import tempfile import os from os import path import sys import re import subprocess from contextlib import contextmanager from collections import defaultdict import colorsys import cxxfilt from elftools.elf.elffile import ELFFile from elftools.elf.enums import ENUM_ST_SHNDX from elftools.elf.descriptions import describe_symbol_type, describe_sh_type import libarchive import matplotlib.cm @contextmanager def chdir(newdir): old_cwd = os.getcwd() try: os.chdir(newdir) yield finally: os.chdir(old_cwd) def keep_last(it, first=None): last = first for elem in it: yield last, elem last = elem def delim(start, end, it, first_only=True): found = False for elem in it: if end(elem): if first_only: return found = False elif start(elem): found = True elif found: yield elem def delim_prefix(start, end, it): yield from delim(lambda l: l.startswith(start), lambda l: end is not None and l.startswith(end), it) def trace_source_files(linker, cmdline, trace_sections=[], total_sections=['.text', '.data', '.rodata']): with tempfile.TemporaryDirectory() as tempdir: out_path = path.join(tempdir, 'output.elf') output = subprocess.check_output([linker, '-o', out_path, f'-Wl,--print-map', *cmdline]) lines = [ line.strip() for line in output.decode().splitlines() ] # FIXME also find isr vector table references defs = {} objs = defaultdict(lambda: 0) aliases = {} sec_name = None last_loc = None last_sym = None line_cont = None for last_line, line in keep_last(delim_prefix('Linker script and memory map', 'OUTPUT', lines), first=''): if not line or line.startswith('LOAD '): sec_name = None continue # first part of continuation line if m := re.match('^(\.[0-9a-zA-Z-_.]+)$', line): line_cont = line sec_name = None continue if line_cont: line = line_cont + ' ' + line line_cont = None # -ffunction-sections/-fdata-sections section if m := re.match('^(\.[0-9a-zA-Z-_.]+)\.([0-9a-zA-Z-_.]+)\s+(0x[0-9a-f]+)\s+(0x[0-9a-f]+)\s+(\S+)$', line): sec, sym, loc, size, obj = m.groups() *_, sym = sym.rpartition('.') sym = cxxfilt.demangle(sym) size = int(size, 16) obj = path.abspath(obj) if sec not in total_sections: size = 0 objs[obj] += size defs[sym] = (sec, size, obj) sec_name, last_loc, last_sym = sec, loc, sym continue # regular (no -ffunction-sections/-fdata-sections) section if m := re.match('^(\.[0-9a-zA-Z-_]+)\s+(0x[0-9a-f]+)\s+(0x[0-9a-f]+)\s+(\S+)$', line): sec, _loc, size, obj = m.groups() size = int(size, 16) obj = path.abspath(obj) if sec in total_sections: objs[obj] += size sec_name = sec last_loc, last_sym = None, None continue # symbol def if m := re.match('^(0x[0-9a-f]+)\s+(\S+)$', line): loc, sym = m.groups() sym = cxxfilt.demangle(sym) loc = int(loc, 16) if sym in defs: continue if loc == last_loc: assert last_sym is not None aliases[sym] = last_sym else: assert sec_name defs[sym] = (sec_name, None, obj) last_loc, last_sym = loc, sym continue refs = defaultdict(lambda: set()) for sym, (sec, size, obj) in defs.items(): fn, _, member = re.match('^([^()]+)(\((.+)\))?$', obj).groups() fn = path.abspath(fn) if member: subprocess.check_call(['ar', 'x', '--output', tempdir, fn, member]) fn = path.join(tempdir, member) with open(fn, 'rb') as f: elf = ELFFile(f) symtab = elf.get_section_by_name('.symtab') symtab_demangled = { cxxfilt.demangle(nsym.name).replace(' ', ''): i for i, nsym in enumerate(symtab.iter_symbols()) } s = set() sec_map = { sec.name: i for i, sec in enumerate(elf.iter_sections()) } matches = [ i for name, i in sec_map.items() if re.match(f'\.rel\..*\.{sym}', name) ] if matches: sec = elf.get_section(matches[0]) for reloc in sec.iter_relocations(): refsym = symtab.get_symbol(reloc['r_info_sym']) name = refsym.name if refsym.name else elf.get_section(refsym['st_shndx']).name.split('.')[-1] s.add(name) refs[sym] = s for tsec in trace_sections: matches = [ i for name, i in sec_map.items() if name == f'.rel{tsec}' ] s = set() if matches: sec = elf.get_section(matches[0]) for reloc in sec.iter_relocations(): refsym = symtab.get_symbol(reloc['r_info_sym']) s.add(refsym.name) refs[tsec.replace('.', '_')] |= s return objs, aliases, defs, refs @contextmanager def wrap(leader='', print=print, left='{', right='}'): print(leader, left) yield lambda *args, **kwargs: print(' ', *args, **kwargs) print(right) def mangle(name): return re.sub('[^a-zA-Z0-9_]', '_', name) hexcolor = lambda r, g, b, *_a: f'#{int(r*255):02x}{int(g*255):02x}{int(b*255):02x}' def vhex(val): r,g,b,_a = matplotlib.cm.viridis(1.0-val) fc = hexcolor(r, g, b) h,s,v = colorsys.rgb_to_hsv(r,g,b) cc = '#000000' if v > 0.8 else '#ffffff' return fc, cc if __name__ == '__main__': import argparse parser = argparse.ArgumentParser() parser.add_argument('--trace-sections', type=str, action='append', default=[]) parser.add_argument('--trim-stubs', type=str, action='append', default=[]) parser.add_argument('--highlight-subdirs', type=str, default=None) parser.add_argument('linker_binary') parser.add_argument('linker_args', nargs=argparse.REMAINDER) args = parser.parse_args() trace_sections = args.trace_sections trace_sections_mangled = { sec.replace('.', '_') for sec in trace_sections } objs, aliases, syms, refs = trace_source_files(args.linker_binary, args.linker_args, trace_sections) clusters = defaultdict(lambda: []) for sym, (sec, size, obj) in syms.items(): clusters[obj].append((sym, sec, size)) max_ssize = max(size or 0 for _sec, size, _obj in syms.values()) max_osize = max(objs.values()) subdir_prefix = path.abspath(args.highlight_subdirs) + '/' if args.highlight_subdirs else '### NO HIGHLIGHT ###' first_comp = lambda le_path: path.dirname(le_path).partition(os.sep)[0] subdir_colors = sorted({ first_comp(obj[len(subdir_prefix):]) for obj in objs if obj.startswith(subdir_prefix) }) subdir_colors = { path: hexcolor(*matplotlib.cm.Pastel1(i/len(subdir_colors))) for i, path in enumerate(subdir_colors) } subdir_sizes = defaultdict(lambda: 0) for obj, size in objs.items(): if not isinstance(size, int): continue if obj.startswith(subdir_prefix): subdir_sizes[first_comp(obj[len(subdir_prefix):])] += size else: subdir_sizes[''] += size print('Subdir sizes:', file=sys.stderr) for subdir, size in sorted(subdir_sizes.items(), key=lambda x: x[1]): print(f'{subdir:>20}: {size:>6,d} B', file=sys.stderr) def lookup_highlight(path): if args.highlight_subdirs: if obj.startswith(subdir_prefix): highlight_head = first_comp(path[len(subdir_prefix):]) return subdir_colors[highlight_head], highlight_head else: return '#e0e0e0', None else: return '#ddf7f4', None with wrap('digraph G', print) as lvl1print: print('size="23.4,16.5!";') print('graph [fontsize=40];') print('node [fontsize=40];') #print('ratio="fill";') print('rankdir=LR;') print('ranksep=5;') print('nodesep=0.2;') print() for i, (obj, obj_syms) in enumerate(clusters.items()): with wrap(f'subgraph cluster_{i}', lvl1print) as lvl2print: print('style = "filled";') highlight_color, highlight_head = lookup_highlight(obj) print(f'bgcolor = "{highlight_color}";') print('pencolor = none;') fc, cc = vhex(objs[obj]/max_osize) highlight_subdir_part = f'{highlight_head} / ' if highlight_head else '' lvl2print(f'label = <
' f'{highlight_subdir_part}' f'{path.basename(obj)} ({objs[obj]}B)' f'
>;') lvl2print() for sym, sec, size in obj_syms: has_size = isinstance(size, int) and size > 0 size_s = f' ({size}B)' if has_size else '' fc, cc = vhex(size/max_ssize) if has_size else ('#ffffff', '#000000') shape = 'box' if sec == '.text' else 'oval' lvl2print(f'{mangle(sym)}[label = "{sym}{size_s}", style="rounded,filled", shape="{shape}", fillcolor="{fc}", fontname="carlito", fontcolor="{cc}" color=none];') lvl1print() edges = set() for start, ends in refs.items(): for end in ends: end = aliases.get(end, end) if (start in syms or start in trace_sections_mangled) and end in syms: edges.add((start, end)) for start, end in edges: lvl1print(f'{mangle(start)} -> {mangle(end)} [style="bold", color="#333333"];') for sec in trace_sections: lvl1print(f'{sec.replace(".", "_")} [label = "section {sec}", shape="box", style="filled,bold"];')