src/third_party/llvm-project/lldb/utils/test/lldb-disasm.py - cobalt - Git at Google

 #!/usr/bin/env python

 """
 Run lldb to disassemble all the available functions for an executable image.

 """

 import os
 import re
 import sys
 from optparse import OptionParser


 def setupSysPath():
     """
     Add LLDB.framework/Resources/Python and the test dir to the sys.path.
     """
     # Get the directory containing the current script.
     scriptPath = sys.path[0]
     if not scriptPath.endswith(os.path.join('utils', 'test')):
         print "This script expects to reside in lldb's utils/test directory."
         sys.exit(-1)

     # This is our base name component.
     base = os.path.abspath(os.path.join(scriptPath, os.pardir, os.pardir))

     # This is for the goodies in the test directory under base.
     sys.path.append(os.path.join(base, 'test'))

     # These are for xcode build directories.
     xcode3_build_dir = ['build']
     xcode4_build_dir = ['build', 'lldb', 'Build', 'Products']
     dbg = ['Debug']
     rel = ['Release']
     bai = ['BuildAndIntegration']
     python_resource_dir = ['LLDB.framework', 'Resources', 'Python']

     dbgPath = os.path.join(
         base, *(xcode3_build_dir + dbg + python_resource_dir))
     dbgPath2 = os.path.join(
         base, *(xcode4_build_dir + dbg + python_resource_dir))
     relPath = os.path.join(
         base, *(xcode3_build_dir + rel + python_resource_dir))
     relPath2 = os.path.join(
         base, *(xcode4_build_dir + rel + python_resource_dir))
     baiPath = os.path.join(
         base, *(xcode3_build_dir + bai + python_resource_dir))
     baiPath2 = os.path.join(
         base, *(xcode4_build_dir + bai + python_resource_dir))

     lldbPath = None
     if os.path.isfile(os.path.join(dbgPath, 'lldb.py')):
         lldbPath = dbgPath
     elif os.path.isfile(os.path.join(dbgPath2, 'lldb.py')):
         lldbPath = dbgPath2
     elif os.path.isfile(os.path.join(relPath, 'lldb.py')):
         lldbPath = relPath
     elif os.path.isfile(os.path.join(relPath2, 'lldb.py')):
         lldbPath = relPath2
     elif os.path.isfile(os.path.join(baiPath, 'lldb.py')):
         lldbPath = baiPath
     elif os.path.isfile(os.path.join(baiPath2, 'lldb.py')):
         lldbPath = baiPath2

     if not lldbPath:
         print 'This script requires lldb.py to be in either ' + dbgPath + ',',
         print relPath + ', or ' + baiPath
         sys.exit(-1)

     # This is to locate the lldb.py module.  Insert it right after sys.path[0].
     sys.path[1:1] = [lldbPath]
     # print "sys.path:", sys.path


 def run_command(ci, cmd, res, echo=True):
     if echo:
         print "run command:", cmd
     ci.HandleCommand(cmd, res)
     if res.Succeeded():
         if echo:
             print "run_command output:", res.GetOutput()
     else:
         if echo:
             print "run command failed!"
             print "run_command error:", res.GetError()


 def do_lldb_disassembly(lldb_commands, exe, disassemble_options, num_symbols,
                         symbols_to_disassemble,
                         re_symbol_pattern,
                         quiet_disassembly):
     import lldb
     import atexit
     import re

     # Create the debugger instance now.
     dbg = lldb.SBDebugger.Create()
     if not dbg:
         raise Exception('Invalid debugger instance')

     # Register an exit callback.
     atexit.register(lambda: lldb.SBDebugger.Terminate())

     # We want our debugger to be synchronous.
     dbg.SetAsync(False)

     # Get the command interpreter from the debugger.
     ci = dbg.GetCommandInterpreter()
     if not ci:
         raise Exception('Could not get the command interpreter')

     # And the associated result object.
     res = lldb.SBCommandReturnObject()

     # See if there any extra command(s) to execute before we issue the file
     # command.
     for cmd in lldb_commands:
         run_command(ci, cmd, res, not quiet_disassembly)

     # Now issue the file command.
     run_command(ci, 'file %s' % exe, res, not quiet_disassembly)

     # Create a target.
     #target = dbg.CreateTarget(exe)
     target = dbg.GetSelectedTarget()
     stream = lldb.SBStream()

     def IsCodeType(symbol):
         """Check whether an SBSymbol represents code."""
         return symbol.GetType() == lldb.eSymbolTypeCode

     # Define a generator for the symbols to disassemble.
     def symbol_iter(num, symbols, re_symbol_pattern, target, verbose):
         # If we specify the symbols to disassemble, ignore symbol table dump.
         if symbols:
             for i in range(len(symbols)):
                 if verbose:
                     print "symbol:", symbols[i]
                 yield symbols[i]
         else:
             limited = True if num != -1 else False
             if limited:
                 count = 0
             if re_symbol_pattern:
                 pattern = re.compile(re_symbol_pattern)
             stream = lldb.SBStream()
             for m in target.module_iter():
                 if verbose:
                     print "module:", m
                 for s in m:
                     if limited and count >= num:
                         return
                     # If a regexp symbol pattern is supplied, consult it.
                     if re_symbol_pattern:
                         # If the pattern does not match, look for the next
                         # symbol.
                         if not pattern.match(s.GetName()):
                             continue

                     # If we come here, we're ready to disassemble the symbol.
                     if verbose:
                         print "symbol:", s.GetName()
                     if IsCodeType(s):
                         if limited:
                             count = count + 1
                             if verbose:
                                 print "returning symbol:", s.GetName()
                         yield s.GetName()
                     if verbose:
                         print "start address:", s.GetStartAddress()
                         print "end address:", s.GetEndAddress()
                         s.GetDescription(stream)
                         print "symbol description:", stream.GetData()
                         stream.Clear()

     # Disassembly time.
     for symbol in symbol_iter(
             num_symbols,
             symbols_to_disassemble,
             re_symbol_pattern,
             target,
             not quiet_disassembly):
         cmd = "disassemble %s '%s'" % (disassemble_options, symbol)
         run_command(ci, cmd, res, not quiet_disassembly)


 def main():
     # This is to set up the Python path to include the pexpect-2.4 dir.
     # Remember to update this when/if things change.
     scriptPath = sys.path[0]
     sys.path.append(
         os.path.join(
             scriptPath,
             os.pardir,
             os.pardir,
             'test',
             'pexpect-2.4'))

     parser = OptionParser(usage="""\
 Run lldb to disassemble all the available functions for an executable image.

 Usage: %prog [options]
 """)
     parser.add_option(
         '-C',
         '--lldb-command',
         type='string',
         action='append',
         metavar='COMMAND',
         default=[],
         dest='lldb_commands',
         help='Command(s) lldb executes after starting up (can be empty)')
     parser.add_option(
         '-e',
         '--executable',
         type='string',
         action='store',
         dest='executable',
         help="""Mandatory: the executable to do disassembly on.""")
     parser.add_option(
         '-o',
         '--options',
         type='string',
         action='store',
         dest='disassemble_options',
         help="""Mandatory: the options passed to lldb's 'disassemble' command.""")
     parser.add_option(
         '-q',
         '--quiet-disassembly',
         action='store_true',
         default=False,
         dest='quiet_disassembly',
         help="""The symbol(s) to invoke lldb's 'disassemble' command on, if specified.""")
     parser.add_option(
         '-n',
         '--num-symbols',
         type='int',
         action='store',
         default=-1,
         dest='num_symbols',
         help="""The number of symbols to disassemble, if specified.""")
     parser.add_option(
         '-p',
         '--symbol_pattern',
         type='string',
         action='store',
         dest='re_symbol_pattern',
         help="""The regular expression of symbols to invoke lldb's 'disassemble' command.""")
     parser.add_option(
         '-s',
         '--symbol',
         type='string',
         action='append',
         metavar='SYMBOL',
         default=[],
         dest='symbols_to_disassemble',
         help="""The symbol(s) to invoke lldb's 'disassemble' command on, if specified.""")

     opts, args = parser.parse_args()

     lldb_commands = opts.lldb_commands

     if not opts.executable or not opts.disassemble_options:
         parser.print_help()
         sys.exit(1)

     executable = opts.executable
     disassemble_options = opts.disassemble_options
     quiet_disassembly = opts.quiet_disassembly
     num_symbols = opts.num_symbols
     symbols_to_disassemble = opts.symbols_to_disassemble
     re_symbol_pattern = opts.re_symbol_pattern

     # We have parsed the options.
     if not quiet_disassembly:
         print "lldb commands:", lldb_commands
         print "executable:", executable
         print "disassemble options:", disassemble_options
         print "quiet disassembly output:", quiet_disassembly
         print "num of symbols to disassemble:", num_symbols
         print "symbols to disassemble:", symbols_to_disassemble
         print "regular expression of symbols to disassemble:", re_symbol_pattern

     setupSysPath()
     do_lldb_disassembly(lldb_commands, executable, disassemble_options,
                         num_symbols,
                         symbols_to_disassemble,
                         re_symbol_pattern,
                         quiet_disassembly)

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

	"""
	Run lldb to disassemble all the available functions for an executable image.

	"""

	import os
	import re
	import sys
	from optparse import OptionParser


	def setupSysPath():
	"""
	Add LLDB.framework/Resources/Python and the test dir to the sys.path.
	"""
	# Get the directory containing the current script.
	scriptPath = sys.path[0]
	if not scriptPath.endswith(os.path.join('utils', 'test')):
	print "This script expects to reside in lldb's utils/test directory."
	sys.exit(-1)

	# This is our base name component.
	base = os.path.abspath(os.path.join(scriptPath, os.pardir, os.pardir))

	# This is for the goodies in the test directory under base.
	sys.path.append(os.path.join(base, 'test'))

	# These are for xcode build directories.
	xcode3_build_dir = ['build']
	xcode4_build_dir = ['build', 'lldb', 'Build', 'Products']
	dbg = ['Debug']
	rel = ['Release']
	bai = ['BuildAndIntegration']
	python_resource_dir = ['LLDB.framework', 'Resources', 'Python']

	dbgPath = os.path.join(
	base, *(xcode3_build_dir + dbg + python_resource_dir))
	dbgPath2 = os.path.join(
	base, *(xcode4_build_dir + dbg + python_resource_dir))
	relPath = os.path.join(
	base, *(xcode3_build_dir + rel + python_resource_dir))
	relPath2 = os.path.join(
	base, *(xcode4_build_dir + rel + python_resource_dir))
	baiPath = os.path.join(
	base, *(xcode3_build_dir + bai + python_resource_dir))
	baiPath2 = os.path.join(
	base, *(xcode4_build_dir + bai + python_resource_dir))

	lldbPath = None
	if os.path.isfile(os.path.join(dbgPath, 'lldb.py')):
	lldbPath = dbgPath
	elif os.path.isfile(os.path.join(dbgPath2, 'lldb.py')):
	lldbPath = dbgPath2
	elif os.path.isfile(os.path.join(relPath, 'lldb.py')):
	lldbPath = relPath
	elif os.path.isfile(os.path.join(relPath2, 'lldb.py')):
	lldbPath = relPath2
	elif os.path.isfile(os.path.join(baiPath, 'lldb.py')):
	lldbPath = baiPath
	elif os.path.isfile(os.path.join(baiPath2, 'lldb.py')):
	lldbPath = baiPath2

	if not lldbPath:
	print 'This script requires lldb.py to be in either ' + dbgPath + ',',
	print relPath + ', or ' + baiPath
	sys.exit(-1)

	# This is to locate the lldb.py module. Insert it right after sys.path[0].
	sys.path[1:1] = [lldbPath]
	# print "sys.path:", sys.path


	def run_command(ci, cmd, res, echo=True):
	if echo:
	print "run command:", cmd
	ci.HandleCommand(cmd, res)
	if res.Succeeded():
	if echo:
	print "run_command output:", res.GetOutput()
	else:
	if echo:
	print "run command failed!"
	print "run_command error:", res.GetError()


	def do_lldb_disassembly(lldb_commands, exe, disassemble_options, num_symbols,
	symbols_to_disassemble,
	re_symbol_pattern,
	quiet_disassembly):
	import lldb
	import atexit
	import re

	# Create the debugger instance now.
	dbg = lldb.SBDebugger.Create()
	if not dbg:
	raise Exception('Invalid debugger instance')

	# Register an exit callback.
	atexit.register(lambda: lldb.SBDebugger.Terminate())

	# We want our debugger to be synchronous.
	dbg.SetAsync(False)

	# Get the command interpreter from the debugger.
	ci = dbg.GetCommandInterpreter()
	if not ci:
	raise Exception('Could not get the command interpreter')

	# And the associated result object.
	res = lldb.SBCommandReturnObject()

	# See if there any extra command(s) to execute before we issue the file
	# command.
	for cmd in lldb_commands:
	run_command(ci, cmd, res, not quiet_disassembly)

	# Now issue the file command.
	run_command(ci, 'file %s' % exe, res, not quiet_disassembly)

	# Create a target.
	#target = dbg.CreateTarget(exe)
	target = dbg.GetSelectedTarget()
	stream = lldb.SBStream()

	def IsCodeType(symbol):
	"""Check whether an SBSymbol represents code."""
	return symbol.GetType() == lldb.eSymbolTypeCode

	# Define a generator for the symbols to disassemble.
	def symbol_iter(num, symbols, re_symbol_pattern, target, verbose):
	# If we specify the symbols to disassemble, ignore symbol table dump.
	if symbols:
	for i in range(len(symbols)):
	if verbose:
	print "symbol:", symbols[i]
	yield symbols[i]
	else:
	limited = True if num != -1 else False
	if limited:
	count = 0
	if re_symbol_pattern:
	pattern = re.compile(re_symbol_pattern)
	stream = lldb.SBStream()
	for m in target.module_iter():
	if verbose:
	print "module:", m
	for s in m:
	if limited and count >= num:
	return
	# If a regexp symbol pattern is supplied, consult it.
	if re_symbol_pattern:
	# If the pattern does not match, look for the next
	# symbol.
	if not pattern.match(s.GetName()):
	continue

	# If we come here, we're ready to disassemble the symbol.
	if verbose:
	print "symbol:", s.GetName()
	if IsCodeType(s):
	if limited:
	count = count + 1
	if verbose:
	print "returning symbol:", s.GetName()
	yield s.GetName()
	if verbose:
	print "start address:", s.GetStartAddress()
	print "end address:", s.GetEndAddress()
	s.GetDescription(stream)
	print "symbol description:", stream.GetData()
	stream.Clear()

	# Disassembly time.
	for symbol in symbol_iter(
	num_symbols,
	symbols_to_disassemble,
	re_symbol_pattern,
	target,
	not quiet_disassembly):
	cmd = "disassemble %s '%s'" % (disassemble_options, symbol)
	run_command(ci, cmd, res, not quiet_disassembly)


	def main():
	# This is to set up the Python path to include the pexpect-2.4 dir.
	# Remember to update this when/if things change.
	scriptPath = sys.path[0]
	sys.path.append(
	os.path.join(
	scriptPath,
	os.pardir,
	os.pardir,
	'test',
	'pexpect-2.4'))

	parser = OptionParser(usage="""\
	Run lldb to disassemble all the available functions for an executable image.

	Usage: %prog [options]
	""")
	parser.add_option(
	'-C',
	'--lldb-command',
	type='string',
	action='append',
	metavar='COMMAND',
	default=[],
	dest='lldb_commands',
	help='Command(s) lldb executes after starting up (can be empty)')
	parser.add_option(
	'-e',
	'--executable',
	type='string',
	action='store',
	dest='executable',
	help="""Mandatory: the executable to do disassembly on.""")
	parser.add_option(
	'-o',
	'--options',
	type='string',
	action='store',
	dest='disassemble_options',
	help="""Mandatory: the options passed to lldb's 'disassemble' command.""")
	parser.add_option(
	'-q',
	'--quiet-disassembly',
	action='store_true',
	default=False,
	dest='quiet_disassembly',
	help="""The symbol(s) to invoke lldb's 'disassemble' command on, if specified.""")
	parser.add_option(
	'-n',
	'--num-symbols',
	type='int',
	action='store',
	default=-1,
	dest='num_symbols',
	help="""The number of symbols to disassemble, if specified.""")
	parser.add_option(
	'-p',
	'--symbol_pattern',
	type='string',
	action='store',
	dest='re_symbol_pattern',
	help="""The regular expression of symbols to invoke lldb's 'disassemble' command.""")
	parser.add_option(
	'-s',
	'--symbol',
	type='string',
	action='append',
	metavar='SYMBOL',
	default=[],
	dest='symbols_to_disassemble',
	help="""The symbol(s) to invoke lldb's 'disassemble' command on, if specified.""")

	opts, args = parser.parse_args()

	lldb_commands = opts.lldb_commands

	if not opts.executable or not opts.disassemble_options:
	parser.print_help()
	sys.exit(1)

	executable = opts.executable
	disassemble_options = opts.disassemble_options
	quiet_disassembly = opts.quiet_disassembly
	num_symbols = opts.num_symbols
	symbols_to_disassemble = opts.symbols_to_disassemble
	re_symbol_pattern = opts.re_symbol_pattern

	# We have parsed the options.
	if not quiet_disassembly:
	print "lldb commands:", lldb_commands
	print "executable:", executable
	print "disassemble options:", disassemble_options
	print "quiet disassembly output:", quiet_disassembly
	print "num of symbols to disassemble:", num_symbols
	print "symbols to disassemble:", symbols_to_disassemble
	print "regular expression of symbols to disassemble:", re_symbol_pattern

	setupSysPath()
	do_lldb_disassembly(lldb_commands, executable, disassemble_options,
	num_symbols,
	symbols_to_disassemble,
	re_symbol_pattern,
	quiet_disassembly)

	if __name__ == '__main__':
	main()