#!/usr/bin/env python3 # PYTHON_ARGCOMPLETE_OK import argparse import enum import sys from typing import ( Any, Callable, Dict, Iterator, List, Match, NoReturn, Optional, Pattern, Set, Tuple, Type, Union, ) def fail(msg: str) -> NoReturn: print(msg, file=sys.stderr) sys.exit(1) def static_assert_unreachable(x: NoReturn) -> NoReturn: raise Exception("Unreachable! " + repr(x)) class DiffMode(enum.Enum): SINGLE = "single" SINGLE_BASE = "single_base" NORMAL = "normal" THREEWAY_PREV = "3prev" THREEWAY_BASE = "3base" # ==== COMMAND-LINE ==== if __name__ == "__main__": # Prefer to use diff_settings.py from the current working directory sys.path.insert(0, ".") try: import diff_settings except ModuleNotFoundError: fail("Unable to find diff_settings.py in the same directory.") sys.path.pop(0) try: import argcomplete except ModuleNotFoundError: argcomplete = None parser = argparse.ArgumentParser( description="Diff MIPS, PPC, AArch64, ARM32, SH2, SH4, or m68k assembly." ) start_argument = parser.add_argument( "start", help="Function name or address to start diffing from.", ) if argcomplete: def complete_symbol( prefix: str, parsed_args: argparse.Namespace, **kwargs: object ) -> List[str]: if not prefix or prefix.startswith("-"): # skip reading the map file, which would # result in a lot of useless completions return [] config: Dict[str, Any] = {} diff_settings.apply(config, parsed_args) # type: ignore mapfile = config.get("mapfile") if not mapfile: return [] completes = [] with open(mapfile) as f: data = f.read() # assume symbols are prefixed by a space character search = f" {prefix}" pos = data.find(search) while pos != -1: # skip the space character in the search string pos += 1 # assume symbols are suffixed by either a space # character or a (unix-style) line return spacePos = data.find(" ", pos) lineReturnPos = data.find("\n", pos) if lineReturnPos == -1: endPos = spacePos elif spacePos == -1: endPos = lineReturnPos else: endPos = min(spacePos, lineReturnPos) if endPos == -1: match = data[pos:] pos = -1 else: match = data[pos:endPos] pos = data.find(search, endPos) completes.append(match) return completes setattr(start_argument, "completer", complete_symbol) parser.add_argument( "end", nargs="?", help="Address to end diff at.", ) parser.add_argument( "-o", dest="diff_obj", action="store_true", help="""Diff .o files rather than a whole binary. This makes it possible to see symbol names. (Recommended)""", ) parser.add_argument( "-f", "--file", dest="file", type=str, help="""File path for a file being diffed. When used the map file isn't searched for the function given. Useful for dynamically linked libraries.""", ) parser.add_argument( "-e", "--elf", dest="diff_elf_symbol", metavar="SYMBOL", help="""Diff a given function in two ELFs, one being stripped and the other one non-stripped. Requires objdump from binutils 2.33+.""", ) parser.add_argument( "-c", "--source", dest="show_source", action="store_true", help="Show source code (if possible). Only works with -o or -e.", ) parser.add_argument( "-C", "--source-old-binutils", dest="source_old_binutils", action="store_true", help="""Tweak --source handling to make it work with binutils < 2.33. Implies --source.""", ) parser.add_argument( "-j", "--section", dest="diff_section", default=".text", metavar="SECTION", help="Diff restricted to a given output section.", ) parser.add_argument( "-L", "--line-numbers", dest="show_line_numbers", action="store_const", const=True, help="""Show source line numbers in output, when available. May be enabled by default depending on diff_settings.py.""", ) parser.add_argument( "--no-line-numbers", dest="show_line_numbers", action="store_const", const=False, help="Hide source line numbers in output.", ) parser.add_argument( "--inlines", dest="inlines", action="store_true", help="Show inline function calls (if possible). Only works with -o or -e.", ) parser.add_argument( "--base-asm", dest="base_asm", metavar="FILE", help="Read assembly from given file instead of configured base img.", ) parser.add_argument( "--write-asm", dest="write_asm", metavar="FILE", help="Write the current assembly output to file, e.g. for use with --base-asm.", ) parser.add_argument( "-m", "--make", dest="make", action="store_true", help="Automatically run 'make' on the .o file or binary before diffing.", ) parser.add_argument( "-l", "--skip-lines", dest="skip_lines", metavar="LINES", type=int, default=0, help="Skip the first LINES lines of output.", ) parser.add_argument( "-s", "--stop-at-ret", dest="stop_at_ret", action="count", help="""Stop disassembling at the first return instruction. You can also pass -ss to stop at the second return instruction, and so on.""", ) parser.add_argument( "-i", "--ignore-large-imms", dest="ignore_large_imms", action="store_true", help="Pretend all large enough immediates are the same.", ) parser.add_argument( "-I", "--ignore-addr-diffs", dest="ignore_addr_diffs", action="store_true", help="Ignore address differences. Currently only affects AArch64 and ARM32.", ) parser.add_argument( "-B", "--no-show-branches", dest="show_branches", action="store_false", help="Don't visualize branches/branch targets.", ) parser.add_argument( "-R", "--no-show-rodata-refs", dest="show_rodata_refs", action="store_false", help="Don't show .rodata -> .text references (typically from jump tables).", ) parser.add_argument( "-S", "--base-shift", dest="base_shift", metavar="N", type=str, default="0", help="""Diff position N in our img against position N + shift in the base img. Arithmetic is allowed, so e.g. |-S "0x1234 - 0x4321"| is a reasonable flag to pass if it is known that position 0x1234 in the base img syncs up with position 0x4321 in our img. Not supported together with -o.""", ) parser.add_argument( "-w", "--watch", dest="watch", action="store_true", help="""Automatically update when source/object files change. Recommended in combination with -m.""", ) parser.add_argument( "-y", "--yes", dest="agree", action="store_true", help="""Automatically agree to any yes/no questions asked. Useful if you really want to use the -w option without -m.""" ) parser.add_argument( "-0", "--diff_mode=single_base", dest="diff_mode", action="store_const", const=DiffMode.SINGLE_BASE, help="""View the base asm only (not a diff).""", ) parser.add_argument( "-1", "--diff_mode=single", dest="diff_mode", action="store_const", const=DiffMode.SINGLE, help="""View the current asm only (not a diff).""", ) parser.add_argument( "-3", "--threeway=prev", dest="diff_mode", action="store_const", const=DiffMode.THREEWAY_PREV, help="""Show a three-way diff between target asm, current asm, and asm prior to -w rebuild. Requires -w.""", ) parser.add_argument( "-b", "--threeway=base", dest="diff_mode", action="store_const", const=DiffMode.THREEWAY_BASE, help="""Show a three-way diff between target asm, current asm, and asm when diff.py was started. Requires -w.""", ) parser.add_argument( "--width", dest="column_width", metavar="COLS", type=int, default=50, help="Sets the width of the left and right view column.", ) parser.add_argument( "--algorithm", dest="algorithm", default="levenshtein", choices=["levenshtein", "difflib"], help="""Diff algorithm to use. Levenshtein gives the minimum diff, while difflib aims for long sections of equal opcodes. Defaults to %(default)s.""", ) parser.add_argument( "--max-size", "--max-lines", metavar="LINES", dest="max_lines", type=int, default=1024, help="The maximum length of the diff, in lines.", ) parser.add_argument( "--no-pager", dest="no_pager", action="store_true", help="""Disable the pager; write output directly to stdout, then exit. Incompatible with --watch.""", ) parser.add_argument( "--format", choices=("color", "plain", "html", "json"), default="color", help="Output format, default is color. --format=html or json implies --no-pager.", ) parser.add_argument( "-U", "--compress-matching", metavar="N", dest="compress_matching", type=int, help="""Compress streaks of matching lines, leaving N lines of context around non-matching parts.""", ) parser.add_argument( "-V", "--compress-sameinstr", metavar="N", dest="compress_sameinstr", type=int, help="""Compress streaks of lines with same instructions (but possibly different regalloc), leaving N lines of context around other parts.""", ) # Project-specific flags, e.g. different versions/make arguments. add_custom_arguments_fn = getattr(diff_settings, "add_custom_arguments", None) if add_custom_arguments_fn: add_custom_arguments_fn(parser) if argcomplete: argcomplete.autocomplete(parser) # ==== IMPORTS ==== # (We do imports late to optimize auto-complete performance.) import abc from collections import Counter, defaultdict from dataclasses import asdict, dataclass, field, replace import difflib import html import itertools import json import os import queue import re import string import struct import subprocess import threading import time import traceback MISSING_PREREQUISITES = ( "Missing prerequisite python module {}. " "Run `python3 -m pip install --user colorama watchdog levenshtein cxxfilt` to install prerequisites (cxxfilt only needed with --source)." ) try: from colorama import Back, Fore, Style import watchdog except ModuleNotFoundError as e: fail(MISSING_PREREQUISITES.format(e.name)) # ==== CONFIG ==== @dataclass class ProjectSettings: arch_str: str objdump_executable: str objdump_flags: List[str] build_command: List[str] map_format: str build_dir: str map_address_offset: int baseimg: Optional[str] myimg: Optional[str] mapfile: Optional[str] source_directories: Optional[List[str]] source_extensions: List[str] show_line_numbers_default: bool disassemble_all: bool reg_categories: Dict[str, int] expected_dir: str @dataclass class Compress: context: int same_instr: bool @dataclass class Config: arch: "ArchSettings" # Build/objdump options diff_obj: bool file: Optional[str] make: bool source_old_binutils: bool diff_section: str inlines: bool max_function_size_lines: int max_function_size_bytes: int # Display options formatter: "Formatter" diff_mode: DiffMode base_shift: int skip_lines: int compress: Optional[Compress] show_rodata_refs: bool show_branches: bool show_line_numbers: bool show_source: bool stop_at_ret: Optional[int] ignore_large_imms: bool ignore_addr_diffs: bool algorithm: str reg_categories: Dict[str, int] # Score options score_stack_differences = True penalty_stackdiff = 1 penalty_regalloc = 5 penalty_reordering = 60 penalty_insertion = 100 penalty_deletion = 100 def create_project_settings(settings: Dict[str, Any]) -> ProjectSettings: return ProjectSettings( arch_str=settings.get("arch", "mips"), baseimg=settings.get("baseimg"), myimg=settings.get("myimg"), mapfile=settings.get("mapfile"), build_command=settings.get( "make_command", ["make", *settings.get("makeflags", [])] ), source_directories=settings.get("source_directories"), source_extensions=settings.get( "source_extensions", [".c", ".h", ".cpp", ".hpp", ".s"] ), objdump_executable=get_objdump_executable(settings.get("objdump_executable")), objdump_flags=settings.get("objdump_flags", []), expected_dir=settings.get("expected_dir", "expected/"), map_format=settings.get("map_format", "gnu"), map_address_offset=settings.get( "map_address_offset", settings.get("ms_map_address_offset", 0) ), build_dir=settings.get("build_dir", settings.get("mw_build_dir", "build/")), show_line_numbers_default=settings.get("show_line_numbers_default", True), disassemble_all=settings.get("disassemble_all", False), reg_categories=settings.get("reg_categories", {}), ) def create_config(args: argparse.Namespace, project: ProjectSettings) -> Config: arch = get_arch(project.arch_str) formatter: Formatter if args.format == "plain": formatter = PlainFormatter(column_width=args.column_width) elif args.format == "color": formatter = AnsiFormatter(column_width=args.column_width) elif args.format == "html": formatter = HtmlFormatter() elif args.format == "json": formatter = JsonFormatter(arch_str=arch.name) else: raise ValueError(f"Unsupported --format: {args.format}") compress = None if args.compress_matching is not None: compress = Compress(args.compress_matching, False) if args.compress_sameinstr is not None: if compress is not None: raise ValueError( "Cannot pass both --compress-matching and --compress-sameinstr" ) compress = Compress(args.compress_sameinstr, True) show_line_numbers = args.show_line_numbers if show_line_numbers is None: show_line_numbers = project.show_line_numbers_default return Config( arch=arch, # Build/objdump options diff_obj=args.diff_obj, file=args.file, make=args.make, source_old_binutils=args.source_old_binutils, diff_section=args.diff_section, inlines=args.inlines, max_function_size_lines=args.max_lines, max_function_size_bytes=args.max_lines * 4, # Display options formatter=formatter, diff_mode=args.diff_mode or DiffMode.NORMAL, base_shift=eval_int( args.base_shift, "Failed to parse --base-shift (-S) argument as an integer." ), skip_lines=args.skip_lines, compress=compress, show_rodata_refs=args.show_rodata_refs, show_branches=args.show_branches, show_line_numbers=show_line_numbers, show_source=args.show_source or args.source_old_binutils, stop_at_ret=args.stop_at_ret, ignore_large_imms=args.ignore_large_imms, ignore_addr_diffs=args.ignore_addr_diffs, algorithm=args.algorithm, reg_categories=project.reg_categories, ) def get_objdump_executable(objdump_executable: Optional[str]) -> str: if objdump_executable is not None: return objdump_executable objdump_candidates = [ "mips-linux-gnu-objdump", "mips64-elf-objdump", "mips-elf-objdump", "sh-elf-objdump", "sh4-linux-gnu-objdump", "m68k-elf-objdump", ] for objdump_cand in objdump_candidates: try: subprocess.check_call( [objdump_cand, "--version"], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, ) return objdump_cand except subprocess.CalledProcessError: pass except FileNotFoundError: pass return fail( f"Missing binutils; please ensure {' or '.join(objdump_candidates)} exists, or configure objdump_executable." ) def get_arch(arch_str: str) -> "ArchSettings": for settings in ARCH_SETTINGS: if arch_str == settings.name: return settings raise ValueError(f"Unknown architecture: {arch_str}") BUFFER_CMD: List[str] = ["tail", "-c", str(10**9)] # -S truncates long lines instead of wrapping them # -R interprets color escape sequences # -i ignores case when searching # -c something about how the screen gets redrawn; I don't remember the purpose # -#6 makes left/right arrow keys scroll by 6 characters LESS_CMD: List[str] = ["less", "-SRic", "-+F", "-+X", "-#6"] DEBOUNCE_DELAY: float = 0.1 # ==== FORMATTING ==== @enum.unique class BasicFormat(enum.Enum): NONE = enum.auto() IMMEDIATE = enum.auto() STACK = enum.auto() REGISTER = enum.auto() REGISTER_CATEGORY = enum.auto() DELAY_SLOT = enum.auto() DIFF_CHANGE = enum.auto() DIFF_ADD = enum.auto() DIFF_REMOVE = enum.auto() SOURCE_FILENAME = enum.auto() SOURCE_FUNCTION = enum.auto() SOURCE_LINE_NUM = enum.auto() SOURCE_OTHER = enum.auto() @dataclass(frozen=True) class RotationFormat: group: str index: int key: str Format = Union[BasicFormat, RotationFormat] FormatFunction = Callable[[str], Format] class Text: segments: List[Tuple[str, Format]] def __init__(self, line: str = "", f: Format = BasicFormat.NONE) -> None: self.segments = [(line, f)] if line else [] def reformat(self, f: Format) -> "Text": return Text(self.plain(), f) def plain(self) -> str: return "".join(s for s, f in self.segments) def __repr__(self) -> str: return f"" def __bool__(self) -> bool: return any(s for s, f in self.segments) def __str__(self) -> str: # Use Formatter.apply(...) instead return NotImplemented def __eq__(self, other: object) -> bool: return NotImplemented def __add__(self, other: Union["Text", str]) -> "Text": if isinstance(other, str): other = Text(other) result = Text() # If two adjacent segments have the same format, merge their lines if ( self.segments and other.segments and self.segments[-1][1] == other.segments[0][1] ): result.segments = ( self.segments[:-1] + [(self.segments[-1][0] + other.segments[0][0], self.segments[-1][1])] + other.segments[1:] ) else: result.segments = self.segments + other.segments return result def __radd__(self, other: Union["Text", str]) -> "Text": if isinstance(other, str): other = Text(other) return other + self def finditer(self, pat: Pattern[str]) -> Iterator[Match[str]]: """Replacement for `pat.finditer(text)` that operates on the inner text, and returns the exact same matches as `Text.sub(pat, ...)`.""" for chunk, f in self.segments: for match in pat.finditer(chunk): yield match def sub(self, pat: Pattern[str], sub_fn: Callable[[Match[str]], "Text"]) -> "Text": result = Text() for chunk, f in self.segments: i = 0 for match in pat.finditer(chunk): start, end = match.start(), match.end() assert i <= start <= end <= len(chunk) sub = sub_fn(match) if i != start: result.segments.append((chunk[i:start], f)) result.segments.extend(sub.segments) i = end if chunk[i:]: result.segments.append((chunk[i:], f)) return result def ljust(self, column_width: int) -> "Text": length = sum(len(x) for x, _ in self.segments) return self + " " * max(column_width - length, 0) @dataclass class TableLine: key: Optional[str] is_data_ref: bool cells: Tuple[Tuple[Text, Optional["Line"]], ...] @dataclass class TableData: headers: Tuple[Text, ...] current_score: int max_score: int previous_score: Optional[int] lines: List[TableLine] class Formatter(abc.ABC): @abc.abstractmethod def apply_format(self, chunk: str, f: Format) -> str: """Apply the formatting `f` to `chunk` and escape the contents.""" ... @abc.abstractmethod def table(self, data: TableData) -> str: """Format a multi-column table with metadata""" ... def apply(self, text: Text) -> str: return "".join(self.apply_format(chunk, f) for chunk, f in text.segments) @staticmethod def outputline_texts(line: TableLine) -> Tuple[Text, ...]: return tuple(cell[0] for cell in line.cells) @dataclass class PlainFormatter(Formatter): column_width: int def apply_format(self, chunk: str, f: Format) -> str: return chunk def table(self, data: TableData) -> str: rows = [data.headers] + [self.outputline_texts(line) for line in data.lines] return "\n".join( "".join(self.apply(x.ljust(self.column_width)) for x in row) for row in rows ) @dataclass class AnsiFormatter(Formatter): # Additional ansi escape codes not in colorama. See: # https://en.wikipedia.org/wiki/ANSI_escape_code#SGR_(Select_Graphic_Rendition)_parameters STYLE_UNDERLINE = "\x1b[4m" STYLE_NO_UNDERLINE = "\x1b[24m" STYLE_INVERT = "\x1b[7m" STYLE_RESET = "\x1b[0m" BASIC_ANSI_CODES = { BasicFormat.NONE: "", BasicFormat.IMMEDIATE: Fore.LIGHTBLUE_EX, BasicFormat.STACK: Fore.YELLOW, BasicFormat.REGISTER: Fore.YELLOW, BasicFormat.REGISTER_CATEGORY: Fore.LIGHTYELLOW_EX, BasicFormat.DIFF_CHANGE: Fore.LIGHTBLUE_EX, BasicFormat.DIFF_ADD: Fore.GREEN, BasicFormat.DIFF_REMOVE: Fore.RED, BasicFormat.SOURCE_FILENAME: Style.DIM + Style.BRIGHT, BasicFormat.SOURCE_FUNCTION: Style.DIM + Style.BRIGHT + STYLE_UNDERLINE, BasicFormat.SOURCE_LINE_NUM: Fore.LIGHTBLACK_EX, BasicFormat.SOURCE_OTHER: Style.DIM, } BASIC_ANSI_CODES_UNDO = { BasicFormat.NONE: "", BasicFormat.SOURCE_FILENAME: Style.NORMAL, BasicFormat.SOURCE_FUNCTION: Style.NORMAL + STYLE_NO_UNDERLINE, BasicFormat.SOURCE_OTHER: Style.NORMAL, } ROTATION_ANSI_COLORS = [ Fore.MAGENTA, Fore.CYAN, Fore.GREEN, Fore.RED, Fore.LIGHTYELLOW_EX, Fore.LIGHTMAGENTA_EX, Fore.LIGHTCYAN_EX, Fore.LIGHTGREEN_EX, Fore.LIGHTBLACK_EX, ] column_width: int def apply_format(self, chunk: str, f: Format) -> str: if f == BasicFormat.NONE: return chunk undo_ansi_code = Fore.RESET if isinstance(f, BasicFormat): ansi_code = self.BASIC_ANSI_CODES[f] undo_ansi_code = self.BASIC_ANSI_CODES_UNDO.get(f, undo_ansi_code) elif isinstance(f, RotationFormat): ansi_code = self.ROTATION_ANSI_COLORS[ f.index % len(self.ROTATION_ANSI_COLORS) ] else: static_assert_unreachable(f) return f"{ansi_code}{chunk}{undo_ansi_code}" def table(self, data: TableData) -> str: rows = [(data.headers, False)] + [ ( self.outputline_texts(line), line.is_data_ref, ) for line in data.lines ] return "\n".join( "".join( (self.STYLE_INVERT if is_data_ref else "") + self.apply(x.ljust(self.column_width)) + (self.STYLE_RESET if is_data_ref else "") for x in row ) for (row, is_data_ref) in rows ) @dataclass class HtmlFormatter(Formatter): rotation_formats: int = 9 def apply_format(self, chunk: str, f: Format) -> str: chunk = html.escape(chunk) if f == BasicFormat.NONE: return chunk if isinstance(f, BasicFormat): class_name = f.name.lower().replace("_", "-") data_attr = "" elif isinstance(f, RotationFormat): class_name = f"rotation-{f.index % self.rotation_formats}" rotation_key = html.escape(f"{f.group};{f.key}", quote=True) data_attr = f'data-rotation="{rotation_key}"' else: static_assert_unreachable(f) return f"{chunk}" def table(self, data: TableData) -> str: def table_row(line: Tuple[Text, ...], is_data_ref: bool, cell_el: str) -> str: tr_attrs = " class='data-ref'" if is_data_ref else "" output_row = f" " for cell in line: cell_html = self.apply(cell) output_row += f"<{cell_el}>{cell_html}" output_row += "\n" return output_row output = "\n" output += " \n" output += table_row(data.headers, False, "th") output += " \n" output += " \n" output += "".join( table_row(self.outputline_texts(line), line.is_data_ref, "td") for line in data.lines ) output += " \n" output += "
\n" return output @dataclass class JsonFormatter(Formatter): arch_str: str def apply_format(self, chunk: str, f: Format) -> str: # This method is unused by this formatter return NotImplemented def table(self, data: TableData) -> str: def serialize_format(s: str, f: Format) -> Dict[str, Any]: if f == BasicFormat.NONE: return {"text": s} elif isinstance(f, BasicFormat): return {"text": s, "format": f.name.lower()} elif isinstance(f, RotationFormat): attrs = asdict(f) attrs.update({"text": s, "format": "rotation"}) return attrs else: static_assert_unreachable(f) def serialize(text: Optional[Text]) -> List[Dict[str, Any]]: if text is None: return [] return [serialize_format(s, f) for s, f in text.segments] output: Dict[str, Any] = {} output["arch_str"] = self.arch_str output["header"] = { name: serialize(h) for h, name in zip(data.headers, ("base", "current", "previous")) } output["current_score"] = data.current_score output["max_score"] = data.max_score if data.previous_score is not None: output["previous_score"] = data.previous_score output_rows: List[Dict[str, Any]] = [] for row in data.lines: output_row: Dict[str, Any] = {} output_row["key"] = row.key output_row["is_data_ref"] = row.is_data_ref iters: List[Tuple[str, Text, Optional[Line]]] = [ (label, *cell) for label, cell in zip(("base", "current", "previous"), row.cells) ] if all(line is None for _, _, line in iters): # Skip rows that were only for displaying source code continue for column_name, text, line in iters: column: Dict[str, Any] = {} column["text"] = serialize(text) if line: if line.line_num is not None: column["line"] = line.line_num if line.branch_target is not None: column["branch"] = line.branch_target if line.source_lines: column["src"] = line.source_lines if line.comment is not None: column["src_comment"] = line.comment if line.source_line_num is not None: column["src_line"] = line.source_line_num if line or column["text"]: output_row[column_name] = column output_rows.append(output_row) output["rows"] = output_rows return json.dumps(output) def format_fields( pat: Pattern[str], out1: Text, out2: Text, color1: FormatFunction, color2: Optional[FormatFunction] = None, ) -> Tuple[Text, Text]: diffs = [ of.group() != nf.group() for (of, nf) in zip(out1.finditer(pat), out2.finditer(pat)) ] it = iter(diffs) def maybe_color(color: FormatFunction, s: str) -> Text: return Text(s, color(s)) if next(it, False) else Text(s) out1 = out1.sub(pat, lambda m: maybe_color(color1, m.group())) it = iter(diffs) out2 = out2.sub(pat, lambda m: maybe_color(color2 or color1, m.group())) return out1, out2 def symbol_formatter(group: str, base_index: int) -> FormatFunction: symbol_formats: Dict[str, Format] = {} def symbol_format(s: str) -> Format: # TODO: it would be nice to use a unique Format for each symbol, so we could # add extra UI elements in the HTML version f = symbol_formats.get(s) if f is None: index = len(symbol_formats) + base_index f = RotationFormat(key=s, index=index, group=group) symbol_formats[s] = f return f return symbol_format # ==== LOGIC ==== ObjdumpCommand = Tuple[List[str], str, Optional[str]] # eval_expr adapted from https://stackoverflow.com/a/9558001 import ast import operator as op # supported operators operators: Dict[Type[Union[ast.operator, ast.unaryop]], Any] = { ast.Add: op.add, ast.Sub: op.sub, ast.Mult: op.mul, ast.Div: op.truediv, ast.Pow: op.pow, ast.BitXor: op.xor, ast.USub: op.neg, } def eval_expr(expr: str) -> Any: return eval_(ast.parse(expr, mode="eval").body) def eval_(node: ast.AST) -> Any: if isinstance(node, ast.Num): # return node.n elif isinstance(node, ast.BinOp): # return operators[type(node.op)](eval_(node.left), eval_(node.right)) elif isinstance(node, ast.UnaryOp): # e.g., -1 return operators[type(node.op)](eval_(node.operand)) else: raise TypeError(node) def maybe_eval_int(expr: str) -> Optional[int]: try: ret = eval_expr(expr) if not isinstance(ret, int): raise Exception("not an integer") return ret except Exception: return None def eval_int(expr: str, emsg: str) -> int: ret = maybe_eval_int(expr) if ret is None: fail(emsg) return ret def eval_line_num(expr: str) -> Optional[int]: expr = expr.strip().replace(":", "") if expr == "": return None return int(expr, 16) def run_make(target: str, project: ProjectSettings) -> None: subprocess.check_call(project.build_command + [target]) def run_make_capture_output( target: str, project: ProjectSettings ) -> "subprocess.CompletedProcess[bytes]": return subprocess.run( project.build_command + [target], stderr=subprocess.PIPE, stdout=subprocess.PIPE, ) def restrict_to_function(dump: str, fn_name: str) -> str: try: ind = dump.index("\n", dump.index(f"<{fn_name}>:")) return dump[ind + 1 :] except ValueError: return "" def serialize_rodata_references(references: List[Tuple[int, int, str]]) -> str: return "".join( f"DATAREF {text_offset} {from_offset} {from_section}\n" for (text_offset, from_offset, from_section) in references ) def maybe_get_objdump_source_flags(config: Config) -> List[str]: flags = [] if config.show_line_numbers or config.show_source: flags.append("--line-numbers") if config.show_source: flags.append("--source") if not config.source_old_binutils: flags.append("--source-comment=│ ") if config.inlines: flags.append("--inlines") return flags def run_objdump(cmd: ObjdumpCommand, config: Config, project: ProjectSettings) -> str: flags, target, restrict = cmd try: out = subprocess.run( [project.objdump_executable] + config.arch.arch_flags + project.objdump_flags + flags + [target], check=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE, universal_newlines=True, ).stdout except subprocess.CalledProcessError as e: print(e.stdout) print(e.stderr) if "unrecognized option '--source-comment" in e.stderr: fail("** Try using --source-old-binutils instead of --source **") raise e obj_data: Optional[bytes] = None if config.diff_obj: with open(target, "rb") as f: obj_data = f.read() return preprocess_objdump_out(restrict, obj_data, out, config) def preprocess_objdump_out( restrict: Optional[str], obj_data: Optional[bytes], objdump_out: str, config: Config ) -> str: """ Preprocess the output of objdump into a format that `process()` expects. This format is suitable for saving to disk with `--write-asm`. - Optionally filter the output to a single function (`restrict`) - Otherwise, strip objdump header (7 lines) - Prepend .data references ("DATAREF" lines) when working with object files """ out = objdump_out if restrict is not None: out = restrict_to_function(out, restrict) else: for i in range(7): out = out[out.find("\n") + 1 :] out = out.rstrip("\n") if obj_data and config.show_rodata_refs: out = ( serialize_rodata_references(parse_elf_rodata_references(obj_data, config)) + out ) return out def search_build_objects(objname: str, project: ProjectSettings) -> Optional[str]: objfiles = [ os.path.join(dirpath, f) for dirpath, _, filenames in os.walk(project.build_dir) for f in filenames if f == objname ] if len(objfiles) > 1: all_objects = "\n".join(objfiles) fail( f"Found multiple objects of the same name {objname} in {project.build_dir}, " f"cannot determine which to diff against: \n{all_objects}" ) if len(objfiles) == 1: return objfiles[0] return None def search_map_file( fn_name: str, project: ProjectSettings, config: Config, *, for_binary: bool ) -> Tuple[Optional[str], Optional[int]]: if not project.mapfile: fail(f"No map file configured; cannot find function {fn_name}.") try: with open(project.mapfile) as f: contents = f.read() except Exception: fail(f"Failed to open map file {project.mapfile} for reading.") if project.map_format == "gnu": if for_binary and "load address" not in contents: fail( 'Failed to find "load address" in map file. Maybe you need to add\n' '"export LANG := C" to your Makefile to avoid localized output?' ) lines = contents.split("\n") try: cur_objfile = None ram_to_rom = None cands = [] last_line = "" for line in lines: if line.startswith(" " + config.diff_section): cur_objfile = line.split()[3] if "load address" in line: tokens = last_line.split() + line.split() ram = int(tokens[1], 0) rom = int(tokens[5], 0) ram_to_rom = rom - ram if line.endswith(" " + fn_name) or f" {fn_name} = 0x" in line: ram = int(line.split()[0], 0) if (for_binary and ram_to_rom is not None) or ( not for_binary and cur_objfile is not None ): cands.append((cur_objfile, ram + (ram_to_rom or 0))) last_line = line except Exception as e: traceback.print_exc() fail(f"Internal error while parsing map file") if len(cands) > 1: fail(f"Found multiple occurrences of function {fn_name} in map file.") if len(cands) == 1: return cands[0] elif project.map_format == "mw": find = re.findall( # ram elf rom alignment r" \S+ \S+ (\S+) (\S+) +\S+ " + re.escape(fn_name) + r"(?: \(entry of " + re.escape(config.diff_section) + r"\))? \t" # object name + "(\S+)", contents, ) if len(find) > 1: fail(f"Found multiple occurrences of function {fn_name} in map file.") if len(find) == 1: rom = int(find[0][1], 16) objname = find[0][2] objfile = search_build_objects(objname, project) # TODO Currently the ram-rom conversion only works for diffing ELF # executables, but it would likely be more convenient to diff DOLs. # At this time it is recommended to always use -o when running the diff # script as this mode does not make use of the ram-rom conversion. if objfile is not None: return objfile, rom elif project.map_format == "ms": load_address_find = re.search( r"Preferred load address is ([0-9a-f]+)", contents, ) if not load_address_find: fail(f"Couldn't find module load address in map file.") load_address = int(load_address_find.group(1), 16) diff_segment_find = re.search( r"([0-9a-f]+):[0-9a-f]+ [0-9a-f]+H " + re.escape(config.diff_section), contents, ) if not diff_segment_find: fail(f"Couldn't find segment for section in map file.") diff_segment = diff_segment_find.group(1) find = re.findall( r" (?:" + re.escape(diff_segment) + r")\S+\s+(?:" + re.escape(fn_name) + r")\s+\S+ ... \S+", contents, ) if len(find) > 1: fail(f"Found multiple occurrences of function {fn_name} in map file.") if len(find) == 1: names_find = re.search(r"(\S+) ... (\S+)", find[0]) assert names_find is not None fileofs = int(names_find.group(1), 16) - load_address if for_binary: return None, fileofs objname = names_find.group(2) objfile = search_build_objects(objname, project) if objfile is not None: return objfile, fileofs else: fail(f"Linker map format {project.map_format} unrecognised.") return None, None def parse_elf_rodata_references( data: bytes, config: Config ) -> List[Tuple[int, int, str]]: e_ident = data[:16] if e_ident[:4] != b"\x7FELF": return [] SHT_SYMTAB = 2 SHT_REL = 9 SHT_RELA = 4 R_MIPS_32 = 2 R_MIPS_GPREL32 = 12 is_32bit = e_ident[4] == 1 is_little_endian = e_ident[5] == 1 str_end = "<" if is_little_endian else ">" str_off = "I" if is_32bit else "Q" def read(spec: str, offset: int) -> Tuple[int, ...]: spec = spec.replace("P", str_off) size = struct.calcsize(spec) return struct.unpack(str_end + spec, data[offset : offset + size]) ( e_type, e_machine, e_version, e_entry, e_phoff, e_shoff, e_flags, e_ehsize, e_phentsize, e_phnum, e_shentsize, e_shnum, e_shstrndx, ) = read("HHIPPPIHHHHHH", 16) if e_type != 1: # relocatable return [] assert e_shoff != 0 assert e_shnum != 0 # don't support > 0xFF00 sections assert e_shstrndx != 0 @dataclass class Section: sh_name: int sh_type: int sh_flags: int sh_addr: int sh_offset: int sh_size: int sh_link: int sh_info: int sh_addralign: int sh_entsize: int sections = [ Section(*read("IIPPPPIIPP", e_shoff + i * e_shentsize)) for i in range(e_shnum) ] shstr = sections[e_shstrndx] sec_name_offs = [shstr.sh_offset + s.sh_name for s in sections] sec_names = [data[offset : data.index(b"\0", offset)] for offset in sec_name_offs] symtab_sections = [i for i in range(e_shnum) if sections[i].sh_type == SHT_SYMTAB] assert len(symtab_sections) == 1 symtab = sections[symtab_sections[0]] section_name = config.diff_section.encode("utf-8") text_sections = [ i for i in range(e_shnum) if sec_names[i] == section_name and sections[i].sh_size != 0 ] if len(text_sections) != 1: return [] text_section = text_sections[0] ret: List[Tuple[int, int, str]] = [] for s in sections: if s.sh_type == SHT_REL or s.sh_type == SHT_RELA: if s.sh_info == text_section: # Skip section_name -> section_name references continue sec_name = sec_names[s.sh_info].decode("latin1") if sec_name not in (".rodata", ".late_rodata"): continue sec_base = sections[s.sh_info].sh_offset for i in range(0, s.sh_size, s.sh_entsize): if s.sh_type == SHT_REL: r_offset, r_info = read("PP", s.sh_offset + i) else: r_offset, r_info, r_addend = read("PPP", s.sh_offset + i) if is_32bit: r_sym = r_info >> 8 r_type = r_info & 0xFF sym_offset = symtab.sh_offset + symtab.sh_entsize * r_sym st_name, st_value, st_size, st_info, st_other, st_shndx = read( "IIIBBH", sym_offset ) else: r_sym = r_info >> 32 r_type = r_info & 0xFFFFFFFF sym_offset = symtab.sh_offset + symtab.sh_entsize * r_sym st_name, st_info, st_other, st_shndx, st_value, st_size = read( "IBBHQQ", sym_offset ) if st_shndx == text_section: if s.sh_type == SHT_REL: if e_machine == 8 and r_type in (R_MIPS_32, R_MIPS_GPREL32): (r_addend,) = read("I", sec_base + r_offset) else: continue text_offset = (st_value + r_addend) & 0xFFFFFFFF ret.append((text_offset, r_offset, sec_name)) return ret def dump_elf( start: str, end: Optional[str], diff_elf_symbol: str, config: Config, project: ProjectSettings, ) -> Tuple[str, ObjdumpCommand, ObjdumpCommand]: if not project.baseimg or not project.myimg: fail("Missing myimg/baseimg in config.") if config.base_shift: fail("--base-shift not compatible with -e") start_addr = eval_int(start, "Start address must be an integer expression.") if end is not None: end_addr = eval_int(end, "End address must be an integer expression.") else: end_addr = start_addr + config.max_function_size_bytes flags1 = [ f"--start-address={start_addr}", f"--stop-address={end_addr}", ] if project.disassemble_all: disassemble_flag = "-D" else: disassemble_flag = "-d" flags2 = [ f"--disassemble={diff_elf_symbol}", ] objdump_flags = [disassemble_flag, "-rz", "-j", config.diff_section] return ( project.myimg, (objdump_flags + flags1, project.baseimg, None), ( objdump_flags + flags2 + maybe_get_objdump_source_flags(config), project.myimg, None, ), ) def dump_objfile( start: str, end: Optional[str], config: Config, project: ProjectSettings ) -> Tuple[str, ObjdumpCommand, ObjdumpCommand]: if config.base_shift: fail("--base-shift not compatible with -o") if end is not None: fail("end address not supported together with -o") if start.startswith("0"): fail("numerical start address not supported with -o; pass a function name") objfile = config.file if not objfile: objfile, _ = search_map_file(start, project, config, for_binary=False) if not objfile: fail("Not able to find .o file for function.") if config.make: run_make(objfile, project) if not os.path.isfile(objfile): fail(f"Not able to find .o file for function: {objfile} is not a file.") refobjfile = os.path.join(project.expected_dir, objfile) if config.diff_mode != DiffMode.SINGLE and not os.path.isfile(refobjfile): fail(f'Please ensure an OK .o file exists at "{refobjfile}".') if project.disassemble_all: disassemble_flag = "-D" else: disassemble_flag = "-d" objdump_flags = [disassemble_flag, "-rz", "-j", config.diff_section] return ( objfile, (objdump_flags, refobjfile, start), (objdump_flags + maybe_get_objdump_source_flags(config), objfile, start), ) def dump_binary( start: str, end: Optional[str], config: Config, project: ProjectSettings ) -> Tuple[str, ObjdumpCommand, ObjdumpCommand]: binfile = config.file or project.myimg if not project.baseimg or not binfile: fail("Missing myimg/baseimg in config.") if config.make: run_make(binfile, project) if not os.path.isfile(binfile): fail(f"Not able to find binary file: {binfile}") start_addr = maybe_eval_int(start) if start_addr is None and config.file is None: _, start_addr = search_map_file(start, project, config, for_binary=True) if start_addr is None: fail("Not able to find function in map file.") start_addr += project.map_address_offset elif start_addr is None: fail("Start address must be an integer expression when using binary -f") if end is not None: end_addr = eval_int(end, "End address must be an integer expression.") else: end_addr = start_addr + config.max_function_size_bytes objdump_flags = ["-Dz", "-bbinary"] + ["-EB" if config.arch.big_endian else "-EL"] flags1 = [ f"--start-address={start_addr + config.base_shift}", f"--stop-address={end_addr + config.base_shift}", ] flags2 = [f"--start-address={start_addr}", f"--stop-address={end_addr}"] return ( binfile, (objdump_flags + flags1, project.baseimg, None), (objdump_flags + flags2, binfile, None), ) # Example: "ldr r4, [pc, #56] ; (4c )" ARM32_LOAD_POOL_PATTERN = r"(ldr\s+r([0-9]|1[0-3]),\s+\[pc,.*;\s*)(\([a-fA-F0-9]+.*\))" # The base class is a no-op. class AsmProcessor: def __init__(self, config: Config) -> None: self.config = config def pre_process( self, mnemonic: str, args: str, next_row: Optional[str] ) -> Tuple[str, str]: return mnemonic, args def process_reloc(self, row: str, prev: str) -> Tuple[str, Optional[str]]: return prev, None def normalize(self, mnemonic: str, row: str) -> str: """This should be called exactly once for each line.""" arch = self.config.arch row = self._normalize_arch_specific(mnemonic, row) if self.config.ignore_large_imms and mnemonic not in arch.branch_instructions: row = re.sub(self.config.arch.re_large_imm, "", row) return row def _normalize_arch_specific(self, mnemonic: str, row: str) -> str: return row def post_process(self, lines: List["Line"]) -> None: return def is_end_of_function(self, mnemonic: str, args: str) -> bool: return False class AsmProcessorMIPS(AsmProcessor): def __init__(self, config: Config) -> None: super().__init__(config) self.seen_jr_ra = False def process_reloc(self, row: str, prev: str) -> Tuple[str, Optional[str]]: arch = self.config.arch if "R_MIPS_NONE" in row or "R_MIPS_JALR" in row: # GNU as emits no-op relocations immediately after real ones when # assembling with -mabi=64. Return without trying to parse 'imm' as an # integer. return prev, None before, imm, after = parse_relocated_line(prev) addend = reloc_addend_from_imm(imm, before, self.config.arch) repl = row.split()[-1] + addend if "R_MIPS_LO16" in row: repl = f"%lo({repl})" elif "R_MIPS_HI16" in row: # Ideally we'd pair up R_MIPS_LO16 and R_MIPS_HI16 to generate a # correct addend for each, but objdump doesn't give us the order of # the relocations, so we can't find the right LO16. :( repl = f"%hi({repl})" elif "R_MIPS_26" in row: # Function calls pass elif "R_MIPS_PC16" in row: # Branch to glabel. This gives confusing output, but there's not much # we can do here. pass elif "R_MIPS_GPREL16" in row: repl = f"%gp_rel({repl})" elif "R_MIPS_GOT16" in row: repl = f"%got({repl})" elif "R_MIPS_CALL16" in row: repl = f"%call16({repl})" elif "R_MIPS_LITERAL" in row: repl = repl[:-len(addend)] else: assert False, f"unknown relocation type '{row}' for line '{prev}'" return before + repl + after, repl def is_end_of_function(self, mnemonic: str, args: str) -> bool: if self.seen_jr_ra: return True if mnemonic == "jr" and args == "ra": self.seen_jr_ra = True return False class AsmProcessorPPC(AsmProcessor): def pre_process( self, mnemonic: str, args: str, next_row: Optional[str] ) -> Tuple[str, str]: if next_row and "R_PPC_EMB_SDA21" in next_row: # With sda21 relocs, the linker transforms `r0` into `r2`/`r13`, and # we may encounter this in either pre-transformed or post-transformed # versions depending on if the .o file comes from compiler output or # from disassembly. Normalize, to make sure both forms are treated as # equivalent. args = args.replace("(r2)", "(0)") args = args.replace("(r13)", "(0)") args = args.replace(",r2,", ",0,") args = args.replace(",r13,", ",0,") # We want to convert li and lis with an sda21 reloc, # because the r0 to r2/r13 transformation results in # turning an li/lis into an addi/addis with r2/r13 arg # our preprocessing normalizes all versions to addi with a 0 arg if mnemonic in {"li", "lis"}: mnemonic = mnemonic.replace("li", "addi") args_parts = args.split(",") args = args_parts[0] + ",0," + args_parts[1] return mnemonic, args def process_reloc(self, row: str, prev: str) -> Tuple[str, Optional[str]]: arch = self.config.arch assert any( r in row for r in ["R_PPC_REL24", "R_PPC_ADDR16", "R_PPC_EMB_SDA21", "R_PPC_REL14"] ), f"unknown relocation type '{row}' for line '{prev}'" before, imm, after = parse_relocated_line(prev) repl = row.split()[-1] if "R_PPC_REL24" in row: # function calls pass if "R_PPC_REL14" in row: pass elif "R_PPC_ADDR16_HI" in row: # absolute hi of addr repl = f"{repl}@h" elif "R_PPC_ADDR16_HA" in row: # adjusted hi of addr repl = f"{repl}@ha" elif "R_PPC_ADDR16_LO" in row: # lo of addr repl = f"{repl}@l" elif "R_PPC_ADDR16" in row: # 16-bit absolute addr if "+0x7" in repl: # remove the very large addends as they are an artifact of (label-_SDA(2)_BASE_) # computations and are unimportant in a diff setting. if int(repl.split("+")[1], 16) > 0x70000000: repl = repl.split("+")[0] elif "R_PPC_EMB_SDA21" in row: # sda21 relocations; r2/r13 --> 0 swaps are performed in pre_process repl = f"{repl}@sda21" return before + repl + after, repl def is_end_of_function(self, mnemonic: str, args: str) -> bool: return mnemonic == "blr" class AsmProcessorARM32(AsmProcessor): def process_reloc(self, row: str, prev: str) -> Tuple[str, Optional[str]]: arch = self.config.arch if "R_ARM_V4BX" in row: # R_ARM_V4BX converts "bx " to "mov pc," for some targets. # Ignore for now. return prev, None if "R_ARM_ABS32" in row and not prev.startswith(".word"): # Don't crash on R_ARM_ABS32 relocations incorrectly applied to code. # (We may want to do something more fancy here that actually shows the # related symbol, but this serves as a stop-gap.) return prev, None before, imm, after = parse_relocated_line(prev) repl = row.split()[-1] + reloc_addend_from_imm(imm, before, self.config.arch) return before + repl + after, repl def _normalize_arch_specific(self, mnemonic: str, row: str) -> str: if self.config.ignore_addr_diffs: row = self._normalize_bl(mnemonic, row) row = self._normalize_data_pool(row) return row def _normalize_bl(self, mnemonic: str, row: str) -> str: if mnemonic != "bl": return row row, _ = split_off_address(row) return row + "" def _normalize_data_pool(self, row: str) -> str: pool_match = re.search(ARM32_LOAD_POOL_PATTERN, row) return pool_match.group(1) if pool_match else row def post_process(self, lines: List["Line"]) -> None: lines_by_line_number = {} for line in lines: lines_by_line_number[line.line_num] = line for line in lines: if line.data_pool_addr is None: continue # Add data symbol and its address to the line. line_original = lines_by_line_number[line.data_pool_addr].original value = line_original.split()[1] addr = "{:x}".format(line.data_pool_addr) line.original = line.normalized_original + f"={value} ({addr})" class AsmProcessorAArch64(AsmProcessor): def __init__(self, config: Config) -> None: super().__init__(config) self._adrp_pair_registers: Set[str] = set() def _normalize_arch_specific(self, mnemonic: str, row: str) -> str: if self.config.ignore_addr_diffs: row = self._normalize_adrp_differences(mnemonic, row) row = self._normalize_bl(mnemonic, row) return row def _normalize_bl(self, mnemonic: str, row: str) -> str: if mnemonic != "bl": return row row, _ = split_off_address(row) return row + "" def _normalize_adrp_differences(self, mnemonic: str, row: str) -> str: """Identifies ADRP + LDR/ADD pairs that are used to access the GOT and suppresses any immediate differences. Whenever an ADRP is seen, the destination register is added to the set of registers that are part of an ADRP + LDR/ADD pair. Registers are removed from the set as soon as they are used for an LDR or ADD instruction which completes the pair. This method is somewhat crude but should manage to detect most such pairs. """ row_parts = row.split("\t", 1) if mnemonic == "adrp": self._adrp_pair_registers.add(row_parts[1].strip().split(",")[0]) row, _ = split_off_address(row) return row + "" elif mnemonic == "ldr": for reg in self._adrp_pair_registers: # ldr xxx, [reg] # ldr xxx, [reg, ] if f", [{reg}" in row_parts[1]: self._adrp_pair_registers.remove(reg) return normalize_imms(row, AARCH64_SETTINGS) elif mnemonic == "add": for reg in self._adrp_pair_registers: # add reg, reg, if row_parts[1].startswith(f"{reg}, {reg}, "): self._adrp_pair_registers.remove(reg) return normalize_imms(row, AARCH64_SETTINGS) return row class AsmProcessorI686(AsmProcessor): def process_reloc(self, row: str, prev: str) -> Tuple[str, Optional[str]]: repl = row.split()[-1] mnemonic, args = prev.split(maxsplit=1) addr_imm = re.search(r"(? bool: return mnemonic == "ret" class AsmProcessorSH2(AsmProcessor): def __init__(self, config: Config) -> None: super().__init__(config) def process_reloc(self, row: str, prev: str) -> Tuple[str, Optional[str]]: return prev, None def is_end_of_function(self, mnemonic: str, args: str) -> bool: return mnemonic == "rts" class AsmProcessorM68k(AsmProcessor): def pre_process( self, mnemonic: str, args: str, next_row: Optional[str] ) -> Tuple[str, str]: # replace objdump's syntax of pointer accesses with the equivilant in AT&T syntax for readability return mnemonic, re.sub( r"%(sp|a[0-7]|fp|pc)@(?:(?:\((-?(?:0x[0-9a-f]+|[0-9]+)) *(,%d[0-7]:[wl])?\))|(\+)|(-))?", r"\5\2(%\1\3)\4", args, ) def process_reloc(self, row: str, prev: str) -> Tuple[str, Optional[str]]: repl = row.split()[-1] mnemonic, args = prev.split(maxsplit=1) addr_imm = re.search(r"(? bool: return mnemonic == "rts" or mnemonic == "rte" or mnemonic == "rtr" @dataclass class ArchSettings: name: str re_int: Pattern[str] re_comment: Pattern[str] re_reg: Pattern[str] re_sprel: Pattern[str] re_large_imm: Pattern[str] re_imm: Pattern[str] re_reloc: Pattern[str] branch_instructions: Set[str] instructions_with_address_immediates: Set[str] forbidden: Set[str] = field(default_factory=lambda: set(string.ascii_letters + "_")) arch_flags: List[str] = field(default_factory=list) branch_likely_instructions: Set[str] = field(default_factory=set) proc: Type[AsmProcessor] = AsmProcessor big_endian: Optional[bool] = True delay_slot_instructions: Set[str] = field(default_factory=set) MIPS_BRANCH_LIKELY_INSTRUCTIONS = { "beql", "bnel", "beqzl", "bnezl", "bgezl", "bgtzl", "blezl", "bltzl", "bc1tl", "bc1fl", } MIPS_BRANCH_INSTRUCTIONS = MIPS_BRANCH_LIKELY_INSTRUCTIONS.union( { "b", "beq", "bne", "beqz", "bnez", "bgez", "bgtz", "blez", "bltz", "bc1t", "bc1f", } ) ARM32_PREFIXES = {"b", "bl"} ARM32_CONDS = { "", "eq", "ne", "cs", "cc", "mi", "pl", "vs", "vc", "hi", "ls", "ge", "lt", "gt", "le", "al", } ARM32_SUFFIXES = {"", ".n", ".w"} ARM32_BRANCH_INSTRUCTIONS = { f"{prefix}{cond}{suffix}" for prefix in ARM32_PREFIXES for cond in ARM32_CONDS for suffix in ARM32_SUFFIXES } AARCH64_BRANCH_INSTRUCTIONS = { "b", "b.eq", "b.ne", "b.cs", "b.hs", "b.cc", "b.lo", "b.mi", "b.pl", "b.vs", "b.vc", "b.hi", "b.ls", "b.ge", "b.lt", "b.gt", "b.le", "cbz", "cbnz", "tbz", "tbnz", } PPC_BRANCH_INSTRUCTIONS = { "b", "beq", "beq+", "beq-", "bne", "bne+", "bne-", "blt", "blt+", "blt-", "ble", "ble+", "ble-", "bdnz", "bdnz+", "bdnz-", "bge", "bge+", "bge-", "bgt", "bgt+", "bgt-", } I686_BRANCH_INSTRUCTIONS = { "call", "jmp", "ljmp", "ja", "jae", "jb", "jbe", "jc", "jcxz", "jecxz", "jrcxz", "je", "jg", "jge", "jl", "jle", "jna", "jnae", "jnb", "jnbe", "jnc", "jne", "jng", "jnge", "jnl", "jnle", "jno", "jnp", "jns", "jnz", "jo", "jp", "jpe", "jpo", "js", "jz", "ja", "jae", "jb", "jbe", "jc", "je", "jz", "jg", "jge", "jl", "jle", "jna", "jnae", "jnb", "jnbe", "jnc", "jne", "jng", "jnge", "jnl", "jnle", "jno", "jnp", "jns", "jnz", "jo", "jp", "jpe", "jpo", "js", "jz", } SH2_BRANCH_INSTRUCTIONS = { "bf", "bf.s", "bt", "bt.s", "bra", "bsr", } M68K_CONDS = { "ra", "cc", "cs", "eq", "ge", "gt", "hi", "le", "ls", "lt", "mi", "ne", "pl", "vc", "vs", } M68K_BRANCH_INSTRUCTIONS = { f"{prefix}{cond}{suffix}" for prefix in {"b", "db"} for cond in M68K_CONDS for suffix in {"s", "w"} }.union( { "dbt", "dbf", "bsrw", "bsrs", } ) MIPS_SETTINGS = ArchSettings( name="mips", re_int=re.compile(r"[0-9]+"), re_comment=re.compile(r"<.*>"), # Includes: # - General purpose registers v0..1, a0..7, t0..9, s0..8, zero, at, fp, k0..1/kt0..1 # - Float registers f0..31, or fv0..1, fa0..7, ft0..15, fs0..8 plus odd complements # (actually used number depends on ABI) # sp, gp should not be in this list re_reg=re.compile(r"\$?\b([astv][0-9]|at|f[astv]?[0-9]+f?|kt?[01]|fp|ra|zero)\b"), re_sprel=re.compile(r"(?<=,)([0-9]+|0x[0-9a-f]+)\(sp\)"), re_large_imm=re.compile(r"-?[1-9][0-9]{2,}|-?0x[0-9a-f]{3,}"), re_imm=re.compile( r"(\b|-)([0-9]+|0x[0-9a-fA-F]+)\b(?!\(sp)|%(lo|hi|got|gp_rel|call16)\([^)]*\)" ), re_reloc=re.compile(r"R_MIPS_"), arch_flags=["-m", "mips:4300"], branch_likely_instructions=MIPS_BRANCH_LIKELY_INSTRUCTIONS, branch_instructions=MIPS_BRANCH_INSTRUCTIONS, instructions_with_address_immediates=MIPS_BRANCH_INSTRUCTIONS.union({"j", "jal"}), delay_slot_instructions=MIPS_BRANCH_INSTRUCTIONS.union({"j", "jal", "jr", "jalr"}), proc=AsmProcessorMIPS, ) MIPSEL_SETTINGS = replace(MIPS_SETTINGS, name="mipsel", big_endian=False) MIPSEE_SETTINGS = replace( MIPSEL_SETTINGS, name="mipsee", arch_flags=["-m", "mips:5900"] ) MIPS_ARCH_NAMES = {"mips", "mipsel", "mipsee"} ARM32_SETTINGS = ArchSettings( name="arm32", re_int=re.compile(r"[0-9]+"), re_comment=re.compile(r"(<.*>|//.*$)"), # Includes: # - General purpose registers: r0..13 # - Frame pointer registers: lr (r14), pc (r15) # - VFP/NEON registers: s0..31, d0..31, q0..15, fpscr, fpexc, fpsid # SP should not be in this list. re_reg=re.compile( r"\$?\b([rq][0-9]|[rq]1[0-5]|pc|lr|[ds][12]?[0-9]|[ds]3[01]|fp(scr|exc|sid))\b" ), re_sprel=re.compile(r"sp, #-?(0x[0-9a-fA-F]+|[0-9]+)\b"), re_large_imm=re.compile(r"-?[1-9][0-9]{2,}|-?0x[0-9a-f]{3,}"), re_imm=re.compile(r"(?|//.*$)"), # GPRs and FP registers: X0-X30, W0-W30, [BHSDVQ]0..31 # (FP registers may be followed by data width and number of elements, e.g. V0.4S) # The zero registers and SP should not be in this list. re_reg=re.compile( r"\$?\b([bhsdvq]([12]?[0-9]|3[01])(\.\d\d?[bhsdvq])?|[xw][12]?[0-9]|[xw]30)\b" ), re_sprel=re.compile(r"sp, #-?(0x[0-9a-fA-F]+|[0-9]+)\b"), re_large_imm=re.compile(r"-?[1-9][0-9]{2,}|-?0x[0-9a-f]{3,}"), re_imm=re.compile(r"(?|//.*$)"), # r1 not included re_reg=re.compile(r"\$?\b([rf](?:[02-9]|[1-9][0-9]+)|f1)\b"), re_sprel=re.compile(r"(?<=,)(-?[0-9]+|-?0x[0-9a-f]+)\(r1\)"), re_large_imm=re.compile(r"-?[1-9][0-9]{2,}|-?0x[0-9a-f]{3,}"), re_imm=re.compile( r"(\b|-)([0-9]+|0x[0-9a-fA-F]+)\b(?!\(r1)|[^ \t,]+@(l|ha|h|sda21)" ), re_reloc=re.compile(r"R_PPC_"), arch_flags=["-m", "powerpc", "-M", "broadway"], branch_instructions=PPC_BRANCH_INSTRUCTIONS, instructions_with_address_immediates=PPC_BRANCH_INSTRUCTIONS.union({"bl"}), proc=AsmProcessorPPC, ) I686_SETTINGS = ArchSettings( name="i686", re_int=re.compile(r"[0-9]+"), re_comment=re.compile(r"<.*>"), # Includes: # - (e)a-d(x,l,h) # - (e)s,d,b(i,p)(l) # - cr0-7 # - x87 st # - MMX, SSE vector registers # - cursed registers: eal ebl ebh edl edh... re_reg=re.compile( r"\%?\b(e?(([sd]i|[sb]p)l?|[abcd][xhl])|[cdesfg]s|cr[0-7]|x?mm[0-7]|st)\b" ), re_large_imm=re.compile(r"-?[1-9][0-9]{2,}|-?0x[0-9a-f]{3,}"), re_sprel=re.compile(r"-?(0x[0-9a-f]+|[0-9]+)(?=\((%ebp|%esi)\))"), re_imm=re.compile(r"-?(0x[0-9a-f]+|[0-9]+)"), re_reloc=re.compile(r"R_386_"), # The x86 architecture has a variable instruction length. The raw bytes of # an instruction as displayed by objdump can line wrap if it's long enough. # This destroys the objdump output processor logic, so we avoid this. arch_flags=["-m", "i386", "--no-show-raw-insn"], branch_instructions=I686_BRANCH_INSTRUCTIONS, instructions_with_address_immediates=I686_BRANCH_INSTRUCTIONS.union({"mov"}), proc=AsmProcessorI686, ) SH2_SETTINGS = ArchSettings( name="sh2", # match -128-127 preceded by a '#' with a ',' after (8 bit immediates) re_int=re.compile(r"(?<=#)(-?(?:1[01][0-9]|12[0-8]|[1-9][0-9]?|0))(?=,)"), # match , match ! and after re_comment=re.compile(r"<.*?>|!.*"), # - r0-r15 general purpose registers, r15 is stack pointer during exceptions # - sr, gbr, vbr - control registers # - mach, macl, pr, pc - system registers re_reg=re.compile(r"r1[0-5]|r[0-9]"), # sh2 has pc-relative and gbr-relative but not stack-pointer-relative re_sprel=re.compile(r"(?<=,)([0-9]+|0x[0-9a-f]+)\(sp\)"), # max immediate size is 8-bit re_large_imm=re.compile(r"-?[1-9][0-9]{2,}|-?0x[0-9a-f]{3,}"), re_imm=re.compile(r"\b0[xX][0-9a-fA-F]+\b"), # https://github.com/bminor/binutils-gdb/blob/master/bfd/elf32-sh-relocs.h#L21 re_reloc=re.compile(r"R_SH_"), arch_flags=["-m", "sh2"], branch_instructions=SH2_BRANCH_INSTRUCTIONS, instructions_with_address_immediates=SH2_BRANCH_INSTRUCTIONS.union( {"bf", "bf.s", "bt", "bt.s", "bra", "bsr"} ), delay_slot_instructions=SH2_BRANCH_INSTRUCTIONS.union( {"bf.s", "bt.s", "bra", "braf", "bsr", "bsrf", "jmp", "jsr", "rts"} ), proc=AsmProcessorSH2, ) SH4_SETTINGS = replace( SH2_SETTINGS, name="sh4", # - fr0-fr15, dr0-dr14, xd0-xd14, fv0-fv12 FP registers # dr/xd registers can only be even-numbered, and fv registers can only be a multiple of 4 re_reg=re.compile( r"r1[0-5]|r[0-9]|fr1[0-5]|fr[0-9]|dr[02468]|dr1[024]|xd[02468]|xd1[024]|fv[048]|fv12" ), arch_flags=["-m", "sh4"], ) SH4EL_SETTINGS = replace(SH4_SETTINGS, name="sh4el", big_endian=False) M68K_SETTINGS = ArchSettings( name="m68k", re_int=re.compile(r"[0-9]+"), # '|' is used by assemblers, but is not used by objdump re_comment=re.compile(r"<.*>"), # Includes: # - d0-d7 data registers # - a0-a6 address registers # - fp0-fp7 floating-point registers # - usp (user sp) # - fp, sr, ccr # - fpcr, fpsr, fpiar re_reg=re.compile(r"%\b(d[0-7]|a[0-6]|usp|fp([0-7]|cr|sr|iar)?|sr|ccr)(:[wl])?\b"), # This matches all stack accesses that do not use an index register re_sprel=re.compile(r"-?(0x[0-9a-f]+|[0-9]+)(?=\((%sp|%a7)\))"), re_imm=re.compile(r"#?-?\b(0x[0-9a-f]+|[0-9]+)(?!\()"), re_large_imm=re.compile(r"#?-?([1-9][0-9]{2,}|0x[0-9a-f]{3,})"), re_reloc=re.compile(r"R_68K_"), arch_flags=["-m", "m68k"], branch_instructions=M68K_BRANCH_INSTRUCTIONS, # Pretty much every instruction can take an address immediate instructions_with_address_immediates=M68K_BRANCH_INSTRUCTIONS.union("jmp", "jsr"), proc=AsmProcessorM68k, ) ARCH_SETTINGS = [ MIPS_SETTINGS, MIPSEL_SETTINGS, MIPSEE_SETTINGS, ARM32_SETTINGS, ARMEL_SETTINGS, AARCH64_SETTINGS, PPC_SETTINGS, I686_SETTINGS, SH2_SETTINGS, SH4_SETTINGS, SH4EL_SETTINGS, M68K_SETTINGS, ] def hexify_int(row: str, pat: Match[str], arch: ArchSettings) -> str: full = pat.group(0) # sh2/sh4 only has 8-bit immediates, just convert them uniformly without # any -hex stuff if arch.name == "sh2" or arch.name == "sh4" or arch.name == "sh4el": return hex(int(full) & 0xFF) if len(full) <= 1: # leave one-digit ints alone return full start, end = pat.span() if start and row[start - 1] in arch.forbidden: return full if end < len(row) and row[end] in arch.forbidden: return full return hex(int(full)) def parse_relocated_line(line: str) -> Tuple[str, str, str]: # Pick out the last argument for c in ",\t ": if c in line: ind2 = line.rindex(c) break else: raise Exception(f"failed to parse relocated line: {line}") before = line[: ind2 + 1] after = line[ind2 + 1 :] # Move an optional ($reg) part of it to 'after' ind2 = after.find("(") if ind2 == -1: imm, after = after, "" else: imm, after = after[:ind2], after[ind2:] return before, imm, after def reloc_addend_from_imm(imm: str, before: str, arch: ArchSettings) -> str: """For architectures like MIPS where relocations have addends embedded in the code as immediates, convert such an immediate into an addition/ subtraction that can occur just after the symbol.""" # TODO this is incorrect for MIPS %lo/%hi which need to be paired up # and combined. In practice, this means we only get symbol offsets within # %lo, while %hi just shows the symbol. Unfortunately, objdump's output # loses relocation order, so we cannot do this without parsing ELF relocs # ourselves... mnemonic = before.split()[0] if mnemonic in arch.instructions_with_address_immediates: addend = int(imm, 16) else: addend = int(imm, 0) if addend == 0: return "" elif addend < 0: return hex(addend) else: return "+" + hex(addend) def pad_mnemonic(line: str) -> str: if "\t" not in line: return line mn, args = line.split("\t", 1) return f"{mn:<7s} {args}" @dataclass class Line: mnemonic: str diff_row: str original: str normalized_original: str scorable_line: str symbol: Optional[str] = None line_num: Optional[int] = None branch_target: Optional[int] = None data_pool_addr: Optional[int] = None source_filename: Optional[str] = None source_line_num: Optional[int] = None source_lines: List[str] = field(default_factory=list) comment: Optional[str] = None def process(dump: str, config: Config) -> List[Line]: arch = config.arch processor = arch.proc(config) source_lines = [] source_filename = None source_line_num = None rets_remaining = config.stop_at_ret i = 0 num_instr = 0 data_refs: Dict[int, Dict[str, List[int]]] = defaultdict(lambda: defaultdict(list)) output: List[Line] = [] lines = dump.split("\n") while i < len(lines): row = lines[i] i += 1 if not row: continue if re.match(r"^[0-9a-f]+ <.*>:$", row): continue if row.startswith("DATAREF"): parts = row.split(" ", 3) text_offset = int(parts[1]) from_offset = int(parts[2]) from_section = parts[3] data_refs[text_offset][from_section].append(from_offset) continue if config.diff_obj and num_instr >= config.max_function_size_lines: output.append( Line( mnemonic="...", diff_row="...", original="...", normalized_original="...", scorable_line="...", ) ) break if not re.match(r"^\s+[0-9a-f]+:\s+", row): # This regex is conservative, and assumes the file path does not contain "weird" # characters like tabs or angle brackets. if re.match(r"^[^ \t<>][^\t<>]*:[0-9]+( \(discriminator [0-9]+\))?$", row): source_filename, _, tail = row.rpartition(":") source_line_num = int(tail.partition(" ")[0]) source_lines.append(row) continue # If the instructions loads a data pool symbol, extract the address of # the symbol. data_pool_addr = None pool_match = re.search(ARM32_LOAD_POOL_PATTERN, row) if pool_match: offset = pool_match.group(3).split(" ")[0][1:] data_pool_addr = int(offset, 16) m_comment = re.search(arch.re_comment, row) comment = m_comment[0] if m_comment else None row = re.sub(arch.re_comment, "", row) line_num_str = row.split(":")[0] row = row.rstrip() tabs = row.split("\t") line_num = eval_line_num(line_num_str.strip()) # TODO: use --no-show-raw-insn for all arches if arch.name == "i686": row = "\t".join(tabs[1:]) else: row = "\t".join(tabs[2:]) if line_num in data_refs: refs = data_refs[line_num] ref_str = "; ".join( section_name + "+" + ",".join(hex(off) for off in offs) for section_name, offs in refs.items() ) output.append( Line( mnemonic="", diff_row="", original=ref_str, normalized_original=ref_str, scorable_line="", ) ) if "\t" in row: row_parts = row.split("\t", 1) else: # powerpc-eabi-objdump doesn't use tabs row_parts = [part.lstrip() for part in row.split(" ", 1)] mnemonic = row_parts[0].strip() args = row_parts[1].strip() if len(row_parts) >= 2 else "" next_line = lines[i] if i < len(lines) else None mnemonic, args = processor.pre_process(mnemonic, args, next_line) row = mnemonic + "\t" + args.replace("\t", " ") addr = "" if mnemonic in arch.instructions_with_address_immediates: row, addr = split_off_address(row) # objdump prefixes addresses with 0x/-0x if they don't resolve to some # symbol + offset. Strip that. addr = addr.replace("0x", "") row = re.sub(arch.re_int, lambda m: hexify_int(row, m, arch), row) row += addr # Let 'original' be 'row' with relocations applied, while we continue # transforming 'row' into a coarser version that ignores registers and # immediates. original = row symbol = None while i < len(lines): reloc_row = lines[i] if re.search(arch.re_reloc, reloc_row): original, reloc_symbol = processor.process_reloc(reloc_row, original) if reloc_symbol is not None: symbol = reloc_symbol else: break i += 1 is_text_relative_j = False if ( arch.name in MIPS_ARCH_NAMES and mnemonic == "j" and symbol is not None and symbol.startswith(".text") ): symbol = None original = row is_text_relative_j = True normalized_original = processor.normalize(mnemonic, original) scorable_line = normalized_original if not config.score_stack_differences: scorable_line = re.sub(arch.re_sprel, "addr(sp)", scorable_line) row = re.sub(arch.re_reg, "", row) row = re.sub(arch.re_sprel, "addr(sp)", row) if mnemonic in arch.instructions_with_address_immediates: row = row.strip() row, _ = split_off_address(row) row += "" else: row = normalize_imms(row, arch) branch_target = None if ( mnemonic in arch.branch_instructions or is_text_relative_j ) and symbol is None: # Here, we try to match a wide variety of addressing mode: # - Global deref with offset: *0x1234(%eax) # - Global deref: *0x1234 # - Register deref: *(%eax) # # We first have a single regex to match register deref and global # deref with offset x86_longjmp = re.search(r"\*(.*)\(", args) if x86_longjmp: capture = x86_longjmp.group(1) if capture != "": branch_target = int(capture, 16) else: # Then, we try to match the global deref in a separate regex. x86_longjmp = re.search(r"\*(.*)", args) if x86_longjmp: capture = x86_longjmp.group(1) if capture != "": branch_target = int(capture, 16) else: branch_target = int(args.split(",")[-1], 16) output.append( Line( mnemonic=mnemonic, diff_row=row, original=original, normalized_original=normalized_original, scorable_line=scorable_line, symbol=symbol, line_num=line_num, branch_target=branch_target, data_pool_addr=data_pool_addr, source_filename=source_filename, source_line_num=source_line_num, source_lines=source_lines, comment=comment, ) ) num_instr += 1 source_lines = [] if rets_remaining and processor.is_end_of_function(mnemonic, args): rets_remaining -= 1 if rets_remaining == 0: break processor.post_process(output) return output def normalize_imms(row: str, arch: ArchSettings) -> str: return re.sub(arch.re_imm, "", row) def normalize_stack(row: str, arch: ArchSettings) -> str: return re.sub(arch.re_sprel, "addr(sp)", row) def check_for_symbol_mismatch( old_line: Line, new_line: Line, symbol_map: Dict[str, str] ) -> bool: assert old_line.symbol is not None assert new_line.symbol is not None if new_line.symbol.startswith("%hi"): return False if old_line.symbol not in symbol_map: symbol_map[old_line.symbol] = new_line.symbol return False elif symbol_map[old_line.symbol] == new_line.symbol: return False return True def field_matches_any_symbol(field: str, arch: ArchSettings) -> bool: if arch.name == "ppc": if "..." in field: return True parts = field.rsplit("@", 1) if len(parts) == 2 and parts[1] in {"l", "h", "ha", "sda21"}: field = parts[0] return re.fullmatch((r"^@\d+$"), field) is not None if arch.name in MIPS_ARCH_NAMES: return "." in field # Example: ".text+0x34" if arch.name == "arm32": return "." in field return False def split_off_address(line: str) -> Tuple[str, str]: """Split e.g. 'beqz $r0,1f0' into 'beqz $r0,' and '1f0'.""" parts = line.split(",") if len(parts) < 2: parts = line.split(None, 1) if len(parts) < 2: parts.append("") off = len(line) - len(parts[-1].strip()) return line[:off], line[off:] def diff_sequences_difflib( seq1: List[str], seq2: List[str] ) -> List[Tuple[str, int, int, int, int]]: differ = difflib.SequenceMatcher(a=seq1, b=seq2, autojunk=False) return differ.get_opcodes() def diff_sequences( seq1: List[str], seq2: List[str], algorithm: str ) -> List[Tuple[str, int, int, int, int]]: if algorithm != "levenshtein": return diff_sequences_difflib(seq1, seq2) # The Levenshtein library assumes that we compare strings, not lists. Convert. remapping: Dict[str, str] = {} def remap(seq: List[str]) -> str: seq = seq[:] for i in range(len(seq)): val = remapping.get(seq[i]) if val is None: val = chr(len(remapping)) remapping[seq[i]] = val seq[i] = val return "".join(seq) try: rem1 = remap(seq1) rem2 = remap(seq2) except ValueError: if len(seq1) + len(seq2) < 0x110000: raise # If there are too many unique elements, chr() doesn't work. # Assume this is the case and fall back to difflib. return diff_sequences_difflib(seq1, seq2) import Levenshtein ret: List[Tuple[str, int, int, int, int]] = Levenshtein.opcodes(rem1, rem2) return ret def diff_lines( lines1: List[Line], lines2: List[Line], algorithm: str, ) -> List[Tuple[Optional[Line], Optional[Line]]]: ret = [] for (tag, i1, i2, j1, j2) in diff_sequences( [line.mnemonic for line in lines1], [line.mnemonic for line in lines2], algorithm, ): for line1, line2 in itertools.zip_longest(lines1[i1:i2], lines2[j1:j2]): if tag == "replace": if line1 is None: tag = "insert" elif line2 is None: tag = "delete" elif tag == "insert": assert line1 is None elif tag == "delete": assert line2 is None ret.append((line1, line2)) return ret def diff_sameline( old_line: Line, new_line: Line, config: Config, symbol_map: Dict[str, str] ) -> Tuple[int, int, bool]: old = old_line.scorable_line new = new_line.scorable_line if old == new: return (0, 0, False) num_stack_penalties = 0 num_regalloc_penalties = 0 has_symbol_mismatch = False ignore_last_field = False if config.score_stack_differences: oldsp = re.search(config.arch.re_sprel, old) newsp = re.search(config.arch.re_sprel, new) if oldsp and newsp: oldrel = int(oldsp.group(1) or "0", 0) newrel = int(newsp.group(1) or "0", 0) num_stack_penalties += abs(oldrel - newrel) ignore_last_field = True # Probably regalloc difference, or signed vs unsigned # Compare each field in order new_parts, old_parts = new.split(None, 1), old.split(None, 1) newfields = new_parts[1].split(",") if len(new_parts) > 1 else [] oldfields = old_parts[1].split(",") if len(old_parts) > 1 else [] if ignore_last_field: newfields = newfields[:-1] oldfields = oldfields[:-1] else: # If the last field has a parenthesis suffix, e.g. "0x38(r7)" # we split that part out to make it a separate field # however, we don't split if it has a proceeding % macro, e.g. "%lo(.data)" re_paren = re.compile(r"(? 0 else []) newfields = newfields[:-1] + (re_paren.split(newfields[-1]) if len(newfields) > 0 else []) for nf, of in zip(newfields, oldfields): if nf != of: # If the new field is a match to any symbol case # and the old field had a relocation, then ignore this mismatch if ( new_line.symbol and old_line.symbol and field_matches_any_symbol(nf, config.arch) ): if check_for_symbol_mismatch(old_line, new_line, symbol_map): has_symbol_mismatch = True continue num_regalloc_penalties += 1 # Penalize any extra fields num_regalloc_penalties += abs(len(newfields) - len(oldfields)) return (num_stack_penalties, num_regalloc_penalties, has_symbol_mismatch) def score_diff_lines( lines: List[Tuple[Optional[Line], Optional[Line]]], config: Config, symbol_map: Dict[str, str], ) -> int: # This logic is copied from `scorer.py` from the decomp permuter project # https://github.com/simonlindholm/decomp-permuter/blob/main/src/scorer.py num_stack_penalties = 0 num_regalloc_penalties = 0 num_reordering_penalties = 0 num_insertion_penalties = 0 num_deletion_penalties = 0 deletions = [] insertions = [] def diff_insert(line: str) -> None: # Reordering or totally different codegen. # Defer this until later when we can tell. insertions.append(line) def diff_delete(line: str) -> None: deletions.append(line) # Find the end of the last long streak of matching mnemonics, if it looks # like the objdump output was truncated. This is used to skip scoring # misaligned lines at the end of the diff. last_mismatch = -1 max_index = None lines_were_truncated = False for index, (line1, line2) in enumerate(lines): if (line1 and line1.original == "...") or (line2 and line2.original == "..."): lines_were_truncated = True if line1 and line2 and line1.mnemonic == line2.mnemonic: if index - last_mismatch >= 50: max_index = index else: last_mismatch = index if not lines_were_truncated: max_index = None for index, (line1, line2) in enumerate(lines): if max_index is not None and index > max_index: break if line1 and line2 and line1.mnemonic == line2.mnemonic: sp, rp, _ = diff_sameline(line1, line2, config, symbol_map) num_stack_penalties += sp num_regalloc_penalties += rp else: if line1: diff_delete(line1.scorable_line) if line2: diff_insert(line2.scorable_line) insertions_co = Counter(insertions) deletions_co = Counter(deletions) for item in insertions_co + deletions_co: ins = insertions_co[item] dels = deletions_co[item] common = min(ins, dels) num_insertion_penalties += ins - common num_deletion_penalties += dels - common num_reordering_penalties += common return ( num_stack_penalties * config.penalty_stackdiff + num_regalloc_penalties * config.penalty_regalloc + num_reordering_penalties * config.penalty_reordering + num_insertion_penalties * config.penalty_insertion + num_deletion_penalties * config.penalty_deletion ) @dataclass(frozen=True) class OutputLine: base: Optional[Text] = field(compare=False) fmt2: Text = field(compare=False) key2: Optional[str] boring: bool = field(compare=False) is_data_ref: bool = field(compare=False) line1: Optional[Line] = field(compare=False) line2: Optional[Line] = field(compare=False) @dataclass(frozen=True) class Diff: lines: List[OutputLine] score: int max_score: int def trim_nops(lines: List[Line], arch: ArchSettings) -> List[Line]: lines = lines[:] while ( lines and lines[-1].mnemonic == "nop" and (len(lines) == 1 or lines[-2].mnemonic not in arch.delay_slot_instructions) ): lines.pop() return lines def do_diff(lines1: List[Line], lines2: List[Line], config: Config) -> Diff: if config.show_source: import cxxfilt arch = config.arch fmt = config.formatter output: List[OutputLine] = [] symbol_map: Dict[str, str] = {} sc1 = symbol_formatter("base-reg", 0) sc2 = symbol_formatter("my-reg", 0) sc3 = symbol_formatter("base-stack", 4) sc4 = symbol_formatter("my-stack", 4) sc5 = symbol_formatter("base-branch", 0) sc6 = symbol_formatter("my-branch", 0) bts1: Set[int] = set() bts2: Set[int] = set() if config.show_branches: for (lines, btset, sc) in [ (lines1, bts1, sc5), (lines2, bts2, sc6), ]: for line in lines: bt = line.branch_target if bt is not None: btset.add(bt) sc(str(bt)) lines1 = trim_nops(lines1, arch) lines2 = trim_nops(lines2, arch) diffed_lines = diff_lines(lines1, lines2, config.algorithm) line_num_base = -1 line_num_offset = 0 line_num_2to1 = {} for (line1, line2) in diffed_lines: if line1 is not None and line1.line_num is not None: line_num_base = line1.line_num line_num_offset = 0 else: line_num_offset += 1 if line2 is not None and line2.line_num is not None: line_num_2to1[line2.line_num] = (line_num_base, line_num_offset) for (line1, line2) in diffed_lines: line_color1 = line_color2 = sym_color = BasicFormat.NONE line_prefix = " " is_data_ref = False out1 = Text() if not line1 else Text(pad_mnemonic(line1.original)) out2 = Text() if not line2 else Text(pad_mnemonic(line2.original)) if line1 and line2 and line1.diff_row == line2.diff_row: if line1.diff_row == "": if line1.normalized_original != line2.normalized_original: line_prefix = "i" sym_color = BasicFormat.DIFF_CHANGE out1 = out1.reformat(sym_color) out2 = out2.reformat(sym_color) is_data_ref = True elif ( line1.normalized_original == line2.normalized_original and line2.branch_target is None ): # Fast path: no coloring needed. We don't include branch instructions # in this case because we need to check that their targets line up in # the diff, and don't just happen to have the are the same address # by accident. pass else: mnemonic = line1.original.split()[0] branchless1, address1 = out1.plain(), "" branchless2, address2 = out2.plain(), "" if mnemonic in arch.instructions_with_address_immediates: branchless1, address1 = split_off_address(branchless1) branchless2, address2 = split_off_address(branchless2) out1 = Text(branchless1) out2 = Text(branchless2) out1, out2 = format_fields( arch.re_imm, out1, out2, lambda _: BasicFormat.IMMEDIATE ) if line2.branch_target is not None: target = line2.branch_target line2_target = line_num_2to1.get(line2.branch_target) if line2_target is None: # If the target is outside the disassembly, extrapolate. # This only matters near the bottom. assert line2.line_num is not None line2_line = line_num_2to1[line2.line_num] line2_target = (line2_line[0] + (target - line2.line_num), 0) # Adjust the branch target for scoring and three-way diffing. norm2, norm_branch2 = split_off_address(line2.normalized_original) if norm_branch2 != "": retargetted = hex(line2_target[0]).replace("0x", "") if line2_target[1] != 0: retargetted += f"+{line2_target[1]}" line2.normalized_original = norm2 + retargetted sc_base, _ = split_off_address(line2.scorable_line) line2.scorable_line = sc_base + retargetted same_target = line2_target == (line1.branch_target, 0) else: # Do a naive comparison for non-branches (e.g. function calls). same_target = address1 == address2 if normalize_imms(branchless1, arch) == normalize_imms( branchless2, arch ): ( stack_penalties, regalloc_penalties, has_symbol_mismatch, ) = diff_sameline(line1, line2, config, symbol_map) if ( regalloc_penalties == 0 and stack_penalties == 0 and not has_symbol_mismatch ): # ignore differences due to %lo(.rodata + ...) vs symbol out1 = out1.reformat(BasicFormat.NONE) out2 = out2.reformat(BasicFormat.NONE) elif line2.branch_target is not None and same_target: # same-target branch, don't color pass else: # must have an imm difference (or else we would have hit the # fast path) sym_color = BasicFormat.IMMEDIATE line_prefix = "i" else: out1, out2 = format_fields(arch.re_sprel, out1, out2, sc3, sc4) if normalize_stack(branchless1, arch) == normalize_stack( branchless2, arch ): # only stack differences (luckily stack and imm # differences can't be combined in MIPS, so we # don't have to think about that case) sym_color = BasicFormat.STACK line_prefix = "s" else: # reg differences and maybe imm as well out1, out2 = format_fields(arch.re_reg, out1, out2, sc1, sc2) cats = config.reg_categories if cats and any( cats.get(of.group()) != cats.get(nf.group()) for (of, nf) in zip( out1.finditer(arch.re_reg), out2.finditer(arch.re_reg) ) ): sym_color = BasicFormat.REGISTER_CATEGORY line_prefix = "R" else: sym_color = BasicFormat.REGISTER line_prefix = "r" line_color1 = line_color2 = sym_color if same_target: address_imm_fmt = BasicFormat.NONE else: address_imm_fmt = BasicFormat.IMMEDIATE out1 += Text(address1, address_imm_fmt) out2 += Text(address2, address_imm_fmt) elif line1 and line2: line_prefix = "|" line_color1 = line_color2 = sym_color = BasicFormat.DIFF_CHANGE out1 = out1.reformat(line_color1) out2 = out2.reformat(line_color2) elif line1: line_prefix = "<" line_color1 = sym_color = BasicFormat.DIFF_REMOVE out1 = out1.reformat(line_color1) out2 = Text() elif line2: line_prefix = ">" line_color2 = sym_color = BasicFormat.DIFF_ADD out1 = Text() out2 = out2.reformat(line_color2) if config.show_source and line2 and line2.comment: out2 += f" {line2.comment}" def format_part( out: Text, line: Optional[Line], line_color: Format, btset: Set[int], sc: FormatFunction, ) -> Optional[Text]: if line is None: return None if line.line_num is None: return out in_arrow = Text(" ") out_arrow = Text() if config.show_branches: if line.line_num in btset: in_arrow = Text("~>", sc(str(line.line_num))) if line.branch_target is not None: out_arrow = " " + Text("~>", sc(str(line.branch_target))) formatted_line_num = Text(hex(line.line_num)[2:] + ":", line_color) return formatted_line_num + " " + in_arrow + " " + out + out_arrow part1 = format_part(out1, line1, line_color1, bts1, sc5) part2 = format_part(out2, line2, line_color2, bts2, sc6) if config.show_source and line2: for source_line in line2.source_lines: line_format = BasicFormat.SOURCE_OTHER if config.source_old_binutils: if source_line and re.fullmatch(".*\.c(?:pp)?:\d+", source_line): line_format = BasicFormat.SOURCE_FILENAME elif source_line and source_line.endswith("():"): line_format = BasicFormat.SOURCE_FUNCTION try: source_line = cxxfilt.demangle( source_line[:-3], external_only=False ) except: pass else: # File names and function names if source_line and source_line[0] != "│": line_format = BasicFormat.SOURCE_FILENAME # Function names if source_line.endswith("():"): line_format = BasicFormat.SOURCE_FUNCTION try: source_line = cxxfilt.demangle( source_line[:-3], external_only=False ) except: pass padding = " " * 7 if config.show_line_numbers else " " * 2 output.append( OutputLine( base=None, fmt2=padding + Text(source_line, line_format), key2=source_line, boring=True, is_data_ref=False, line1=None, line2=None, ) ) key2 = line2.normalized_original if line2 else None boring = False if line_prefix == " ": boring = True elif config.compress and config.compress.same_instr and line_prefix in "irs": boring = True if config.show_line_numbers: if line2 and line2.source_line_num is not None: num_color = ( BasicFormat.SOURCE_LINE_NUM if sym_color == BasicFormat.NONE else sym_color ) num2 = Text(f"{line2.source_line_num:5}", num_color) else: num2 = Text(" " * 5) else: num2 = Text() fmt2 = Text(line_prefix, sym_color) + num2 + " " + (part2 or Text()) output.append( OutputLine( base=part1, fmt2=fmt2, key2=key2, boring=boring, is_data_ref=is_data_ref, line1=line1, line2=line2, ) ) output = output[config.skip_lines :] score = score_diff_lines(diffed_lines, config, symbol_map) max_score = len(lines1) * config.penalty_deletion return Diff(lines=output, score=score, max_score=max_score) def chunk_diff_lines( diff: List[OutputLine], ) -> List[Union[List[OutputLine], OutputLine]]: """Chunk a diff into an alternating list like A B A B ... A, where: * A is a List[OutputLine] of insertions, * B is a single non-insertion OutputLine, with .base != None.""" cur_right: List[OutputLine] = [] chunks: List[Union[List[OutputLine], OutputLine]] = [] for output_line in diff: if output_line.base is not None: chunks.append(cur_right) chunks.append(output_line) cur_right = [] else: cur_right.append(output_line) chunks.append(cur_right) return chunks def compress_matching( li: List[Tuple[OutputLine, ...]], context: int ) -> List[Tuple[OutputLine, ...]]: ret: List[Tuple[OutputLine, ...]] = [] matching_streak: List[Tuple[OutputLine, ...]] = [] context = max(context, 0) def flush_matching() -> None: if len(matching_streak) <= 2 * context + 1: ret.extend(matching_streak) else: ret.extend(matching_streak[:context]) skipped = len(matching_streak) - 2 * context filler = OutputLine( base=Text(f"<{skipped} lines>", BasicFormat.SOURCE_OTHER), fmt2=Text(), key2=None, boring=False, is_data_ref=False, line1=None, line2=None, ) columns = len(matching_streak[0]) ret.append(tuple([filler] * columns)) if context > 0: ret.extend(matching_streak[-context:]) matching_streak.clear() for line in li: if line[0].boring: matching_streak.append(line) else: flush_matching() ret.append(line) flush_matching() return ret def align_diffs(old_diff: Diff, new_diff: Diff, config: Config) -> TableData: headers: Tuple[Text, ...] diff_lines: List[Tuple[OutputLine, ...]] padding = " " * 7 if config.show_line_numbers else " " * 2 if config.diff_mode in (DiffMode.THREEWAY_PREV, DiffMode.THREEWAY_BASE): old_chunks = chunk_diff_lines(old_diff.lines) new_chunks = chunk_diff_lines(new_diff.lines) diff_lines = [] empty = OutputLine(Text(), Text(), None, True, False, None, None) assert len(old_chunks) == len(new_chunks), "same target" for old_chunk, new_chunk in zip(old_chunks, new_chunks): if isinstance(old_chunk, list): assert isinstance(new_chunk, list) if not old_chunk and not new_chunk: # Most of the time lines sync up without insertions/deletions, # and there's no interdiffing to be done. continue differ = difflib.SequenceMatcher( a=old_chunk, b=new_chunk, autojunk=False ) for (tag, i1, i2, j1, j2) in differ.get_opcodes(): if tag in ["equal", "replace"]: for i, j in zip(range(i1, i2), range(j1, j2)): diff_lines.append((empty, new_chunk[j], old_chunk[i])) if tag in ["insert", "replace"]: for j in range(j1 + i2 - i1, j2): diff_lines.append((empty, new_chunk[j], empty)) if tag in ["delete", "replace"]: for i in range(i1 + j2 - j1, i2): diff_lines.append((empty, empty, old_chunk[i])) else: assert isinstance(new_chunk, OutputLine) # old_chunk.base and new_chunk.base have the same text since # both diffs are based on the same target, but they might # differ in color. Use the new version. diff_lines.append((new_chunk, new_chunk, old_chunk)) diff_lines = [ (base, new, old if old != new else empty) for base, new, old in diff_lines ] headers = ( Text("TARGET"), Text(f"{padding}CURRENT ({new_diff.score})"), Text(f"{padding}PREVIOUS ({old_diff.score})"), ) current_score = new_diff.score max_score = new_diff.max_score previous_score = old_diff.score elif config.diff_mode in (DiffMode.SINGLE, DiffMode.SINGLE_BASE): header = Text("BASE" if config.diff_mode == DiffMode.SINGLE_BASE else "CURRENT") diff_lines = [(line,) for line in new_diff.lines] headers = (header,) # Scoring is disabled for view mode current_score = 0 max_score = 0 previous_score = None else: diff_lines = [(line, line) for line in new_diff.lines] headers = ( Text("TARGET"), Text(f"{padding}CURRENT ({new_diff.score})"), ) current_score = new_diff.score max_score = new_diff.max_score previous_score = None if config.compress: diff_lines = compress_matching(diff_lines, config.compress.context) def diff_line_to_table_line(line: Tuple[OutputLine, ...]) -> TableLine: cells = [ (line[0].base or Text(), line[0].line1), ] for ol in line[1:]: cells.append((ol.fmt2, ol.line2)) return TableLine( key=line[0].key2, is_data_ref=line[0].is_data_ref, cells=tuple(cells), ) return TableData( headers=headers, current_score=current_score, max_score=max_score, previous_score=previous_score, lines=[diff_line_to_table_line(line) for line in diff_lines], ) def debounced_fs_watch( targets: List[str], outq: "queue.Queue[Optional[float]]", config: Config, project: ProjectSettings, ) -> None: import watchdog.events import watchdog.observers class WatchEventHandler(watchdog.events.FileSystemEventHandler): def __init__( self, queue: "queue.Queue[float]", file_targets: List[str] ) -> None: self.queue = queue self.file_targets = file_targets def on_modified(self, ev: object) -> None: if isinstance(ev, watchdog.events.FileModifiedEvent): self.changed(ev.src_path) def on_moved(self, ev: object) -> None: if isinstance(ev, watchdog.events.FileMovedEvent): self.changed(ev.dest_path) def should_notify(self, path: str) -> bool: for target in self.file_targets: if os.path.normpath(path) == target: return True if config.make and any( path.endswith(suffix) for suffix in project.source_extensions ): return True return False def changed(self, path: str) -> None: if self.should_notify(path): self.queue.put(time.time()) def debounce_thread() -> NoReturn: listenq: "queue.Queue[float]" = queue.Queue() file_targets: List[str] = [] event_handler = WatchEventHandler(listenq, file_targets) observer = watchdog.observers.Observer() observed = set() for target in targets: if os.path.isdir(target): observer.schedule(event_handler, target, recursive=True) else: file_targets.append(os.path.normpath(target)) target = os.path.dirname(target) or "." if target not in observed: observed.add(target) observer.schedule(event_handler, target) observer.start() while True: t = listenq.get() more = True while more: delay = t + DEBOUNCE_DELAY - time.time() if delay > 0: time.sleep(delay) # consume entire queue more = False try: while True: t = listenq.get(block=False) more = True except queue.Empty: pass outq.put(t) th = threading.Thread(target=debounce_thread, daemon=True) th.start() class Display: basedump: str mydump: str last_refresh_key: object config: Config emsg: Optional[str] last_diff_output: Optional[Diff] pending_update: Optional[str] ready_queue: "queue.Queue[None]" watch_queue: "queue.Queue[Optional[float]]" less_proc: "Optional[subprocess.Popen[bytes]]" def __init__(self, basedump: str, mydump: str, config: Config) -> None: self.config = config self.base_lines = process(basedump, config) self.mydump = mydump self.emsg = None self.last_refresh_key = None self.last_diff_output = None def run_diff(self) -> Tuple[str, object]: if self.emsg is not None: return (self.emsg, self.emsg) my_lines = process(self.mydump, self.config) if self.config.diff_mode == DiffMode.SINGLE_BASE: diff_output = do_diff(self.base_lines, self.base_lines, self.config) elif self.config.diff_mode == DiffMode.SINGLE: diff_output = do_diff(my_lines, my_lines, self.config) else: diff_output = do_diff(self.base_lines, my_lines, self.config) last_diff_output = self.last_diff_output or diff_output if self.config.diff_mode != DiffMode.THREEWAY_BASE or not self.last_diff_output: self.last_diff_output = diff_output data = align_diffs(last_diff_output, diff_output, self.config) output = self.config.formatter.table(data) refresh_key = ( [line.key2 for line in diff_output.lines], diff_output.score, ) return (output, refresh_key) def run_less( self, output: str ) -> "Tuple[subprocess.Popen[bytes], subprocess.Popen[bytes]]": # Pipe the output through 'tail' and only then to less, to ensure the # write call doesn't block. ('tail' has to buffer all its input before # it starts writing.) This also means we don't have to deal with pipe # closure errors. buffer_proc = subprocess.Popen( BUFFER_CMD, stdin=subprocess.PIPE, stdout=subprocess.PIPE ) less_proc = subprocess.Popen(LESS_CMD, stdin=buffer_proc.stdout) assert buffer_proc.stdin assert buffer_proc.stdout buffer_proc.stdin.write(output.encode()) buffer_proc.stdin.close() buffer_proc.stdout.close() return (buffer_proc, less_proc) def run_sync(self) -> None: output, _ = self.run_diff() proca, procb = self.run_less(output) procb.wait() proca.wait() def run_async(self, watch_queue: "queue.Queue[Optional[float]]") -> None: self.watch_queue = watch_queue self.ready_queue = queue.Queue() self.pending_update = None output, refresh_key = self.run_diff() self.last_refresh_key = refresh_key dthread = threading.Thread(target=self.display_thread, args=(output,)) dthread.start() self.ready_queue.get() def display_thread(self, initial_output: str) -> None: proca, procb = self.run_less(initial_output) self.less_proc = procb self.ready_queue.put(None) while True: ret = procb.wait() proca.wait() self.less_proc = None if ret != 0: # fix the terminal os.system("tput reset") if ret != 0 and self.pending_update is not None: # killed by program with the intent to refresh output = self.pending_update self.pending_update = None proca, procb = self.run_less(output) self.less_proc = procb self.ready_queue.put(None) else: # terminated by user, or killed self.watch_queue.put(None) self.ready_queue.put(None) break def progress(self, msg: str) -> None: # Write message to top-left corner sys.stdout.write("\x1b7\x1b[1;1f{}\x1b8".format(msg + " ")) sys.stdout.flush() def update(self, text: str, error: bool) -> None: if not error and not self.emsg and text == self.mydump: self.progress("Unchanged. ") return if not error: self.mydump = text self.emsg = None else: self.emsg = text output, refresh_key = self.run_diff() if refresh_key == self.last_refresh_key: self.progress("Unchanged. ") return self.last_refresh_key = refresh_key self.pending_update = output if not self.less_proc: return self.less_proc.kill() self.ready_queue.get() def terminate(self) -> None: if not self.less_proc: return self.less_proc.kill() self.ready_queue.get() def main() -> None: args = parser.parse_args() # Apply project-specific configuration. settings: Dict[str, Any] = {} diff_settings.apply(settings, args) # type: ignore project = create_project_settings(settings) try: config = create_config(args, project) except ValueError as e: fail(str(e)) if config.algorithm == "levenshtein": try: import Levenshtein except ModuleNotFoundError as e: fail(MISSING_PREREQUISITES.format(e.name)) if config.show_source: try: import cxxfilt except ModuleNotFoundError as e: fail(MISSING_PREREQUISITES.format(e.name)) if ( config.diff_mode in (DiffMode.THREEWAY_BASE, DiffMode.THREEWAY_PREV) and not args.watch ): fail("Threeway diffing requires -w.") if args.diff_elf_symbol: make_target, basecmd, mycmd = dump_elf( args.start, args.end, args.diff_elf_symbol, config, project ) elif config.diff_obj: make_target, basecmd, mycmd = dump_objfile( args.start, args.end, config, project ) else: make_target, basecmd, mycmd = dump_binary(args.start, args.end, config, project) map_build_target_fn = getattr(diff_settings, "map_build_target", None) if map_build_target_fn: make_target = map_build_target_fn(make_target=make_target) if args.write_asm is not None: mydump = run_objdump(mycmd, config, project) with open(args.write_asm, "w") as f: f.write(mydump) print(f"Wrote assembly to {args.write_asm}.") sys.exit(0) if args.base_asm is not None: with open(args.base_asm) as f: basedump = f.read() elif config.diff_mode != DiffMode.SINGLE: basedump = run_objdump(basecmd, config, project) else: basedump = "" mydump = run_objdump(mycmd, config, project) display = Display(basedump, mydump, config) if args.no_pager or args.format in ("html", "json"): print(display.run_diff()[0]) elif not args.watch: display.run_sync() else: if not args.make and not args.agree: yn = input( "Warning: watch-mode (-w) enabled without auto-make (-m) or agree-all (-y). " "You will have to run make manually. Ok? (Y/n) " ) if yn.lower() == "n": return if args.make: watch_sources = None watch_sources_for_target_fn = getattr( diff_settings, "watch_sources_for_target", None ) if watch_sources_for_target_fn: watch_sources = watch_sources_for_target_fn(make_target) watch_sources = watch_sources or project.source_directories if not watch_sources: fail("Missing source_directories config, don't know what to watch.") else: watch_sources = [make_target] q: "queue.Queue[Optional[float]]" = queue.Queue() debounced_fs_watch(watch_sources, q, config, project) display.run_async(q) last_build = 0.0 try: while True: t = q.get() if t is None: break if t < last_build: continue last_build = time.time() if args.make: display.progress("Building...") ret = run_make_capture_output(make_target, project) if ret.returncode != 0: display.update( ret.stderr.decode("utf-8-sig", "replace") or ret.stdout.decode("utf-8-sig", "replace"), error=True, ) continue mydump = run_objdump(mycmd, config, project) display.update(mydump, error=False) except KeyboardInterrupt: display.terminate() if __name__ == "__main__": main()