sys.stderr.write("Symbolize could not find the zircon elf binary. Perhaps you need to build "
                                   "zircon or specify the build directory with -b?\n")
         m = zircon_pc_re.search(line)
         if m:
             zircon_pc = m.group(1)
         m = zircon_bt_re.match(line)
         if m and zircon_bt:
             frame_num = m.group(2)
             addr = m.group(3)
             # If we saw the instruction pointer for the fault/panic then use it once
             if zircon_pc:
                 prefix = "   pc: %s => " % zircon_pc
                 a2l_out = run_tool(arch, "addr2line", "-Cpife", zircon_elf_path,
                         zircon_pc)
                 processed_lines.append(prefix +
                         a2l_out.replace("(inlined", (" " * len(prefix)) + "(inlined"))
                 zircon_pc = None


             prefix = "bt#%s: %s => " % (frame_num, addr)
             # Subtract 1 to convert from a return address to a call site
             # address.  (To be more exact, this converts to an address that
             # is within the call site instruction.)  This adjustment gives
             # more correct results in the presence of inlining and
             # 'noreturn' functions.  (See ZX-842.)
             call_addr = "0x%x" % (int(addr, 16) - 1)
             a2l_out = run_tool(arch, "addr2line", "-Cpife", zircon_elf_path,
                                call_addr)
             # In the case of inlined methods, it is more readable if the
             # inlined lines are aligned to be to the right of "=>".
             processed_lines.append(prefix +
                     a2l_out.replace("(inlined", (" " * len(prefix)) + "(inlined"))
             continue

         # Exit if we've reached the end of stdin
         if end_of_file:
             break

 if __name__ == '__main__':
     sys.exit(main())
	#!/usr/bin/env python

	# Copyright 2016 The Fuchsia Authors
	#
	# Use of this source code is governed by a MIT-style
	# license that can be found in the LICENSE file or at
	# https://opensource.org/licenses/MIT

	"""

	This tool will symbolize a crash from Zircon's crash logger, adding
	function names and, if available, source code locations (filenames and
	line numbers from debug info).

	Example usage #1:
	./scripts/run-zircon -a x86-64 \| ./scripts/symbolize devmgr.elf --build-dir=build-zircon-pc-x86-64

	Example usage #2:
	./scripts/symbolize devmgr.elf --build-dir=build-zircon-pc-x86-64
	<copy and paste output from Zircon>

	Example usage #3 (for zircon kernel output):
	./scripts/symbolize --build-dir=build-zircon-pc-x86-64
	<copy and paste output from Zircon>


	"""

	import argparse
	import errno
	import os
	import re
	import subprocess
	import sys

	SCRIPT_DIR = os.path.abspath(os.path.dirname(__file__))
	PREBUILTS_BASE_DIR = os.path.abspath(os.path.join(os.path.dirname(SCRIPT_DIR), "prebuilt",
	"downloads"))
	GCC_VERSION = '6.3.0'
	name_to_full_path = {}


	def find_func(find_args, dirname, names):
	if find_args["path"] != "": # found something!
	return
	if dirname.find("sysroot") != -1:
	return
	for name in names:
	if name == find_args["name"]:
	find_args["path"] = dirname
	return


	def find_file_in_build_dir(name, build_dirs):
	find_args = {"name": name, "path": ""}
	for location in build_dirs:
	os.path.walk(location, find_func, find_args)
	if find_args["path"] != "":
	return os.path.abspath(os.path.join(find_args["path"], name))
	return None


	def buildid_to_full_path(buildid, build_dirs):
	for build_dir in build_dirs:
	id_file_path = os.path.join(build_dir, "ids.txt")
	if os.path.exists(id_file_path):
	with open(id_file_path) as id_file:
	for line in id_file:
	id, path = line.split()
	if id == buildid:
	return path
	return None


	def find_file_in_boot_manifest(boot_app_name, build_dirs):
	manifest_path = find_file_in_build_dir("bootfs.manifest", build_dirs)
	if manifest_path:
	with open(manifest_path) as manifest_file:
	for line in manifest_file:
	out_path, in_path = line.rstrip().split("=")
	if out_path == boot_app_name:
	if in_path.endswith(".strip"):
	in_path = in_path[:-len(".strip")]
	return in_path
	return None


	def find_dso_full_path_uncached(dso, exe_name, name_to_buildid, build_dirs):
	if dso in name_to_buildid:
	found_path = buildid_to_full_path(name_to_buildid[dso], build_dirs)
	if found_path:
	return found_path

	# The name 'app' indicates the real app name is unknown.
	# If the process has a name property that will be printed, but
	# it has a max of 32 characters so it may be insufficient.
	# Crashlogger prefixes such names with "app:" for our benefit.
	if dso == "app" or dso.startswith("app:"):
	# If an executable was passed on the command-line, try using that
	if exe_name:
	found_path = find_file_in_build_dir(exe_name, build_dirs)
	if found_path:
	return found_path

	# If this looks like a program in boot fs, consult the manifest
	if dso.startswith("app:/boot/"):
	boot_app_name = dso[len("app:/boot/"):]
	found_path = find_file_in_boot_manifest(boot_app_name, build_dirs)
	if found_path:
	return found_path
	return None

	# First, try an exact match for the filename
	found_path = find_file_in_build_dir(dso, build_dirs)
	if not found_path:
	# If that fails, and this file doesn't end with .so, try the executable
	# name
	if not dso.endswith(".so"):
	found_path = find_file_in_build_dir(exe_name, build_dirs)
	if not found_path:
	# If that still fails and this looks like an absolute path, try the
	# last path component
	if dso.startswith("/"):
	short_name = dso[dso.rfind("/"):]
	found_path = find_file_in_build_dir(short_name, build_dirs)
	return found_path


	def find_dso_full_path(dso, exe_name, name_to_buildid, build_dirs):
	if dso in name_to_full_path:
	return name_to_full_path[dso]
	found_path = find_dso_full_path_uncached(dso, exe_name, name_to_buildid, build_dirs)
	if found_path:
	name_to_full_path[dso] = found_path
	return found_path


	def tool_path(arch, tool):
	if sys.platform.startswith("linux"):
	platform = "Linux"
	elif sys.platform.startswith("darwin"):
	platform = "Darwin"
	else:
	raise Exception("Unsupported platform!")
	return ("%s/%s-elf-%s-%s-x86_64/bin/%s-elf-%s" %
	(PREBUILTS_BASE_DIR, arch, GCC_VERSION, platform, arch, tool))


	def run_tool(arch, tool, *args):
	cmd = [tool_path(arch, tool)] + list(args)
	try:
	output = subprocess.check_output(cmd)
	except Exception as e:
	print "Calling %s failed: command %s error %s" % (tool, cmd, e)
	return False
	return output

	# On BSD platforms there are cases where writing to stdout can return EAGAIN.
	# In that event, retry the line again. This only manifests itself when piping
	# qemu's stdout directly to this script.
	def writelines(lines):
	for line in lines:
	writeline(line)


	def writeline(line):
	while True:
	try:
	sys.stdout.write(line)
	except IOError as e:
	if e.errno == errno.EAGAIN:
	continue
	break


	def main():
	parser = argparse.ArgumentParser(
	description=__doc__,
	formatter_class=argparse.RawDescriptionHelpFormatter)
	parser.add_argument("--file", "-f", nargs="?", type=argparse.FileType("r"),
	default=sys.stdin,
	help="File to read from, stdin by default")
	parser.add_argument("--build-dir", "-b", nargs="*",
	help="List of additional build directories to search")
	parser.add_argument("--disassemble", "-d", action="store_true",
	help="Show disassembly of each function")
	parser.add_argument("--stack_size", "-s", type=int,
	default=256*1024,
	help="Change the assumed size of the stack (e.g. use 1048576 for ftl or mtl default thread size")
	parser.add_argument("--echo", dest="echo", action="store_true",
	help="Echo lines of input (on by default)")
	parser.add_argument("--no-echo", dest="echo", action="store_false",
	help="Don't echo lines of input")
	parser.add_argument("app", nargs="?", help="Name of primary application")
	parser.set_defaults(echo=True)
	args = parser.parse_args()

	zircon_build_dir = os.path.join(
	os.path.dirname(SCRIPT_DIR), "build-zircon-pc-x86-64")
	if not os.path.exists(zircon_build_dir):
	zircon_build_dir = os.path.join(
	os.path.dirname(SCRIPT_DIR), os.pardir, "out", "build-zircon", "build-zircon-pc-x86-64")
	build_dirs = [zircon_build_dir]
	if args.build_dir:
	build_dirs = args.build_dir + build_dirs
	else:
	fuchsia_build_dir = os.path.abspath(os.path.join(
	os.path.dirname(SCRIPT_DIR), os.pardir, "out", "debug-x86-64"))
	build_dirs.insert(0, fuchsia_build_dir)

	# Parsing vars
	arch = "x86_64"
	name_to_buildid = {}
	processed_lines = []
	prev_sp = None
	prev_frame_num = None
	frame_sizes = []
	total_stack_size = 0

	# Regex for parsing
	# Either nothing, or something like "[00007.268] 00304.00325> "
	full_prefix = "^(\|\[\d+\.\d+\] \d+\.\d+> )"
	btre = re.compile(full_prefix + "bt#(\d+):")
	bt_with_offset_re = re.compile(full_prefix +
	"bt#(\d+): pc 0x[0-9a-f]+ sp (0x[0-9a-f]+) \(([^,]+),(0x[0-9a-f]+)\)$")
	bt_end_re = re.compile(full_prefix + "bt#(\d+): end")
	arch_re = re.compile(full_prefix + "arch: ([\\S]+)$")
	build_id_re = re.compile(full_prefix +
	"dso: id=([0-9a-z]+) base=(0x[0-9a-f]+) name=(.+)$")
	disasm_re = re.compile("^ *(0x[0-9a-f]+)( .+)$")

	# Zircon backtraces
	zircon_crash_re = re.compile("^ZIRCON KERNEL PANIC$")
	# TODO(cja): Add ARM to the regex
	zircon_pc_re = re.compile("RIP: (0x[0-9a-z]+)")
	zircon_bt_re = re.compile(full_prefix +
	"bt#(\d+): (\dx[0-9a-fA-F]+)$")
	zircon_elf_path = ''
	zircon_bt = False
	zircon_pc = ''

	while True:
	line = args.file.readline()
	if args.echo and not args.file.isatty():
	writeline(line)
	end_of_file = (line == '')
	# Strip any trailing carriage return character ("\r"), since
	# these appear in the serial console output from QEMU.
	line = line.rstrip()
	if bt_end_re.match(line):
	if len(processed_lines) != 0:
	writeline("\nstart of symbolized stack:\n")
	writelines(processed_lines)
	writeline("end of symbolized stack\n")

	if total_stack_size > args.stack_size - 8*1024:
	if total_stack_size >= args.stack_size:
	message = "Overflowed stack"
	else:
	message = "Potentially overflowed stack"
	writeline("WARNING: %s (total usage: %d, stack size: %d)\n" % (message, total_stack_size, args.stack_size))
	for frame, size in frame_sizes:
	writeline("#%s: %d bytes\n" % (frame, size))
	# Since we don't have the last stack frame, leave some leeway
	# when warning about stackoverflow
	processed_lines = []
	frames_sizes = []
	name_to_buildid = {}
	total_stack_size = 0
	prev_sp = None
	zircon_bt = False
	if end_of_file:
	break
	m = arch_re.match(line)
	if m:
	arch = m.group(2)
	continue
	m = build_id_re.match(line)
	if m:
	buildid = m.group(2)
	bias = int(m.group(3), 16)
	name = m.group(4)
	name_to_buildid[name] = buildid
	continue
	m = btre.match(line)
	if m and not zircon_bt:
	frame_num = m.group(2)
	m = bt_with_offset_re.match(line)
	if m:
	sp = int(m.group(3), 16)
	if prev_sp is not None:
	frame_size = sp - prev_sp
	total_stack_size += frame_size
	frame_sizes.append((prev_frame_num, frame_size))
	prev_sp = sp
	prev_frame_num = frame_num

	dso = m.group(4)
	off = m.group(5)
	dso_full_path = find_dso_full_path(
	dso, args.app, name_to_buildid, build_dirs)
	if dso_full_path:
	addr2line_output = run_tool(arch, "addr2line", "-Cipfe",
	dso_full_path, off)
	if addr2line_output:
	processed_lines.append(
	"#%s: %s" % (frame_num, addr2line_output))
	if args.disassemble:
	pc = int(off, 16)
	disassembly = run_tool(
	arch, "gdb", "--nx", "--batch", "-ex",
	"disassemble %#x" % pc, dso_full_path)
	if disassembly:
	for line in disassembly.splitlines():
	m = disasm_re.match(line)
	if m:
	timestamp, addr, rest = m.groups()
	addr = int(addr, 16)
	if addr == pc:
	prefix = "=> "
	else:
	prefix = " "
	line = "%s%#.16x%s" % (prefix, bias + addr, rest)
	processed_lines.append(line + "\n")
	continue

	# fallthru print if we don't recognize the format of the backtrace entry
	processed_lines.append("#%s: (unknown)\n" % (frame_num,))

	# Zircon Specific Handling
	if zircon_crash_re.search(line):
	zircon_elf_path = find_file_in_build_dir("zircon.elf", build_dirs)
	if zircon_elf_path:
	zircon_bt = True
	else:
	sys.stderr.write("Symbolize could not find the zircon elf binary. Perhaps you need to build "
	"zircon or specify the build directory with -b?\n")
	m = zircon_pc_re.search(line)
	if m:
	zircon_pc = m.group(1)
	m = zircon_bt_re.match(line)
	if m and zircon_bt:
	frame_num = m.group(2)
	addr = m.group(3)
	# If we saw the instruction pointer for the fault/panic then use it once
	if zircon_pc:
	prefix = " pc: %s => " % zircon_pc
	a2l_out = run_tool(arch, "addr2line", "-Cpife", zircon_elf_path,
	zircon_pc)
	processed_lines.append(prefix +
	a2l_out.replace("(inlined", (" " * len(prefix)) + "(inlined"))
	zircon_pc = None


	prefix = "bt#%s: %s => " % (frame_num, addr)
	# Subtract 1 to convert from a return address to a call site
	# address. (To be more exact, this converts to an address that
	# is within the call site instruction.) This adjustment gives
	# more correct results in the presence of inlining and
	# 'noreturn' functions. (See ZX-842.)
	call_addr = "0x%x" % (int(addr, 16) - 1)
	a2l_out = run_tool(arch, "addr2line", "-Cpife", zircon_elf_path,
	call_addr)
	# In the case of inlined methods, it is more readable if the
	# inlined lines are aligned to be to the right of "=>".
	processed_lines.append(prefix +
	a2l_out.replace("(inlined", (" " * len(prefix)) + "(inlined"))
	continue

	# Exit if we've reached the end of stdin
	if end_of_file:
	break

	if __name__ == '__main__':
	sys.exit(main())