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Diffstat (limited to 'driver_fw/tools/linkmem.py')
-rw-r--r-- | driver_fw/tools/linkmem.py | 276 |
1 files changed, 276 insertions, 0 deletions
diff --git a/driver_fw/tools/linkmem.py b/driver_fw/tools/linkmem.py new file mode 100644 index 0000000..934a571 --- /dev/null +++ b/driver_fw/tools/linkmem.py @@ -0,0 +1,276 @@ + +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['<others>'] += 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'<font face="carlito" color="{cc}" point-size="40">{highlight_head} / </font>' if highlight_head else '' + lvl2print(f'label = <<table border="0"><tr><td border="0" cellpadding="5" bgcolor="{fc}">' + f'{highlight_subdir_part}' + f'<font face="carlito" color="{cc}"><b>{path.basename(obj)} ({objs[obj]}B)</b></font>' + f'</td></tr></table>>;') + 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"];') + |