lld/test/MachO/tools/generate-cfi-funcs.py - llvm-project - Git at Google

 #!/usr/bin/env python

 """Generate skeletal functions with a variety .cfi_ directives.
 The purpose is to produce object-file test inputs to lld with a
 variety of compact unwind encodings.
 """
 from __future__ import print_function
 import random
 import argparse
 import string
 from math import factorial
 from itertools import permutations

 lsda_n = 0
 lsda_odds = 0.0
 func_size_low = 0x10
 func_size_high = 0x100
 saved_regs = ["%r15", "%r14", "%r13", "%r12", "%rbx"]
 saved_regs_combined = list(list(permutations(saved_regs, i))
                            for i in range(0,6))

 def print_function(name):
   global lsda_odds
   have_lsda = (random.random() < lsda_odds)
   frame_size = random.randint(4, 64) * 16
   frame_offset = -random.randint(0, (frame_size/16 - 4)) * 16
   reg_count = random.randint(0, 5)
   reg_combo = random.randint(0, factorial(reg_count) - 1)
   regs_saved = saved_regs_combined[reg_count][reg_combo]
   global func_size_low, func_size_high
   func_size = random.randint(func_size_low, func_size_high) * 0x10
   func_size_high += 1
   if func_size_high % 0x10 == 0:
     func_size_low += 1

   print("""\
 ### %s regs=%d frame=%d lsda=%s size=%d
     .section __TEXT,__text,regular,pure_instructions
     .p2align 4, 0x90
     .globl %s
 %s:
     .cfi_startproc""" % (
         name, reg_count, frame_size, have_lsda, func_size, name, name))
   if have_lsda:
     global lsda_n
     lsda_n += 1
     print("""\
     .cfi_personality 155, ___gxx_personality_v0
     .cfi_lsda 16, Lexception%d""" % lsda_n)
   print("""\
     pushq %%rbp
     .cfi_def_cfa_offset %d
     .cfi_offset %%rbp, %d
     movq %%rsp, %%rbp
     .cfi_def_cfa_register %%rbp""" % (frame_size, frame_offset + 6*8))
   for i in range(reg_count):
     print(".cfi_offset %s, %d" % (regs_saved[i], frame_offset+(i*8)))
   print("""\
     .fill %d
     popq %%rbp
     retq
     .cfi_endproc
 """ % (func_size - 6))

   if have_lsda:
     print("""\
     .section __TEXT,__gcc_except_tab
     .p2align 2
 Lexception%d:
     .space 0x10
 """ % lsda_n)
   return func_size

 def random_seed():
   """Generate a seed that can easily be passsed back in via --seed=STRING"""
   return ''.join(random.choice(string.ascii_lowercase) for i in range(10))

 def main():
   parser = argparse.ArgumentParser(
     description=__doc__,
     epilog="""\
 Function sizes begin small then monotonically increase.  The goal is
 to produce early pages that are full and later pages that are less
 than full, in order to test handling for both cases.  Full pages
 contain the maximum of 1021 compact unwind entries for a total page
 size = 4 KiB.

 Use --pages=N or --functions=N to control the size of the output.
 Default is --pages=2, meaning produce at least two full pages of
 compact unwind entries, plus some more. The calculatation is sloppy.
 """)
   parser.add_argument('--seed', type=str, default=random_seed(),
                       help='Seed the random number generator')
   parser.add_argument('--pages', type=int, default=2,
                       help='Number of compact-unwind pages')
   parser.add_argument('--functions', type=int, default=None,
                       help='Number of functions to generate')
   parser.add_argument('--encodings', type=int, default=127,
                       help='Maximum number of unique unwind encodings (default = 127)')
   parser.add_argument('--lsda', type=int, default=0,
                       help='Percentage of functions with personality & LSDA (default = 10')
   args = parser.parse_args()
   random.seed(args.seed)
   p2align = 14
   global lsda_odds
   lsda_odds = args.lsda / 100.0

   print("""\
 ### seed=%s lsda=%f p2align=%d
     .section __TEXT,__text,regular,pure_instructions
     .p2align %d, 0x90
 """ % (args.seed, lsda_odds, p2align, p2align))

   size = 0
   base = (1 << p2align)
   if args.functions:
     for n in range(args.functions):
       size += print_function("x%08x" % (size+base))
   else:
     while size < (args.pages << 24):
       size += print_function("x%08x" % (size+base))

   print("""\
     .section __TEXT,__text,regular,pure_instructions
     .globl _main
     .p2align 4, 0x90
 _main:
     retq

     .p2align 4, 0x90
 ___gxx_personality_v0:
     retq
 """)


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

	"""Generate skeletal functions with a variety .cfi_ directives.
	The purpose is to produce object-file test inputs to lld with a
	variety of compact unwind encodings.
	"""
	from __future__ import print_function
	import random
	import argparse
	import string
	from math import factorial
	from itertools import permutations

	lsda_n = 0
	lsda_odds = 0.0
	func_size_low = 0x10
	func_size_high = 0x100
	saved_regs = ["%r15", "%r14", "%r13", "%r12", "%rbx"]
	saved_regs_combined = list(list(permutations(saved_regs, i))
	for i in range(0,6))

	def print_function(name):
	global lsda_odds
	have_lsda = (random.random() < lsda_odds)
	frame_size = random.randint(4, 64) * 16
	frame_offset = -random.randint(0, (frame_size/16 - 4)) * 16
	reg_count = random.randint(0, 5)
	reg_combo = random.randint(0, factorial(reg_count) - 1)
	regs_saved = saved_regs_combined[reg_count][reg_combo]
	global func_size_low, func_size_high
	func_size = random.randint(func_size_low, func_size_high) * 0x10
	func_size_high += 1
	if func_size_high % 0x10 == 0:
	func_size_low += 1

	print("""\
	### %s regs=%d frame=%d lsda=%s size=%d
	.section __TEXT,__text,regular,pure_instructions
	.p2align 4, 0x90
	.globl %s
	%s:
	.cfi_startproc""" % (
	name, reg_count, frame_size, have_lsda, func_size, name, name))
	if have_lsda:
	global lsda_n
	lsda_n += 1
	print("""\
	.cfi_personality 155, ___gxx_personality_v0
	.cfi_lsda 16, Lexception%d""" % lsda_n)
	print("""\
	pushq %%rbp
	.cfi_def_cfa_offset %d
	.cfi_offset %%rbp, %d
	movq %%rsp, %%rbp
	.cfi_def_cfa_register %%rbp""" % (frame_size, frame_offset + 6*8))
	for i in range(reg_count):
	print(".cfi_offset %s, %d" % (regs_saved[i], frame_offset+(i*8)))
	print("""\
	.fill %d
	popq %%rbp
	retq
	.cfi_endproc
	""" % (func_size - 6))

	if have_lsda:
	print("""\
	.section __TEXT,__gcc_except_tab
	.p2align 2
	Lexception%d:
	.space 0x10
	""" % lsda_n)
	return func_size

	def random_seed():
	"""Generate a seed that can easily be passsed back in via --seed=STRING"""
	return ''.join(random.choice(string.ascii_lowercase) for i in range(10))

	def main():
	parser = argparse.ArgumentParser(
	description=__doc__,
	epilog="""\
	Function sizes begin small then monotonically increase. The goal is
	to produce early pages that are full and later pages that are less
	than full, in order to test handling for both cases. Full pages
	contain the maximum of 1021 compact unwind entries for a total page
	size = 4 KiB.

	Use --pages=N or --functions=N to control the size of the output.
	Default is --pages=2, meaning produce at least two full pages of
	compact unwind entries, plus some more. The calculatation is sloppy.
	""")
	parser.add_argument('--seed', type=str, default=random_seed(),
	help='Seed the random number generator')
	parser.add_argument('--pages', type=int, default=2,
	help='Number of compact-unwind pages')
	parser.add_argument('--functions', type=int, default=None,
	help='Number of functions to generate')
	parser.add_argument('--encodings', type=int, default=127,
	help='Maximum number of unique unwind encodings (default = 127)')
	parser.add_argument('--lsda', type=int, default=0,
	help='Percentage of functions with personality & LSDA (default = 10')
	args = parser.parse_args()
	random.seed(args.seed)
	p2align = 14
	global lsda_odds
	lsda_odds = args.lsda / 100.0

	print("""\
	### seed=%s lsda=%f p2align=%d
	.section __TEXT,__text,regular,pure_instructions
	.p2align %d, 0x90
	""" % (args.seed, lsda_odds, p2align, p2align))

	size = 0
	base = (1 << p2align)
	if args.functions:
	for n in range(args.functions):
	size += print_function("x%08x" % (size+base))
	else:
	while size < (args.pages << 24):
	size += print_function("x%08x" % (size+base))

	print("""\
	.section __TEXT,__text,regular,pure_instructions
	.globl _main
	.p2align 4, 0x90
	_main:
	retq

	.p2align 4, 0x90
	___gxx_personality_v0:
	retq
	""")


	if __name__ == '__main__':
	main()