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diff.py
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diff.py
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#!/usr/bin/env python3
import sys
import re
import os
import ast
import argparse
import subprocess
import collections
import difflib
import string
import itertools
import threading
import queue
import time
def fail(msg):
print(msg, file=sys.stderr)
sys.exit(1)
MISSING_PREREQUISITES = (
"Missing prerequisite python module {}. "
"Run `python3 -m pip install --user colorama ansiwrap attrs watchdog python-Levenshtein cxxfilt` to install prerequisites (cxxfilt only needed with --source)."
)
try:
import attr
from colorama import Fore, Style, Back
import ansiwrap
import watchdog
except ModuleNotFoundError as e:
fail(MISSING_PREREQUISITES.format(e.name))
# 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.")
# ==== CONFIG ====
parser = argparse.ArgumentParser(description="Diff MIPS assembly.")
parser.add_argument("start", help="Function name or address to start diffing from.")
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(
"--elf",
dest="diff_elf_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(
"--source",
action="store_true",
help="Show source code (if possible). Only works with -o and -e.",
)
parser.add_argument(
"--inlines",
action="store_true",
help="Show inline function calls (if possible). Only works with -o and -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",
type=int,
default=0,
help="Skip the first N lines of output.",
)
parser.add_argument(
"-f",
"--stop-jr-ra",
dest="stop_jrra",
action="store_true",
help="Stop disassembling at the first 'jr ra'. Some functions have multiple return points, so use with care!",
)
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(
"-B",
"--no-show-branches",
dest="show_branches",
action="store_false",
help="Don't visualize branches/branch targets.",
)
parser.add_argument(
"-S",
"--base-shift",
dest="base_shift",
type=str,
default="0",
help="Diff position X in our img against position X + 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(
"--width",
dest="column_width",
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.",
)
parser.add_argument(
"--max-size",
"--max-lines",
dest="max_lines",
type=int,
default=1024,
help="The maximum length of the diff, in lines.",
)
# Project-specific flags, e.g. different versions/make arguments.
if hasattr(diff_settings, "add_custom_arguments"):
diff_settings.add_custom_arguments(parser)
args = parser.parse_args()
# Set imgs, map file and make flags in a project-specific manner.
config = {}
diff_settings.apply(config, args)
arch = config.get("arch", "mips")
baseimg = config.get("baseimg", None)
myimg = config.get("myimg", None)
mapfile = config.get("mapfile", None)
makeflags = config.get("makeflags", [])
source_directories = config.get("source_directories", None)
objdump_executable = config.get("objdump_executable", None)
MAX_FUNCTION_SIZE_LINES = args.max_lines
MAX_FUNCTION_SIZE_BYTES = MAX_FUNCTION_SIZE_LINES * 4
COLOR_ROTATION = [
Fore.MAGENTA,
Fore.CYAN,
Fore.GREEN,
Fore.RED,
Fore.LIGHTYELLOW_EX,
Fore.LIGHTMAGENTA_EX,
Fore.LIGHTCYAN_EX,
Fore.LIGHTGREEN_EX,
Fore.LIGHTBLACK_EX,
]
BUFFER_CMD = ["tail", "-c", str(10 ** 9)]
LESS_CMD = ["less", "-SRic", "-#6"]
DEBOUNCE_DELAY = 0.1
FS_WATCH_EXTENSIONS = [".c", ".h"]
# ==== LOGIC ====
if args.algorithm == "levenshtein":
try:
import Levenshtein
except ModuleNotFoundError as e:
fail(MISSING_PREREQUISITES.format(e.name))
if args.source:
try:
import cxxfilt
except ModuleNotFoundError as e:
fail(MISSING_PREREQUISITES.format(e.name))
if objdump_executable is None:
for objdump_cand in ["mips-linux-gnu-objdump", "mips64-elf-objdump"]:
try:
subprocess.check_call(
[objdump_cand, "--version"],
stdout=subprocess.DEVNULL,
stderr=subprocess.DEVNULL,
)
objdump_executable = objdump_cand
break
except subprocess.CalledProcessError:
pass
except FileNotFoundError:
pass
if not objdump_executable:
fail(
"Missing binutils; please ensure mips-linux-gnu-objdump or mips64-elf-objdump exist, or configure objdump_executable."
)
def eval_int(expr, emsg=None):
try:
ret = ast.literal_eval(expr)
if not isinstance(ret, int):
raise Exception("not an integer")
return ret
except Exception:
if emsg is not None:
fail(emsg)
return None
def eval_line_num(expr):
return int(expr.strip().replace(":", ""), 16)
def run_make(target, capture_output=False):
if capture_output:
return subprocess.run(
["make"] + makeflags + [target],
stderr=subprocess.PIPE,
stdout=subprocess.PIPE,
)
else:
subprocess.check_call(["make"] + makeflags + [target])
def restrict_to_function(dump, fn_name):
out = []
search = f"<{fn_name}>:"
found = False
for line in dump.split("\n"):
if found:
if len(out) >= MAX_FUNCTION_SIZE_LINES:
break
out.append(line)
elif search in line:
found = True
return "\n".join(out)
def maybe_get_objdump_source_flags():
if not args.source:
return []
flags = [
"--source",
"--source-comment=| ",
"-l",
]
if args.inlines:
flags.append("--inlines")
return flags
def run_objdump(cmd):
flags, target, restrict = cmd
out = subprocess.check_output(
[objdump_executable] + flags + [target], universal_newlines=True
)
if restrict is not None:
return restrict_to_function(out, restrict)
return out
base_shift = eval_int(
args.base_shift, "Failed to parse --base-shift (-S) argument as an integer."
)
def search_map_file(fn_name):
if not mapfile:
fail(f"No map file configured; cannot find function {fn_name}.")
try:
with open(mapfile) as f:
lines = f.read().split("\n")
except Exception:
fail(f"Failed to open map file {mapfile} for reading.")
try:
cur_objfile = None
ram_to_rom = None
cands = []
last_line = ""
for line in lines:
if line.startswith(" .text"):
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):
ram = int(line.split()[0], 0)
if cur_objfile is not None and ram_to_rom is not None:
cands.append((cur_objfile, ram + ram_to_rom))
last_line = line
except Exception as e:
import traceback
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]
return None, None
def dump_elf():
if not baseimg or not myimg:
fail("Missing myimg/baseimg in config.")
if base_shift:
fail("--base-shift not compatible with -e")
start_addr = eval_int(args.start, "Start address must be an integer expression.")
if args.end is not None:
end_addr = eval_int(args.end, "End address must be an integer expression.")
else:
end_addr = start_addr + MAX_FUNCTION_SIZE_BYTES
flags1 = [
f"--start-address={start_addr}",
f"--stop-address={end_addr}",
]
flags2 = [
f"--disassemble={args.diff_elf_symbol}",
]
objdump_flags = ["-drz", "-j", ".text"]
return (
myimg,
(objdump_flags + flags1, baseimg, None),
(objdump_flags + flags2 + maybe_get_objdump_source_flags(), myimg, None),
)
def dump_objfile():
if base_shift:
fail("--base-shift not compatible with -o")
if args.end is not None:
fail("end address not supported together with -o")
if args.start.startswith("0"):
fail("numerical start address not supported with -o; pass a function name")
objfile, _ = search_map_file(args.start)
if not objfile:
fail("Not able to find .o file for function.")
if args.make:
run_make(objfile)
if not os.path.isfile(objfile):
fail(f"Not able to find .o file for function: {objfile} is not a file.")
refobjfile = "expected/" + objfile
if not os.path.isfile(refobjfile):
fail(f'Please ensure an OK .o file exists at "{refobjfile}".')
objdump_flags = ["-drz"]
return (
objfile,
(objdump_flags, refobjfile, args.start),
(objdump_flags + maybe_get_objdump_source_flags(), objfile, args.start),
)
def dump_binary():
if not baseimg or not myimg:
fail("Missing myimg/baseimg in config.")
if args.make:
run_make(myimg)
start_addr = eval_int(args.start)
if start_addr is None:
_, start_addr = search_map_file(args.start)
if start_addr is None:
fail("Not able to find function in map file.")
if args.end is not None:
end_addr = eval_int(args.end, "End address must be an integer expression.")
else:
end_addr = start_addr + MAX_FUNCTION_SIZE_BYTES
objdump_flags = ["-Dz", "-bbinary", "-mmips", "-EB"]
flags1 = [
f"--start-address={start_addr + base_shift}",
f"--stop-address={end_addr + base_shift}",
]
flags2 = [f"--start-address={start_addr}", f"--stop-address={end_addr}"]
return (
myimg,
(objdump_flags + flags1, baseimg, None),
(objdump_flags + flags2, myimg, None),
)
# Alignment with ANSI colors is broken, let's fix it.
def ansi_ljust(s, width):
needed = width - ansiwrap.ansilen(s)
if needed > 0:
return s + " " * needed
else:
return s
if arch == "mips":
re_int = re.compile(r"[0-9]+")
re_comment = re.compile(r"<.*?>")
re_reg = re.compile(r"\$?\b(a[0-3]|t[0-9]|s[0-8]|at|v[01]|f[12]?[0-9]|f3[01]|k[01]|fp|ra)\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)\([^)]*\)")
forbidden = set(string.ascii_letters + "_")
branch_likely_instructions = {
"beql",
"bnel",
"beqzl",
"bnezl",
"bgezl",
"bgtzl",
"blezl",
"bltzl",
"bc1tl",
"bc1fl",
}
branch_instructions = branch_likely_instructions.union(
{"b", "beq", "bne", "beqz", "bnez", "bgez", "bgtz", "blez", "bltz", "bc1t", "bc1f"}
)
instructions_with_address_immediates = branch_instructions.union({"jal", "j"})
elif arch == "aarch64":
re_int = re.compile(r"[0-9]+")
re_comment = re.compile(r"(<.*?>|//.*$)")
# GPRs and FP registers: X0-X30, W0-W30, [DSHQ]0..31
# The zero registers and SP should not be in this list.
re_reg = re.compile(r"\$?\b([dshq][12]?[0-9]|[dshq]3[01]|[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"(?<!sp, )#-?(0x[0-9a-fA-F]+|[0-9]+)\b")
forbidden = set(string.ascii_letters + "_")
branch_likely_instructions = set()
branch_instructions = {"bl", "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"}
instructions_with_address_immediates = branch_instructions.union({"adrp"})
else:
fail("Unknown architecture.")
def hexify_int(row, pat):
full = pat.group(0)
if len(full) <= 1:
# leave one-digit ints alone
return full
start, end = pat.span()
if start and row[start - 1] in forbidden:
return full
if end < len(row) and row[end] in forbidden:
return full
return hex(int(full))
def parse_relocated_line(line):
try:
ind2 = line.rindex(",")
except ValueError:
ind2 = line.rindex("\t")
before = line[: ind2 + 1]
after = line[ind2 + 1 :]
ind2 = after.find("(")
if ind2 == -1:
imm, after = after, ""
else:
imm, after = after[:ind2], after[ind2:]
if imm == "0x0":
imm = "0"
return before, imm, after
def process_reloc(row, prev):
before, imm, after = parse_relocated_line(prev)
repl = row.split()[-1]
if imm != "0":
if before.strip() == "jal" and not imm.startswith("0x"):
imm = "0x" + imm
repl += "+" + imm if int(imm, 0) > 0 else imm
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})"
else:
assert "R_MIPS_26" in row, f"unknown relocation type '{row}'"
return before + repl + after
def cleanup_whitespace(line):
return "".join(f"{o:<8s}" for o in line.strip().split("\t"))
Line = collections.namedtuple(
"Line",
[
"mnemonic",
"diff_row",
"original",
"line_num",
"branch_target",
"source_lines",
"comment",
],
)
def process(lines):
skip_next = False
source_lines = []
if not args.diff_obj:
lines = lines[7:]
if lines and not lines[-1]:
lines.pop()
output = []
for row in lines:
if args.diff_obj and (">:" in row or not row):
continue
if args.source and (row and row[0] != " "):
source_lines.append(row)
continue
if "R_AARCH64_" in row:
# TODO: handle relocation
continue
if "R_MIPS_" in row:
# N.B. Don't transform the diff rows, they already ignore immediates
# if output[-1].diff_row != "<delay-slot>":
# output[-1] = output[-1].replace(diff_row=process_reloc(row, output[-1].row_with_imm))
new_original = process_reloc(row, output[-1].original)
output[-1] = output[-1]._replace(original=new_original)
continue
m_comment = re.search(re_comment, row)
comment = m_comment[0] if m_comment else None
row = re.sub(re_comment, "", row)
row = row.rstrip()
tabs = row.split("\t")
row = "\t".join(tabs[2:])
line_num = tabs[0].strip()
row_parts = row.split("\t", 1)
mnemonic = row_parts[0].strip()
if mnemonic not in instructions_with_address_immediates:
row = re.sub(re_int, lambda s: hexify_int(row, s), row)
original = row
if skip_next:
skip_next = False
row = "<delay-slot>"
mnemonic = "<delay-slot>"
if mnemonic in branch_likely_instructions:
skip_next = True
row = re.sub(re_reg, "<reg>", row)
row = re.sub(re_sprel, "addr(sp)", row)
row_with_imm = row
if mnemonic in instructions_with_address_immediates:
row = row.strip()
row, _ = split_off_branch(row)
row += "<imm>"
else:
row = normalize_imms(row)
branch_target = None
if mnemonic in branch_instructions:
target = row_parts[1].strip().split(",")[-1]
if mnemonic in branch_likely_instructions:
target = hex(int(target, 16) - 4)[2:]
branch_target = target.strip()
output.append(
Line(
mnemonic=mnemonic,
diff_row=row,
original=original,
line_num=line_num,
branch_target=branch_target,
source_lines=source_lines,
comment=comment,
)
)
source_lines = []
if args.stop_jrra and mnemonic == "jr" and row_parts[1].strip() == "ra":
break
# Cleanup whitespace, after relocation fixups have happened
output = [
line._replace(original=cleanup_whitespace(line.original)) for line in output
]
return output
def format_single_line_diff(line1, line2, column_width):
return f"{ansi_ljust(line1,column_width)}{ansi_ljust(line2,column_width)}"
class SymbolColorer:
def __init__(self, base_index):
self.color_index = base_index
self.symbol_colors = {}
def color_symbol(self, s, t=None):
try:
color = self.symbol_colors[s]
except:
color = COLOR_ROTATION[self.color_index % len(COLOR_ROTATION)]
self.color_index += 1
self.symbol_colors[s] = color
t = t or s
return f"{color}{t}{Fore.RESET}"
def maybe_normalize_large_imms(row):
if args.ignore_large_imms:
row = re.sub(re_large_imm, "<imm>", row)
return row
def normalize_imms(row):
return re.sub(re_imm, "<imm>", row)
def normalize_stack(row):
return re.sub(re_sprel, "addr(sp)", row)
def split_off_branch(line):
parts = line.split(",")
if len(parts) < 2:
parts = line.split(None, 1)
off = len(line) - len(parts[-1])
return line[:off], line[off:]
def color_imms(out1, out2):
g1 = []
g2 = []
re.sub(re_imm, lambda s: g1.append(s.group()), out1)
re.sub(re_imm, lambda s: g2.append(s.group()), out2)
if len(g1) == len(g2):
diffs = [x != y for (x, y) in zip(g1, g2)]
it = iter(diffs)
def maybe_color(s):
return f"{Fore.LIGHTBLUE_EX}{s}{Style.RESET_ALL}" if next(it) else s
out1 = re.sub(re_imm, lambda s: maybe_color(s.group()), out1)
it = iter(diffs)
out2 = re.sub(re_imm, lambda s: maybe_color(s.group()), out2)
return out1, out2
def color_branch_imms(br1, br2):
if br1 != br2:
br1 = f"{Fore.LIGHTBLUE_EX}{br1}{Style.RESET_ALL}"
br2 = f"{Fore.LIGHTBLUE_EX}{br2}{Style.RESET_ALL}"
return br1, br2
def diff_sequences_difflib(seq1, seq2):
differ = difflib.SequenceMatcher(a=seq1, b=seq2, autojunk=False)
return differ.get_opcodes()
def diff_sequences(seq1, seq2):
if (
args.algorithm != "levenshtein"
or len(seq1) * len(seq2) > 4 * 10 ** 8
or len(seq1) + len(seq2) >= 0x110000
):
return diff_sequences_difflib(seq1, seq2)
# The Levenshtein library assumes that we compare strings, not lists. Convert.
# (Per the check above we know we have fewer than 0x110000 unique elements, so chr() works.)
remapping = {}
def remap(seq):
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)
seq1 = remap(seq1)
seq2 = remap(seq2)
return Levenshtein.opcodes(seq1, seq2)
def do_diff(basedump, mydump):
output = []
# TODO: status line?
# output.append(sha1sum(mydump))
lines1 = process(basedump.split("\n"))
lines2 = process(mydump.split("\n"))
sc1 = SymbolColorer(0)
sc2 = SymbolColorer(0)
sc3 = SymbolColorer(4)
sc4 = SymbolColorer(4)
sc5 = SymbolColorer(0)
sc6 = SymbolColorer(0)
bts1 = set()
bts2 = set()
if args.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.color_symbol(bt + ":")
for (tag, i1, i2, j1, j2) in diff_sequences(
[line.mnemonic for line in lines1], [line.mnemonic for line in lines2]
):
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
line_color1 = line_color2 = sym_color = Fore.RESET
line_prefix = " "
if line1 and line2 and line1.diff_row == line2.diff_row:
if maybe_normalize_large_imms(
line1.original
) == maybe_normalize_large_imms(line2.original):
out1 = line1.original
out2 = line2.original
elif line1.diff_row == "<delay-slot>":
out1 = f"{Style.BRIGHT}{Fore.LIGHTBLACK_EX}{line1.original}"
out2 = f"{Style.BRIGHT}{Fore.LIGHTBLACK_EX}{line2.original}"
else:
mnemonic = line1.original.split()[0]
out1, out2 = line1.original, line2.original
branch1 = branch2 = ""
if mnemonic in instructions_with_address_immediates:
out1, branch1 = split_off_branch(line1.original)
out2, branch2 = split_off_branch(line2.original)
branchless1 = out1
branchless2 = out2
out1, out2 = color_imms(out1, out2)
same_relative_target = False
if line1.branch_target is not None and line2.branch_target is not None:
relative_target1 = eval_line_num(line1.branch_target) - eval_line_num(line1.line_num)
relative_target2 = eval_line_num(line2.branch_target) - eval_line_num(line2.line_num)
same_relative_target = relative_target1 == relative_target2
if not same_relative_target:
branch1, branch2 = color_branch_imms(branch1, branch2)
out1 += branch1
out2 += branch2
if normalize_imms(branchless1) == normalize_imms(branchless2):
if not same_relative_target:
# only imms differences
sym_color = Fore.LIGHTBLUE_EX
line_prefix = "i"
else:
out1 = re.sub(
re_sprel, lambda s: sc3.color_symbol(s.group()), out1,
)
out2 = re.sub(
re_sprel, lambda s: sc4.color_symbol(s.group()), out2,
)
if normalize_stack(branchless1) == normalize_stack(branchless2):
# 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 = Fore.YELLOW
line_prefix = "s"
else:
# regs differences and maybe imms as well
out1 = re.sub(
re_reg, lambda s: sc1.color_symbol(s.group()), out1
)
out2 = re.sub(
re_reg, lambda s: sc2.color_symbol(s.group()), out2
)
line_color1 = line_color2 = sym_color = Fore.YELLOW
line_prefix = "r"
elif line1 and line2:
line_prefix = "|"
line_color1 = Fore.LIGHTBLUE_EX
line_color2 = Fore.LIGHTBLUE_EX
sym_color = Fore.LIGHTBLUE_EX
out1 = line1.original
out2 = line2.original
elif line1:
line_prefix = "<"
line_color1 = line_color2 = sym_color = Fore.RED
out1 = line1.original
out2 = ""
elif line2:
line_prefix = ">"
line_color1 = line_color2 = sym_color = Fore.GREEN
out1 = ""
out2 = line2.original
in_arrow1 = " "
in_arrow2 = " "
out_arrow1 = ""
out_arrow2 = ""
if args.show_branches and line1:
if line1.line_num in bts1:
in_arrow1 = sc5.color_symbol(line1.line_num, "~>") + line_color1
if line1.branch_target is not None:
out_arrow1 = " " + sc5.color_symbol(line1.branch_target + ":", "~>")
if args.show_branches and line2:
if line2.line_num in bts2:
in_arrow2 = sc6.color_symbol(line2.line_num, "~>") + line_color2
if line2.branch_target is not None:
out_arrow2 = " " + sc6.color_symbol(line2.branch_target + ":", "~>")
if args.source and line2 and line2.comment:
out2 += f" {line2.comment}"
line_num1 = line1.line_num if line1 else ""
line_num2 = line2.line_num if line2 else ""
out1 = f"{line_color1}{line_num1} {in_arrow1} {out1}{Style.RESET_ALL}{out_arrow1}"
out2 = f"{line_color2}{line_num2} {in_arrow2} {out2}{Style.RESET_ALL}{out_arrow2}"
mid = f"{sym_color}{line_prefix} "
if line2:
for source_line in line2.source_lines:
color = Style.DIM
# File names and function names
if source_line and source_line[0] != "|":
color += Style.BRIGHT
# Function names
if source_line.endswith("():"):
# Underline. Colorama does not provide this feature, unfortunately.
color += "\u001b[4m"
try:
source_line = cxxfilt.demangle(
source_line[:-3], external_only=False
)
except:
pass
output.append(
format_single_line_diff(
"",
f" {color}{source_line}{Style.RESET_ALL}",
args.column_width,
)
)
output.append(format_single_line_diff(out1, mid + out2, args.column_width))
return output[args.skip_lines :]
def debounced_fs_watch(targets, outq, debounce_delay):
import watchdog.events
import watchdog.observers
class WatchEventHandler(watchdog.events.FileSystemEventHandler):
def __init__(self, queue, file_targets):
self.queue = queue
self.file_targets = file_targets
def on_modified(self, ev):
if isinstance(ev, watchdog.events.FileModifiedEvent):
self.changed(ev.src_path)
def on_moved(self, ev):
if isinstance(ev, watchdog.events.FileMovedEvent):
self.changed(ev.dest_path)
def should_notify(self, path):
for target in self.file_targets:
if path == target:
return True
if args.make and any(
path.endswith(suffix) for suffix in FS_WATCH_EXTENSIONS
):
return True
return False
def changed(self, path):
if self.should_notify(path):
self.queue.put(time.time())
def debounce_thread():
listenq = queue.Queue()
file_targets = []
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(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:
def __init__(self, basedump, mydump):
self.basedump = basedump
self.mydump = mydump
self.emsg = None
def run_less(self):
if self.emsg is not None:
output = self.emsg
else:
output = "\n".join(do_diff(self.basedump, self.mydump))
# 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
)