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jeremybenn |
/* Mudflap: narrow-pointer bounds-checking by tree rewriting.
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Copyright (C) 2002, 2003, 2004, 2005, 2009, 2011
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Free Software Foundation, Inc.
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Contributed by Frank Ch. Eigler <fche@redhat.com>
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and Graydon Hoare <graydon@redhat.com>
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 3, or (at your option) any later
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version.
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GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>. */
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#include "config.h"
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#ifndef HAVE_SOCKLEN_T
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#define socklen_t int
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#endif
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/* These attempt to coax various unix flavours to declare all our
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needed tidbits in the system headers. */
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#if !defined(__FreeBSD__) && !defined(__APPLE__)
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#define _POSIX_SOURCE
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#endif /* Some BSDs break <sys/socket.h> if this is defined. */
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#define _GNU_SOURCE
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#define _XOPEN_SOURCE
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#define _BSD_TYPES
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#define __EXTENSIONS__
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#define _ALL_SOURCE
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#define _LARGE_FILE_API
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#define _XOPEN_SOURCE_EXTENDED 1
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#define _REENTRANT
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#include <string.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <unistd.h>
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#include <assert.h>
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#include <errno.h>
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#include <stdbool.h>
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#include "mf-runtime.h"
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#include "mf-impl.h"
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#ifdef _MUDFLAP
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#error "Do not compile this file with -fmudflap!"
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#endif
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#ifndef LIBMUDFLAPTH
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#error "pthreadstuff is to be included only in libmudflapth"
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#endif
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/* ??? Why isn't this done once in the header files. */
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DECLARE(void *, malloc, size_t sz);
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DECLARE(void, free, void *ptr);
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DECLARE(int, pthread_create, pthread_t *thr, const pthread_attr_t *attr,
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void * (*start) (void *), void *arg);
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/* Multithreading support hooks. */
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#if !defined(HAVE_TLS) || defined(USE_EMUTLS)
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/* We don't have TLS. Ordinarily we could use pthread keys, but since we're
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commandeering malloc/free that presents a few problems. The first is that
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we'll recurse from __mf_get_state to pthread_setspecific to malloc back to
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__mf_get_state during thread startup. This can be solved with clever uses
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of a mutex. The second problem is that thread shutdown is indistinguishable
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from thread startup, since libpthread is deallocating our state variable.
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I've no good solution for this.
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Which leaves us to handle this mess by totally by hand. */
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/* Yes, we want this prime. If pthread_t is a pointer, it's almost always
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page aligned, and if we use a smaller power of 2, this results in "%N"
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being the worst possible hash -- all threads hash to zero. */
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#define LIBMUDFLAPTH_THREADS_MAX 1021
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struct mf_thread_data
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{
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pthread_t self;
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unsigned char used_p;
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unsigned char state;
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};
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static struct mf_thread_data mf_thread_data[LIBMUDFLAPTH_THREADS_MAX];
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static pthread_mutex_t mf_thread_data_lock = PTHREAD_MUTEX_INITIALIZER;
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#define PTHREAD_HASH(p) ((unsigned long) (p) % LIBMUDFLAPTH_THREADS_MAX)
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static struct mf_thread_data *
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__mf_find_threadinfo (int alloc)
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{
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pthread_t self = pthread_self ();
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unsigned long hash = PTHREAD_HASH (self);
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unsigned long rehash;
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#ifdef __alpha__
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/* Alpha has the loosest memory ordering rules of all. We need a memory
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barrier to flush the reorder buffer before considering a *read* of a
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shared variable. Since we're not always taking a lock, we have to do
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this by hand. */
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__sync_synchronize ();
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#endif
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rehash = hash;
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while (1)
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{
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if (mf_thread_data[rehash].used_p && mf_thread_data[rehash].self == self)
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return &mf_thread_data[rehash];
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rehash += 7;
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if (rehash >= LIBMUDFLAPTH_THREADS_MAX)
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rehash -= LIBMUDFLAPTH_THREADS_MAX;
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if (rehash == hash)
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break;
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}
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if (alloc)
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{
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pthread_mutex_lock (&mf_thread_data_lock);
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rehash = hash;
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while (1)
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{
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if (!mf_thread_data[rehash].used_p)
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{
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mf_thread_data[rehash].self = self;
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__sync_synchronize ();
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mf_thread_data[rehash].used_p = 1;
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pthread_mutex_unlock (&mf_thread_data_lock);
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return &mf_thread_data[rehash];
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}
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rehash += 7;
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if (rehash >= LIBMUDFLAPTH_THREADS_MAX)
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rehash -= LIBMUDFLAPTH_THREADS_MAX;
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if (rehash == hash)
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break;
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}
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pthread_mutex_unlock (&mf_thread_data_lock);
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}
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return NULL;
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}
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enum __mf_state_enum
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__mf_get_state (void)
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{
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struct mf_thread_data *data = __mf_find_threadinfo (0);
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if (data)
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return data->state;
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/* If we've never seen this thread before, consider it to be in the
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reentrant state. The state gets reset to active for the main thread
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in __mf_init, and for child threads in __mf_pthread_spawner.
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The trickiest bit here is that the LinuxThreads pthread_manager thread
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should *always* be considered to be reentrant, so that none of our
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hooks actually do anything. Why? Because that thread isn't a real
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thread from the point of view of the thread library, and so lots of
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stuff isn't initialized, leading to SEGV very quickly. Even calling
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pthread_self is a bit suspect, but it happens to work. */
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return reentrant;
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}
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void
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__mf_set_state (enum __mf_state_enum new_state)
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{
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struct mf_thread_data *data = __mf_find_threadinfo (1);
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data->state = new_state;
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}
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#endif
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/* The following two functions are used only with __mf_opts.heur_std_data.
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We're interested in recording the location of the thread-local errno
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variable.
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Note that this doesn't handle TLS references in general; we have no
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visibility into __tls_get_data for when that memory is allocated at
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runtime. Hopefully we get to see the malloc or mmap operation that
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eventually allocates the backing store. */
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/* Describe the startup information for a new user thread. */
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struct mf_thread_start_info
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{
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/* The user's thread entry point and argument. */
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void * (*user_fn)(void *);
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void *user_arg;
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};
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static void
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__mf_pthread_cleanup (void *arg)
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{
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if (__mf_opts.heur_std_data)
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__mf_unregister (&errno, sizeof (errno), __MF_TYPE_GUESS);
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#if !defined(HAVE_TLS) || defined(USE_EMUTLS)
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struct mf_thread_data *data = __mf_find_threadinfo (0);
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if (data)
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data->used_p = 0;
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#endif
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}
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static void *
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__mf_pthread_spawner (void *arg)
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{
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void *result = NULL;
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__mf_set_state (active);
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/* NB: We could use __MF_TYPE_STATIC here, but we guess that the thread
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errno is coming out of some dynamically allocated pool that we already
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know of as __MF_TYPE_HEAP. */
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if (__mf_opts.heur_std_data)
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__mf_register (&errno, sizeof (errno), __MF_TYPE_GUESS,
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"errno area (thread)");
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/* We considered using pthread_key_t objects instead of these
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cleanup stacks, but they were less cooperative with the
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interposed malloc hooks in libmudflap. */
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/* ??? The pthread_key_t problem is solved above... */
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pthread_cleanup_push (__mf_pthread_cleanup, NULL);
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/* Extract given entry point and argument. */
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struct mf_thread_start_info *psi = arg;
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void * (*user_fn)(void *) = psi->user_fn;
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void *user_arg = psi->user_arg;
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CALL_REAL (free, arg);
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result = (*user_fn)(user_arg);
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pthread_cleanup_pop (1 /* execute */);
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return result;
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}
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#if PIC
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/* A special bootstrap variant. */
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int
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__mf_0fn_pthread_create (pthread_t *thr, const pthread_attr_t *attr,
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void * (*start) (void *), void *arg)
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{
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return -1;
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}
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#endif
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#undef pthread_create
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WRAPPER(int, pthread_create, pthread_t *thr, const pthread_attr_t *attr,
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void * (*start) (void *), void *arg)
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{
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struct mf_thread_start_info *si;
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TRACE ("pthread_create\n");
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/* Fill in startup-control fields. */
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si = CALL_REAL (malloc, sizeof (*si));
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si->user_fn = start;
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si->user_arg = arg;
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/* Actually create the thread. */
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return CALL_REAL (pthread_create, thr, attr, __mf_pthread_spawner, si);
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}
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