src/v8/tools/ignition/linux_perf_bytecode_annotate.py - cobalt - Git at Google

 #! /usr/bin/python2
 #
 # Copyright 2016 the V8 project 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 argparse
 import collections
 import os
 import subprocess
 import sys


 __DESCRIPTION = """
 Processes a perf.data sample file and annotates the hottest instructions in a
 given bytecode handler.
 """


 __HELP_EPILOGUE = """
 Note:
   This tool uses the disassembly of interpreter's bytecode handler codegen
   from out/<arch>.debug/d8. you should ensure that this binary is in-sync with
   the version used to generate the perf profile.

   Also, the tool depends on the symbol offsets from perf samples being accurate.
   As such, you should use the ":pp" suffix for events.

 Examples:
   EVENT_TYPE=cycles:pp tools/run-perf.sh out/x64.release/d8
   tools/ignition/linux_perf_bytecode_annotate.py Add
 """


 def bytecode_offset_generator(perf_stream, bytecode_name):
   skip_until_end_of_chain = False
   bytecode_symbol = "BytecodeHandler:" + bytecode_name;

   for line in perf_stream:
     # Lines starting with a "#" are comments, skip them.
     if line[0] == "#":
       continue
     line = line.strip()

     # Empty line signals the end of the callchain.
     if not line:
       skip_until_end_of_chain = False
       continue

     if skip_until_end_of_chain:
       continue

     symbol_and_offset = line.split(" ", 1)[1]

     if symbol_and_offset.startswith("BytecodeHandler:"):
       skip_until_end_of_chain = True

       if symbol_and_offset.startswith(bytecode_symbol):
         yield int(symbol_and_offset.split("+", 1)[1], 16)


 def bytecode_offset_counts(bytecode_offsets):
   offset_counts = collections.defaultdict(int)
   for offset in bytecode_offsets:
     offset_counts[offset] += 1
   return offset_counts


 def bytecode_disassembly_generator(ignition_codegen, bytecode_name):
   name_string = "name = " + bytecode_name
   for line in ignition_codegen:
     if line.startswith(name_string):
       break

   # Found the bytecode disassembly.
   for line in ignition_codegen:
     line = line.strip()
     # Blank line marks the end of the bytecode's disassembly.
     if not line:
       return

     # Only yield disassembly output.
     if not line.startswith("0x"):
       continue

     yield line


 def print_disassembly_annotation(offset_counts, bytecode_disassembly):
   total = sum(offset_counts.values())
   offsets = sorted(offset_counts, reverse=True)
   def next_offset():
     return offsets.pop() if offsets else -1

   current_offset = next_offset()
   print current_offset;

   for line in bytecode_disassembly:
     disassembly_offset = int(line.split()[1])
     if disassembly_offset == current_offset:
       count = offset_counts[current_offset]
       percentage = 100.0 * count / total
       print "{:>8d} ({:>5.1f}%) ".format(count, percentage),
       current_offset = next_offset()
     else:
       print "                ",
     print line

   if offsets:
     print ("WARNING: Offsets not empty. Output is most likely invalid due to "
            "a mismatch between perf output and debug d8 binary.")


 def parse_command_line():
   command_line_parser = argparse.ArgumentParser(
       formatter_class=argparse.RawDescriptionHelpFormatter,
       description=__DESCRIPTION,
       epilog=__HELP_EPILOGUE)

   command_line_parser.add_argument(
       "--arch", "-a",
       help="The architecture (default: x64)",
       default="x64",
   )
   command_line_parser.add_argument(
       "--input", "-i",
       help="perf sample file to process (default: perf.data)",
       default="perf.data",
       metavar="<perf filename>",
       dest="perf_filename"
   )
   command_line_parser.add_argument(
       "--output", "-o",
       help="output file name (stdout if omitted)",
       type=argparse.FileType("wt"),
       default=sys.stdout,
       metavar="<output filename>",
       dest="output_stream"
   )
   command_line_parser.add_argument(
       "bytecode_name",
       metavar="<bytecode name>",
       nargs="?",
       help="The bytecode handler to annotate"
   )

   return command_line_parser.parse_args()


 def main():
   program_options = parse_command_line()
   perf = subprocess.Popen(["perf", "script", "-f", "ip,sym,symoff",
                            "-i", program_options.perf_filename],
                           stdout=subprocess.PIPE)

   v8_root_path = os.path.dirname(__file__) + "/../../"
   d8_path = "{}/out/{}.debug/d8".format(v8_root_path, program_options.arch)
   d8_codegen = subprocess.Popen([d8_path, "--trace-ignition-codegen",
                                  "-e", "1"],
                                 stdout=subprocess.PIPE)

   bytecode_offsets = bytecode_offset_generator(
       perf.stdout, program_options.bytecode_name)
   offset_counts = bytecode_offset_counts(bytecode_offsets)

   bytecode_disassembly = bytecode_disassembly_generator(
       d8_codegen.stdout, program_options.bytecode_name)

   print_disassembly_annotation(offset_counts, bytecode_disassembly)


 if __name__ == "__main__":
   main()
	#! /usr/bin/python2
	#
	# Copyright 2016 the V8 project 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 argparse
	import collections
	import os
	import subprocess
	import sys


	__DESCRIPTION = """
	Processes a perf.data sample file and annotates the hottest instructions in a
	given bytecode handler.
	"""


	__HELP_EPILOGUE = """
	Note:
	This tool uses the disassembly of interpreter's bytecode handler codegen
	from out/<arch>.debug/d8. you should ensure that this binary is in-sync with
	the version used to generate the perf profile.

	Also, the tool depends on the symbol offsets from perf samples being accurate.
	As such, you should use the ":pp" suffix for events.

	Examples:
	EVENT_TYPE=cycles:pp tools/run-perf.sh out/x64.release/d8
	tools/ignition/linux_perf_bytecode_annotate.py Add
	"""


	def bytecode_offset_generator(perf_stream, bytecode_name):
	skip_until_end_of_chain = False
	bytecode_symbol = "BytecodeHandler:" + bytecode_name;

	for line in perf_stream:
	# Lines starting with a "#" are comments, skip them.
	if line[0] == "#":
	continue
	line = line.strip()

	# Empty line signals the end of the callchain.
	if not line:
	skip_until_end_of_chain = False
	continue

	if skip_until_end_of_chain:
	continue

	symbol_and_offset = line.split(" ", 1)[1]

	if symbol_and_offset.startswith("BytecodeHandler:"):
	skip_until_end_of_chain = True

	if symbol_and_offset.startswith(bytecode_symbol):
	yield int(symbol_and_offset.split("+", 1)[1], 16)


	def bytecode_offset_counts(bytecode_offsets):
	offset_counts = collections.defaultdict(int)
	for offset in bytecode_offsets:
	offset_counts[offset] += 1
	return offset_counts


	def bytecode_disassembly_generator(ignition_codegen, bytecode_name):
	name_string = "name = " + bytecode_name
	for line in ignition_codegen:
	if line.startswith(name_string):
	break

	# Found the bytecode disassembly.
	for line in ignition_codegen:
	line = line.strip()
	# Blank line marks the end of the bytecode's disassembly.
	if not line:
	return

	# Only yield disassembly output.
	if not line.startswith("0x"):
	continue

	yield line


	def print_disassembly_annotation(offset_counts, bytecode_disassembly):
	total = sum(offset_counts.values())
	offsets = sorted(offset_counts, reverse=True)
	def next_offset():
	return offsets.pop() if offsets else -1

	current_offset = next_offset()
	print current_offset;

	for line in bytecode_disassembly:
	disassembly_offset = int(line.split()[1])
	if disassembly_offset == current_offset:
	count = offset_counts[current_offset]
	percentage = 100.0 * count / total
	print "{:>8d} ({:>5.1f}%) ".format(count, percentage),
	current_offset = next_offset()
	else:
	print " ",
	print line

	if offsets:
	print ("WARNING: Offsets not empty. Output is most likely invalid due to "
	"a mismatch between perf output and debug d8 binary.")


	def parse_command_line():
	command_line_parser = argparse.ArgumentParser(
	formatter_class=argparse.RawDescriptionHelpFormatter,
	description=__DESCRIPTION,
	epilog=__HELP_EPILOGUE)

	command_line_parser.add_argument(
	"--arch", "-a",
	help="The architecture (default: x64)",
	default="x64",
	)
	command_line_parser.add_argument(
	"--input", "-i",
	help="perf sample file to process (default: perf.data)",
	default="perf.data",
	metavar="<perf filename>",
	dest="perf_filename"
	)
	command_line_parser.add_argument(
	"--output", "-o",
	help="output file name (stdout if omitted)",
	type=argparse.FileType("wt"),
	default=sys.stdout,
	metavar="<output filename>",
	dest="output_stream"
	)
	command_line_parser.add_argument(
	"bytecode_name",
	metavar="<bytecode name>",
	nargs="?",
	help="The bytecode handler to annotate"
	)

	return command_line_parser.parse_args()


	def main():
	program_options = parse_command_line()
	perf = subprocess.Popen(["perf", "script", "-f", "ip,sym,symoff",
	"-i", program_options.perf_filename],
	stdout=subprocess.PIPE)

	v8_root_path = os.path.dirname(__file__) + "/../../"
	d8_path = "{}/out/{}.debug/d8".format(v8_root_path, program_options.arch)
	d8_codegen = subprocess.Popen([d8_path, "--trace-ignition-codegen",
	"-e", "1"],
	stdout=subprocess.PIPE)

	bytecode_offsets = bytecode_offset_generator(
	perf.stdout, program_options.bytecode_name)
	offset_counts = bytecode_offset_counts(bytecode_offsets)

	bytecode_disassembly = bytecode_disassembly_generator(
	d8_codegen.stdout, program_options.bytecode_name)

	print_disassembly_annotation(offset_counts, bytecode_disassembly)


	if __name__ == "__main__":
	main()