mirror of
https://github.com/RPCS3/llvm-mirror.git
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227 lines
7.2 KiB
Python
227 lines
7.2 KiB
Python
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# Given a path to llvm-objdump and a directory tree, spider the directory tree
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# dumping every object file encountered with correct options needed to demangle
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# symbols in the object file, and collect statistics about failed / crashed
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# demanglings. Useful for stress testing the demangler against a large corpus
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# of inputs.
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import argparse
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import functools
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import os
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import re
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import sys
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import subprocess
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import traceback
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from multiprocessing import Pool
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import multiprocessing
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args = None
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def parse_line(line):
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question = line.find('?')
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if question == -1:
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return None, None
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open_paren = line.find('(', question)
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if open_paren == -1:
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return None, None
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close_paren = line.rfind(')', open_paren)
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if open_paren == -1:
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return None, None
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mangled = line[question : open_paren]
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demangled = line[open_paren+1 : close_paren]
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return mangled.strip(), demangled.strip()
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class Result(object):
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def __init__(self):
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self.crashed = []
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self.file = None
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self.nsymbols = 0
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self.errors = set()
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self.nfiles = 0
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class MapContext(object):
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def __init__(self):
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self.rincomplete = None
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self.rcumulative = Result()
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self.pending_objs = []
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self.npending = 0
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def process_file(path, objdump):
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r = Result()
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r.file = path
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popen_args = [objdump, '-t', '-demangle', path]
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p = subprocess.Popen(popen_args, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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stdout, stderr = p.communicate()
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if p.returncode != 0:
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r.crashed = [r.file]
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return r
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output = stdout.decode('utf-8')
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for line in output.splitlines():
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mangled, demangled = parse_line(line)
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if mangled is None:
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continue
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r.nsymbols += 1
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if "invalid mangled name" in demangled:
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r.errors.add(mangled)
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return r
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def add_results(r1, r2):
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r1.crashed.extend(r2.crashed)
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r1.errors.update(r2.errors)
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r1.nsymbols += r2.nsymbols
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r1.nfiles += r2.nfiles
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def print_result_row(directory, result):
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print("[{0} files, {1} crashes, {2} errors, {3} symbols]: '{4}'".format(
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result.nfiles, len(result.crashed), len(result.errors), result.nsymbols, directory))
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def process_one_chunk(pool, chunk_size, objdump, context):
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objs = []
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incomplete = False
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dir_results = {}
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ordered_dirs = []
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while context.npending > 0 and len(objs) < chunk_size:
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this_dir = context.pending_objs[0][0]
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ordered_dirs.append(this_dir)
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re = Result()
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if context.rincomplete is not None:
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re = context.rincomplete
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context.rincomplete = None
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dir_results[this_dir] = re
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re.file = this_dir
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nneeded = chunk_size - len(objs)
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objs_this_dir = context.pending_objs[0][1]
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navail = len(objs_this_dir)
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ntaken = min(nneeded, navail)
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objs.extend(objs_this_dir[0:ntaken])
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remaining_objs_this_dir = objs_this_dir[ntaken:]
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context.pending_objs[0] = (context.pending_objs[0][0], remaining_objs_this_dir)
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context.npending -= ntaken
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if ntaken == navail:
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context.pending_objs.pop(0)
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else:
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incomplete = True
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re.nfiles += ntaken
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assert(len(objs) == chunk_size or context.npending == 0)
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copier = functools.partial(process_file, objdump=objdump)
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mapped_results = list(pool.map(copier, objs))
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for mr in mapped_results:
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result_dir = os.path.dirname(mr.file)
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result_entry = dir_results[result_dir]
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add_results(result_entry, mr)
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# It's only possible that a single item is incomplete, and it has to be the
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# last item.
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if incomplete:
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context.rincomplete = dir_results[ordered_dirs[-1]]
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ordered_dirs.pop()
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# Now ordered_dirs contains a list of all directories which *did* complete.
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for c in ordered_dirs:
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re = dir_results[c]
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add_results(context.rcumulative, re)
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print_result_row(c, re)
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def process_pending_files(pool, chunk_size, objdump, context):
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while context.npending >= chunk_size:
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process_one_chunk(pool, chunk_size, objdump, context)
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def go():
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global args
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obj_dir = args.dir
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extensions = args.extensions.split(',')
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extensions = [x if x[0] == '.' else '.' + x for x in extensions]
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pool_size = 48
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pool = Pool(processes=pool_size)
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try:
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nfiles = 0
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context = MapContext()
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for root, dirs, files in os.walk(obj_dir):
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root = os.path.normpath(root)
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pending = []
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for f in files:
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file, ext = os.path.splitext(f)
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if not ext in extensions:
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continue
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nfiles += 1
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full_path = os.path.join(root, f)
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full_path = os.path.normpath(full_path)
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pending.append(full_path)
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# If this directory had no object files, just print a default
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# status line and continue with the next dir
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if len(pending) == 0:
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print_result_row(root, Result())
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continue
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context.npending += len(pending)
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context.pending_objs.append((root, pending))
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# Drain the tasks, `pool_size` at a time, until we have less than
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# `pool_size` tasks remaining.
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process_pending_files(pool, pool_size, args.objdump, context)
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assert(context.npending < pool_size);
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process_one_chunk(pool, pool_size, args.objdump, context)
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total = context.rcumulative
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nfailed = len(total.errors)
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nsuccess = total.nsymbols - nfailed
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ncrashed = len(total.crashed)
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if (nfailed > 0):
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print("Failures:")
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for m in sorted(total.errors):
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print(" " + m)
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if (ncrashed > 0):
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print("Crashes:")
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for f in sorted(total.crashed):
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print(" " + f)
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print("Summary:")
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spct = float(nsuccess)/float(total.nsymbols)
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fpct = float(nfailed)/float(total.nsymbols)
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cpct = float(ncrashed)/float(nfiles)
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print("Processed {0} object files.".format(nfiles))
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print("{0}/{1} symbols successfully demangled ({2:.4%})".format(nsuccess, total.nsymbols, spct))
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print("{0} symbols could not be demangled ({1:.4%})".format(nfailed, fpct))
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print("{0} files crashed while demangling ({1:.4%})".format(ncrashed, cpct))
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except:
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traceback.print_exc()
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pool.close()
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pool.join()
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if __name__ == "__main__":
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def_obj = 'obj' if sys.platform == 'win32' else 'o'
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parser = argparse.ArgumentParser(description='Demangle all symbols in a tree of object files, looking for failures.')
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parser.add_argument('dir', type=str, help='the root directory at which to start crawling')
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parser.add_argument('--objdump', type=str, help='path to llvm-objdump. If not specified ' +
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'the tool is located as if by `which llvm-objdump`.')
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parser.add_argument('--extensions', type=str, default=def_obj,
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help='comma separated list of extensions to demangle (e.g. `o,obj`). ' +
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'By default this will be `obj` on Windows and `o` otherwise.')
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args = parser.parse_args()
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multiprocessing.freeze_support()
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go()
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