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066ebbdf0e
In this bug the DWARF reader tries to get the parent of a DIE (referred-to by its offset) which is not defined in the debug info. The DIE is not defined, but it's referred-to by another DIE of the debug info. This definitely looks like a faulty DWARF. The DWARF reader aborts because, obviously, it cannot get the parent DIE of a DIE that is not defined. This patch changes the behaviour of the DWARF reader in this case. Rather than aborting, the DWARF reader just drops the DIE (which refers to a non-existing DIE) on the floor. It thus do not abort on such faulty DWARF anymore. * src/abg-dwarf-reader.cc (get_parent_die): If we couldn't find the parent of a given DIE, return false, do not abort. Also, assert that if we don't find the parent of a DIE in the main debug info, we don't find it in the alternate debug info either (and vice versa). This is because I'd like to abort on cases where we look for a DIE in the wrong debug info; those cases are likely to be hint that the DWARF reader is doing something wrong which ought to be investigated and fixed. (get_scope_for_die): If we couldn't get the parent of the DIE, then return a nil scope. * tests/data/test-types-stability/pr19204-libtcmalloc.so.4.2.6-xlc: New test binary input. * tests/data/Makefile.am: Add the new binary test input to the source distribution. * tests/test-types-stability.cc (elf_paths): Account for the new binary input. Signed-off-by: Dodji Seketeli <dodji@redhat.com>
163 lines
5.2 KiB
C++
163 lines
5.2 KiB
C++
// -*- Mode: C++ -*-
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//
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// Copyright (C) 2013-2016 Red Hat, Inc.
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//
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// This file is part of the GNU Application Binary Interface Generic
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// Analysis and Instrumentation Library (libabigail). This library is
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// free software; you can redistribute it and/or modify it under the
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// terms of the GNU Lesser General Public License as published by the
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// Free Software Foundation; either version 3, or (at your option) any
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// later version.
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// This library is distributed in the hope that it will be useful, but
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// WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// General Lesser Public License for more details.
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// You should have received a copy of the GNU Lesser General Public
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// License along with this program; see the file COPYING-LGPLV3. If
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// not, see <http://www.gnu.org/licenses/>.
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// Author: Dodji Seketeli
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/// @file
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///
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/// This program tests that the representation of types by the
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/// internal representation of libabigail is stable through reading
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/// from ELF/DWARF, constructing an internal represenation, saving that
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/// internal presentation to the abixml format, reading from that
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/// abixml format and constructing an internal representation from it
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/// again.
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///
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/// This program thus compares the internal representation that is
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/// built from reading from ELF/DWARF and the one that is built from
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/// the abixml (which itself results from the serialization of the
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/// first internal representation to abixml).
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///
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/// The comparison is expected to yield the empty set.
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#include <string>
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#include <fstream>
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#include <iostream>
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#include <cstdlib>
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#include "abg-tools-utils.h"
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#include "test-utils.h"
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#include "abg-dwarf-reader.h"
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#include "abg-comparison.h"
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#include "abg-workers.h"
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using std::string;
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using std::ofstream;
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using std::cerr;
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// A set of elf files to test type stability for.
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const char* elf_paths[] =
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{
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"data/test-types-stability/pr19434-elf0",
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"data/test-types-stability/pr19139-DomainNeighborMapInst.o",
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"data/test-types-stability/pr19202-libmpi_gpfs.so.5.0",
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"data/test-types-stability/pr19026-libvtkIOSQL-6.1.so.1",
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"data/test-types-stability/pr19138-elf0",
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"data/test-types-stability/pr19433-custom0",
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"data/test-types-stability/pr19141-get5d.o",
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"data/test-types-stability/pr19142-topo.o",
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"data/test-types-stability/pr19204-libtcmalloc.so.4.2.6-xlc",
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// The below should always be the last element of array.
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0
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};
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/// A task which launches abidw --abidiff on a binary
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/// passed to the constructor of the task.
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struct test_task : public abigail::workers::task
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{
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string path;
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string error_message;
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bool is_ok;
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/// The constructor of the test task.
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///
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/// @param elf_path the path to the elf binary on which we are
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/// supposed to launch abidw --abidiff.
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test_task(const string& elf_path)
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: path(elf_path),
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is_ok(true)
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{}
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/// This virtual function overload actually performs the job of the task.
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///
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/// It calls abidw --abidiff on the binary refered to by the task.
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/// It thus stores a flag saying if the result of abidw --abidiff is
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/// OK or not.
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virtual void
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perform()
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{
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using abigail::tests::get_src_dir;
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using abigail::tests::get_build_dir;
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string abidw = string(get_build_dir()) + "/tools/abidw";
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string elf_path = string(get_src_dir()) + "/tests/" + path;
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string cmd = abidw + " --abidiff " + elf_path;
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if (system(cmd.c_str()))
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{
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error_message = "IR stability issue detected for binary " + elf_path;
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is_ok = false;
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}
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}
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}; // end struct test_task
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/// A convenience typedef for a shared_ptr to @ref test_task.
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typedef shared_ptr<test_task> test_task_sptr;
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int
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main()
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{
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using std::vector;
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using std::tr1::dynamic_pointer_cast;
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using abigail::workers::queue;
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using abigail::workers::task;
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using abigail::workers::task_sptr;
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using abigail::workers::get_number_of_threads;
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/// Create a task queue. The max number of worker threads of the
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/// queue is the number of the concurrent threads supported by the
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/// processor of the machine this code runs on.
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const size_t num_tests = sizeof(elf_paths) / sizeof (char*) - 1;
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size_t num_workers = std::min(get_number_of_threads(), num_tests);
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queue task_queue(num_workers);
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/// Create one task per binary registered for this test, and push
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/// them to the task queue. Pushing a task to the queue triggers
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/// a worker thread that starts working on the task.
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for (const char** p = elf_paths; p && *p; ++p)
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{
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test_task_sptr t(new test_task(*p));
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assert(task_queue.schedule_task(t));
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}
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/// Wait for all worker threads to finish their job, and wind down.
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task_queue.wait_for_workers_to_complete();
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// Now walk the results and print whatever error messages need to be
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// printed.
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const vector<task_sptr>& completed_tasks =
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task_queue.get_completed_tasks();
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assert(completed_tasks.size () == num_tests);
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bool is_ok = true;
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for (vector<task_sptr>::const_iterator ti = completed_tasks.begin();
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ti != completed_tasks.end();
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++ti)
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{
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test_task_sptr t = dynamic_pointer_cast<test_task>(*ti);
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if (!t->is_ok)
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{
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is_ok = false;
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cerr << t->error_message << "\n";
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}
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}
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return !is_ok;
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}
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