#!/usr/bin/env python # Copyright (c) 2018 Mellanox Technologies, Ltd. All rights reserved. # Licensed under BSD (MIT variant) or GPLv2. See COPYING. """This tool is used to create installable versions of the static libraries in rdma-core. This is complicated because rdma-core was not designed with static libraries in mind and relies on the dynamic linker to hide a variety of internal details. The build uses several internal utility libraries across the providers and the libraries. When building statically these libraries have to become inlined into the various main libraries. This script figures out which static libraries should include which internal libraries and inlines them appropriately. rdma-core is not careful to use globally unique names throughout all the libraries and all the providers. Normally the map file in the dynamic linker will hide these external symbols. This script does something similar for static linking by analyzing the libraries and map files then renaming internal symbols with a globally unique prefix. This is far too complicated to handle internally with cmake, so we have cmake produce the nearly completed libraries, then process them here using bintuils, and finally produce the final installation ready libraries.""" import collections import subprocess import argparse import tempfile import itertools import sys import os import re SymVer = collections.namedtuple( "SymVer", ["version", "prior_version", "globals", "locals"]) try: from tempfile import TemporaryDirectory except ImportError: import shutil import tempfile # From /usr/lib/python3/dist-packages/setuptools/py31compat.py class TemporaryDirectory(object): def __init__(self): self.name = None self.name = tempfile.mkdtemp() def __enter__(self): return self.name def __exit__(self, exctype, excvalue, exctrace): try: shutil.rmtree(self.name, True) except OSError: pass self.name = None try: from subprocess import check_output except ImportError: # From /usr/lib/python2.7/subprocess.py def check_output(*popenargs, **kwargs): if 'stdout' in kwargs: raise ValueError( 'stdout argument not allowed, it will be overridden.') process = subprocess.Popen( stdout=subprocess.PIPE, *popenargs, **kwargs) output, unused_err = process.communicate() retcode = process.poll() if retcode: cmd = kwargs.get("args") if cmd is None: cmd = popenargs[0] raise CalledProcessError(retcode, cmd, output=output) return output subprocess.check_output = check_output def parse_stanza(version, prior_version, lines): gbl = [] local = [] cur = None cur = 0 for I in re.finditer( r"\s*(?:(global:)|(local:)(\s*\*\s*;)|(?:(\w+)\s*;))", lines, flags=re.DOTALL | re.MULTILINE): if I.group(1): # global lst = gbl if I.group(2): # local lst = local if I.group(3): # wildcard lst.append("*") assert (cur is not gbl) if I.group(4): # symbol name lst.append(I.group(4)) assert cur == I.start() cur = I.end() assert cur == len(lines) return SymVer(version or "", prior_version or "", gbl, local) def load_map(fn): """This is a lame regex based parser for GNU linker map files. It asserts if the map file is invalid. It returns a list of the global symbols""" with open(fn, "rt") as F: lines = F.read() p = re.compile(r"/\*.*?\*/", flags=re.DOTALL) lines = re.sub(p, "", lines) lines = lines.strip() # Extract each stanza res = [] cur = 0 for I in re.finditer( r"\s*(?:(\S+)\s+)?{(.*?)\s*}(\s*\S+)?\s*;", lines, flags=re.DOTALL | re.MULTILINE): assert cur == I.start() res.append(parse_stanza(I.group(1), I.group(3), I.group(2))) cur = I.end() assert cur == len(lines) return res class Lib(object): def __init__(self, libfn, tmpdir): self.libfn = os.path.basename(libfn) self.objdir = os.path.join(tmpdir, self.libfn) self.final_objdir = os.path.join(tmpdir, "r-" + self.libfn) self.final_lib = os.path.join(os.path.dirname(libfn), "..", self.libfn) self.needs = set() self.needed = set() os.makedirs(self.objdir) os.makedirs(self.final_objdir) subprocess.check_call([args.ar, "x", libfn], cwd=self.objdir) self.objects = [I for I in os.listdir(self.objdir)] self.get_syms() def get_syms(self): """Read the definedsymbols from each object file""" self.syms = set() self.needed_syms = set() for I in self.objects: I = os.path.join(self.objdir, I) syms = subprocess.check_output([args.nm, "--defined-only", I]) for ln in syms.decode().splitlines(): ln = ln.split() if ln[1].isupper(): self.syms.add(ln[2]) syms = subprocess.check_output([args.nm, "--undefined-only", I]) for ln in syms.decode().splitlines(): ln = ln.split() if ln[0].isupper(): if not ln[1].startswith("verbs_provider_"): self.needed_syms.add(ln[1]) def rename_syms(self, rename_fn): """Invoke objcopy on all the objects to rename their symbols""" for I in self.objects: subprocess.check_call([ args.objcopy, "--redefine-syms=%s" % (rename_fn), os.path.join(self.objdir, I), os.path.join(self.final_objdir, I) ]) def incorporate_internal(self, internal_libs): """If this library requires an internal library then we want to inline it into this lib when we reconstruct it.""" for lib in self.needs.intersection(internal_libs): self.objects.extend( os.path.join(lib.final_objdir, I) for I in lib.objects) def finalize(self): """Write out the now modified library""" try: os.unlink(self.final_lib) except OSError: pass subprocess.check_call( [args.ar, "qsc", self.final_lib] + [os.path.join(self.final_objdir, I) for I in self.objects]) def compute_graph(libs): """Look at the symbols each library provides vs the symbols each library needs and organize the libraries into a graph.""" for a, b in itertools.permutations(libs, 2): if not a.syms.isdisjoint(b.needed_syms): b.needs.add(a) a.needed.add(b) # Use transitivity to prune the needs list def prune(cur_lib, to_prune): for I in cur_lib.needed: I.needs.discard(to_prune) to_prune.needed.discard(I) prune(I, to_prune) for cur_lib in libs: for I in list(cur_lib.needed): prune(I, cur_lib) parser = argparse.ArgumentParser( description='Generate static libraries for distribution') parser.add_argument( "--map", dest="maps", action="append", help="List of map files defining all the public symbols", default=[]) parser.add_argument( "--lib", dest="libs", action="append", help="The input static libraries") parser.add_argument( "--internal_lib", dest="internal_libs", action="append", help= "The internal static libraries, these will be merged into other libraries") parser.add_argument( "--version", action="store", help="Package version number", required=True) parser.add_argument("--ar", action="store", help="ar tool", required=True) parser.add_argument("--nm", action="store", help="nm tool", required=True) parser.add_argument( "--objcopy", action="store", help="objcopy tool", required=True) args = parser.parse_args() global_syms = set() for fn in sorted(set(args.maps)): for I in load_map(fn): # Private symbols in libibverbs are also mangled for maximum safety. if "PRIVATE" not in I.version: global_syms.update(I.globals) with TemporaryDirectory() as tmpdir: libs = set(Lib(fn, tmpdir) for fn in args.libs) internal_libs = set(Lib(fn, tmpdir) for fn in args.internal_libs) all_libs = libs | internal_libs all_syms = set() for I in all_libs: all_syms.update(I.syms) compute_graph(all_libs) # To support the ibv_static_providers() machinery these are made global # too, even though they are not in map files. We only want to expose them # for the static linking case. global_syms.add("ibv_static_providers") for I in all_syms: if I.startswith("verbs_provider_"): global_syms.add(I) # Generate a redefine file for objcopy that will sanitize the internal names prefix = re.sub(r"\W", "_", args.version) redefine_fn = os.path.join(tmpdir, "redefine") with open(redefine_fn, "wt") as F: for I in sorted(all_syms - global_syms): F.write("%s rdmacore%s_%s\n" % (I, prefix, I)) for I in all_libs: I.rename_syms(redefine_fn) for I in libs: I.incorporate_internal(internal_libs) I.finalize()