#!/usr/bin/env python #---------------------------------------------------------------------- # Be sure to add the python path that points to the LLDB shared library. # # To use this in the embedded python interpreter using "lldb": # # cd /path/containing/crashlog.py # lldb # (lldb) script import crashlog # "crashlog" command installed, type "crashlog --help" for detailed help # (lldb) crashlog ~/Library/Logs/DiagnosticReports/a.crash # # The benefit of running the crashlog command inside lldb in the # embedded python interpreter is when the command completes, there # will be a target with all of the files loaded at the locations # described in the crash log. Only the files that have stack frames # in the backtrace will be loaded unless the "--load-all" option # has been specified. This allows users to explore the program in the # state it was in right at crash time. # # On MacOSX csh, tcsh: # ( setenv PYTHONPATH /path/to/LLDB.framework/Resources/Python ; ./crashlog.py ~/Library/Logs/DiagnosticReports/a.crash ) # # On MacOSX sh, bash: # PYTHONPATH=/path/to/LLDB.framework/Resources/Python ./crashlog.py ~/Library/Logs/DiagnosticReports/a.crash #---------------------------------------------------------------------- from __future__ import print_function import lldb import optparse import os import plistlib import re import shlex import sys import time import uuid class Address: """Class that represents an address that will be symbolicated""" def __init__(self, target, load_addr): self.target = target self.load_addr = load_addr # The load address that this object represents # the resolved lldb.SBAddress (if any), named so_addr for # section/offset address self.so_addr = None self.sym_ctx = None # The cached symbol context for this address # Any original textual description of this address to be used as a # backup in case symbolication fails self.description = None self.symbolication = None # The cached symbolicated string that describes this address self.inlined = False def __str__(self): s = "%#16.16x" % (self.load_addr) if self.symbolication: s += " %s" % (self.symbolication) elif self.description: s += " %s" % (self.description) elif self.so_addr: s += " %s" % (self.so_addr) return s def resolve_addr(self): if self.so_addr is None: self.so_addr = self.target.ResolveLoadAddress(self.load_addr) return self.so_addr def is_inlined(self): return self.inlined def get_symbol_context(self): if self.sym_ctx is None: sb_addr = self.resolve_addr() if sb_addr: self.sym_ctx = self.target.ResolveSymbolContextForAddress( sb_addr, lldb.eSymbolContextEverything) else: self.sym_ctx = lldb.SBSymbolContext() return self.sym_ctx def get_instructions(self): sym_ctx = self.get_symbol_context() if sym_ctx: function = sym_ctx.GetFunction() if function: return function.GetInstructions(self.target) return sym_ctx.GetSymbol().GetInstructions(self.target) return None def symbolicate(self, verbose=False): if self.symbolication is None: self.symbolication = '' self.inlined = False sym_ctx = self.get_symbol_context() if sym_ctx: module = sym_ctx.GetModule() if module: # Print full source file path in verbose mode if verbose: self.symbolication += str(module.GetFileSpec()) + '`' else: self.symbolication += module.GetFileSpec().GetFilename() + '`' function_start_load_addr = -1 function = sym_ctx.GetFunction() block = sym_ctx.GetBlock() line_entry = sym_ctx.GetLineEntry() symbol = sym_ctx.GetSymbol() inlined_block = block.GetContainingInlinedBlock() if function: self.symbolication += function.GetName() if inlined_block: self.inlined = True self.symbolication += ' [inlined] ' + \ inlined_block.GetInlinedName() block_range_idx = inlined_block.GetRangeIndexForBlockAddress( self.so_addr) if block_range_idx < lldb.UINT32_MAX: block_range_start_addr = inlined_block.GetRangeStartAddress( block_range_idx) function_start_load_addr = block_range_start_addr.GetLoadAddress( self.target) if function_start_load_addr == -1: function_start_load_addr = function.GetStartAddress().GetLoadAddress(self.target) elif symbol: self.symbolication += symbol.GetName() function_start_load_addr = symbol.GetStartAddress().GetLoadAddress(self.target) else: self.symbolication = '' return False # Dump the offset from the current function or symbol if it # is non zero function_offset = self.load_addr - function_start_load_addr if function_offset > 0: self.symbolication += " + %u" % (function_offset) elif function_offset < 0: self.symbolication += " %i (invalid negative offset, file a bug) " % function_offset # Print out any line information if any is available if line_entry.GetFileSpec(): # Print full source file path in verbose mode if verbose: self.symbolication += ' at %s' % line_entry.GetFileSpec() else: self.symbolication += ' at %s' % line_entry.GetFileSpec().GetFilename() self.symbolication += ':%u' % line_entry.GetLine() column = line_entry.GetColumn() if column > 0: self.symbolication += ':%u' % column return True return False class Section: """Class that represents an load address range""" sect_info_regex = re.compile('(?P[^=]+)=(?P.*)') addr_regex = re.compile('^\s*(?P0x[0-9A-Fa-f]+)\s*$') range_regex = re.compile( '^\s*(?P0x[0-9A-Fa-f]+)\s*(?P[-+])\s*(?P0x[0-9A-Fa-f]+)\s*$') def __init__(self, start_addr=None, end_addr=None, name=None): self.start_addr = start_addr self.end_addr = end_addr self.name = name @classmethod def InitWithSBTargetAndSBSection(cls, target, section): sect_load_addr = section.GetLoadAddress(target) if sect_load_addr != lldb.LLDB_INVALID_ADDRESS: obj = cls( sect_load_addr, sect_load_addr + section.size, section.name) return obj else: return None def contains(self, addr): return self.start_addr <= addr and addr < self.end_addr def set_from_string(self, s): match = self.sect_info_regex.match(s) if match: self.name = match.group('name') range_str = match.group('range') addr_match = self.addr_regex.match(range_str) if addr_match: self.start_addr = int(addr_match.group('start'), 16) self.end_addr = None return True range_match = self.range_regex.match(range_str) if range_match: self.start_addr = int(range_match.group('start'), 16) self.end_addr = int(range_match.group('end'), 16) op = range_match.group('op') if op == '+': self.end_addr += self.start_addr return True print('error: invalid section info string "%s"' % s) print('Valid section info formats are:') print('Format Example Description') print('--------------------- -----------------------------------------------') print('= __TEXT=0x123000 Section from base address only') print('=- __TEXT=0x123000-0x124000 Section from base address and end address') print('=+ __TEXT=0x123000+0x1000 Section from base address and size') return False def __str__(self): if self.name: if self.end_addr is not None: if self.start_addr is not None: return "%s=[0x%16.16x - 0x%16.16x)" % ( self.name, self.start_addr, self.end_addr) else: if self.start_addr is not None: return "%s=0x%16.16x" % (self.name, self.start_addr) return self.name return "" class Image: """A class that represents an executable image and any associated data""" def __init__(self, path, uuid=None): self.path = path self.resolved_path = None self.resolved = False self.unavailable = False self.uuid = uuid self.section_infos = list() self.identifier = None self.version = None self.arch = None self.module = None self.symfile = None self.slide = None @classmethod def InitWithSBTargetAndSBModule(cls, target, module): '''Initialize this Image object with a module from a target.''' obj = cls(module.file.fullpath, module.uuid) obj.resolved_path = module.platform_file.fullpath obj.resolved = True for section in module.sections: symb_section = Section.InitWithSBTargetAndSBSection( target, section) if symb_section: obj.section_infos.append(symb_section) obj.arch = module.triple obj.module = module obj.symfile = None obj.slide = None return obj def dump(self, prefix): print("%s%s" % (prefix, self)) def debug_dump(self): print('path = "%s"' % (self.path)) print('resolved_path = "%s"' % (self.resolved_path)) print('resolved = %i' % (self.resolved)) print('unavailable = %i' % (self.unavailable)) print('uuid = %s' % (self.uuid)) print('section_infos = %s' % (self.section_infos)) print('identifier = "%s"' % (self.identifier)) print('version = %s' % (self.version)) print('arch = %s' % (self.arch)) print('module = %s' % (self.module)) print('symfile = "%s"' % (self.symfile)) print('slide = %i (0x%x)' % (self.slide, self.slide)) def __str__(self): s = '' if self.uuid: s += "%s " % (self.get_uuid()) if self.arch: s += "%s " % (self.arch) if self.version: s += "%s " % (self.version) resolved_path = self.get_resolved_path() if resolved_path: s += "%s " % (resolved_path) for section_info in self.section_infos: s += ", %s" % (section_info) if self.slide is not None: s += ', slide = 0x%16.16x' % self.slide return s def add_section(self, section): # print "added '%s' to '%s'" % (section, self.path) self.section_infos.append(section) def get_section_containing_load_addr(self, load_addr): for section_info in self.section_infos: if section_info.contains(load_addr): return section_info return None def get_resolved_path(self): if self.resolved_path: return self.resolved_path elif self.path: return self.path return None def get_resolved_path_basename(self): path = self.get_resolved_path() if path: return os.path.basename(path) return None def symfile_basename(self): if self.symfile: return os.path.basename(self.symfile) return None def has_section_load_info(self): return self.section_infos or self.slide is not None def load_module(self, target): if self.unavailable: return None # We already warned that we couldn't find this module, so don't return an error string # Load this module into "target" using the section infos to # set the section load addresses if self.has_section_load_info(): if target: if self.module: if self.section_infos: num_sections_loaded = 0 for section_info in self.section_infos: if section_info.name: section = self.module.FindSection( section_info.name) if section: error = target.SetSectionLoadAddress( section, section_info.start_addr) if error.Success(): num_sections_loaded += 1 else: return 'error: %s' % error.GetCString() else: return 'error: unable to find the section named "%s"' % section_info.name else: return 'error: unable to find "%s" section in "%s"' % ( range.name, self.get_resolved_path()) if num_sections_loaded == 0: return 'error: no sections were successfully loaded' else: err = target.SetModuleLoadAddress( self.module, self.slide) if err.Fail(): return err.GetCString() return None else: return 'error: invalid module' else: return 'error: invalid target' else: return 'error: no section infos' def add_module(self, target): '''Add the Image described in this object to "target" and load the sections if "load" is True.''' if target: # Try and find using UUID only first so that paths need not match # up uuid_str = self.get_normalized_uuid_string() if uuid_str: self.module = target.AddModule(None, None, uuid_str) if not self.module: self.locate_module_and_debug_symbols() if self.unavailable: return None resolved_path = self.get_resolved_path() self.module = target.AddModule( resolved_path, str(self.arch), uuid_str, self.symfile) if not self.module: return 'error: unable to get module for (%s) "%s"' % ( self.arch, self.get_resolved_path()) if self.has_section_load_info(): return self.load_module(target) else: return None # No sections, the module was added to the target, so success else: return 'error: invalid target' def locate_module_and_debug_symbols(self): # By default, just use the paths that were supplied in: # self.path # self.resolved_path # self.module # self.symfile # Subclasses can inherit from this class and override this function self.resolved = True return True def get_uuid(self): if not self.uuid and self.module: self.uuid = uuid.UUID(self.module.GetUUIDString()) return self.uuid def get_normalized_uuid_string(self): if self.uuid: return str(self.uuid).upper() return None def create_target(self, debugger): '''Create a target using the information in this Image object.''' if self.unavailable: return None if self.locate_module_and_debug_symbols(): resolved_path = self.get_resolved_path() path_spec = lldb.SBFileSpec(resolved_path) error = lldb.SBError() target = debugger.CreateTarget( resolved_path, self.arch, None, False, error) if target: self.module = target.FindModule(path_spec) if self.has_section_load_info(): err = self.load_module(target) if err: print('ERROR: ', err) return target else: print('error: unable to create a valid target for (%s) "%s"' % (self.arch, self.path)) else: print('error: unable to locate main executable (%s) "%s"' % (self.arch, self.path)) return None class Symbolicator: def __init__(self, debugger=None, target=None, images=list()): """A class the represents the information needed to symbolicate addresses in a program. Do not call this initializer directly, but rather use the factory methods. """ self.debugger = debugger self.target = target self.images = images # a list of images to be used when symbolicating self.addr_mask = 0xffffffffffffffff @classmethod def InitWithSBTarget(cls, target): """Initialize a new Symbolicator with an existing SBTarget.""" obj = cls(target=target) triple = target.triple if triple: arch = triple.split('-')[0] if "arm" in arch: obj.addr_mask = 0xfffffffffffffffe for module in target.modules: image = Image.InitWithSBTargetAndSBModule(target, module) obj.images.append(image) return obj @classmethod def InitWithSBDebugger(cls, debugger, images): """Initialize a new Symbolicator with an existing debugger and list of images. The Symbolicator will create the target.""" obj = cls(debugger=debugger, images=images) return obj def __str__(self): s = "Symbolicator:\n" if self.target: s += "Target = '%s'\n" % (self.target) s += "Target modules:\n" for m in self.target.modules: s += str(m) + "\n" s += "Images:\n" for image in self.images: s += ' %s\n' % (image) return s def find_images_with_identifier(self, identifier): images = list() for image in self.images: if image.identifier == identifier: images.append(image) if len(images) == 0: regex_text = '^.*\.%s$' % (re.escape(identifier)) regex = re.compile(regex_text) for image in self.images: if regex.match(image.identifier): images.append(image) return images def find_image_containing_load_addr(self, load_addr): for image in self.images: if image.get_section_containing_load_addr(load_addr): return image return None def create_target(self): if self.target: return self.target if self.images: for image in self.images: self.target = image.create_target(self.debugger) if self.target: if self.target.GetAddressByteSize() == 4: triple = self.target.triple if triple: arch = triple.split('-')[0] if "arm" in arch: self.addr_mask = 0xfffffffffffffffe return self.target return None def symbolicate(self, load_addr, verbose=False): if not self.target: self.create_target() if self.target: live_process = False process = self.target.process if process: state = process.state if state > lldb.eStateUnloaded and state < lldb.eStateDetached: live_process = True # If we don't have a live process, we can attempt to find the image # that a load address belongs to and lazily load its module in the # target, but we shouldn't do any of this if we have a live process if not live_process: image = self.find_image_containing_load_addr(load_addr) if image: image.add_module(self.target) symbolicated_address = Address(self.target, load_addr) if symbolicated_address.symbolicate(verbose): if symbolicated_address.so_addr: symbolicated_addresses = list() symbolicated_addresses.append(symbolicated_address) # See if we were able to reconstruct anything? while True: inlined_parent_so_addr = lldb.SBAddress() inlined_parent_sym_ctx = symbolicated_address.sym_ctx.GetParentOfInlinedScope( symbolicated_address.so_addr, inlined_parent_so_addr) if not inlined_parent_sym_ctx: break if not inlined_parent_so_addr: break symbolicated_address = Address( self.target, inlined_parent_so_addr.GetLoadAddress( self.target)) symbolicated_address.sym_ctx = inlined_parent_sym_ctx symbolicated_address.so_addr = inlined_parent_so_addr symbolicated_address.symbolicate(verbose) # push the new frame onto the new frame stack symbolicated_addresses.append(symbolicated_address) if symbolicated_addresses: return symbolicated_addresses else: print('error: no target in Symbolicator') return None def disassemble_instructions( target, instructions, pc, insts_before_pc, insts_after_pc, non_zeroeth_frame): lines = list() pc_index = -1 comment_column = 50 for inst_idx, inst in enumerate(instructions): inst_pc = inst.GetAddress().GetLoadAddress(target) if pc == inst_pc: pc_index = inst_idx mnemonic = inst.GetMnemonic(target) operands = inst.GetOperands(target) comment = inst.GetComment(target) lines.append("%#16.16x: %8s %s" % (inst_pc, mnemonic, operands)) if comment: line_len = len(lines[-1]) if line_len < comment_column: lines[-1] += ' ' * (comment_column - line_len) lines[-1] += "; %s" % comment if pc_index >= 0: # If we are disassembling the non-zeroeth frame, we need to backup the # PC by 1 if non_zeroeth_frame and pc_index > 0: pc_index = pc_index - 1 if insts_before_pc == -1: start_idx = 0 else: start_idx = pc_index - insts_before_pc if start_idx < 0: start_idx = 0 if insts_before_pc == -1: end_idx = inst_idx else: end_idx = pc_index + insts_after_pc if end_idx > inst_idx: end_idx = inst_idx for i in range(start_idx, end_idx + 1): if i == pc_index: print(' -> ', lines[i]) else: print(' ', lines[i]) def print_module_section_data(section): print(section) section_data = section.GetSectionData() if section_data: ostream = lldb.SBStream() section_data.GetDescription(ostream, section.GetFileAddress()) print(ostream.GetData()) def print_module_section(section, depth): print(section) if depth > 0: num_sub_sections = section.GetNumSubSections() for sect_idx in range(num_sub_sections): print_module_section( section.GetSubSectionAtIndex(sect_idx), depth - 1) def print_module_sections(module, depth): for sect in module.section_iter(): print_module_section(sect, depth) def print_module_symbols(module): for sym in module: print(sym) def Symbolicate(debugger, command_args): usage = "usage: %prog [options] [addr2 ...]" description = '''Symbolicate one or more addresses using LLDB's python scripting API..''' parser = optparse.OptionParser( description=description, prog='crashlog.py', usage=usage) parser.add_option( '-v', '--verbose', action='store_true', dest='verbose', help='display verbose debug info', default=False) parser.add_option( '-p', '--platform', type='string', metavar='platform', dest='platform', help='Specify the platform to use when creating the debug target. Valid values include "localhost", "darwin-kernel", "ios-simulator", "remote-freebsd", "remote-macosx", "remote-ios", "remote-linux".') parser.add_option( '-f', '--file', type='string', metavar='file', dest='file', help='Specify a file to use when symbolicating') parser.add_option( '-a', '--arch', type='string', metavar='arch', dest='arch', help='Specify a architecture to use when symbolicating') parser.add_option( '-s', '--slide', type='int', metavar='slide', dest='slide', help='Specify the slide to use on the file specified with the --file option', default=None) parser.add_option( '--section', type='string', action='append', dest='section_strings', help='specify = or =-') try: (options, args) = parser.parse_args(command_args) except: return symbolicator = Symbolicator(debugger) images = list() if options.file: image = Image(options.file) image.arch = options.arch # Add any sections that were specified with one or more --section # options if options.section_strings: for section_str in options.section_strings: section = Section() if section.set_from_string(section_str): image.add_section(section) else: sys.exit(1) if options.slide is not None: image.slide = options.slide symbolicator.images.append(image) target = symbolicator.create_target() if options.verbose: print(symbolicator) if target: for addr_str in args: addr = int(addr_str, 0) symbolicated_addrs = symbolicator.symbolicate( addr, options.verbose) for symbolicated_addr in symbolicated_addrs: print(symbolicated_addr) print() else: print('error: no target for %s' % (symbolicator)) if __name__ == '__main__': # Create a new debugger instance debugger = lldb.SBDebugger.Create() Symbolicate(debugger, sys.argv[1:]) SBDebugger.Destroy(debugger)