bolt/test/link_fdata.py - llvm-project - Git at Google

 #!/usr/bin/env python3

 """
 This script reads the input from stdin, extracts all lines starting with
 "# FDATA: " (or a given prefix instead of "FDATA"), parses the directives,
 replaces symbol names ("#name#") with either symbol values or with offsets from
 respective anchor symbols, and prints the resulting file to stdout.
 """

 import argparse
 import subprocess
 import sys
 import re

 parser = argparse.ArgumentParser()
 parser.add_argument("input")
 parser.add_argument("objfile", help="Object file to extract symbol values from")
 parser.add_argument("output")
 parser.add_argument("prefix", nargs="?", default="FDATA", help="Custom FDATA prefix")
 parser.add_argument("--nmtool", default="nm", help="Path to nm tool")

 args = parser.parse_args()

 # Regexes to extract FDATA lines from input and parse FDATA and pre-aggregated
 # profile data
 prefix_pat = re.compile(f"^# {args.prefix}: (.*)")

 # FDATA records:
 # <is symbol?> <closest elf symbol or DSO name> <relative FROM address>
 # <is symbol?> <closest elf symbol or DSO name> <relative TO address>
 # <number of mispredictions> <number of branches>
 fdata_pat = re.compile(r"([01].*) (?P<exec>\d+) (?P<mispred>\d+)")

 # Pre-aggregated profile:
 # {B|F|f} [<start_id>:]<start_offset> [<end_id>:]<end_offset> <count>
 # [<mispred_count>]
 preagg_pat = re.compile(r"(?P<type>[BFf]) (?P<offsets_count>.*)")

 # Replacement symbol: #symname#
 replace_pat = re.compile(r"#(?P<symname>[^#]+)#")

 # Read input and construct the representation of fdata expressions
 # as (src_tuple, dst_tuple, mispred_count, exec_count) tuples, where src and dst
 # are represented as (is_sym, anchor, offset) tuples
 exprs = []
 with open(args.input, 'r') as f:
     for line in f.readlines():
         prefix_match = prefix_pat.match(line)
         if not prefix_match:
             continue
         profile_line = prefix_match.group(1)
         fdata_match = fdata_pat.match(profile_line)
         preagg_match = preagg_pat.match(profile_line)
         if fdata_match:
             src_dst, execnt, mispred = fdata_match.groups()
             # Split by whitespaces not preceded by a backslash (negative lookbehind)
             chunks = re.split(r'(?<!\\) +', src_dst)
             # Check if the number of records separated by non-escaped whitespace
             # exactly matches the format.
             assert len(chunks) == 6, f"ERROR: wrong format/whitespaces must be escaped:\n{line}"
             exprs.append(('FDATA', (*chunks, execnt, mispred)))
         elif preagg_match:
             exprs.append(('PREAGG', preagg_match.groups()))
         else:
             exit("ERROR: unexpected input:\n%s" % line)

 # Read nm output: <symbol value> <symbol type> <symbol name>
 nm_output = subprocess.run([args.nmtool, '--defined-only', args.objfile],
                            text = True, capture_output = True).stdout
 # Populate symbol map
 symbols = {}
 for symline in nm_output.splitlines():
     symval, _, symname = symline.split(maxsplit=2)
     symbols[symname] = symval

 def evaluate_symbol(issym, anchor, offsym):
     sym_match = replace_pat.match(offsym)
     if not sym_match:
         # No need to evaluate symbol value, return as is
         return f'{issym} {anchor} {offsym}'
     symname = sym_match.group('symname')
     assert symname in symbols, f"ERROR: symbol {symname} is not defined in binary"
     # Evaluate to an absolute offset if issym is false
     if issym == '0':
         return f'{issym} {anchor} {symbols[symname]}'
     # Evaluate symbol against its anchor if issym is true
     assert anchor in symbols, f"ERROR: symbol {anchor} is not defined in binary"
     anchor_value = int(symbols[anchor], 16)
     symbol_value = int(symbols[symname], 16)
     sym_offset = symbol_value - anchor_value
     return f'{issym} {anchor} {format(sym_offset, "x")}'

 def replace_symbol(matchobj):
     '''
     Expects matchobj to only capture one group which contains the symbol name.
     '''
     symname = matchobj.group('symname')
     assert symname in symbols, f"ERROR: symbol {symname} is not defined in binary"
     return symbols[symname]

 with open(args.output, 'w') as f:
     for etype, expr in exprs:
         if etype == 'FDATA':
             issym1, anchor1, offsym1, issym2, anchor2, offsym2, execnt, mispred = expr
             print(evaluate_symbol(issym1, anchor1, offsym1),
                   evaluate_symbol(issym2, anchor2, offsym2),
                   execnt, mispred, file = f)
         elif etype == 'PREAGG':
             # Replace all symbols enclosed in ##
             print(expr[0], re.sub(replace_pat, replace_symbol, expr[1]),
                   file = f)
         else:
             exit("ERROR: unhandled expression type:\n%s" % etype)
	#!/usr/bin/env python3

	"""
	This script reads the input from stdin, extracts all lines starting with
	"# FDATA: " (or a given prefix instead of "FDATA"), parses the directives,
	replaces symbol names ("#name#") with either symbol values or with offsets from
	respective anchor symbols, and prints the resulting file to stdout.
	"""

	import argparse
	import subprocess
	import sys
	import re

	parser = argparse.ArgumentParser()
	parser.add_argument("input")
	parser.add_argument("objfile", help="Object file to extract symbol values from")
	parser.add_argument("output")
	parser.add_argument("prefix", nargs="?", default="FDATA", help="Custom FDATA prefix")
	parser.add_argument("--nmtool", default="nm", help="Path to nm tool")

	args = parser.parse_args()

	# Regexes to extract FDATA lines from input and parse FDATA and pre-aggregated
	# profile data
	prefix_pat = re.compile(f"^# {args.prefix}: (.*)")

	# FDATA records:
	# <is symbol?> <closest elf symbol or DSO name> <relative FROM address>
	# <is symbol?> <closest elf symbol or DSO name> <relative TO address>
	# <number of mispredictions> <number of branches>
	fdata_pat = re.compile(r"([01].*) (?P<exec>\d+) (?P<mispred>\d+)")

	# Pre-aggregated profile:
	# {B\|F\|f} [<start_id>:]<start_offset> [<end_id>:]<end_offset> <count>
	# [<mispred_count>]
	preagg_pat = re.compile(r"(?P<type>[BFf]) (?P<offsets_count>.*)")

	# Replacement symbol: #symname#
	replace_pat = re.compile(r"#(?P<symname>[^#]+)#")

	# Read input and construct the representation of fdata expressions
	# as (src_tuple, dst_tuple, mispred_count, exec_count) tuples, where src and dst
	# are represented as (is_sym, anchor, offset) tuples
	exprs = []
	with open(args.input, 'r') as f:
	for line in f.readlines():
	prefix_match = prefix_pat.match(line)
	if not prefix_match:
	continue
	profile_line = prefix_match.group(1)
	fdata_match = fdata_pat.match(profile_line)
	preagg_match = preagg_pat.match(profile_line)
	if fdata_match:
	src_dst, execnt, mispred = fdata_match.groups()
	# Split by whitespaces not preceded by a backslash (negative lookbehind)
	chunks = re.split(r'(?<!\\) +', src_dst)
	# Check if the number of records separated by non-escaped whitespace
	# exactly matches the format.
	assert len(chunks) == 6, f"ERROR: wrong format/whitespaces must be escaped:\n{line}"
	exprs.append(('FDATA', (*chunks, execnt, mispred)))
	elif preagg_match:
	exprs.append(('PREAGG', preagg_match.groups()))
	else:
	exit("ERROR: unexpected input:\n%s" % line)

	# Read nm output: <symbol value> <symbol type> <symbol name>
	nm_output = subprocess.run([args.nmtool, '--defined-only', args.objfile],
	text = True, capture_output = True).stdout
	# Populate symbol map
	symbols = {}
	for symline in nm_output.splitlines():
	symval, _, symname = symline.split(maxsplit=2)
	symbols[symname] = symval

	def evaluate_symbol(issym, anchor, offsym):
	sym_match = replace_pat.match(offsym)
	if not sym_match:
	# No need to evaluate symbol value, return as is
	return f'{issym} {anchor} {offsym}'
	symname = sym_match.group('symname')
	assert symname in symbols, f"ERROR: symbol {symname} is not defined in binary"
	# Evaluate to an absolute offset if issym is false
	if issym == '0':
	return f'{issym} {anchor} {symbols[symname]}'
	# Evaluate symbol against its anchor if issym is true
	assert anchor in symbols, f"ERROR: symbol {anchor} is not defined in binary"
	anchor_value = int(symbols[anchor], 16)
	symbol_value = int(symbols[symname], 16)
	sym_offset = symbol_value - anchor_value
	return f'{issym} {anchor} {format(sym_offset, "x")}'

	def replace_symbol(matchobj):
	'''
	Expects matchobj to only capture one group which contains the symbol name.
	'''
	symname = matchobj.group('symname')
	assert symname in symbols, f"ERROR: symbol {symname} is not defined in binary"
	return symbols[symname]

	with open(args.output, 'w') as f:
	for etype, expr in exprs:
	if etype == 'FDATA':
	issym1, anchor1, offsym1, issym2, anchor2, offsym2, execnt, mispred = expr
	print(evaluate_symbol(issym1, anchor1, offsym1),
	evaluate_symbol(issym2, anchor2, offsym2),
	execnt, mispred, file = f)
	elif etype == 'PREAGG':
	# Replace all symbols enclosed in ##
	print(expr[0], re.sub(replace_pat, replace_symbol, expr[1]),
	file = f)
	else:
	exit("ERROR: unhandled expression type:\n%s" % etype)